ADGRL3 cDNA ORF clone, Homo sapiens(human)

The following ADGRL3 gene cDNA ORF clone sequences were retrieved from the NCBI Reference Sequence Database (RefSeq). These sequences represent the protein coding region of the ADGRL3 cDNA ORF which is encoded by the open reading frame (ORF) sequence. ORF sequences can be delivered in our standard vector, pcDNA3.1+/C-(K)DYK or the vector of your choice as an expression/transfection-ready ORF clone. Not the clone you want? Click here to find your clone.

***CloneID Accession No. Definition **Vector *Turnaround time Price (USD) Select
OHu65885 NM_001322402.2
Latest version!
Homo sapiens adhesion G protein-coupled receptor L3 (ADGRL3), transcript variant 1, mRNA. pcDNA3.1-C-(k)DYK or customized vector
in pcDNA3.1-C-(k)DYK
$579.50-$811.30
$1159.00
OHu65885 XM_017007932.1
Latest version!
Homo sapiens adhesion G protein-coupled receptor L3 (ADGRL3), transcript variant X5, mRNA. pcDNA3.1-C-(k)DYK or customized vector
in pcDNA3.1-C-(k)DYK
$579.50-$811.30
$1159.00
OHu100291 NM_001322246.2
Latest version!
Homo sapiens adhesion G protein-coupled receptor L3 (ADGRL3), transcript variant 3, mRNA. pcDNA3.1-C-(k)DYK or customized vector 19-21 $643.30
$919.00
OHu108803 NM_001371346.1
Latest version!
Homo sapiens adhesion G protein-coupled receptor L3 (ADGRL3), transcript variant 8, mRNA. pcDNA3.1-C-(k)DYK or customized vector 19-21 $727.30
$1039.00
OHu95008 NM_001371342.1
Latest version!
Homo sapiens adhesion G protein-coupled receptor L3 (ADGRL3), transcript variant 4, mRNA. pcDNA3.1-C-(k)DYK or customized vector 19-21 $727.30
$1039.00
OHu95008 XM_017007939.1
Latest version!
Homo sapiens adhesion G protein-coupled receptor L3 (ADGRL3), transcript variant X13, mRNA. pcDNA3.1-C-(k)DYK or customized vector 19-21 $727.30
$1039.00
OHu95009 XM_017007941.1
Latest version!
Homo sapiens adhesion G protein-coupled receptor L3 (ADGRL3), transcript variant X15, mRNA. pcDNA3.1-C-(k)DYK or customized vector 19-21 $643.30
$919.00
OHu95010 XM_017007942.1
Latest version!
Homo sapiens adhesion G protein-coupled receptor L3 (ADGRL3), transcript variant X16, mRNA. pcDNA3.1-C-(k)DYK or customized vector 19-21 $643.30
$919.00
OHu65888 XM_017007940.1
Latest version!
Homo sapiens adhesion G protein-coupled receptor L3 (ADGRL3), transcript variant X14, mRNA. pcDNA3.1-C-(k)DYK or customized vector 20 $643.30
$919.00
OHu65886 NM_001371344.1
Latest version!
Homo sapiens adhesion G protein-coupled receptor L3 (ADGRL3), transcript variant 6, mRNA. pcDNA3.1-C-(k)DYK or customized vector 24-26 $811.30
$1159.00
OHu65887 NM_001371345.1
Latest version!
Homo sapiens adhesion G protein-coupled receptor L3 (ADGRL3), transcript variant 7, mRNA. pcDNA3.1-C-(k)DYK or customized vector 24-26 $811.30
$1159.00
OHu95007 NM_001371343.1
Latest version!
Homo sapiens adhesion G protein-coupled receptor L3 (ADGRL3), transcript variant 5, mRNA. pcDNA3.1-C-(k)DYK or customized vector 24-26 $811.30
$1159.00
OHu95001 XM_017007929.1
Latest version!
Homo sapiens adhesion G protein-coupled receptor L3 (ADGRL3), transcript variant X1, mRNA. pcDNA3.1-C-(k)DYK or customized vector 24-26 $811.30
$1159.00
OHu95001 XM_017007930.1
Latest version!
Homo sapiens adhesion G protein-coupled receptor L3 (ADGRL3), transcript variant X2, mRNA. pcDNA3.1-C-(k)DYK or customized vector 24-26 $811.30
$1159.00
OHu95002 XM_017007931.1
Latest version!
Homo sapiens adhesion G protein-coupled receptor L3 (ADGRL3), transcript variant X3, mRNA. pcDNA3.1-C-(k)DYK or customized vector 24-26 $811.30
$1159.00
OHu95003 XM_017007933.1
Latest version!
Homo sapiens adhesion G protein-coupled receptor L3 (ADGRL3), transcript variant X6, mRNA. pcDNA3.1-C-(k)DYK or customized vector 24-26 $811.30
$1159.00
OHu95004 XM_017007934.1
Latest version!
Homo sapiens adhesion G protein-coupled receptor L3 (ADGRL3), transcript variant X7, mRNA. pcDNA3.1-C-(k)DYK or customized vector 24-26 $811.30
$1159.00
OHu95005 XM_017007936.1
Latest version!
Homo sapiens adhesion G protein-coupled receptor L3 (ADGRL3), transcript variant X9, mRNA. pcDNA3.1-C-(k)DYK or customized vector 24-26 $811.30
$1159.00
OHu95006 XM_017007937.1
Latest version!
Homo sapiens adhesion G protein-coupled receptor L3 (ADGRL3), transcript variant X10, mRNA. pcDNA3.1-C-(k)DYK or customized vector 24-26 $811.30
$1159.00
OHu95007 XM_017007938.1
Latest version!
Homo sapiens adhesion G protein-coupled receptor L3 (ADGRL3), transcript variant X12, mRNA. pcDNA3.1-C-(k)DYK or customized vector 24-26 $811.30
$1159.00
OHu19603 NM_015236.6
Latest version!
Homo sapiens adhesion G protein-coupled receptor L3 (ADGRL3), transcript variant 2, mRNA. pcDNA3.1-C-(k)DYK or customized vector 25 $727.30
$1039.00
OHu19603 XM_011531792.1
Latest version!
Homo sapiens adhesion G protein-coupled receptor L3 (ADGRL3), transcript variant X9, mRNA. pcDNA3.1-C-(k)DYK or customized vector 25 $727.30
$1039.00
OHu65884 XM_011531788.2
Latest version!
Homo sapiens adhesion G protein-coupled receptor L3 (ADGRL3), transcript variant X4, mRNA. pcDNA3.1-C-(k)DYK or customized vector 25 $811.30
$1159.00
OHu65886 XM_017007935.1
Latest version!
Homo sapiens adhesion G protein-coupled receptor L3 (ADGRL3), transcript variant X8, mRNA. pcDNA3.1-C-(k)DYK or customized vector 25 $811.30
$1159.00
OHu65887 XM_011531791.2
Latest version!
Homo sapiens adhesion G protein-coupled receptor L3 (ADGRL3), transcript variant X11, mRNA. pcDNA3.1-C-(k)DYK or customized vector 25 $811.30
$1159.00
View Old Accession Versions >>
OHu19603 NM_015236.4 Homo sapiens adhesion G protein-coupled receptor L3 (ADGRL3), mRNA. pcDNA3.1-C-(k)DYK or customized vector 25 $727.30
$1039.00
OHu100291 NM_001322246.1 Homo sapiens adhesion G protein-coupled receptor L3 (ADGRL3), transcript variant 3, mRNA. pcDNA3.1-C-(k)DYK or customized vector 19-21 $643.30
$919.00
OHu65885 NM_001322402.1 Homo sapiens adhesion G protein-coupled receptor L3 (ADGRL3), transcript variant 1, mRNA. pcDNA3.1-C-(k)DYK or customized vector 25 $811.30
$1159.00
OHu19603 NM_015236.5 Homo sapiens adhesion G protein-coupled receptor L3 (ADGRL3), transcript variant 2, mRNA. pcDNA3.1-C-(k)DYK or customized vector 25 $727.30
$1039.00
Hide Old Accession Versions >>

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** You may select a custom vector to replace pcDNA3.1+/C-(K)DYK after clone is added to cart.

** GenScript guarantees 100% sequence accuracy of all synthetic DNA constructs we deliver, but we do not guarantee protein expression in your experimental system. Protein expression is influenced by many factors that may vary between experiments or laboratories. In addition, please pay attention to the signal peptide, propeptide and transit peptide in target ORF, which may affect the choice of vector (N/C terminal tag vector).

***One clone ID might be correlated to multiple accession numbers, which share the same CDS sequence.

  • Reference Sequences (Refseq)
    CloneID OHu65885
    Clone ID Related Accession (Same CDS sequence) NM_001322402.2 , NM_001322402.1 , XM_017007932.1
    Accession Version NM_001322402.2 Latest version! Documents for ORF clone product in default vector
    Sequence Information ORF Nucleotide Sequence (Length: 4614bp)
    Protein sequence
    SNP
    Vector pcDNA3.1-C-(k)DYK or customized vector User Manual
    Clone information Clone Map MSDS
    Tag on pcDNA3.1+/C-(K)DYK C terminal DYKDDDDK tags
    ORF Insert Method CloneEZ™ Seamless cloning technology
    Insert Structure linear
    Update Date 2020-01-03
    Organism Homo sapiens(human)
    Product adhesion G protein-coupled receptor L3 isoform 1 precursor
    Comment Comment: REVIEWED REFSEQ: This record has been curated by NCBI staff. The reference sequence was derived from AC092643.2, AK309793.1, AF307080.1, DA808156.1, AK294689.1, AC007511.8 and BF511741.1. On Jun 2, 2019 this sequence version replaced NM_001322402.1. Transcript Variant: This variant (1) represents the longest transcript and encodes the longest isoform (1). Sequence Note: This RefSeq record was created from transcript and genomic sequence data to make the sequence consistent with the reference genome assembly. The genomic coordinates used for the transcript record were based on transcript alignments. Publication Note: This RefSeq record includes a subset of the publications that are available for this gene. Please see the Gene record to access additional publications. ##Evidence-Data-START## RNAseq introns :: single sample supports all introns SAMEA2145743, SAMEA2148093 [ECO:0000348] ##Evidence-Data-END## ##RefSeq-Attributes-START## RefSeq Select criteria :: based on conservation, expression ##RefSeq-Attributes-END## COMPLETENESS: complete on the 3' end.

    1
    61
    121
    181
    241
    301
    361
    421
    481
    541
    601
    661
    721
    781
    841
    901
    961
    1021
    1081
    1141
    1201
    1261
    1321
    1381
    1441
    1501
    1561
    1621
    1681
    1741
    1801
    1861
    1921
    1981
    2041
    2101
    2161
    2221
    2281
    2341
    2401
    2461
    2521
    2581
    2641
    2701
    2761
    2821
    2881
    2941
    3001
    3061
    3121
    3181
    3241
    3301
    3361
    3421
    3481
    3541
    3601
    3661
    3721
    3781
    3841
    3901
    3961
    4021
    4081
    4141
    4201
    4261
    4321
    4381
    4441
    4501
    4561
    ATGTGGCCAT CGCAGCTACT AATTTTCATG ATGCTCTTAG CTCCAATAAT TCATGGTGGC 
    AAGCACAGTG AACGACATCC TGCCCTTGCT GCTCCATTGC GACACGCTGA GCGCAGCCCA
    GGAGGCGCTC TTCCACCCAG ACATCTGCTT CAGCAGCCAG CTGCAGAGCG CACCGCTGCT
    CATCGTGGAC AAGGGCCCCG TGGAGCTACC AGAGGAGTTC GCGGTCCAGG TGCCCAAGGA
    GCACAGATTG CAGCGCAAGC TTTCAGCCGT GCCCCAATTC CAATGGCTGT GGTCCGCAGA
    GAGCTATCCT GTGAGAGCTA TCCTATAGAG CTTCGCTGTC CAGGAACAGA CGTCATCATG
    ATAGAAAGTG CCAACTATGG CAGGACTGAT GACAAAATTT GTGACTCTGA CCCTGCTCAG
    ATGGAGAATA TCCGATGTTA TCTGCCAGAT GCCTATAAGA TTATGTCTCA AAGATGCAAT
    AACAGAACCC AGTGTGCAGT GGTGGCAGGT CCTGATGTTT TTCCAGACCC GTGTCCAGGA
    ACCTATAAAT ACCTTGAAGT GCAGTATGAA TGTGTCCCTT ACAAAGTGGA ACAAAAAGTT
    TTTCTTTGTC CTGGACTACT AAAAGGAGTA TACCAGAGTG AACATTTGTT TGAGTCCGAC
    CACCAATCTG GGGCGTGGTG CAAAGACCCT CTGCAGGCAT CTGACAAGAT TTATTATATG
    CCCTGGACTC CCTACAGAAC TGATACCCTG ACTGAGTATT CATCCAAGGA TGACTTCATT
    GCTGGAAGAC CAACTACAAC CTACAAGCTC CCTCACAGGG TGGATGGCAC AGGATTTGTA
    GTGTATGATG GAGCTTTGTT CTTCAACAAA GAGCGCACCA GGAACATAGT AAAGTTTGAT
    TTGCGGACTA GGATAAAGAG TGGAGAGGCT ATCATAGCAA ATGCCAATTA CCATGATACC
    TCCCCTTACC GATGGGGAGG CAAATCTGAC ATAGACCTGG CAGTAGATGA GAATGGGCTA
    TGGGTAATCT ATGCAACAGA ACAAAACAAT GGTAAAATTG TCATTAGTCA ATTGAACCCT
    TACACCCTAC GGATCGAAGG AACATGGGAT ACTGCATATG ATAAAAGGTC AGCTTCCAAT
    GCCTTTATGA TTTGTGGAAT TCTGTATGTG GTCAAATCTG TATATGAGGA TGATGACAAT
    GAGGCTACTG GAAATAAGAT TGACTACATT TACAACACTG ACCAAAGCAA GGATAGTTTG
    GTGGATGTAC CCTTTCCTAA TTCATACCAG TACATTGCAG CTGTGGATTA CAACCCCAGG
    GACAACCTAC TTTATGTATG GAATAACTAT CACGTCGTGA AATATTCTTT GGATTTTGGA
    CCTCTGGATA GTAGATCAGG GCAGGCACAT CATGGACAAG TTTCATACAT TTCTCCGCCA
    ATTCACCTTG ACTCTGAGCT AGAAAGACCC TCTGTTAAAG ATATCTCTAC CACAGGACCT
    CTTGGCATGG GAAGCACTAC CACCAGTACC ACCCTTCGGA CCACAACTTT GAGCCCAGGA
    AGGAGTACCA CCCCGTCAGT GTCAGGAAGA AGAAACCGGA GTACTAGTAC CCCATCTCCA
    GCTGTCGAGG TACTTGATGA CATGACCACA CACCTTCCAT CAGCATCGTC CCAAATCCCA
    GCTCTCGAAG AGAGCTGTGA GGCTGTGGAA GCCCGAGAAA TCATGTGGTT TAAGACTCGT
    CAAGGACAGA TAGCAAAGCA GCCATGCCCT GCAGGAACTA TAGGTGTATC AACTTATCTA
    TGCCTTGCTC CTGATGGAAT TTGGGATCCC CAAGGTCCAG ATCTCAGCAA CTGTTCTTCT
    CCTTGGGTCA ATCATATAAC ACAGAAGTTG AAATCTGGTG AAACAGCTGC CAACATTGCT
    AGAGAGCTGG CTGAACAGAC AAGAAATCAC TTGAATGCTG GGGACATCAC CTACTCTGTC
    CGGGCCATGG ACCAGCTGGT AGGCCTCCTA GATGTACAGC TTCGGAACTT GACCCCAGGT
    GGAAAAGATA GTGCTGCCCG GAGTTTGAAC AAGCTTCAGA AAAGAGAGCG CTCTTGCAGA
    GCCTATGTCC AGGCAATGGT CGAGACAGTT AACAACCTCC TTCAGCCACA AGCTTTGAAT
    GCATGGAGAG ACCTGACTAC GAGTGATCAG CTGCGTGCGG CCACCATGTT GCTTCATACT
    GTGGAGGAAA GTGCTTTTGT GCTGGCTGAT AACCTTTTGA AGACTGACAT TGTCAGGGAG
    AATACAGACA ATATTAAATT GGAAGTTGCA AGACTGAGCA CAGAAGGAAA CTTAGAAGAC
    CTAAAATTTC CAGAAAACAT GGGCCATGGA AGCACTATCC AGCTGTCTGC AAATACCTTA
    AAGCAAAATG GCCGAAATGG AGAGATCAGA GTGGCCTTTG TCCTGTATAA CAACTTGGGT
    CCTTATTTAT CCACGGAGAA TGCCAGTATG AAGTTGGGAA CGGAAGCTTT GTCCACAAAT
    CATTCTGTTA TTGTCAATTC CCCTGTTATT ACGGCAGCAA TAAACAAAGA GTTCAGTAAC
    AAGGTTTATT TGGCTGATCC TGTGGTATTT ACTGTTAAAC ATATCAAGCA GTCAGAGGAA
    AATTTCAACC CTAACTGTTC ATTTTGGAGC TACTCCAAGC GTACAATGAC AGGTTATTGG
    TCAACACAAG GCTGTCGGCT CCTGACAACA AATAAGACAC ATACTACATG CTCTTGTAAC
    CACCTAACAA ATTTTGCAGT ACTGATGGCA CATGTGGAAG TTAAGCACAG TGATGCGGTC
    CATGACCTCC TTCTGGATGT GATCACGTGG GTTGGAATTT TGCTGTCCCT TGTTTGTCTC
    CTGATTTGCA TCTTCACATT TTGCTTTTTC CGGGGGCTCC AGAGTGACCG TAACACCATC
    CACAAGAACC TCTGCATCAG TCTCTTTGTA GCAGAGCTGC TCTTCCTGAT TGGGATCAAC
    CGAACTGACC AACCAATTGC CTGTGCTGTT TTCGCTGCCC TGTTACATTT CTTCTTCTTG
    GCTGCCTTCA CCTGGATGTT CCTGGAGGGG GTGCAGCTTT ATATCATGCT GGTGGAGGTT
    TTTGAGAGTG AACATTCACG TAGGAAATAC TTTTATCTGG TCGGCTATGG GATGCCTGCA
    CTCATTGTGG CTGTGTCAGC TGCAGTAGAC TACAGGAGTT ATGGAACAGA TAAAGTATGT
    TGGCTCCGAC TTGACACCTA CTTCATTTGG AGTTTTATAG GACCAGCAAC TTTGATAATT
    ATGCTTAATG TAATCTTCCT TGGGATTGCT TTATATAAAA TGTTTCATCA TACTGCTATA
    CTGAAACCTG AATCAGGCTG TCTTGATAAC ATCAACTATG AGGATAACAG ACCCTTCATC
    AAGTCATGGG TTATAGGTGC AATAGCTCTT CTCTGCCTAT TAGGATTGAC CTGGGCCTTT
    GGACTCATGT ATATTAATGA AAGCACAGTC ATCATGGCCT ATCTCTTCAC CATTTTCAAT
    TCTCTACAGG GAATGTTTAT ATTTATTTTC CATTGTGTCC TACAGAAGAA GGTACGAAAA
    GAGTATGGGA AATGCCTGCG AACACATTGC TGTAGTGGCA AAAGTACAGA GAGTTCCATT
    GGTTCAGGGA AAACATCTGG TTCTCGAACT CCTGGACGCT ACTCCACAGG CTCACAGAGC
    CGAATCCGTA GAATGTGGAA TGACACGGTT CGAAAGCAGT CAGAGTCTTC CTTTATTACT
    GGAGACATAA ACAGTTCAGC GTCACTCAAC AGAGAGGGGC TTCTGAACAA TGCCAGGGAT
    ACAAGTGTCA TGGATACTCT ACCACTGAAT GGTAACCATG GCAATAGTTA CAGCATTGCC
    AGCGGCGAAT ACCTGAGCAA CTGTGTGCAA ATCATAGACC GTGGCTATAA CCATAACGAG
    ACCGCCCTAG AGAAAAAGAT TCTGAAGGAA CTCACTTCCA ACTATATCCC TTCTTACCTG
    AACAACCATG AGCGCTCCAG TGAACAGAAC AGGAATCTGA TGAACAAGCT GGTGAATAAC
    CTTGGCAGTG GAAGGGAAGA TGATGCCATT GTCCTGGATG ATGCCACCTC GTTTAACCAC
    GAGGAGAGTT TGGGCCTGGA ACTCATTCAT GAGGAATCTG ATGCTCCTTT GCTGCCCCCA
    AGAGTATACT CCACCGAGAA CCACCAGCCA CACCATTATA CCAGAAGGCG GATCCCCCAA
    GACCACAGTG AGAGCTTTTT CCCTTTGCTA ACCAACGAGC ACACAGAAGA TCTCCAGTCA
    CCCCATAGAG ACTCTCTCTA TACCAGCATG CCGACACTGG CTGGTGTGGC CGCCACAGAG
    AGTGTTACCA CCAGCACCCA GACCGAACCC CCACCGGCCA AATGTGGTGA TGCCGAAGAT
    GTTTACTACA AAAGCATGCC AAACCTAGGC TCCAGAAACC ACGTCCATCA GCTGCATACT
    TACTACCAGC TAGGTCGCGG CAGCAGTGAT GGATTTATAG TTCCTCCAAA CAAAGATGGG
    ACCCCTCCCG AGGGAAGTTC AAAAGGACCG GCTCATTTGG TCACTAGTCT ATAG

    The stop codons will be deleted if pcDNA3.1+/C-(K)DYK vector is selected.

    RefSeq NP_001309331.1
    CDS776..5389
    Translation

    Target ORF information:

    RefSeq Version NM_001322402.2
    Organism Homo sapiens(human)
    Definition Homo sapiens adhesion G protein-coupled receptor L3 (ADGRL3), transcript variant 1, mRNA.

    Target ORF information:

    Epitope DYKDDDDK
    Bacterial selection AMPR
    Mammalian selection NeoR
    Vector pcDNA3.1+/C-(K)DYK
    NM_001322402.2

    ORF Insert Sequence:

    1
    61
    121
    181
    241
    301
    361
    421
    481
    541
    601
    661
    721
    781
    841
    901
    961
    1021
    1081
    1141
    1201
    1261
    1321
    1381
    1441
    1501
    1561
    1621
    1681
    1741
    1801
    1861
    1921
    1981
    2041
    2101
    2161
    2221
    2281
    2341
    2401
    2461
    2521
    2581
    2641
    2701
    2761
    2821
    2881
    2941
    3001
    3061
    3121
    3181
    3241
    3301
    3361
    3421
    3481
    3541
    3601
    3661
    3721
    3781
    3841
    3901
    3961
    4021
    4081
    4141
    4201
    4261
    4321
    4381
    4441
    4501
    4561
    ATGTGGCCAT CGCAGCTACT AATTTTCATG ATGCTCTTAG CTCCAATAAT TCATGGTGGC 
    AAGCACAGTG AACGACATCC TGCCCTTGCT GCTCCATTGC GACACGCTGA GCGCAGCCCA
    GGAGGCGCTC TTCCACCCAG ACATCTGCTT CAGCAGCCAG CTGCAGAGCG CACCGCTGCT
    CATCGTGGAC AAGGGCCCCG TGGAGCTACC AGAGGAGTTC GCGGTCCAGG TGCCCAAGGA
    GCACAGATTG CAGCGCAAGC TTTCAGCCGT GCCCCAATTC CAATGGCTGT GGTCCGCAGA
    GAGCTATCCT GTGAGAGCTA TCCTATAGAG CTTCGCTGTC CAGGAACAGA CGTCATCATG
    ATAGAAAGTG CCAACTATGG CAGGACTGAT GACAAAATTT GTGACTCTGA CCCTGCTCAG
    ATGGAGAATA TCCGATGTTA TCTGCCAGAT GCCTATAAGA TTATGTCTCA AAGATGCAAT
    AACAGAACCC AGTGTGCAGT GGTGGCAGGT CCTGATGTTT TTCCAGACCC GTGTCCAGGA
    ACCTATAAAT ACCTTGAAGT GCAGTATGAA TGTGTCCCTT ACAAAGTGGA ACAAAAAGTT
    TTTCTTTGTC CTGGACTACT AAAAGGAGTA TACCAGAGTG AACATTTGTT TGAGTCCGAC
    CACCAATCTG GGGCGTGGTG CAAAGACCCT CTGCAGGCAT CTGACAAGAT TTATTATATG
    CCCTGGACTC CCTACAGAAC TGATACCCTG ACTGAGTATT CATCCAAGGA TGACTTCATT
    GCTGGAAGAC CAACTACAAC CTACAAGCTC CCTCACAGGG TGGATGGCAC AGGATTTGTA
    GTGTATGATG GAGCTTTGTT CTTCAACAAA GAGCGCACCA GGAACATAGT AAAGTTTGAT
    TTGCGGACTA GGATAAAGAG TGGAGAGGCT ATCATAGCAA ATGCCAATTA CCATGATACC
    TCCCCTTACC GATGGGGAGG CAAATCTGAC ATAGACCTGG CAGTAGATGA GAATGGGCTA
    TGGGTAATCT ATGCAACAGA ACAAAACAAT GGTAAAATTG TCATTAGTCA ATTGAACCCT
    TACACCCTAC GGATCGAAGG AACATGGGAT ACTGCATATG ATAAAAGGTC AGCTTCCAAT
    GCCTTTATGA TTTGTGGAAT TCTGTATGTG GTCAAATCTG TATATGAGGA TGATGACAAT
    GAGGCTACTG GAAATAAGAT TGACTACATT TACAACACTG ACCAAAGCAA GGATAGTTTG
    GTGGATGTAC CCTTTCCTAA TTCATACCAG TACATTGCAG CTGTGGATTA CAACCCCAGG
    GACAACCTAC TTTATGTATG GAATAACTAT CACGTCGTGA AATATTCTTT GGATTTTGGA
    CCTCTGGATA GTAGATCAGG GCAGGCACAT CATGGACAAG TTTCATACAT TTCTCCGCCA
    ATTCACCTTG ACTCTGAGCT AGAAAGACCC TCTGTTAAAG ATATCTCTAC CACAGGACCT
    CTTGGCATGG GAAGCACTAC CACCAGTACC ACCCTTCGGA CCACAACTTT GAGCCCAGGA
    AGGAGTACCA CCCCGTCAGT GTCAGGAAGA AGAAACCGGA GTACTAGTAC CCCATCTCCA
    GCTGTCGAGG TACTTGATGA CATGACCACA CACCTTCCAT CAGCATCGTC CCAAATCCCA
    GCTCTCGAAG AGAGCTGTGA GGCTGTGGAA GCCCGAGAAA TCATGTGGTT TAAGACTCGT
    CAAGGACAGA TAGCAAAGCA GCCATGCCCT GCAGGAACTA TAGGTGTATC AACTTATCTA
    TGCCTTGCTC CTGATGGAAT TTGGGATCCC CAAGGTCCAG ATCTCAGCAA CTGTTCTTCT
    CCTTGGGTCA ATCATATAAC ACAGAAGTTG AAATCTGGTG AAACAGCTGC CAACATTGCT
    AGAGAGCTGG CTGAACAGAC AAGAAATCAC TTGAATGCTG GGGACATCAC CTACTCTGTC
    CGGGCCATGG ACCAGCTGGT AGGCCTCCTA GATGTACAGC TTCGGAACTT GACCCCAGGT
    GGAAAAGATA GTGCTGCCCG GAGTTTGAAC AAGCTTCAGA AAAGAGAGCG CTCTTGCAGA
    GCCTATGTCC AGGCAATGGT CGAGACAGTT AACAACCTCC TTCAGCCACA AGCTTTGAAT
    GCATGGAGAG ACCTGACTAC GAGTGATCAG CTGCGTGCGG CCACCATGTT GCTTCATACT
    GTGGAGGAAA GTGCTTTTGT GCTGGCTGAT AACCTTTTGA AGACTGACAT TGTCAGGGAG
    AATACAGACA ATATTAAATT GGAAGTTGCA AGACTGAGCA CAGAAGGAAA CTTAGAAGAC
    CTAAAATTTC CAGAAAACAT GGGCCATGGA AGCACTATCC AGCTGTCTGC AAATACCTTA
    AAGCAAAATG GCCGAAATGG AGAGATCAGA GTGGCCTTTG TCCTGTATAA CAACTTGGGT
    CCTTATTTAT CCACGGAGAA TGCCAGTATG AAGTTGGGAA CGGAAGCTTT GTCCACAAAT
    CATTCTGTTA TTGTCAATTC CCCTGTTATT ACGGCAGCAA TAAACAAAGA GTTCAGTAAC
    AAGGTTTATT TGGCTGATCC TGTGGTATTT ACTGTTAAAC ATATCAAGCA GTCAGAGGAA
    AATTTCAACC CTAACTGTTC ATTTTGGAGC TACTCCAAGC GTACAATGAC AGGTTATTGG
    TCAACACAAG GCTGTCGGCT CCTGACAACA AATAAGACAC ATACTACATG CTCTTGTAAC
    CACCTAACAA ATTTTGCAGT ACTGATGGCA CATGTGGAAG TTAAGCACAG TGATGCGGTC
    CATGACCTCC TTCTGGATGT GATCACGTGG GTTGGAATTT TGCTGTCCCT TGTTTGTCTC
    CTGATTTGCA TCTTCACATT TTGCTTTTTC CGGGGGCTCC AGAGTGACCG TAACACCATC
    CACAAGAACC TCTGCATCAG TCTCTTTGTA GCAGAGCTGC TCTTCCTGAT TGGGATCAAC
    CGAACTGACC AACCAATTGC CTGTGCTGTT TTCGCTGCCC TGTTACATTT CTTCTTCTTG
    GCTGCCTTCA CCTGGATGTT CCTGGAGGGG GTGCAGCTTT ATATCATGCT GGTGGAGGTT
    TTTGAGAGTG AACATTCACG TAGGAAATAC TTTTATCTGG TCGGCTATGG GATGCCTGCA
    CTCATTGTGG CTGTGTCAGC TGCAGTAGAC TACAGGAGTT ATGGAACAGA TAAAGTATGT
    TGGCTCCGAC TTGACACCTA CTTCATTTGG AGTTTTATAG GACCAGCAAC TTTGATAATT
    ATGCTTAATG TAATCTTCCT TGGGATTGCT TTATATAAAA TGTTTCATCA TACTGCTATA
    CTGAAACCTG AATCAGGCTG TCTTGATAAC ATCAACTATG AGGATAACAG ACCCTTCATC
    AAGTCATGGG TTATAGGTGC AATAGCTCTT CTCTGCCTAT TAGGATTGAC CTGGGCCTTT
    GGACTCATGT ATATTAATGA AAGCACAGTC ATCATGGCCT ATCTCTTCAC CATTTTCAAT
    TCTCTACAGG GAATGTTTAT ATTTATTTTC CATTGTGTCC TACAGAAGAA GGTACGAAAA
    GAGTATGGGA AATGCCTGCG AACACATTGC TGTAGTGGCA AAAGTACAGA GAGTTCCATT
    GGTTCAGGGA AAACATCTGG TTCTCGAACT CCTGGACGCT ACTCCACAGG CTCACAGAGC
    CGAATCCGTA GAATGTGGAA TGACACGGTT CGAAAGCAGT CAGAGTCTTC CTTTATTACT
    GGAGACATAA ACAGTTCAGC GTCACTCAAC AGAGAGGGGC TTCTGAACAA TGCCAGGGAT
    ACAAGTGTCA TGGATACTCT ACCACTGAAT GGTAACCATG GCAATAGTTA CAGCATTGCC
    AGCGGCGAAT ACCTGAGCAA CTGTGTGCAA ATCATAGACC GTGGCTATAA CCATAACGAG
    ACCGCCCTAG AGAAAAAGAT TCTGAAGGAA CTCACTTCCA ACTATATCCC TTCTTACCTG
    AACAACCATG AGCGCTCCAG TGAACAGAAC AGGAATCTGA TGAACAAGCT GGTGAATAAC
    CTTGGCAGTG GAAGGGAAGA TGATGCCATT GTCCTGGATG ATGCCACCTC GTTTAACCAC
    GAGGAGAGTT TGGGCCTGGA ACTCATTCAT GAGGAATCTG ATGCTCCTTT GCTGCCCCCA
    AGAGTATACT CCACCGAGAA CCACCAGCCA CACCATTATA CCAGAAGGCG GATCCCCCAA
    GACCACAGTG AGAGCTTTTT CCCTTTGCTA ACCAACGAGC ACACAGAAGA TCTCCAGTCA
    CCCCATAGAG ACTCTCTCTA TACCAGCATG CCGACACTGG CTGGTGTGGC CGCCACAGAG
    AGTGTTACCA CCAGCACCCA GACCGAACCC CCACCGGCCA AATGTGGTGA TGCCGAAGAT
    GTTTACTACA AAAGCATGCC AAACCTAGGC TCCAGAAACC ACGTCCATCA GCTGCATACT
    TACTACCAGC TAGGTCGCGG CAGCAGTGAT GGATTTATAG TTCCTCCAAA CAAAGATGGG
    ACCCCTCCCG AGGGAAGTTC AAAAGGACCG GCTCATTTGG TCACTAGTCT ATAG

    The stop codons will be deleted if pcDNA3.1+/C-(K)DYK vector is selected.

    CloneID OHu65885
    Clone ID Related Accession (Same CDS sequence) NM_001322402.2 , NM_001322402.1 , XM_017007932.1
    Accession Version XM_017007932.1 Latest version! Documents for ORF clone product in default vector
    Sequence Information ORF Nucleotide Sequence (Length: 4614bp)
    Protein sequence
    SNP
    Vector pcDNA3.1-C-(k)DYK or customized vector User Manual
    Clone information Clone Map MSDS
    Tag on pcDNA3.1+/C-(K)DYK C terminal DYKDDDDK tags
    ORF Insert Method CloneEZ™ Seamless cloning technology
    Insert Structure linear
    Update Date 2019-12-05
    Organism Homo sapiens(human)
    Product adhesion G protein-coupled receptor L3 isoform X4
    Comment Comment: MODEL REFSEQ: This record is predicted by automated computational analysis. This record is derived from a genomic sequence (NC_000004.12) annotated using gene prediction method: Gnomon, supported by mRNA and EST evidence. Also see: Documentation of NCBI's Annotation Process ##Genome-Annotation-Data-START## Annotation Provider :: NCBI Annotation Status :: Updated annotation Annotation Name :: Homo sapiens Updated Annotation Release 109.20191205 Annotation Version :: 109.20191205 Annotation Pipeline :: NCBI eukaryotic genome annotation pipeline Annotation Software Version :: 8.3 Annotation Method :: Best-placed RefSeq; propagated RefSeq model Features Annotated :: Gene; mRNA; CDS; ncRNA ##Genome-Annotation-Data-END##

    1
    61
    121
    181
    241
    301
    361
    421
    481
    541
    601
    661
    721
    781
    841
    901
    961
    1021
    1081
    1141
    1201
    1261
    1321
    1381
    1441
    1501
    1561
    1621
    1681
    1741
    1801
    1861
    1921
    1981
    2041
    2101
    2161
    2221
    2281
    2341
    2401
    2461
    2521
    2581
    2641
    2701
    2761
    2821
    2881
    2941
    3001
    3061
    3121
    3181
    3241
    3301
    3361
    3421
    3481
    3541
    3601
    3661
    3721
    3781
    3841
    3901
    3961
    4021
    4081
    4141
    4201
    4261
    4321
    4381
    4441
    4501
    4561
    ATGTGGCCAT CGCAGCTACT AATTTTCATG ATGCTCTTAG CTCCAATAAT TCATGGTGGC 
    AAGCACAGTG AACGACATCC TGCCCTTGCT GCTCCATTGC GACACGCTGA GCGCAGCCCA
    GGAGGCGCTC TTCCACCCAG ACATCTGCTT CAGCAGCCAG CTGCAGAGCG CACCGCTGCT
    CATCGTGGAC AAGGGCCCCG TGGAGCTACC AGAGGAGTTC GCGGTCCAGG TGCCCAAGGA
    GCACAGATTG CAGCGCAAGC TTTCAGCCGT GCCCCAATTC CAATGGCTGT GGTCCGCAGA
    GAGCTATCCT GTGAGAGCTA TCCTATAGAG CTTCGCTGTC CAGGAACAGA CGTCATCATG
    ATAGAAAGTG CCAACTATGG CAGGACTGAT GACAAAATTT GTGACTCTGA CCCTGCTCAG
    ATGGAGAATA TCCGATGTTA TCTGCCAGAT GCCTATAAGA TTATGTCTCA AAGATGCAAT
    AACAGAACCC AGTGTGCAGT GGTGGCAGGT CCTGATGTTT TTCCAGACCC GTGTCCAGGA
    ACCTATAAAT ACCTTGAAGT GCAGTATGAA TGTGTCCCTT ACAAAGTGGA ACAAAAAGTT
    TTTCTTTGTC CTGGACTACT AAAAGGAGTA TACCAGAGTG AACATTTGTT TGAGTCCGAC
    CACCAATCTG GGGCGTGGTG CAAAGACCCT CTGCAGGCAT CTGACAAGAT TTATTATATG
    CCCTGGACTC CCTACAGAAC TGATACCCTG ACTGAGTATT CATCCAAGGA TGACTTCATT
    GCTGGAAGAC CAACTACAAC CTACAAGCTC CCTCACAGGG TGGATGGCAC AGGATTTGTA
    GTGTATGATG GAGCTTTGTT CTTCAACAAA GAGCGCACCA GGAACATAGT AAAGTTTGAT
    TTGCGGACTA GGATAAAGAG TGGAGAGGCT ATCATAGCAA ATGCCAATTA CCATGATACC
    TCCCCTTACC GATGGGGAGG CAAATCTGAC ATAGACCTGG CAGTAGATGA GAATGGGCTA
    TGGGTAATCT ATGCAACAGA ACAAAACAAT GGTAAAATTG TCATTAGTCA ATTGAACCCT
    TACACCCTAC GGATCGAAGG AACATGGGAT ACTGCATATG ATAAAAGGTC AGCTTCCAAT
    GCCTTTATGA TTTGTGGAAT TCTGTATGTG GTCAAATCTG TATATGAGGA TGATGACAAT
    GAGGCTACTG GAAATAAGAT TGACTACATT TACAACACTG ACCAAAGCAA GGATAGTTTG
    GTGGATGTAC CCTTTCCTAA TTCATACCAG TACATTGCAG CTGTGGATTA CAACCCCAGG
    GACAACCTAC TTTATGTATG GAATAACTAT CACGTCGTGA AATATTCTTT GGATTTTGGA
    CCTCTGGATA GTAGATCAGG GCAGGCACAT CATGGACAAG TTTCATACAT TTCTCCGCCA
    ATTCACCTTG ACTCTGAGCT AGAAAGACCC TCTGTTAAAG ATATCTCTAC CACAGGACCT
    CTTGGCATGG GAAGCACTAC CACCAGTACC ACCCTTCGGA CCACAACTTT GAGCCCAGGA
    AGGAGTACCA CCCCGTCAGT GTCAGGAAGA AGAAACCGGA GTACTAGTAC CCCATCTCCA
    GCTGTCGAGG TACTTGATGA CATGACCACA CACCTTCCAT CAGCATCGTC CCAAATCCCA
    GCTCTCGAAG AGAGCTGTGA GGCTGTGGAA GCCCGAGAAA TCATGTGGTT TAAGACTCGT
    CAAGGACAGA TAGCAAAGCA GCCATGCCCT GCAGGAACTA TAGGTGTATC AACTTATCTA
    TGCCTTGCTC CTGATGGAAT TTGGGATCCC CAAGGTCCAG ATCTCAGCAA CTGTTCTTCT
    CCTTGGGTCA ATCATATAAC ACAGAAGTTG AAATCTGGTG AAACAGCTGC CAACATTGCT
    AGAGAGCTGG CTGAACAGAC AAGAAATCAC TTGAATGCTG GGGACATCAC CTACTCTGTC
    CGGGCCATGG ACCAGCTGGT AGGCCTCCTA GATGTACAGC TTCGGAACTT GACCCCAGGT
    GGAAAAGATA GTGCTGCCCG GAGTTTGAAC AAGCTTCAGA AAAGAGAGCG CTCTTGCAGA
    GCCTATGTCC AGGCAATGGT CGAGACAGTT AACAACCTCC TTCAGCCACA AGCTTTGAAT
    GCATGGAGAG ACCTGACTAC GAGTGATCAG CTGCGTGCGG CCACCATGTT GCTTCATACT
    GTGGAGGAAA GTGCTTTTGT GCTGGCTGAT AACCTTTTGA AGACTGACAT TGTCAGGGAG
    AATACAGACA ATATTAAATT GGAAGTTGCA AGACTGAGCA CAGAAGGAAA CTTAGAAGAC
    CTAAAATTTC CAGAAAACAT GGGCCATGGA AGCACTATCC AGCTGTCTGC AAATACCTTA
    AAGCAAAATG GCCGAAATGG AGAGATCAGA GTGGCCTTTG TCCTGTATAA CAACTTGGGT
    CCTTATTTAT CCACGGAGAA TGCCAGTATG AAGTTGGGAA CGGAAGCTTT GTCCACAAAT
    CATTCTGTTA TTGTCAATTC CCCTGTTATT ACGGCAGCAA TAAACAAAGA GTTCAGTAAC
    AAGGTTTATT TGGCTGATCC TGTGGTATTT ACTGTTAAAC ATATCAAGCA GTCAGAGGAA
    AATTTCAACC CTAACTGTTC ATTTTGGAGC TACTCCAAGC GTACAATGAC AGGTTATTGG
    TCAACACAAG GCTGTCGGCT CCTGACAACA AATAAGACAC ATACTACATG CTCTTGTAAC
    CACCTAACAA ATTTTGCAGT ACTGATGGCA CATGTGGAAG TTAAGCACAG TGATGCGGTC
    CATGACCTCC TTCTGGATGT GATCACGTGG GTTGGAATTT TGCTGTCCCT TGTTTGTCTC
    CTGATTTGCA TCTTCACATT TTGCTTTTTC CGGGGGCTCC AGAGTGACCG TAACACCATC
    CACAAGAACC TCTGCATCAG TCTCTTTGTA GCAGAGCTGC TCTTCCTGAT TGGGATCAAC
    CGAACTGACC AACCAATTGC CTGTGCTGTT TTCGCTGCCC TGTTACATTT CTTCTTCTTG
    GCTGCCTTCA CCTGGATGTT CCTGGAGGGG GTGCAGCTTT ATATCATGCT GGTGGAGGTT
    TTTGAGAGTG AACATTCACG TAGGAAATAC TTTTATCTGG TCGGCTATGG GATGCCTGCA
    CTCATTGTGG CTGTGTCAGC TGCAGTAGAC TACAGGAGTT ATGGAACAGA TAAAGTATGT
    TGGCTCCGAC TTGACACCTA CTTCATTTGG AGTTTTATAG GACCAGCAAC TTTGATAATT
    ATGCTTAATG TAATCTTCCT TGGGATTGCT TTATATAAAA TGTTTCATCA TACTGCTATA
    CTGAAACCTG AATCAGGCTG TCTTGATAAC ATCAACTATG AGGATAACAG ACCCTTCATC
    AAGTCATGGG TTATAGGTGC AATAGCTCTT CTCTGCCTAT TAGGATTGAC CTGGGCCTTT
    GGACTCATGT ATATTAATGA AAGCACAGTC ATCATGGCCT ATCTCTTCAC CATTTTCAAT
    TCTCTACAGG GAATGTTTAT ATTTATTTTC CATTGTGTCC TACAGAAGAA GGTACGAAAA
    GAGTATGGGA AATGCCTGCG AACACATTGC TGTAGTGGCA AAAGTACAGA GAGTTCCATT
    GGTTCAGGGA AAACATCTGG TTCTCGAACT CCTGGACGCT ACTCCACAGG CTCACAGAGC
    CGAATCCGTA GAATGTGGAA TGACACGGTT CGAAAGCAGT CAGAGTCTTC CTTTATTACT
    GGAGACATAA ACAGTTCAGC GTCACTCAAC AGAGAGGGGC TTCTGAACAA TGCCAGGGAT
    ACAAGTGTCA TGGATACTCT ACCACTGAAT GGTAACCATG GCAATAGTTA CAGCATTGCC
    AGCGGCGAAT ACCTGAGCAA CTGTGTGCAA ATCATAGACC GTGGCTATAA CCATAACGAG
    ACCGCCCTAG AGAAAAAGAT TCTGAAGGAA CTCACTTCCA ACTATATCCC TTCTTACCTG
    AACAACCATG AGCGCTCCAG TGAACAGAAC AGGAATCTGA TGAACAAGCT GGTGAATAAC
    CTTGGCAGTG GAAGGGAAGA TGATGCCATT GTCCTGGATG ATGCCACCTC GTTTAACCAC
    GAGGAGAGTT TGGGCCTGGA ACTCATTCAT GAGGAATCTG ATGCTCCTTT GCTGCCCCCA
    AGAGTATACT CCACCGAGAA CCACCAGCCA CACCATTATA CCAGAAGGCG GATCCCCCAA
    GACCACAGTG AGAGCTTTTT CCCTTTGCTA ACCAACGAGC ACACAGAAGA TCTCCAGTCA
    CCCCATAGAG ACTCTCTCTA TACCAGCATG CCGACACTGG CTGGTGTGGC CGCCACAGAG
    AGTGTTACCA CCAGCACCCA GACCGAACCC CCACCGGCCA AATGTGGTGA TGCCGAAGAT
    GTTTACTACA AAAGCATGCC AAACCTAGGC TCCAGAAACC ACGTCCATCA GCTGCATACT
    TACTACCAGC TAGGTCGCGG CAGCAGTGAT GGATTTATAG TTCCTCCAAA CAAAGATGGG
    ACCCCTCCCG AGGGAAGTTC AAAAGGACCG GCTCATTTGG TCACTAGTCT ATAG

    The stop codons will be deleted if pcDNA3.1+/C-(K)DYK vector is selected.

    RefSeq XP_016863421.1
    CDS288..4901
    Translation

    Target ORF information:

    RefSeq Version XM_017007932.1
    Organism Homo sapiens(human)
    Definition Homo sapiens adhesion G protein-coupled receptor L3 (ADGRL3), transcript variant X5, mRNA.

    Target ORF information:

    Epitope DYKDDDDK
    Bacterial selection AMPR
    Mammalian selection NeoR
    Vector pcDNA3.1+/C-(K)DYK
    XM_017007932.1

    ORF Insert Sequence:

    1
    61
    121
    181
    241
    301
    361
    421
    481
    541
    601
    661
    721
    781
    841
    901
    961
    1021
    1081
    1141
    1201
    1261
    1321
    1381
    1441
    1501
    1561
    1621
    1681
    1741
    1801
    1861
    1921
    1981
    2041
    2101
    2161
    2221
    2281
    2341
    2401
    2461
    2521
    2581
    2641
    2701
    2761
    2821
    2881
    2941
    3001
    3061
    3121
    3181
    3241
    3301
    3361
    3421
    3481
    3541
    3601
    3661
    3721
    3781
    3841
    3901
    3961
    4021
    4081
    4141
    4201
    4261
    4321
    4381
    4441
    4501
    4561
    ATGTGGCCAT CGCAGCTACT AATTTTCATG ATGCTCTTAG CTCCAATAAT TCATGGTGGC 
    AAGCACAGTG AACGACATCC TGCCCTTGCT GCTCCATTGC GACACGCTGA GCGCAGCCCA
    GGAGGCGCTC TTCCACCCAG ACATCTGCTT CAGCAGCCAG CTGCAGAGCG CACCGCTGCT
    CATCGTGGAC AAGGGCCCCG TGGAGCTACC AGAGGAGTTC GCGGTCCAGG TGCCCAAGGA
    GCACAGATTG CAGCGCAAGC TTTCAGCCGT GCCCCAATTC CAATGGCTGT GGTCCGCAGA
    GAGCTATCCT GTGAGAGCTA TCCTATAGAG CTTCGCTGTC CAGGAACAGA CGTCATCATG
    ATAGAAAGTG CCAACTATGG CAGGACTGAT GACAAAATTT GTGACTCTGA CCCTGCTCAG
    ATGGAGAATA TCCGATGTTA TCTGCCAGAT GCCTATAAGA TTATGTCTCA AAGATGCAAT
    AACAGAACCC AGTGTGCAGT GGTGGCAGGT CCTGATGTTT TTCCAGACCC GTGTCCAGGA
    ACCTATAAAT ACCTTGAAGT GCAGTATGAA TGTGTCCCTT ACAAAGTGGA ACAAAAAGTT
    TTTCTTTGTC CTGGACTACT AAAAGGAGTA TACCAGAGTG AACATTTGTT TGAGTCCGAC
    CACCAATCTG GGGCGTGGTG CAAAGACCCT CTGCAGGCAT CTGACAAGAT TTATTATATG
    CCCTGGACTC CCTACAGAAC TGATACCCTG ACTGAGTATT CATCCAAGGA TGACTTCATT
    GCTGGAAGAC CAACTACAAC CTACAAGCTC CCTCACAGGG TGGATGGCAC AGGATTTGTA
    GTGTATGATG GAGCTTTGTT CTTCAACAAA GAGCGCACCA GGAACATAGT AAAGTTTGAT
    TTGCGGACTA GGATAAAGAG TGGAGAGGCT ATCATAGCAA ATGCCAATTA CCATGATACC
    TCCCCTTACC GATGGGGAGG CAAATCTGAC ATAGACCTGG CAGTAGATGA GAATGGGCTA
    TGGGTAATCT ATGCAACAGA ACAAAACAAT GGTAAAATTG TCATTAGTCA ATTGAACCCT
    TACACCCTAC GGATCGAAGG AACATGGGAT ACTGCATATG ATAAAAGGTC AGCTTCCAAT
    GCCTTTATGA TTTGTGGAAT TCTGTATGTG GTCAAATCTG TATATGAGGA TGATGACAAT
    GAGGCTACTG GAAATAAGAT TGACTACATT TACAACACTG ACCAAAGCAA GGATAGTTTG
    GTGGATGTAC CCTTTCCTAA TTCATACCAG TACATTGCAG CTGTGGATTA CAACCCCAGG
    GACAACCTAC TTTATGTATG GAATAACTAT CACGTCGTGA AATATTCTTT GGATTTTGGA
    CCTCTGGATA GTAGATCAGG GCAGGCACAT CATGGACAAG TTTCATACAT TTCTCCGCCA
    ATTCACCTTG ACTCTGAGCT AGAAAGACCC TCTGTTAAAG ATATCTCTAC CACAGGACCT
    CTTGGCATGG GAAGCACTAC CACCAGTACC ACCCTTCGGA CCACAACTTT GAGCCCAGGA
    AGGAGTACCA CCCCGTCAGT GTCAGGAAGA AGAAACCGGA GTACTAGTAC CCCATCTCCA
    GCTGTCGAGG TACTTGATGA CATGACCACA CACCTTCCAT CAGCATCGTC CCAAATCCCA
    GCTCTCGAAG AGAGCTGTGA GGCTGTGGAA GCCCGAGAAA TCATGTGGTT TAAGACTCGT
    CAAGGACAGA TAGCAAAGCA GCCATGCCCT GCAGGAACTA TAGGTGTATC AACTTATCTA
    TGCCTTGCTC CTGATGGAAT TTGGGATCCC CAAGGTCCAG ATCTCAGCAA CTGTTCTTCT
    CCTTGGGTCA ATCATATAAC ACAGAAGTTG AAATCTGGTG AAACAGCTGC CAACATTGCT
    AGAGAGCTGG CTGAACAGAC AAGAAATCAC TTGAATGCTG GGGACATCAC CTACTCTGTC
    CGGGCCATGG ACCAGCTGGT AGGCCTCCTA GATGTACAGC TTCGGAACTT GACCCCAGGT
    GGAAAAGATA GTGCTGCCCG GAGTTTGAAC AAGCTTCAGA AAAGAGAGCG CTCTTGCAGA
    GCCTATGTCC AGGCAATGGT CGAGACAGTT AACAACCTCC TTCAGCCACA AGCTTTGAAT
    GCATGGAGAG ACCTGACTAC GAGTGATCAG CTGCGTGCGG CCACCATGTT GCTTCATACT
    GTGGAGGAAA GTGCTTTTGT GCTGGCTGAT AACCTTTTGA AGACTGACAT TGTCAGGGAG
    AATACAGACA ATATTAAATT GGAAGTTGCA AGACTGAGCA CAGAAGGAAA CTTAGAAGAC
    CTAAAATTTC CAGAAAACAT GGGCCATGGA AGCACTATCC AGCTGTCTGC AAATACCTTA
    AAGCAAAATG GCCGAAATGG AGAGATCAGA GTGGCCTTTG TCCTGTATAA CAACTTGGGT
    CCTTATTTAT CCACGGAGAA TGCCAGTATG AAGTTGGGAA CGGAAGCTTT GTCCACAAAT
    CATTCTGTTA TTGTCAATTC CCCTGTTATT ACGGCAGCAA TAAACAAAGA GTTCAGTAAC
    AAGGTTTATT TGGCTGATCC TGTGGTATTT ACTGTTAAAC ATATCAAGCA GTCAGAGGAA
    AATTTCAACC CTAACTGTTC ATTTTGGAGC TACTCCAAGC GTACAATGAC AGGTTATTGG
    TCAACACAAG GCTGTCGGCT CCTGACAACA AATAAGACAC ATACTACATG CTCTTGTAAC
    CACCTAACAA ATTTTGCAGT ACTGATGGCA CATGTGGAAG TTAAGCACAG TGATGCGGTC
    CATGACCTCC TTCTGGATGT GATCACGTGG GTTGGAATTT TGCTGTCCCT TGTTTGTCTC
    CTGATTTGCA TCTTCACATT TTGCTTTTTC CGGGGGCTCC AGAGTGACCG TAACACCATC
    CACAAGAACC TCTGCATCAG TCTCTTTGTA GCAGAGCTGC TCTTCCTGAT TGGGATCAAC
    CGAACTGACC AACCAATTGC CTGTGCTGTT TTCGCTGCCC TGTTACATTT CTTCTTCTTG
    GCTGCCTTCA CCTGGATGTT CCTGGAGGGG GTGCAGCTTT ATATCATGCT GGTGGAGGTT
    TTTGAGAGTG AACATTCACG TAGGAAATAC TTTTATCTGG TCGGCTATGG GATGCCTGCA
    CTCATTGTGG CTGTGTCAGC TGCAGTAGAC TACAGGAGTT ATGGAACAGA TAAAGTATGT
    TGGCTCCGAC TTGACACCTA CTTCATTTGG AGTTTTATAG GACCAGCAAC TTTGATAATT
    ATGCTTAATG TAATCTTCCT TGGGATTGCT TTATATAAAA TGTTTCATCA TACTGCTATA
    CTGAAACCTG AATCAGGCTG TCTTGATAAC ATCAACTATG AGGATAACAG ACCCTTCATC
    AAGTCATGGG TTATAGGTGC AATAGCTCTT CTCTGCCTAT TAGGATTGAC CTGGGCCTTT
    GGACTCATGT ATATTAATGA AAGCACAGTC ATCATGGCCT ATCTCTTCAC CATTTTCAAT
    TCTCTACAGG GAATGTTTAT ATTTATTTTC CATTGTGTCC TACAGAAGAA GGTACGAAAA
    GAGTATGGGA AATGCCTGCG AACACATTGC TGTAGTGGCA AAAGTACAGA GAGTTCCATT
    GGTTCAGGGA AAACATCTGG TTCTCGAACT CCTGGACGCT ACTCCACAGG CTCACAGAGC
    CGAATCCGTA GAATGTGGAA TGACACGGTT CGAAAGCAGT CAGAGTCTTC CTTTATTACT
    GGAGACATAA ACAGTTCAGC GTCACTCAAC AGAGAGGGGC TTCTGAACAA TGCCAGGGAT
    ACAAGTGTCA TGGATACTCT ACCACTGAAT GGTAACCATG GCAATAGTTA CAGCATTGCC
    AGCGGCGAAT ACCTGAGCAA CTGTGTGCAA ATCATAGACC GTGGCTATAA CCATAACGAG
    ACCGCCCTAG AGAAAAAGAT TCTGAAGGAA CTCACTTCCA ACTATATCCC TTCTTACCTG
    AACAACCATG AGCGCTCCAG TGAACAGAAC AGGAATCTGA TGAACAAGCT GGTGAATAAC
    CTTGGCAGTG GAAGGGAAGA TGATGCCATT GTCCTGGATG ATGCCACCTC GTTTAACCAC
    GAGGAGAGTT TGGGCCTGGA ACTCATTCAT GAGGAATCTG ATGCTCCTTT GCTGCCCCCA
    AGAGTATACT CCACCGAGAA CCACCAGCCA CACCATTATA CCAGAAGGCG GATCCCCCAA
    GACCACAGTG AGAGCTTTTT CCCTTTGCTA ACCAACGAGC ACACAGAAGA TCTCCAGTCA
    CCCCATAGAG ACTCTCTCTA TACCAGCATG CCGACACTGG CTGGTGTGGC CGCCACAGAG
    AGTGTTACCA CCAGCACCCA GACCGAACCC CCACCGGCCA AATGTGGTGA TGCCGAAGAT
    GTTTACTACA AAAGCATGCC AAACCTAGGC TCCAGAAACC ACGTCCATCA GCTGCATACT
    TACTACCAGC TAGGTCGCGG CAGCAGTGAT GGATTTATAG TTCCTCCAAA CAAAGATGGG
    ACCCCTCCCG AGGGAAGTTC AAAAGGACCG GCTCATTTGG TCACTAGTCT ATAG

    The stop codons will be deleted if pcDNA3.1+/C-(K)DYK vector is selected.

    CloneID OHu100291
    Clone ID Related Accession (Same CDS sequence) NM_001322246.1 , NM_001322246.2
    Accession Version NM_001322246.1 Documents for ORF clone product in default vector
    Sequence Information ORF Nucleotide Sequence (Length: 3723bp)
    Protein sequence
    SNP
    Vector pcDNA3.1-C-(k)DYK or customized vector User Manual
    Clone information Clone Map MSDS
    Tag on pcDNA3.1+/C-(K)DYK C terminal DYKDDDDK tags
    ORF Insert Method CloneEZ™ Seamless cloning technology
    Insert Structure linear
    Update Date 2019-02-24
    Organism Homo sapiens(human)
    Product adhesion G protein-coupled receptor L3 isoform 3 precursor
    Comment Comment: REVIEWED REFSEQ: This record has been curated by NCBI staff. The reference sequence was derived from AK309793.1, AC092643.2, AF307080.1, DA808156.1, AB018311.1, AC007511.8 and BF511741.1. Transcript Variant: This variant (3) lacks an in-frame coding exon in the 5' region and contains a novel exon in the 3' coding region; the latter causes a frameshift compared to variant 1. The resulting isoform (3) is shorter missing an internal protein segment in the 5' region and has a distinct C-terminus compared to isoform 1. Sequence Note: This RefSeq record was created from transcript and genomic sequence data to make the sequence consistent with the reference genome assembly. The genomic coordinates used for the transcript record were based on transcript alignments. Publication Note: This RefSeq record includes a subset of the publications that are available for this gene. Please see the Gene record to access additional publications. ##Evidence-Data-START## RNAseq introns :: single sample supports all introns SAMEA2145743, SAMEA2157437 [ECO:0000348] ##Evidence-Data-END## COMPLETENESS: complete on the 3' end.

    1
    61
    121
    181
    241
    301
    361
    421
    481
    541
    601
    661
    721
    781
    841
    901
    961
    1021
    1081
    1141
    1201
    1261
    1321
    1381
    1441
    1501
    1561
    1621
    1681
    1741
    1801
    1861
    1921
    1981
    2041
    2101
    2161
    2221
    2281
    2341
    2401
    2461
    2521
    2581
    2641
    2701
    2761
    2821
    2881
    2941
    3001
    3061
    3121
    3181
    3241
    3301
    3361
    3421
    3481
    3541
    3601
    3661
    3721
    ATGTGGCCAT CGCAGCTACT AATTTTCATG ATGCTCTTAG CTCCAATAAT TCATGCTTTC 
    AGCCGTGCCC CAATTCCAAT GGCTGTGGTC CGCAGAGAGC TATCCTGTGA GAGCTATCCT
    ATAGAGCTTC GCTGTCCAGG AACAGACGTC ATCATGATAG AAAGTGCCAA CTATGGCAGG
    ACTGATGACA AAATTTGTGA CTCTGACCCT GCTCAGATGG AGAATATCCG ATGTTATCTG
    CCAGATGCCT ATAAGATTAT GTCTCAAAGA TGCAATAACA GAACCCAGTG TGCAGTGGTG
    GCAGGTCCTG ATGTTTTTCC AGACCCGTGT CCAGGAACCT ATAAATACCT TGAAGTGCAG
    TATGAATGTG TCCCTTACAA AGTGGAACAA AAAGTTTTTC TTTGTCCTGG ACTACTAAAA
    GGAGTATACC AGAGTGAACA TTTGTTTGAG TCCGACCACC AATCTGGGGC GTGGTGCAAA
    GACCCTCTGC AGGCATCTGA CAAGATTTAT TATATGCCCT GGACTCCCTA CAGAACTGAT
    ACCCTGACTG AGTATTCATC CAAGGATGAC TTCATTGCTG GAAGACCAAC TACAACCTAC
    AAGCTCCCTC ACAGGGTGGA TGGCACAGGA TTTGTAGTGT ATGATGGAGC TTTGTTCTTC
    AACAAAGAGC GCACCAGGAA CATAGTAAAG TTTGATTTGC GGACTAGGAT AAAGAGTGGA
    GAGGCTATCA TAGCAAATGC CAATTACCAT GATACCTCCC CTTACCGATG GGGAGGCAAA
    TCTGACATAG ACCTGGCAGT AGATGAGAAT GGGCTATGGG TAATCTATGC AACAGAACAA
    AACAATGGTA AAATTGTCAT TAGTCAATTG AACCCTTACA CCCTACGGAT CGAAGGAACA
    TGGGATACTG CATATGATAA AAGGTCAGCT TCCAATGCCT TTATGATTTG TGGAATTCTG
    TATGTGGTCA AATCTGTATA TGAGGATGAT GACAATGAGG CTACTGGAAA TAAGATTGAC
    TACATTTACA ACACTGACCA AAGCAAGGAT AGTTTGGTGG ATGTACCCTT TCCTAATTCA
    TACCAGTACA TTGCAGCTGT GGATTACAAC CCCAGGGACA ACCTACTTTA TGTATGGAAT
    AACTATCACG TCGTGAAATA TTCTTTGGAT TTTGGACCTC TGGATAGTAG ATCAGGGCAG
    GCACATCATG GACAAGTTTC ATACATTTCT CCGCCAATTC ACCTTGACTC TGAGCTAGAA
    AGACCCTCTG TTAAAGATAT CTCTACCACA GGACCTCTTG GCATGGGAAG CACTACCACC
    AGTACCACCC TTCGGACCAC AACTTTGAGC CCAGGAAGGA GTACCACCCC GTCAGTGTCA
    GGAAGAAGAA ACCGGAGTAC TAGTACCCCA TCTCCAGCTG TCGAGGTACT TGATGACATG
    ACCACACACC TTCCATCAGC ATCGTCCCAA ATCCCAGCTC TCGAAGAGAG CTGTGAGGCT
    GTGGAAGCCC GAGAAATCAT GTGGTTTAAG ACTCGTCAAG GACAGATAGC AAAGCAGCCA
    TGCCCTGCAG GAACTATAGG TGTATCAACT TATCTATGCC TTGCTCCTGA TGGAATTTGG
    GATCCCCAAG GTCCAGATCT CAGCAACTGT TCTTCTCCTT GGGTCAATCA TATAACACAG
    AAGTTGAAAT CTGGTGAAAC AGCTGCCAAC ATTGCTAGAG AGCTGGCTGA ACAGACAAGA
    AATCACTTGA ATGCTGGGGA CATCACCTAC TCTGTCCGGG CCATGGACCA GCTGGTAGGC
    CTCCTAGATG TACAGCTTCG GAACTTGACC CCAGGTGGAA AAGATAGTGC TGCCCGGAGT
    TTGAACAAGC TTCAGAAAAG AGAGCGCTCT TGCAGAGCCT ATGTCCAGGC AATGGTCGAG
    ACAGTTAACA ACCTCCTTCA GCCACAAGCT TTGAATGCAT GGAGAGACCT GACTACGAGT
    GATCAGCTGC GTGCGGCCAC CATGTTGCTT CATACTGTGG AGGAAAGTGC TTTTGTGCTG
    GCTGATAACC TTTTGAAGAC TGACATTGTC AGGGAGAATA CAGACAATAT TAAATTGGAA
    GTTGCAAGAC TGAGCACAGA AGGAAACTTA GAAGACCTAA AATTTCCAGA AAACATGGGC
    CATGGAAGCA CTATCCAGCT GTCTGCAAAT ACCTTAAAGC AAAATGGCCG AAATGGAGAG
    ATCAGAGTGG CCTTTGTCCT GTATAACAAC TTGGGTCCTT ATTTATCCAC GGAGAATGCC
    AGTATGAAGT TGGGAACGGA AGCTTTGTCC ACAAATCATT CTGTTATTGT CAATTCCCCT
    GTTATTACGG CAGCAATAAA CAAAGAGTTC AGTAACAAGG TTTATTTGGC TGATCCTGTG
    GTATTTACTG TTAAACATAT CAAGCAGTCA GAGGAAAATT TCAACCCTAA CTGTTCATTT
    TGGAGCTACT CCAAGCGTAC AATGACAGGT TATTGGTCAA CACAAGGCTG TCGGCTCCTG
    ACAACAAATA AGACACATAC TACATGCTCT TGTAACCACC TAACAAATTT TGCAGTACTG
    ATGGCACATG TGGAAGTTAA GCACAGTGAT GCGGTCCATG ACCTCCTTCT GGATGTGATC
    ACGTGGGTTG GAATTTTGCT GTCCCTTGTT TGTCTCCTGA TTTGCATCTT CACATTTTGC
    TTTTTCCGGG GGCTCCAGAG TGACCGTAAC ACCATCCACA AGAACCTCTG CATCAGTCTC
    TTTGTAGCAG AGCTGCTCTT CCTGATTGGG ATCAACCGAA CTGACCAACC AATTGCCTGT
    GCTGTTTTCG CTGCCCTGTT ACATTTCTTC TTCTTGGCTG CCTTCACCTG GATGTTCCTG
    GAGGGGGTGC AGCTTTATAT CATGCTGGTG GAGGTTTTTG AGAGTGAACA TTCACGTAGG
    AAATACTTTT ATCTGGTCGG CTATGGGATG CCTGCACTCA TTGTGGCTGT GTCAGCTGCA
    GTAGACTACA GGAGTTATGG AACAGATAAA GTATGTTGGC TCCGACTTGA CACCTACTTC
    ATTTGGAGTT TTATAGGACC AGCAACTTTG ATAATTATGC TTAATGTAAT CTTCCTTGGG
    ATTGCTTTAT ATAAAATGTT TCATCATACT GCTATACTGA AACCTGAATC AGGCTGTCTT
    GATAACATCA ACTATGAGGA TAACAGACCC TTCATCAAGT CATGGGTTAT AGGTGCAATA
    GCTCTTCTCT GCCTATTAGG ATTGACCTGG GCCTTTGGAC TCATGTATAT TAATGAAAGC
    ACAGTCATCA TGGCCTATCT CTTCACCATT TTCAATTCTC TACAGGGAAT GTTTATATTT
    ATTTTCCATT GTGTCCTACA GAAGAAGGTA CGAAAAGAGT ATGGGAAATG CCTGCGAACA
    CATTGCTGTA GTGGCAAAAG TACAGAGAGT TCCATTGGTT CAGGGAAAAC ATCTGGTTCT
    CGAACTCCTG GACGCTACTC CACAGGCTCA CAGAGCCGAA TCCGTAGAAT GTGGAATGAC
    ACGGTTCGAA AGCAGTCAGA GTCTTCCTTT ATTACTGGAG ACATAAACAG TTCAGCGTCA
    CTCAACAGAG AGCCCTACAG AGAGACAAGT ATGGGAGTAA AGCTAAACAT TGCATATCAA
    ATAGGGGCTT CTGAACAATG CCAGGGATAC AAGTGTCATG GATACTCTAC CACTGAATGG
    TAA

    The stop codons will be deleted if pcDNA3.1+/C-(K)DYK vector is selected.

    RefSeq NP_001309175.1
    CDS750..4472
    Translation

    Target ORF information:

    RefSeq Version NM_001322246.1
    Organism Homo sapiens(human)
    Definition Homo sapiens adhesion G protein-coupled receptor L3 (ADGRL3), transcript variant 3, mRNA.

    Target ORF information:

    Epitope DYKDDDDK
    Bacterial selection AMPR
    Mammalian selection NeoR
    Vector pcDNA3.1+/C-(K)DYK
    NM_001322246.1

    ORF Insert Sequence:

    1
    61
    121
    181
    241
    301
    361
    421
    481
    541
    601
    661
    721
    781
    841
    901
    961
    1021
    1081
    1141
    1201
    1261
    1321
    1381
    1441
    1501
    1561
    1621
    1681
    1741
    1801
    1861
    1921
    1981
    2041
    2101
    2161
    2221
    2281
    2341
    2401
    2461
    2521
    2581
    2641
    2701
    2761
    2821
    2881
    2941
    3001
    3061
    3121
    3181
    3241
    3301
    3361
    3421
    3481
    3541
    3601
    3661
    3721
    ATGTGGCCAT CGCAGCTACT AATTTTCATG ATGCTCTTAG CTCCAATAAT TCATGCTTTC 
    AGCCGTGCCC CAATTCCAAT GGCTGTGGTC CGCAGAGAGC TATCCTGTGA GAGCTATCCT
    ATAGAGCTTC GCTGTCCAGG AACAGACGTC ATCATGATAG AAAGTGCCAA CTATGGCAGG
    ACTGATGACA AAATTTGTGA CTCTGACCCT GCTCAGATGG AGAATATCCG ATGTTATCTG
    CCAGATGCCT ATAAGATTAT GTCTCAAAGA TGCAATAACA GAACCCAGTG TGCAGTGGTG
    GCAGGTCCTG ATGTTTTTCC AGACCCGTGT CCAGGAACCT ATAAATACCT TGAAGTGCAG
    TATGAATGTG TCCCTTACAA AGTGGAACAA AAAGTTTTTC TTTGTCCTGG ACTACTAAAA
    GGAGTATACC AGAGTGAACA TTTGTTTGAG TCCGACCACC AATCTGGGGC GTGGTGCAAA
    GACCCTCTGC AGGCATCTGA CAAGATTTAT TATATGCCCT GGACTCCCTA CAGAACTGAT
    ACCCTGACTG AGTATTCATC CAAGGATGAC TTCATTGCTG GAAGACCAAC TACAACCTAC
    AAGCTCCCTC ACAGGGTGGA TGGCACAGGA TTTGTAGTGT ATGATGGAGC TTTGTTCTTC
    AACAAAGAGC GCACCAGGAA CATAGTAAAG TTTGATTTGC GGACTAGGAT AAAGAGTGGA
    GAGGCTATCA TAGCAAATGC CAATTACCAT GATACCTCCC CTTACCGATG GGGAGGCAAA
    TCTGACATAG ACCTGGCAGT AGATGAGAAT GGGCTATGGG TAATCTATGC AACAGAACAA
    AACAATGGTA AAATTGTCAT TAGTCAATTG AACCCTTACA CCCTACGGAT CGAAGGAACA
    TGGGATACTG CATATGATAA AAGGTCAGCT TCCAATGCCT TTATGATTTG TGGAATTCTG
    TATGTGGTCA AATCTGTATA TGAGGATGAT GACAATGAGG CTACTGGAAA TAAGATTGAC
    TACATTTACA ACACTGACCA AAGCAAGGAT AGTTTGGTGG ATGTACCCTT TCCTAATTCA
    TACCAGTACA TTGCAGCTGT GGATTACAAC CCCAGGGACA ACCTACTTTA TGTATGGAAT
    AACTATCACG TCGTGAAATA TTCTTTGGAT TTTGGACCTC TGGATAGTAG ATCAGGGCAG
    GCACATCATG GACAAGTTTC ATACATTTCT CCGCCAATTC ACCTTGACTC TGAGCTAGAA
    AGACCCTCTG TTAAAGATAT CTCTACCACA GGACCTCTTG GCATGGGAAG CACTACCACC
    AGTACCACCC TTCGGACCAC AACTTTGAGC CCAGGAAGGA GTACCACCCC GTCAGTGTCA
    GGAAGAAGAA ACCGGAGTAC TAGTACCCCA TCTCCAGCTG TCGAGGTACT TGATGACATG
    ACCACACACC TTCCATCAGC ATCGTCCCAA ATCCCAGCTC TCGAAGAGAG CTGTGAGGCT
    GTGGAAGCCC GAGAAATCAT GTGGTTTAAG ACTCGTCAAG GACAGATAGC AAAGCAGCCA
    TGCCCTGCAG GAACTATAGG TGTATCAACT TATCTATGCC TTGCTCCTGA TGGAATTTGG
    GATCCCCAAG GTCCAGATCT CAGCAACTGT TCTTCTCCTT GGGTCAATCA TATAACACAG
    AAGTTGAAAT CTGGTGAAAC AGCTGCCAAC ATTGCTAGAG AGCTGGCTGA ACAGACAAGA
    AATCACTTGA ATGCTGGGGA CATCACCTAC TCTGTCCGGG CCATGGACCA GCTGGTAGGC
    CTCCTAGATG TACAGCTTCG GAACTTGACC CCAGGTGGAA AAGATAGTGC TGCCCGGAGT
    TTGAACAAGC TTCAGAAAAG AGAGCGCTCT TGCAGAGCCT ATGTCCAGGC AATGGTCGAG
    ACAGTTAACA ACCTCCTTCA GCCACAAGCT TTGAATGCAT GGAGAGACCT GACTACGAGT
    GATCAGCTGC GTGCGGCCAC CATGTTGCTT CATACTGTGG AGGAAAGTGC TTTTGTGCTG
    GCTGATAACC TTTTGAAGAC TGACATTGTC AGGGAGAATA CAGACAATAT TAAATTGGAA
    GTTGCAAGAC TGAGCACAGA AGGAAACTTA GAAGACCTAA AATTTCCAGA AAACATGGGC
    CATGGAAGCA CTATCCAGCT GTCTGCAAAT ACCTTAAAGC AAAATGGCCG AAATGGAGAG
    ATCAGAGTGG CCTTTGTCCT GTATAACAAC TTGGGTCCTT ATTTATCCAC GGAGAATGCC
    AGTATGAAGT TGGGAACGGA AGCTTTGTCC ACAAATCATT CTGTTATTGT CAATTCCCCT
    GTTATTACGG CAGCAATAAA CAAAGAGTTC AGTAACAAGG TTTATTTGGC TGATCCTGTG
    GTATTTACTG TTAAACATAT CAAGCAGTCA GAGGAAAATT TCAACCCTAA CTGTTCATTT
    TGGAGCTACT CCAAGCGTAC AATGACAGGT TATTGGTCAA CACAAGGCTG TCGGCTCCTG
    ACAACAAATA AGACACATAC TACATGCTCT TGTAACCACC TAACAAATTT TGCAGTACTG
    ATGGCACATG TGGAAGTTAA GCACAGTGAT GCGGTCCATG ACCTCCTTCT GGATGTGATC
    ACGTGGGTTG GAATTTTGCT GTCCCTTGTT TGTCTCCTGA TTTGCATCTT CACATTTTGC
    TTTTTCCGGG GGCTCCAGAG TGACCGTAAC ACCATCCACA AGAACCTCTG CATCAGTCTC
    TTTGTAGCAG AGCTGCTCTT CCTGATTGGG ATCAACCGAA CTGACCAACC AATTGCCTGT
    GCTGTTTTCG CTGCCCTGTT ACATTTCTTC TTCTTGGCTG CCTTCACCTG GATGTTCCTG
    GAGGGGGTGC AGCTTTATAT CATGCTGGTG GAGGTTTTTG AGAGTGAACA TTCACGTAGG
    AAATACTTTT ATCTGGTCGG CTATGGGATG CCTGCACTCA TTGTGGCTGT GTCAGCTGCA
    GTAGACTACA GGAGTTATGG AACAGATAAA GTATGTTGGC TCCGACTTGA CACCTACTTC
    ATTTGGAGTT TTATAGGACC AGCAACTTTG ATAATTATGC TTAATGTAAT CTTCCTTGGG
    ATTGCTTTAT ATAAAATGTT TCATCATACT GCTATACTGA AACCTGAATC AGGCTGTCTT
    GATAACATCA ACTATGAGGA TAACAGACCC TTCATCAAGT CATGGGTTAT AGGTGCAATA
    GCTCTTCTCT GCCTATTAGG ATTGACCTGG GCCTTTGGAC TCATGTATAT TAATGAAAGC
    ACAGTCATCA TGGCCTATCT CTTCACCATT TTCAATTCTC TACAGGGAAT GTTTATATTT
    ATTTTCCATT GTGTCCTACA GAAGAAGGTA CGAAAAGAGT ATGGGAAATG CCTGCGAACA
    CATTGCTGTA GTGGCAAAAG TACAGAGAGT TCCATTGGTT CAGGGAAAAC ATCTGGTTCT
    CGAACTCCTG GACGCTACTC CACAGGCTCA CAGAGCCGAA TCCGTAGAAT GTGGAATGAC
    ACGGTTCGAA AGCAGTCAGA GTCTTCCTTT ATTACTGGAG ACATAAACAG TTCAGCGTCA
    CTCAACAGAG AGCCCTACAG AGAGACAAGT ATGGGAGTAA AGCTAAACAT TGCATATCAA
    ATAGGGGCTT CTGAACAATG CCAGGGATAC AAGTGTCATG GATACTCTAC CACTGAATGG
    TAA

    The stop codons will be deleted if pcDNA3.1+/C-(K)DYK vector is selected.

    CloneID OHu100291
    Clone ID Related Accession (Same CDS sequence) NM_001322246.1 , NM_001322246.2
    Accession Version NM_001322246.2 Latest version! Documents for ORF clone product in default vector
    Sequence Information ORF Nucleotide Sequence (Length: 3723bp)
    Protein sequence
    SNP
    Vector pcDNA3.1-C-(k)DYK or customized vector User Manual
    Clone information Clone Map MSDS
    Tag on pcDNA3.1+/C-(K)DYK C terminal DYKDDDDK tags
    ORF Insert Method CloneEZ™ Seamless cloning technology
    Insert Structure linear
    Update Date 2019-08-20
    Organism Homo sapiens(human)
    Product adhesion G protein-coupled receptor L3 isoform 3 precursor
    Comment Comment: REVIEWED REFSEQ: This record has been curated by NCBI staff. The reference sequence was derived from AC092643.2, AK309793.1, AF307080.1, DA808156.1, AB018311.1, AC007511.8 and BF511741.1. On Jun 2, 2019 this sequence version replaced NM_001322246.1. Transcript Variant: This variant (3) lacks an in-frame coding exon in the 5' region and contains a novel exon in the 3' coding region; the latter causes a frameshift compared to variant 1. The resulting isoform (3) is shorter missing an internal protein segment in the 5' region and has a distinct C-terminus compared to isoform 1. Sequence Note: This RefSeq record was created from transcript and genomic sequence data to make the sequence consistent with the reference genome assembly. The genomic coordinates used for the transcript record were based on transcript alignments. Publication Note: This RefSeq record includes a subset of the publications that are available for this gene. Please see the Gene record to access additional publications. ##Evidence-Data-START## RNAseq introns :: single sample supports all introns SAMEA2145743, SAMEA2157437 [ECO:0000348] ##Evidence-Data-END## COMPLETENESS: complete on the 3' end.

    1
    61
    121
    181
    241
    301
    361
    421
    481
    541
    601
    661
    721
    781
    841
    901
    961
    1021
    1081
    1141
    1201
    1261
    1321
    1381
    1441
    1501
    1561
    1621
    1681
    1741
    1801
    1861
    1921
    1981
    2041
    2101
    2161
    2221
    2281
    2341
    2401
    2461
    2521
    2581
    2641
    2701
    2761
    2821
    2881
    2941
    3001
    3061
    3121
    3181
    3241
    3301
    3361
    3421
    3481
    3541
    3601
    3661
    3721
    ATGTGGCCAT CGCAGCTACT AATTTTCATG ATGCTCTTAG CTCCAATAAT TCATGCTTTC 
    AGCCGTGCCC CAATTCCAAT GGCTGTGGTC CGCAGAGAGC TATCCTGTGA GAGCTATCCT
    ATAGAGCTTC GCTGTCCAGG AACAGACGTC ATCATGATAG AAAGTGCCAA CTATGGCAGG
    ACTGATGACA AAATTTGTGA CTCTGACCCT GCTCAGATGG AGAATATCCG ATGTTATCTG
    CCAGATGCCT ATAAGATTAT GTCTCAAAGA TGCAATAACA GAACCCAGTG TGCAGTGGTG
    GCAGGTCCTG ATGTTTTTCC AGACCCGTGT CCAGGAACCT ATAAATACCT TGAAGTGCAG
    TATGAATGTG TCCCTTACAA AGTGGAACAA AAAGTTTTTC TTTGTCCTGG ACTACTAAAA
    GGAGTATACC AGAGTGAACA TTTGTTTGAG TCCGACCACC AATCTGGGGC GTGGTGCAAA
    GACCCTCTGC AGGCATCTGA CAAGATTTAT TATATGCCCT GGACTCCCTA CAGAACTGAT
    ACCCTGACTG AGTATTCATC CAAGGATGAC TTCATTGCTG GAAGACCAAC TACAACCTAC
    AAGCTCCCTC ACAGGGTGGA TGGCACAGGA TTTGTAGTGT ATGATGGAGC TTTGTTCTTC
    AACAAAGAGC GCACCAGGAA CATAGTAAAG TTTGATTTGC GGACTAGGAT AAAGAGTGGA
    GAGGCTATCA TAGCAAATGC CAATTACCAT GATACCTCCC CTTACCGATG GGGAGGCAAA
    TCTGACATAG ACCTGGCAGT AGATGAGAAT GGGCTATGGG TAATCTATGC AACAGAACAA
    AACAATGGTA AAATTGTCAT TAGTCAATTG AACCCTTACA CCCTACGGAT CGAAGGAACA
    TGGGATACTG CATATGATAA AAGGTCAGCT TCCAATGCCT TTATGATTTG TGGAATTCTG
    TATGTGGTCA AATCTGTATA TGAGGATGAT GACAATGAGG CTACTGGAAA TAAGATTGAC
    TACATTTACA ACACTGACCA AAGCAAGGAT AGTTTGGTGG ATGTACCCTT TCCTAATTCA
    TACCAGTACA TTGCAGCTGT GGATTACAAC CCCAGGGACA ACCTACTTTA TGTATGGAAT
    AACTATCACG TCGTGAAATA TTCTTTGGAT TTTGGACCTC TGGATAGTAG ATCAGGGCAG
    GCACATCATG GACAAGTTTC ATACATTTCT CCGCCAATTC ACCTTGACTC TGAGCTAGAA
    AGACCCTCTG TTAAAGATAT CTCTACCACA GGACCTCTTG GCATGGGAAG CACTACCACC
    AGTACCACCC TTCGGACCAC AACTTTGAGC CCAGGAAGGA GTACCACCCC GTCAGTGTCA
    GGAAGAAGAA ACCGGAGTAC TAGTACCCCA TCTCCAGCTG TCGAGGTACT TGATGACATG
    ACCACACACC TTCCATCAGC ATCGTCCCAA ATCCCAGCTC TCGAAGAGAG CTGTGAGGCT
    GTGGAAGCCC GAGAAATCAT GTGGTTTAAG ACTCGTCAAG GACAGATAGC AAAGCAGCCA
    TGCCCTGCAG GAACTATAGG TGTATCAACT TATCTATGCC TTGCTCCTGA TGGAATTTGG
    GATCCCCAAG GTCCAGATCT CAGCAACTGT TCTTCTCCTT GGGTCAATCA TATAACACAG
    AAGTTGAAAT CTGGTGAAAC AGCTGCCAAC ATTGCTAGAG AGCTGGCTGA ACAGACAAGA
    AATCACTTGA ATGCTGGGGA CATCACCTAC TCTGTCCGGG CCATGGACCA GCTGGTAGGC
    CTCCTAGATG TACAGCTTCG GAACTTGACC CCAGGTGGAA AAGATAGTGC TGCCCGGAGT
    TTGAACAAGC TTCAGAAAAG AGAGCGCTCT TGCAGAGCCT ATGTCCAGGC AATGGTCGAG
    ACAGTTAACA ACCTCCTTCA GCCACAAGCT TTGAATGCAT GGAGAGACCT GACTACGAGT
    GATCAGCTGC GTGCGGCCAC CATGTTGCTT CATACTGTGG AGGAAAGTGC TTTTGTGCTG
    GCTGATAACC TTTTGAAGAC TGACATTGTC AGGGAGAATA CAGACAATAT TAAATTGGAA
    GTTGCAAGAC TGAGCACAGA AGGAAACTTA GAAGACCTAA AATTTCCAGA AAACATGGGC
    CATGGAAGCA CTATCCAGCT GTCTGCAAAT ACCTTAAAGC AAAATGGCCG AAATGGAGAG
    ATCAGAGTGG CCTTTGTCCT GTATAACAAC TTGGGTCCTT ATTTATCCAC GGAGAATGCC
    AGTATGAAGT TGGGAACGGA AGCTTTGTCC ACAAATCATT CTGTTATTGT CAATTCCCCT
    GTTATTACGG CAGCAATAAA CAAAGAGTTC AGTAACAAGG TTTATTTGGC TGATCCTGTG
    GTATTTACTG TTAAACATAT CAAGCAGTCA GAGGAAAATT TCAACCCTAA CTGTTCATTT
    TGGAGCTACT CCAAGCGTAC AATGACAGGT TATTGGTCAA CACAAGGCTG TCGGCTCCTG
    ACAACAAATA AGACACATAC TACATGCTCT TGTAACCACC TAACAAATTT TGCAGTACTG
    ATGGCACATG TGGAAGTTAA GCACAGTGAT GCGGTCCATG ACCTCCTTCT GGATGTGATC
    ACGTGGGTTG GAATTTTGCT GTCCCTTGTT TGTCTCCTGA TTTGCATCTT CACATTTTGC
    TTTTTCCGGG GGCTCCAGAG TGACCGTAAC ACCATCCACA AGAACCTCTG CATCAGTCTC
    TTTGTAGCAG AGCTGCTCTT CCTGATTGGG ATCAACCGAA CTGACCAACC AATTGCCTGT
    GCTGTTTTCG CTGCCCTGTT ACATTTCTTC TTCTTGGCTG CCTTCACCTG GATGTTCCTG
    GAGGGGGTGC AGCTTTATAT CATGCTGGTG GAGGTTTTTG AGAGTGAACA TTCACGTAGG
    AAATACTTTT ATCTGGTCGG CTATGGGATG CCTGCACTCA TTGTGGCTGT GTCAGCTGCA
    GTAGACTACA GGAGTTATGG AACAGATAAA GTATGTTGGC TCCGACTTGA CACCTACTTC
    ATTTGGAGTT TTATAGGACC AGCAACTTTG ATAATTATGC TTAATGTAAT CTTCCTTGGG
    ATTGCTTTAT ATAAAATGTT TCATCATACT GCTATACTGA AACCTGAATC AGGCTGTCTT
    GATAACATCA ACTATGAGGA TAACAGACCC TTCATCAAGT CATGGGTTAT AGGTGCAATA
    GCTCTTCTCT GCCTATTAGG ATTGACCTGG GCCTTTGGAC TCATGTATAT TAATGAAAGC
    ACAGTCATCA TGGCCTATCT CTTCACCATT TTCAATTCTC TACAGGGAAT GTTTATATTT
    ATTTTCCATT GTGTCCTACA GAAGAAGGTA CGAAAAGAGT ATGGGAAATG CCTGCGAACA
    CATTGCTGTA GTGGCAAAAG TACAGAGAGT TCCATTGGTT CAGGGAAAAC ATCTGGTTCT
    CGAACTCCTG GACGCTACTC CACAGGCTCA CAGAGCCGAA TCCGTAGAAT GTGGAATGAC
    ACGGTTCGAA AGCAGTCAGA GTCTTCCTTT ATTACTGGAG ACATAAACAG TTCAGCGTCA
    CTCAACAGAG AGCCCTACAG AGAGACAAGT ATGGGAGTAA AGCTAAACAT TGCATATCAA
    ATAGGGGCTT CTGAACAATG CCAGGGATAC AAGTGTCATG GATACTCTAC CACTGAATGG
    TAA

    The stop codons will be deleted if pcDNA3.1+/C-(K)DYK vector is selected.

    RefSeq NP_001309175.1
    CDS776..4498
    Translation

    Target ORF information:

    RefSeq Version NM_001322246.2
    Organism Homo sapiens(human)
    Definition Homo sapiens adhesion G protein-coupled receptor L3 (ADGRL3), transcript variant 3, mRNA.

    Target ORF information:

    Epitope DYKDDDDK
    Bacterial selection AMPR
    Mammalian selection NeoR
    Vector pcDNA3.1+/C-(K)DYK
    NM_001322246.2

    ORF Insert Sequence:

    1
    61
    121
    181
    241
    301
    361
    421
    481
    541
    601
    661
    721
    781
    841
    901
    961
    1021
    1081
    1141
    1201
    1261
    1321
    1381
    1441
    1501
    1561
    1621
    1681
    1741
    1801
    1861
    1921
    1981
    2041
    2101
    2161
    2221
    2281
    2341
    2401
    2461
    2521
    2581
    2641
    2701
    2761
    2821
    2881
    2941
    3001
    3061
    3121
    3181
    3241
    3301
    3361
    3421
    3481
    3541
    3601
    3661
    3721
    ATGTGGCCAT CGCAGCTACT AATTTTCATG ATGCTCTTAG CTCCAATAAT TCATGCTTTC 
    AGCCGTGCCC CAATTCCAAT GGCTGTGGTC CGCAGAGAGC TATCCTGTGA GAGCTATCCT
    ATAGAGCTTC GCTGTCCAGG AACAGACGTC ATCATGATAG AAAGTGCCAA CTATGGCAGG
    ACTGATGACA AAATTTGTGA CTCTGACCCT GCTCAGATGG AGAATATCCG ATGTTATCTG
    CCAGATGCCT ATAAGATTAT GTCTCAAAGA TGCAATAACA GAACCCAGTG TGCAGTGGTG
    GCAGGTCCTG ATGTTTTTCC AGACCCGTGT CCAGGAACCT ATAAATACCT TGAAGTGCAG
    TATGAATGTG TCCCTTACAA AGTGGAACAA AAAGTTTTTC TTTGTCCTGG ACTACTAAAA
    GGAGTATACC AGAGTGAACA TTTGTTTGAG TCCGACCACC AATCTGGGGC GTGGTGCAAA
    GACCCTCTGC AGGCATCTGA CAAGATTTAT TATATGCCCT GGACTCCCTA CAGAACTGAT
    ACCCTGACTG AGTATTCATC CAAGGATGAC TTCATTGCTG GAAGACCAAC TACAACCTAC
    AAGCTCCCTC ACAGGGTGGA TGGCACAGGA TTTGTAGTGT ATGATGGAGC TTTGTTCTTC
    AACAAAGAGC GCACCAGGAA CATAGTAAAG TTTGATTTGC GGACTAGGAT AAAGAGTGGA
    GAGGCTATCA TAGCAAATGC CAATTACCAT GATACCTCCC CTTACCGATG GGGAGGCAAA
    TCTGACATAG ACCTGGCAGT AGATGAGAAT GGGCTATGGG TAATCTATGC AACAGAACAA
    AACAATGGTA AAATTGTCAT TAGTCAATTG AACCCTTACA CCCTACGGAT CGAAGGAACA
    TGGGATACTG CATATGATAA AAGGTCAGCT TCCAATGCCT TTATGATTTG TGGAATTCTG
    TATGTGGTCA AATCTGTATA TGAGGATGAT GACAATGAGG CTACTGGAAA TAAGATTGAC
    TACATTTACA ACACTGACCA AAGCAAGGAT AGTTTGGTGG ATGTACCCTT TCCTAATTCA
    TACCAGTACA TTGCAGCTGT GGATTACAAC CCCAGGGACA ACCTACTTTA TGTATGGAAT
    AACTATCACG TCGTGAAATA TTCTTTGGAT TTTGGACCTC TGGATAGTAG ATCAGGGCAG
    GCACATCATG GACAAGTTTC ATACATTTCT CCGCCAATTC ACCTTGACTC TGAGCTAGAA
    AGACCCTCTG TTAAAGATAT CTCTACCACA GGACCTCTTG GCATGGGAAG CACTACCACC
    AGTACCACCC TTCGGACCAC AACTTTGAGC CCAGGAAGGA GTACCACCCC GTCAGTGTCA
    GGAAGAAGAA ACCGGAGTAC TAGTACCCCA TCTCCAGCTG TCGAGGTACT TGATGACATG
    ACCACACACC TTCCATCAGC ATCGTCCCAA ATCCCAGCTC TCGAAGAGAG CTGTGAGGCT
    GTGGAAGCCC GAGAAATCAT GTGGTTTAAG ACTCGTCAAG GACAGATAGC AAAGCAGCCA
    TGCCCTGCAG GAACTATAGG TGTATCAACT TATCTATGCC TTGCTCCTGA TGGAATTTGG
    GATCCCCAAG GTCCAGATCT CAGCAACTGT TCTTCTCCTT GGGTCAATCA TATAACACAG
    AAGTTGAAAT CTGGTGAAAC AGCTGCCAAC ATTGCTAGAG AGCTGGCTGA ACAGACAAGA
    AATCACTTGA ATGCTGGGGA CATCACCTAC TCTGTCCGGG CCATGGACCA GCTGGTAGGC
    CTCCTAGATG TACAGCTTCG GAACTTGACC CCAGGTGGAA AAGATAGTGC TGCCCGGAGT
    TTGAACAAGC TTCAGAAAAG AGAGCGCTCT TGCAGAGCCT ATGTCCAGGC AATGGTCGAG
    ACAGTTAACA ACCTCCTTCA GCCACAAGCT TTGAATGCAT GGAGAGACCT GACTACGAGT
    GATCAGCTGC GTGCGGCCAC CATGTTGCTT CATACTGTGG AGGAAAGTGC TTTTGTGCTG
    GCTGATAACC TTTTGAAGAC TGACATTGTC AGGGAGAATA CAGACAATAT TAAATTGGAA
    GTTGCAAGAC TGAGCACAGA AGGAAACTTA GAAGACCTAA AATTTCCAGA AAACATGGGC
    CATGGAAGCA CTATCCAGCT GTCTGCAAAT ACCTTAAAGC AAAATGGCCG AAATGGAGAG
    ATCAGAGTGG CCTTTGTCCT GTATAACAAC TTGGGTCCTT ATTTATCCAC GGAGAATGCC
    AGTATGAAGT TGGGAACGGA AGCTTTGTCC ACAAATCATT CTGTTATTGT CAATTCCCCT
    GTTATTACGG CAGCAATAAA CAAAGAGTTC AGTAACAAGG TTTATTTGGC TGATCCTGTG
    GTATTTACTG TTAAACATAT CAAGCAGTCA GAGGAAAATT TCAACCCTAA CTGTTCATTT
    TGGAGCTACT CCAAGCGTAC AATGACAGGT TATTGGTCAA CACAAGGCTG TCGGCTCCTG
    ACAACAAATA AGACACATAC TACATGCTCT TGTAACCACC TAACAAATTT TGCAGTACTG
    ATGGCACATG TGGAAGTTAA GCACAGTGAT GCGGTCCATG ACCTCCTTCT GGATGTGATC
    ACGTGGGTTG GAATTTTGCT GTCCCTTGTT TGTCTCCTGA TTTGCATCTT CACATTTTGC
    TTTTTCCGGG GGCTCCAGAG TGACCGTAAC ACCATCCACA AGAACCTCTG CATCAGTCTC
    TTTGTAGCAG AGCTGCTCTT CCTGATTGGG ATCAACCGAA CTGACCAACC AATTGCCTGT
    GCTGTTTTCG CTGCCCTGTT ACATTTCTTC TTCTTGGCTG CCTTCACCTG GATGTTCCTG
    GAGGGGGTGC AGCTTTATAT CATGCTGGTG GAGGTTTTTG AGAGTGAACA TTCACGTAGG
    AAATACTTTT ATCTGGTCGG CTATGGGATG CCTGCACTCA TTGTGGCTGT GTCAGCTGCA
    GTAGACTACA GGAGTTATGG AACAGATAAA GTATGTTGGC TCCGACTTGA CACCTACTTC
    ATTTGGAGTT TTATAGGACC AGCAACTTTG ATAATTATGC TTAATGTAAT CTTCCTTGGG
    ATTGCTTTAT ATAAAATGTT TCATCATACT GCTATACTGA AACCTGAATC AGGCTGTCTT
    GATAACATCA ACTATGAGGA TAACAGACCC TTCATCAAGT CATGGGTTAT AGGTGCAATA
    GCTCTTCTCT GCCTATTAGG ATTGACCTGG GCCTTTGGAC TCATGTATAT TAATGAAAGC
    ACAGTCATCA TGGCCTATCT CTTCACCATT TTCAATTCTC TACAGGGAAT GTTTATATTT
    ATTTTCCATT GTGTCCTACA GAAGAAGGTA CGAAAAGAGT ATGGGAAATG CCTGCGAACA
    CATTGCTGTA GTGGCAAAAG TACAGAGAGT TCCATTGGTT CAGGGAAAAC ATCTGGTTCT
    CGAACTCCTG GACGCTACTC CACAGGCTCA CAGAGCCGAA TCCGTAGAAT GTGGAATGAC
    ACGGTTCGAA AGCAGTCAGA GTCTTCCTTT ATTACTGGAG ACATAAACAG TTCAGCGTCA
    CTCAACAGAG AGCCCTACAG AGAGACAAGT ATGGGAGTAA AGCTAAACAT TGCATATCAA
    ATAGGGGCTT CTGAACAATG CCAGGGATAC AAGTGTCATG GATACTCTAC CACTGAATGG
    TAA

    The stop codons will be deleted if pcDNA3.1+/C-(K)DYK vector is selected.

    CloneID OHu108803
    Clone ID Related Accession (Same CDS sequence) NM_001371346.1
    Accession Version NM_001371346.1 Latest version! Documents for ORF clone product in default vector
    Sequence Information ORF Nucleotide Sequence (Length: 4368bp)
    Protein sequence
    SNP
    Vector pcDNA3.1-C-(k)DYK or customized vector User Manual
    Clone information Clone Map MSDS
    Tag on pcDNA3.1+/C-(K)DYK C terminal DYKDDDDK tags
    ORF Insert Method CloneEZ™ Seamless cloning technology
    Insert Structure linear
    Update Date 2019-08-20
    Organism Homo sapiens(human)
    Product adhesion G protein-coupled receptor L3 isoform 8 precursor
    Comment Comment: REVIEWED REFSEQ: This record has been curated by NCBI staff. The reference sequence was derived from AC092643.2, AC020741.4, AC092668.2, AC108161.4, AC096723.3, AC092663.2 and AC007511.8. Sequence Note: The RefSeq transcript and protein were derived from genomic sequence to make the sequence consistent with the reference genome assembly. The genomic coordinates used for the transcript record were based on alignments. Publication Note: This RefSeq record includes a subset of the publications that are available for this gene. Please see the Gene record to access additional publications. ##Evidence-Data-START## Transcript exon combination :: SRR1803615.25926.1 [ECO:0000332] ##Evidence-Data-END## COMPLETENESS: complete on the 3' end.

    1
    61
    121
    181
    241
    301
    361
    421
    481
    541
    601
    661
    721
    781
    841
    901
    961
    1021
    1081
    1141
    1201
    1261
    1321
    1381
    1441
    1501
    1561
    1621
    1681
    1741
    1801
    1861
    1921
    1981
    2041
    2101
    2161
    2221
    2281
    2341
    2401
    2461
    2521
    2581
    2641
    2701
    2761
    2821
    2881
    2941
    3001
    3061
    3121
    3181
    3241
    3301
    3361
    3421
    3481
    3541
    3601
    3661
    3721
    3781
    3841
    3901
    3961
    4021
    4081
    4141
    4201
    4261
    4321
    ATGTGGCCAT CGCAGCTACT AATTTTCATG ATGCTCTTAG CTCCAATAAT TCATGCTTTC 
    AGCCGTGCCC CAATTCCAAT GGCTGTGGTC CGCAGAGAGC TATCCTGTGA GAGCTATCCT
    ATAGAGCTTC GCTGTCCAGG AACAGACGTC ATCATGATAG AAAGTGCCAA CTATGGCAGG
    ACTGATGACA AAATTTGTGA CTCTGACCCT GCTCAGATGG AGAATATCCG ATGTTATCTG
    CCAGATGCCT ATAAGATTAT GTCTCAAAGA TGCAATAACA GAACCCAGTG TGCAGTGGTG
    GCAGGTCCTG ATGTTTTTCC AGACCCGTGT CCAGGAACCT ATAAATACCT TGAAGTGCAG
    TATGAATGTG TCCCTTACAT TTTTCTTTGT CCTGGACTAC TAAAAGGAGT ATACCAGAGT
    GAACATTTGT TTGAGTCCGA CCACCAATCT GGGGCGTGGT GCAAAGACCC TCTGCAGGCA
    TCTGACAAGA TTTATTATAT GCCCTGGACT CCCTACAGAA CTGATACCCT GACTGAGTAT
    TCATCCAAGG ATGACTTCAT TGCTGGAAGA CCAACTACAA CCTACAAGCT CCCTCACAGG
    GTGGATGGCA CAGGATTTGT AGTGTATGAT GGAGCTTTGT TCTTCAACAA AGAGCGCACC
    AGGAACATAG TAAAGTTTGA TTTGCGGACT AGGATAAAGA GTGGAGAGGC TATCATAGCA
    AATGCCAATT ACCATGATAC CTCCCCTTAC CGATGGGGAG GCAAATCTGA CATAGACCTG
    GCAGTAGATG AGAATGGGCT ATGGGTAATC TATGCAACAG AACAAAACAA TGGTAAAATT
    GTCATTAGTC AATTGAACCC TTACACCCTA CGGATCGAAG GAACATGGGA TACTGCATAT
    GATAAAAGGT CAGCTTCCAA TGCCTTTATG ATTTGTGGAA TTCTGTATGT GGTCAAATCT
    GTATATGAGG ATGATGACAA TGAGGCTACT GGAAATAAGA TTGACTACAT TTACAACACT
    GACCAAAGCA AGGATAGTTT GGTGGATGTA CCCTTTCCTA ATTCATACCA GTACATTGCA
    GCTGTGGATT ACAACCCCAG GGACAACCTA CTTTATGTAT GGAATAACTA TCACGTCGTG
    AAATATTCTT TGGATTTTGG ACCTCTGGAT AGTAGATCAG GGCAGGCACA TCATGGACAA
    GTTTCATACA TTTCTCCGCC AATTCACCTT GACTCTGAGC TAGAAAGACC CTCTGTTAAA
    GATATCTCTA CCACAGGACC TCTTGGCATG GGAAGCACTA CCACCAGTAC CACCCTTCGG
    ACCACAACTT TGAGCCCAGG AAGGAGTACC ACCCCGTCAG TGTCAGGAAG AAGAAACCGG
    AGTACTAGTA CCCCATCTCC AGCTGTCGAG GTACTTGATG ACATGACCAC ACACCTTCCA
    TCAGCATCGT CCCAAATCCC AGCTCTCGAA GAGAGCTGTG AGGCTGTGGA AGCCCGAGAA
    ATCATGTGGT TTAAGACTCG TCAAGGACAG ATAGCAAAGC AGCCATGCCC TGCAGGAACT
    ATAGGTGTAT CAACTTATCT ATGCCTTGCT CCTGATGGAA TTTGGGATCC CCAAGGTCCA
    GATCTCAGCA ACTGTTCTTC TCCTTGGGTC AATCATATAA CACAGAAGTT GAAATCTGGT
    GAAACAGCTG CCAACATTGC TAGAGAGCTG GCTGAACAGA CAAGAAATCA CTTGAATGCT
    GGGGACATCA CCTACTCTGT CCGGGCCATG GACCAGCTGG TAGGCCTCCT AGATGTACAG
    CTTCGGAACT TGACCCCAGG TGGAAAAGAT AGTGCTGCCC GGAGTTTGAA CAAGCTTCAG
    AAAAGAGAGC GCTCTTGCAG AGCCTATGTC CAGGCAATGG TCGAGACAGT TAACAACCTC
    CTTCAGCCAC AAGCTTTGAA TGCATGGAGA GACCTGACTA CGAGTGATCA GCTGCGTGCG
    GCCACCATGT TGCTTCATAC TGTGGAGGAA AGTGCTTTTG TGCTGGCTGA TAACCTTTTG
    AAGACTGACA TTGTCAGGGA GAATACAGAC AATATTAAAT TGGAAGTTGC AAGACTGAGC
    ACAGAAGGAA ACTTAGAAGA CCTAAAATTT CCAGAAAACA TGGGCCATGG AAGCACTATC
    CAGCTGTCTG CAAATACCTT AAAGCAAAAT GGCCGAAATG GAGAGATCAG AGTGGCCTTT
    GTCCTGTATA ACAACTTGGG TCCTTATTTA TCCACGGAGA ATGCCAGTAT GAAGTTGGGA
    ACGGAAGCTT TGTCCACAAA TCATTCTGTT ATTGTCAATT CCCCTGTTAT TACGGCAGCA
    ATAAACAAAG AGTTCAGTAA CAAGGTTTAT TTGGCTGATC CTGTGGTATT TACTGTTAAA
    CATATCAAGC AGTCAGAGGA AAATTTCAAC CCTAACTGTT CATTTTGGAG CTACTCCAAG
    CGTACAATGA CAGGTTATTG GTCAACACAA GGCTGTCGGC TCCTGACAAC AAATAAGACA
    CATACTACAT GCTCTTGTAA CCACCTAACA AATTTTGCAG TACTGATGGC ACATGTGGAA
    GTTAAGCACA GTGATGCGGT CCATGACCTC CTTCTGGATG TGATCACGTG GGTTGGAATT
    TTGCTGTCCC TTGTTTGTCT CCTGATTTGC ATCTTCACAT TTTGCTTTTT CCGGGGGCTC
    CAGAGTGACC GTAACACCAT CCACAAGAAC CTCTGCATCA GTCTCTTTGT AGCAGAGCTG
    CTCTTCCTGA TTGGGATCAA CCGAACTGAC CAACCAATTG CCTGTGCTGT TTTCGCTGCC
    CTGTTACATT TCTTCTTCTT GGCTGCCTTC ACCTGGATGT TCCTGGAGGG GGTGCAGCTT
    TATATCATGC TGGTGGAGGT TTTTGAGAGT GAACATTCAC GTAGGAAATA CTTTTATCTG
    GTCGGCTATG GGATGCCTGC ACTCATTGTG GCTGTGTCAG CTGCAGTAGA CTACAGGAGT
    TATGGAACAG ATAAAGTATG TTGGCTCCGA CTTGACACCT ACTTCATTTG GAGTTTTATA
    GGACCAGCAA CTTTGATAAT TATGCTTAAT GTAATCTTCC TTGGGATTGC TTTATATAAA
    ATGTTTCATC ATACTGCTAT ACTGAAACCT GAATCAGGCT GTCTTGATAA CATCAAGTCA
    TGGGTTATAG GTGCAATAGC TCTTCTCTGC CTATTAGGAT TGACCTGGGC CTTTGGACTC
    ATGTATATTA ATGAAAGCAC AGTCATCATG GCCTATCTCT TCACCATTTT CAATTCTCTA
    CAGGGAATGT TTATATTTAT TTTCCATTGT GTCCTACAGA AGAAGGTACG AAAAGAGTAT
    GGGAAATGCC TGCGAACACA TTGCTGTAGT GGCAAAAGTA CAGAGAGTTC CATTGGTTCA
    GGGAAAACAT CTGGTTCTCG AACTCCTGGA CGCTACTCCA CAGGCTCACA GAGCCGAATC
    CGTAGAATGT GGAATGACAC GGTTCGAAAG CAGTCAGAGT CTTCCTTTAT TACTGGAGAC
    ATAAACAGTT CAGCGTCACT CAACAGAGAG GGGCTTCTGA ACAATGCCAG GGATACAAGT
    GTCATGGATA CTCTACCACT GAATGGTAAC CATGGCAATA GTTACAGCAT TGCCAGCGGC
    GAATACCTGA GCAACTGTGT GCAAATCATA GACCGTGGCT ATAACCATAA CGAGACCGCC
    CTAGAGAAAA AGATTCTGAA GGAACTCACT TCCAACTATA TCCCTTCTTA CCTGAACAAC
    CATGAGCGCT CCAGTGAACA GAACAGGAAT CTGATGAACA AGCTGGTGAA TAACCTTGGC
    AGTGGAAGGG AAGATGATGC CATTGTCCTG GATGATGCCA CCTCGTTTAA CCACGAGGAG
    AGTTTGGGCC TGGAACTCAT TCATGAGGAA TCTGATGCTC CTTTGCTGCC CCCAAGAGTA
    TACTCCACCG AGAACCACCA GCCACACCAT TATACCAGAA GGCGGATCCC CCAAGACCAC
    AGTGAGAGCT TTTTCCCTTT GCTAACCAAC GAGCACACAG AAGATCTCCA GTCACCCCAT
    AGAGACTCTC TCTATACCAG CATGCCGACA CTGGCTGGTG TGGCCGCCAC AGAGAGTGTT
    ACCACCAGCA CCCAGACCGA ACCCCCACCG GCCAAATGTG GTGATGCCGA AGATGTTTAC
    TACAAAAGCA TGCCAAACCT AGGCTCCAGA AACCACGTCC ATCAGCTGCA TACTTACTAC
    CAGCTAGGTC GCGGCAGCAG TGATGGATTT ATAGTTCCTC CAAACAAAGA TGGGACCCCT
    CCCGAGGGAA GTTCAAAAGG ACCGGCTCAT TTGGTCACTA GTCTATAG

    The stop codons will be deleted if pcDNA3.1+/C-(K)DYK vector is selected.

    RefSeq NP_001358275.1
    CDS710..5077
    Translation

    Target ORF information:

    RefSeq Version NM_001371346.1
    Organism Homo sapiens(human)
    Definition Homo sapiens adhesion G protein-coupled receptor L3 (ADGRL3), transcript variant 8, mRNA.

    Target ORF information:

    Epitope DYKDDDDK
    Bacterial selection AMPR
    Mammalian selection NeoR
    Vector pcDNA3.1+/C-(K)DYK
    NM_001371346.1

    ORF Insert Sequence:

    1
    61
    121
    181
    241
    301
    361
    421
    481
    541
    601
    661
    721
    781
    841
    901
    961
    1021
    1081
    1141
    1201
    1261
    1321
    1381
    1441
    1501
    1561
    1621
    1681
    1741
    1801
    1861
    1921
    1981
    2041
    2101
    2161
    2221
    2281
    2341
    2401
    2461
    2521
    2581
    2641
    2701
    2761
    2821
    2881
    2941
    3001
    3061
    3121
    3181
    3241
    3301
    3361
    3421
    3481
    3541
    3601
    3661
    3721
    3781
    3841
    3901
    3961
    4021
    4081
    4141
    4201
    4261
    4321
    ATGTGGCCAT CGCAGCTACT AATTTTCATG ATGCTCTTAG CTCCAATAAT TCATGCTTTC 
    AGCCGTGCCC CAATTCCAAT GGCTGTGGTC CGCAGAGAGC TATCCTGTGA GAGCTATCCT
    ATAGAGCTTC GCTGTCCAGG AACAGACGTC ATCATGATAG AAAGTGCCAA CTATGGCAGG
    ACTGATGACA AAATTTGTGA CTCTGACCCT GCTCAGATGG AGAATATCCG ATGTTATCTG
    CCAGATGCCT ATAAGATTAT GTCTCAAAGA TGCAATAACA GAACCCAGTG TGCAGTGGTG
    GCAGGTCCTG ATGTTTTTCC AGACCCGTGT CCAGGAACCT ATAAATACCT TGAAGTGCAG
    TATGAATGTG TCCCTTACAT TTTTCTTTGT CCTGGACTAC TAAAAGGAGT ATACCAGAGT
    GAACATTTGT TTGAGTCCGA CCACCAATCT GGGGCGTGGT GCAAAGACCC TCTGCAGGCA
    TCTGACAAGA TTTATTATAT GCCCTGGACT CCCTACAGAA CTGATACCCT GACTGAGTAT
    TCATCCAAGG ATGACTTCAT TGCTGGAAGA CCAACTACAA CCTACAAGCT CCCTCACAGG
    GTGGATGGCA CAGGATTTGT AGTGTATGAT GGAGCTTTGT TCTTCAACAA AGAGCGCACC
    AGGAACATAG TAAAGTTTGA TTTGCGGACT AGGATAAAGA GTGGAGAGGC TATCATAGCA
    AATGCCAATT ACCATGATAC CTCCCCTTAC CGATGGGGAG GCAAATCTGA CATAGACCTG
    GCAGTAGATG AGAATGGGCT ATGGGTAATC TATGCAACAG AACAAAACAA TGGTAAAATT
    GTCATTAGTC AATTGAACCC TTACACCCTA CGGATCGAAG GAACATGGGA TACTGCATAT
    GATAAAAGGT CAGCTTCCAA TGCCTTTATG ATTTGTGGAA TTCTGTATGT GGTCAAATCT
    GTATATGAGG ATGATGACAA TGAGGCTACT GGAAATAAGA TTGACTACAT TTACAACACT
    GACCAAAGCA AGGATAGTTT GGTGGATGTA CCCTTTCCTA ATTCATACCA GTACATTGCA
    GCTGTGGATT ACAACCCCAG GGACAACCTA CTTTATGTAT GGAATAACTA TCACGTCGTG
    AAATATTCTT TGGATTTTGG ACCTCTGGAT AGTAGATCAG GGCAGGCACA TCATGGACAA
    GTTTCATACA TTTCTCCGCC AATTCACCTT GACTCTGAGC TAGAAAGACC CTCTGTTAAA
    GATATCTCTA CCACAGGACC TCTTGGCATG GGAAGCACTA CCACCAGTAC CACCCTTCGG
    ACCACAACTT TGAGCCCAGG AAGGAGTACC ACCCCGTCAG TGTCAGGAAG AAGAAACCGG
    AGTACTAGTA CCCCATCTCC AGCTGTCGAG GTACTTGATG ACATGACCAC ACACCTTCCA
    TCAGCATCGT CCCAAATCCC AGCTCTCGAA GAGAGCTGTG AGGCTGTGGA AGCCCGAGAA
    ATCATGTGGT TTAAGACTCG TCAAGGACAG ATAGCAAAGC AGCCATGCCC TGCAGGAACT
    ATAGGTGTAT CAACTTATCT ATGCCTTGCT CCTGATGGAA TTTGGGATCC CCAAGGTCCA
    GATCTCAGCA ACTGTTCTTC TCCTTGGGTC AATCATATAA CACAGAAGTT GAAATCTGGT
    GAAACAGCTG CCAACATTGC TAGAGAGCTG GCTGAACAGA CAAGAAATCA CTTGAATGCT
    GGGGACATCA CCTACTCTGT CCGGGCCATG GACCAGCTGG TAGGCCTCCT AGATGTACAG
    CTTCGGAACT TGACCCCAGG TGGAAAAGAT AGTGCTGCCC GGAGTTTGAA CAAGCTTCAG
    AAAAGAGAGC GCTCTTGCAG AGCCTATGTC CAGGCAATGG TCGAGACAGT TAACAACCTC
    CTTCAGCCAC AAGCTTTGAA TGCATGGAGA GACCTGACTA CGAGTGATCA GCTGCGTGCG
    GCCACCATGT TGCTTCATAC TGTGGAGGAA AGTGCTTTTG TGCTGGCTGA TAACCTTTTG
    AAGACTGACA TTGTCAGGGA GAATACAGAC AATATTAAAT TGGAAGTTGC AAGACTGAGC
    ACAGAAGGAA ACTTAGAAGA CCTAAAATTT CCAGAAAACA TGGGCCATGG AAGCACTATC
    CAGCTGTCTG CAAATACCTT AAAGCAAAAT GGCCGAAATG GAGAGATCAG AGTGGCCTTT
    GTCCTGTATA ACAACTTGGG TCCTTATTTA TCCACGGAGA ATGCCAGTAT GAAGTTGGGA
    ACGGAAGCTT TGTCCACAAA TCATTCTGTT ATTGTCAATT CCCCTGTTAT TACGGCAGCA
    ATAAACAAAG AGTTCAGTAA CAAGGTTTAT TTGGCTGATC CTGTGGTATT TACTGTTAAA
    CATATCAAGC AGTCAGAGGA AAATTTCAAC CCTAACTGTT CATTTTGGAG CTACTCCAAG
    CGTACAATGA CAGGTTATTG GTCAACACAA GGCTGTCGGC TCCTGACAAC AAATAAGACA
    CATACTACAT GCTCTTGTAA CCACCTAACA AATTTTGCAG TACTGATGGC ACATGTGGAA
    GTTAAGCACA GTGATGCGGT CCATGACCTC CTTCTGGATG TGATCACGTG GGTTGGAATT
    TTGCTGTCCC TTGTTTGTCT CCTGATTTGC ATCTTCACAT TTTGCTTTTT CCGGGGGCTC
    CAGAGTGACC GTAACACCAT CCACAAGAAC CTCTGCATCA GTCTCTTTGT AGCAGAGCTG
    CTCTTCCTGA TTGGGATCAA CCGAACTGAC CAACCAATTG CCTGTGCTGT TTTCGCTGCC
    CTGTTACATT TCTTCTTCTT GGCTGCCTTC ACCTGGATGT TCCTGGAGGG GGTGCAGCTT
    TATATCATGC TGGTGGAGGT TTTTGAGAGT GAACATTCAC GTAGGAAATA CTTTTATCTG
    GTCGGCTATG GGATGCCTGC ACTCATTGTG GCTGTGTCAG CTGCAGTAGA CTACAGGAGT
    TATGGAACAG ATAAAGTATG TTGGCTCCGA CTTGACACCT ACTTCATTTG GAGTTTTATA
    GGACCAGCAA CTTTGATAAT TATGCTTAAT GTAATCTTCC TTGGGATTGC TTTATATAAA
    ATGTTTCATC ATACTGCTAT ACTGAAACCT GAATCAGGCT GTCTTGATAA CATCAAGTCA
    TGGGTTATAG GTGCAATAGC TCTTCTCTGC CTATTAGGAT TGACCTGGGC CTTTGGACTC
    ATGTATATTA ATGAAAGCAC AGTCATCATG GCCTATCTCT TCACCATTTT CAATTCTCTA
    CAGGGAATGT TTATATTTAT TTTCCATTGT GTCCTACAGA AGAAGGTACG AAAAGAGTAT
    GGGAAATGCC TGCGAACACA TTGCTGTAGT GGCAAAAGTA CAGAGAGTTC CATTGGTTCA
    GGGAAAACAT CTGGTTCTCG AACTCCTGGA CGCTACTCCA CAGGCTCACA GAGCCGAATC
    CGTAGAATGT GGAATGACAC GGTTCGAAAG CAGTCAGAGT CTTCCTTTAT TACTGGAGAC
    ATAAACAGTT CAGCGTCACT CAACAGAGAG GGGCTTCTGA ACAATGCCAG GGATACAAGT
    GTCATGGATA CTCTACCACT GAATGGTAAC CATGGCAATA GTTACAGCAT TGCCAGCGGC
    GAATACCTGA GCAACTGTGT GCAAATCATA GACCGTGGCT ATAACCATAA CGAGACCGCC
    CTAGAGAAAA AGATTCTGAA GGAACTCACT TCCAACTATA TCCCTTCTTA CCTGAACAAC
    CATGAGCGCT CCAGTGAACA GAACAGGAAT CTGATGAACA AGCTGGTGAA TAACCTTGGC
    AGTGGAAGGG AAGATGATGC CATTGTCCTG GATGATGCCA CCTCGTTTAA CCACGAGGAG
    AGTTTGGGCC TGGAACTCAT TCATGAGGAA TCTGATGCTC CTTTGCTGCC CCCAAGAGTA
    TACTCCACCG AGAACCACCA GCCACACCAT TATACCAGAA GGCGGATCCC CCAAGACCAC
    AGTGAGAGCT TTTTCCCTTT GCTAACCAAC GAGCACACAG AAGATCTCCA GTCACCCCAT
    AGAGACTCTC TCTATACCAG CATGCCGACA CTGGCTGGTG TGGCCGCCAC AGAGAGTGTT
    ACCACCAGCA CCCAGACCGA ACCCCCACCG GCCAAATGTG GTGATGCCGA AGATGTTTAC
    TACAAAAGCA TGCCAAACCT AGGCTCCAGA AACCACGTCC ATCAGCTGCA TACTTACTAC
    CAGCTAGGTC GCGGCAGCAG TGATGGATTT ATAGTTCCTC CAAACAAAGA TGGGACCCCT
    CCCGAGGGAA GTTCAAAAGG ACCGGCTCAT TTGGTCACTA GTCTATAG

    The stop codons will be deleted if pcDNA3.1+/C-(K)DYK vector is selected.

    CloneID OHu95008
    Clone ID Related Accession (Same CDS sequence) XM_017007939.1 , NM_001371342.1
    Accession Version NM_001371342.1 Latest version! Documents for ORF clone product in default vector
    Sequence Information ORF Nucleotide Sequence (Length: 4329bp)
    Protein sequence
    SNP
    Vector pcDNA3.1-C-(k)DYK or customized vector User Manual
    Clone information Clone Map MSDS
    Tag on pcDNA3.1+/C-(K)DYK C terminal DYKDDDDK tags
    ORF Insert Method CloneEZ™ Seamless cloning technology
    Insert Structure linear
    Update Date 2019-08-20
    Organism Homo sapiens(human)
    Product adhesion G protein-coupled receptor L3 isoform 4 precursor
    Comment Comment: REVIEWED REFSEQ: This record has been curated by NCBI staff. The reference sequence was derived from AC092643.2, AC020741.4, AC092668.2, AC108161.4, AC096723.3, AC092663.2 and AC007511.8. Sequence Note: The RefSeq transcript and protein were derived from genomic sequence to make the sequence consistent with the reference genome assembly. The genomic coordinates used for the transcript record were based on alignments. Publication Note: This RefSeq record includes a subset of the publications that are available for this gene. Please see the Gene record to access additional publications. ##Evidence-Data-START## Transcript exon combination :: SRR1660805.222311.1 [ECO:0000332] ##Evidence-Data-END## COMPLETENESS: complete on the 3' end.

    1
    61
    121
    181
    241
    301
    361
    421
    481
    541
    601
    661
    721
    781
    841
    901
    961
    1021
    1081
    1141
    1201
    1261
    1321
    1381
    1441
    1501
    1561
    1621
    1681
    1741
    1801
    1861
    1921
    1981
    2041
    2101
    2161
    2221
    2281
    2341
    2401
    2461
    2521
    2581
    2641
    2701
    2761
    2821
    2881
    2941
    3001
    3061
    3121
    3181
    3241
    3301
    3361
    3421
    3481
    3541
    3601
    3661
    3721
    3781
    3841
    3901
    3961
    4021
    4081
    4141
    4201
    4261
    4321
    ATGTGGCCAT CGCAGCTACT AATTTTCATG ATGCTCTTAG CTCCAATAAT TCATGCTTTC 
    AGCCGTGCCC CAATTCCAAT GGCTGTGGTC CGCAGAGAGC TATCCTGTGA GAGCTATCCT
    ATAGAGCTTC GCTGTCCAGG AACAGACGTC ATCATGATAG AAAGTGCCAA CTATGGCAGG
    ACTGATGACA AAATTTGTGA CTCTGACCCT GCTCAGATGG AGAATATCCG ATGTTATCTG
    CCAGATGCCT ATAAGATTAT GTCTCAAAGA TGCAATAACA GAACCCAGTG TGCAGTGGTG
    GCAGGTCCTG ATGTTTTTCC AGACCCGTGT CCAGGAACCT ATAAATACCT TGAAGTGCAG
    TATGAATGTG TCCCTTACAT TTTTCTTTGT CCTGGACTAC TAAAAGGAGT ATACCAGAGT
    GAACATTTGT TTGAGTCCGA CCACCAATCT GGGGCGTGGT GCAAAGACCC TCTGCAGGCA
    TCTGACAAGA TTTATTATAT GCCCTGGACT CCCTACAGAA CTGATACCCT GACTGAGTAT
    TCATCCAAGG ATGACTTCAT TGCTGGAAGA CCAACTACAA CCTACAAGCT CCCTCACAGG
    GTGGATGGCA CAGGATTTGT AGTGTATGAT GGAGCTTTGT TCTTCAACAA AGAGCGCACC
    AGGAACATAG TAAAGTTTGA TTTGCGGACT AGGATAAAGA GTGGAGAGGC TATCATAGCA
    AATGCCAATT ACCATGATAC CTCCCCTTAC CGATGGGGAG GCAAATCTGA CATAGACCTG
    GCAGTAGATG AGAATGGGCT ATGGGTAATC TATGCAACAG AACAAAACAA TGGTAAAATT
    GTCATTAGTC AATTGAACCC TTACACCCTA CGGATCGAAG GAACATGGGA TACTGCATAT
    GATAAAAGGT CAGCTTCCAA TGCCTTTATG ATTTGTGGAA TTCTGTATGT GGTCAAATCT
    GTATATGAGG ATGATGACAA TGAGGCTACT GGAAATAAGA TTGACTACAT TTACAACACT
    GACCAAAGCA AGGATAGTTT GGTGGATGTA CCCTTTCCTA ATTCATACCA GTACATTGCA
    GCTGTGGATT ACAACCCCAG GGACAACCTA CTTTATGTAT GGAATAACTA TCACGTCGTG
    AAATATTCTT TGGATTTTGG ACCTCTGGAT AGTAGATCAG GGCAGGCACA TCATGGACAA
    GTTTCATACA TTTCTCCGCC AATTCACCTT GACTCTGAGC TAGAAAGACC CTCTGTTAAA
    GATATCTCTA CCACAGGACC TCTTGGCATG GGAAGCACTA CCACCAGTAC CACCCTTCGG
    ACCACAACTT TGAGCCCAGG AAGGAGTACC ACCCCGTCAG TGTCAGGAAG AAGAAACCGG
    AGTACTAGTA CCCCATCTCC AGCTGTCGAG GTACTTGATG ACATGACCAC ACACCTTCCA
    TCAGCATCGT CCCAAATCCC AGCTCTCGAA GAGAGCTGTG AGGCTGTGGA AGCCCGAGAA
    ATCATGTGGT TTAAGACTCG TCAAGGACAG ATAGCAAAGC AGCCATGCCC TGCAGGAACT
    ATAGGTGTAT CAACTTATCT ATGCCTTGCT CCTGATGGAA TTTGGGATCC CCAAGGTCCA
    GATCTCAGCA ACTGTTCTTC TCCTTGGGTC AATCATATAA CACAGAAGTT GAAATCTGGT
    GAAACAGCTG CCAACATTGC TAGAGAGCTG GCTGAACAGA CAAGAAATCA CTTGAATGCT
    GGGGACATCA CCTACTCTGT CCGGGCCATG GACCAGCTGG TAGGCCTCCT AGATGTACAG
    CTTCGGAACT TGACCCCAGG TGGAAAAGAT AGTGCTGCCC GGAGTTTGAA CAAGGCAATG
    GTCGAGACAG TTAACAACCT CCTTCAGCCA CAAGCTTTGA ATGCATGGAG AGACCTGACT
    ACGAGTGATC AGCTGCGTGC GGCCACCATG TTGCTTCATA CTGTGGAGGA AAGTGCTTTT
    GTGCTGGCTG ATAACCTTTT GAAGACTGAC ATTGTCAGGG AGAATACAGA CAATATTAAA
    TTGGAAGTTG CAAGACTGAG CACAGAAGGA AACTTAGAAG ACCTAAAATT TCCAGAAAAC
    ATGGGCCATG GAAGCACTAT CCAGCTGTCT GCAAATACCT TAAAGCAAAA TGGCCGAAAT
    GGAGAGATCA GAGTGGCCTT TGTCCTGTAT AACAACTTGG GTCCTTATTT ATCCACGGAG
    AATGCCAGTA TGAAGTTGGG AACGGAAGCT TTGTCCACAA ATCATTCTGT TATTGTCAAT
    TCCCCTGTTA TTACGGCAGC AATAAACAAA GAGTTCAGTA ACAAGGTTTA TTTGGCTGAT
    CCTGTGGTAT TTACTGTTAA ACATATCAAG CAGTCAGAGG AAAATTTCAA CCCTAACTGT
    TCATTTTGGA GCTACTCCAA GCGTACAATG ACAGGTTATT GGTCAACACA AGGCTGTCGG
    CTCCTGACAA CAAATAAGAC ACATACTACA TGCTCTTGTA ACCACCTAAC AAATTTTGCA
    GTACTGATGG CACATGTGGA AGTTAAGCAC AGTGATGCGG TCCATGACCT CCTTCTGGAT
    GTGATCACGT GGGTTGGAAT TTTGCTGTCC CTTGTTTGTC TCCTGATTTG CATCTTCACA
    TTTTGCTTTT TCCGGGGGCT CCAGAGTGAC CGTAACACCA TCCACAAGAA CCTCTGCATC
    AGTCTCTTTG TAGCAGAGCT GCTCTTCCTG ATTGGGATCA ACCGAACTGA CCAACCAATT
    GCCTGTGCTG TTTTCGCTGC CCTGTTACAT TTCTTCTTCT TGGCTGCCTT CACCTGGATG
    TTCCTGGAGG GGGTGCAGCT TTATATCATG CTGGTGGAGG TTTTTGAGAG TGAACATTCA
    CGTAGGAAAT ACTTTTATCT GGTCGGCTAT GGGATGCCTG CACTCATTGT GGCTGTGTCA
    GCTGCAGTAG ACTACAGGAG TTATGGAACA GATAAAGTAT GTTGGCTCCG ACTTGACACC
    TACTTCATTT GGAGTTTTAT AGGACCAGCA ACTTTGATAA TTATGCTTAA TGTAATCTTC
    CTTGGGATTG CTTTATATAA AATGTTTCAT CATACTGCTA TACTGAAACC TGAATCAGGC
    TGTCTTGATA ACATCAAGTC ATGGGTTATA GGTGCAATAG CTCTTCTCTG CCTATTAGGA
    TTGACCTGGG CCTTTGGACT CATGTATATT AATGAAAGCA CAGTCATCAT GGCCTATCTC
    TTCACCATTT TCAATTCTCT ACAGGGAATG TTTATATTTA TTTTCCATTG TGTCCTACAG
    AAGAAGGTAC GAAAAGAGTA TGGGAAATGC CTGCGAACAC ATTGCTGTAG TGGCAAAAGT
    ACAGAGAGTT CCATTGGTTC AGGGAAAACA TCTGGTTCTC GAACTCCTGG ACGCTACTCC
    ACAGGCTCAC AGAGCCGAAT CCGTAGAATG TGGAATGACA CGGTTCGAAA GCAGTCAGAG
    TCTTCCTTTA TTACTGGAGA CATAAACAGT TCAGCGTCAC TCAACAGAGA GGGGCTTCTG
    AACAATGCCA GGGATACAAG TGTCATGGAT ACTCTACCAC TGAATGGTAA CCATGGCAAT
    AGTTACAGCA TTGCCAGCGG CGAATACCTG AGCAACTGTG TGCAAATCAT AGACCGTGGC
    TATAACCATA ACGAGACCGC CCTAGAGAAA AAGATTCTGA AGGAACTCAC TTCCAACTAT
    ATCCCTTCTT ACCTGAACAA CCATGAGCGC TCCAGTGAAC AGAACAGGAA TCTGATGAAC
    AAGCTGGTGA ATAACCTTGG CAGTGGAAGG GAAGATGATG CCATTGTCCT GGATGATGCC
    ACCTCGTTTA ACCACGAGGA GAGTTTGGGC CTGGAACTCA TTCATGAGGA ATCTGATGCT
    CCTTTGCTGC CCCCAAGAGT ATACTCCACC GAGAACCACC AGCCACACCA TTATACCAGA
    AGGCGGATCC CCCAAGACCA CAGTGAGAGC TTTTTCCCTT TGCTAACCAA CGAGCACACA
    GAAGATCTCC AGTCACCCCA TAGAGACTCT CTCTATACCA GCATGCCGAC ACTGGCTGGT
    GTGGCCGCCA CAGAGAGTGT TACCACCAGC ACCCAGACCG AACCCCCACC GGCCAAATGT
    GGTGATGCCG AAGATGTTTA CTACAAAAGC ATGCCAAACC TAGGCTCCAG AAACCACGTC
    CATCAGCTGC ATACTTACTA CCAGCTAGGT CGCGGCAGCA GTGATGGATT TATAGTTCCT
    CCAAACAAAG ATGGGACCCC TCCCGAGGGA AGTTCAAAAG GACCGGCTCA TTTGGTCACT
    AGTCTATAG

    The stop codons will be deleted if pcDNA3.1+/C-(K)DYK vector is selected.

    RefSeq NP_001358271.1
    CDS744..5072
    Translation

    Target ORF information:

    RefSeq Version NM_001371342.1
    Organism Homo sapiens(human)
    Definition Homo sapiens adhesion G protein-coupled receptor L3 (ADGRL3), transcript variant 4, mRNA.

    Target ORF information:

    Epitope DYKDDDDK
    Bacterial selection AMPR
    Mammalian selection NeoR
    Vector pcDNA3.1+/C-(K)DYK
    NM_001371342.1

    ORF Insert Sequence:

    1
    61
    121
    181
    241
    301
    361
    421
    481
    541
    601
    661
    721
    781
    841
    901
    961
    1021
    1081
    1141
    1201
    1261
    1321
    1381
    1441
    1501
    1561
    1621
    1681
    1741
    1801
    1861
    1921
    1981
    2041
    2101
    2161
    2221
    2281
    2341
    2401
    2461
    2521
    2581
    2641
    2701
    2761
    2821
    2881
    2941
    3001
    3061
    3121
    3181
    3241
    3301
    3361
    3421
    3481
    3541
    3601
    3661
    3721
    3781
    3841
    3901
    3961
    4021
    4081
    4141
    4201
    4261
    4321
    ATGTGGCCAT CGCAGCTACT AATTTTCATG ATGCTCTTAG CTCCAATAAT TCATGCTTTC 
    AGCCGTGCCC CAATTCCAAT GGCTGTGGTC CGCAGAGAGC TATCCTGTGA GAGCTATCCT
    ATAGAGCTTC GCTGTCCAGG AACAGACGTC ATCATGATAG AAAGTGCCAA CTATGGCAGG
    ACTGATGACA AAATTTGTGA CTCTGACCCT GCTCAGATGG AGAATATCCG ATGTTATCTG
    CCAGATGCCT ATAAGATTAT GTCTCAAAGA TGCAATAACA GAACCCAGTG TGCAGTGGTG
    GCAGGTCCTG ATGTTTTTCC AGACCCGTGT CCAGGAACCT ATAAATACCT TGAAGTGCAG
    TATGAATGTG TCCCTTACAT TTTTCTTTGT CCTGGACTAC TAAAAGGAGT ATACCAGAGT
    GAACATTTGT TTGAGTCCGA CCACCAATCT GGGGCGTGGT GCAAAGACCC TCTGCAGGCA
    TCTGACAAGA TTTATTATAT GCCCTGGACT CCCTACAGAA CTGATACCCT GACTGAGTAT
    TCATCCAAGG ATGACTTCAT TGCTGGAAGA CCAACTACAA CCTACAAGCT CCCTCACAGG
    GTGGATGGCA CAGGATTTGT AGTGTATGAT GGAGCTTTGT TCTTCAACAA AGAGCGCACC
    AGGAACATAG TAAAGTTTGA TTTGCGGACT AGGATAAAGA GTGGAGAGGC TATCATAGCA
    AATGCCAATT ACCATGATAC CTCCCCTTAC CGATGGGGAG GCAAATCTGA CATAGACCTG
    GCAGTAGATG AGAATGGGCT ATGGGTAATC TATGCAACAG AACAAAACAA TGGTAAAATT
    GTCATTAGTC AATTGAACCC TTACACCCTA CGGATCGAAG GAACATGGGA TACTGCATAT
    GATAAAAGGT CAGCTTCCAA TGCCTTTATG ATTTGTGGAA TTCTGTATGT GGTCAAATCT
    GTATATGAGG ATGATGACAA TGAGGCTACT GGAAATAAGA TTGACTACAT TTACAACACT
    GACCAAAGCA AGGATAGTTT GGTGGATGTA CCCTTTCCTA ATTCATACCA GTACATTGCA
    GCTGTGGATT ACAACCCCAG GGACAACCTA CTTTATGTAT GGAATAACTA TCACGTCGTG
    AAATATTCTT TGGATTTTGG ACCTCTGGAT AGTAGATCAG GGCAGGCACA TCATGGACAA
    GTTTCATACA TTTCTCCGCC AATTCACCTT GACTCTGAGC TAGAAAGACC CTCTGTTAAA
    GATATCTCTA CCACAGGACC TCTTGGCATG GGAAGCACTA CCACCAGTAC CACCCTTCGG
    ACCACAACTT TGAGCCCAGG AAGGAGTACC ACCCCGTCAG TGTCAGGAAG AAGAAACCGG
    AGTACTAGTA CCCCATCTCC AGCTGTCGAG GTACTTGATG ACATGACCAC ACACCTTCCA
    TCAGCATCGT CCCAAATCCC AGCTCTCGAA GAGAGCTGTG AGGCTGTGGA AGCCCGAGAA
    ATCATGTGGT TTAAGACTCG TCAAGGACAG ATAGCAAAGC AGCCATGCCC TGCAGGAACT
    ATAGGTGTAT CAACTTATCT ATGCCTTGCT CCTGATGGAA TTTGGGATCC CCAAGGTCCA
    GATCTCAGCA ACTGTTCTTC TCCTTGGGTC AATCATATAA CACAGAAGTT GAAATCTGGT
    GAAACAGCTG CCAACATTGC TAGAGAGCTG GCTGAACAGA CAAGAAATCA CTTGAATGCT
    GGGGACATCA CCTACTCTGT CCGGGCCATG GACCAGCTGG TAGGCCTCCT AGATGTACAG
    CTTCGGAACT TGACCCCAGG TGGAAAAGAT AGTGCTGCCC GGAGTTTGAA CAAGGCAATG
    GTCGAGACAG TTAACAACCT CCTTCAGCCA CAAGCTTTGA ATGCATGGAG AGACCTGACT
    ACGAGTGATC AGCTGCGTGC GGCCACCATG TTGCTTCATA CTGTGGAGGA AAGTGCTTTT
    GTGCTGGCTG ATAACCTTTT GAAGACTGAC ATTGTCAGGG AGAATACAGA CAATATTAAA
    TTGGAAGTTG CAAGACTGAG CACAGAAGGA AACTTAGAAG ACCTAAAATT TCCAGAAAAC
    ATGGGCCATG GAAGCACTAT CCAGCTGTCT GCAAATACCT TAAAGCAAAA TGGCCGAAAT
    GGAGAGATCA GAGTGGCCTT TGTCCTGTAT AACAACTTGG GTCCTTATTT ATCCACGGAG
    AATGCCAGTA TGAAGTTGGG AACGGAAGCT TTGTCCACAA ATCATTCTGT TATTGTCAAT
    TCCCCTGTTA TTACGGCAGC AATAAACAAA GAGTTCAGTA ACAAGGTTTA TTTGGCTGAT
    CCTGTGGTAT TTACTGTTAA ACATATCAAG CAGTCAGAGG AAAATTTCAA CCCTAACTGT
    TCATTTTGGA GCTACTCCAA GCGTACAATG ACAGGTTATT GGTCAACACA AGGCTGTCGG
    CTCCTGACAA CAAATAAGAC ACATACTACA TGCTCTTGTA ACCACCTAAC AAATTTTGCA
    GTACTGATGG CACATGTGGA AGTTAAGCAC AGTGATGCGG TCCATGACCT CCTTCTGGAT
    GTGATCACGT GGGTTGGAAT TTTGCTGTCC CTTGTTTGTC TCCTGATTTG CATCTTCACA
    TTTTGCTTTT TCCGGGGGCT CCAGAGTGAC CGTAACACCA TCCACAAGAA CCTCTGCATC
    AGTCTCTTTG TAGCAGAGCT GCTCTTCCTG ATTGGGATCA ACCGAACTGA CCAACCAATT
    GCCTGTGCTG TTTTCGCTGC CCTGTTACAT TTCTTCTTCT TGGCTGCCTT CACCTGGATG
    TTCCTGGAGG GGGTGCAGCT TTATATCATG CTGGTGGAGG TTTTTGAGAG TGAACATTCA
    CGTAGGAAAT ACTTTTATCT GGTCGGCTAT GGGATGCCTG CACTCATTGT GGCTGTGTCA
    GCTGCAGTAG ACTACAGGAG TTATGGAACA GATAAAGTAT GTTGGCTCCG ACTTGACACC
    TACTTCATTT GGAGTTTTAT AGGACCAGCA ACTTTGATAA TTATGCTTAA TGTAATCTTC
    CTTGGGATTG CTTTATATAA AATGTTTCAT CATACTGCTA TACTGAAACC TGAATCAGGC
    TGTCTTGATA ACATCAAGTC ATGGGTTATA GGTGCAATAG CTCTTCTCTG CCTATTAGGA
    TTGACCTGGG CCTTTGGACT CATGTATATT AATGAAAGCA CAGTCATCAT GGCCTATCTC
    TTCACCATTT TCAATTCTCT ACAGGGAATG TTTATATTTA TTTTCCATTG TGTCCTACAG
    AAGAAGGTAC GAAAAGAGTA TGGGAAATGC CTGCGAACAC ATTGCTGTAG TGGCAAAAGT
    ACAGAGAGTT CCATTGGTTC AGGGAAAACA TCTGGTTCTC GAACTCCTGG ACGCTACTCC
    ACAGGCTCAC AGAGCCGAAT CCGTAGAATG TGGAATGACA CGGTTCGAAA GCAGTCAGAG
    TCTTCCTTTA TTACTGGAGA CATAAACAGT TCAGCGTCAC TCAACAGAGA GGGGCTTCTG
    AACAATGCCA GGGATACAAG TGTCATGGAT ACTCTACCAC TGAATGGTAA CCATGGCAAT
    AGTTACAGCA TTGCCAGCGG CGAATACCTG AGCAACTGTG TGCAAATCAT AGACCGTGGC
    TATAACCATA ACGAGACCGC CCTAGAGAAA AAGATTCTGA AGGAACTCAC TTCCAACTAT
    ATCCCTTCTT ACCTGAACAA CCATGAGCGC TCCAGTGAAC AGAACAGGAA TCTGATGAAC
    AAGCTGGTGA ATAACCTTGG CAGTGGAAGG GAAGATGATG CCATTGTCCT GGATGATGCC
    ACCTCGTTTA ACCACGAGGA GAGTTTGGGC CTGGAACTCA TTCATGAGGA ATCTGATGCT
    CCTTTGCTGC CCCCAAGAGT ATACTCCACC GAGAACCACC AGCCACACCA TTATACCAGA
    AGGCGGATCC CCCAAGACCA CAGTGAGAGC TTTTTCCCTT TGCTAACCAA CGAGCACACA
    GAAGATCTCC AGTCACCCCA TAGAGACTCT CTCTATACCA GCATGCCGAC ACTGGCTGGT
    GTGGCCGCCA CAGAGAGTGT TACCACCAGC ACCCAGACCG AACCCCCACC GGCCAAATGT
    GGTGATGCCG AAGATGTTTA CTACAAAAGC ATGCCAAACC TAGGCTCCAG AAACCACGTC
    CATCAGCTGC ATACTTACTA CCAGCTAGGT CGCGGCAGCA GTGATGGATT TATAGTTCCT
    CCAAACAAAG ATGGGACCCC TCCCGAGGGA AGTTCAAAAG GACCGGCTCA TTTGGTCACT
    AGTCTATAG

    The stop codons will be deleted if pcDNA3.1+/C-(K)DYK vector is selected.

    CloneID OHu95008
    Clone ID Related Accession (Same CDS sequence) XM_017007939.1 , NM_001371342.1
    Accession Version XM_017007939.1 Latest version! Documents for ORF clone product in default vector
    Sequence Information ORF Nucleotide Sequence (Length: 4329bp)
    Protein sequence
    SNP
    Vector pcDNA3.1-C-(k)DYK or customized vector User Manual
    Clone information Clone Map MSDS
    Tag on pcDNA3.1+/C-(K)DYK C terminal DYKDDDDK tags
    ORF Insert Method CloneEZ™ Seamless cloning technology
    Insert Structure linear
    Update Date 2019-12-05
    Organism Homo sapiens(human)
    Product adhesion G protein-coupled receptor L3 isoform X12
    Comment Comment: MODEL REFSEQ: This record is predicted by automated computational analysis. This record is derived from a genomic sequence (NC_000004.12) annotated using gene prediction method: Gnomon, supported by mRNA and EST evidence. Also see: Documentation of NCBI's Annotation Process ##Genome-Annotation-Data-START## Annotation Provider :: NCBI Annotation Status :: Updated annotation Annotation Name :: Homo sapiens Updated Annotation Release 109.20191205 Annotation Version :: 109.20191205 Annotation Pipeline :: NCBI eukaryotic genome annotation pipeline Annotation Software Version :: 8.3 Annotation Method :: Best-placed RefSeq; propagated RefSeq model Features Annotated :: Gene; mRNA; CDS; ncRNA ##Genome-Annotation-Data-END##

    1
    61
    121
    181
    241
    301
    361
    421
    481
    541
    601
    661
    721
    781
    841
    901
    961
    1021
    1081
    1141
    1201
    1261
    1321
    1381
    1441
    1501
    1561
    1621
    1681
    1741
    1801
    1861
    1921
    1981
    2041
    2101
    2161
    2221
    2281
    2341
    2401
    2461
    2521
    2581
    2641
    2701
    2761
    2821
    2881
    2941
    3001
    3061
    3121
    3181
    3241
    3301
    3361
    3421
    3481
    3541
    3601
    3661
    3721
    3781
    3841
    3901
    3961
    4021
    4081
    4141
    4201
    4261
    4321
    ATGTGGCCAT CGCAGCTACT AATTTTCATG ATGCTCTTAG CTCCAATAAT TCATGCTTTC 
    AGCCGTGCCC CAATTCCAAT GGCTGTGGTC CGCAGAGAGC TATCCTGTGA GAGCTATCCT
    ATAGAGCTTC GCTGTCCAGG AACAGACGTC ATCATGATAG AAAGTGCCAA CTATGGCAGG
    ACTGATGACA AAATTTGTGA CTCTGACCCT GCTCAGATGG AGAATATCCG ATGTTATCTG
    CCAGATGCCT ATAAGATTAT GTCTCAAAGA TGCAATAACA GAACCCAGTG TGCAGTGGTG
    GCAGGTCCTG ATGTTTTTCC AGACCCGTGT CCAGGAACCT ATAAATACCT TGAAGTGCAG
    TATGAATGTG TCCCTTACAT TTTTCTTTGT CCTGGACTAC TAAAAGGAGT ATACCAGAGT
    GAACATTTGT TTGAGTCCGA CCACCAATCT GGGGCGTGGT GCAAAGACCC TCTGCAGGCA
    TCTGACAAGA TTTATTATAT GCCCTGGACT CCCTACAGAA CTGATACCCT GACTGAGTAT
    TCATCCAAGG ATGACTTCAT TGCTGGAAGA CCAACTACAA CCTACAAGCT CCCTCACAGG
    GTGGATGGCA CAGGATTTGT AGTGTATGAT GGAGCTTTGT TCTTCAACAA AGAGCGCACC
    AGGAACATAG TAAAGTTTGA TTTGCGGACT AGGATAAAGA GTGGAGAGGC TATCATAGCA
    AATGCCAATT ACCATGATAC CTCCCCTTAC CGATGGGGAG GCAAATCTGA CATAGACCTG
    GCAGTAGATG AGAATGGGCT ATGGGTAATC TATGCAACAG AACAAAACAA TGGTAAAATT
    GTCATTAGTC AATTGAACCC TTACACCCTA CGGATCGAAG GAACATGGGA TACTGCATAT
    GATAAAAGGT CAGCTTCCAA TGCCTTTATG ATTTGTGGAA TTCTGTATGT GGTCAAATCT
    GTATATGAGG ATGATGACAA TGAGGCTACT GGAAATAAGA TTGACTACAT TTACAACACT
    GACCAAAGCA AGGATAGTTT GGTGGATGTA CCCTTTCCTA ATTCATACCA GTACATTGCA
    GCTGTGGATT ACAACCCCAG GGACAACCTA CTTTATGTAT GGAATAACTA TCACGTCGTG
    AAATATTCTT TGGATTTTGG ACCTCTGGAT AGTAGATCAG GGCAGGCACA TCATGGACAA
    GTTTCATACA TTTCTCCGCC AATTCACCTT GACTCTGAGC TAGAAAGACC CTCTGTTAAA
    GATATCTCTA CCACAGGACC TCTTGGCATG GGAAGCACTA CCACCAGTAC CACCCTTCGG
    ACCACAACTT TGAGCCCAGG AAGGAGTACC ACCCCGTCAG TGTCAGGAAG AAGAAACCGG
    AGTACTAGTA CCCCATCTCC AGCTGTCGAG GTACTTGATG ACATGACCAC ACACCTTCCA
    TCAGCATCGT CCCAAATCCC AGCTCTCGAA GAGAGCTGTG AGGCTGTGGA AGCCCGAGAA
    ATCATGTGGT TTAAGACTCG TCAAGGACAG ATAGCAAAGC AGCCATGCCC TGCAGGAACT
    ATAGGTGTAT CAACTTATCT ATGCCTTGCT CCTGATGGAA TTTGGGATCC CCAAGGTCCA
    GATCTCAGCA ACTGTTCTTC TCCTTGGGTC AATCATATAA CACAGAAGTT GAAATCTGGT
    GAAACAGCTG CCAACATTGC TAGAGAGCTG GCTGAACAGA CAAGAAATCA CTTGAATGCT
    GGGGACATCA CCTACTCTGT CCGGGCCATG GACCAGCTGG TAGGCCTCCT AGATGTACAG
    CTTCGGAACT TGACCCCAGG TGGAAAAGAT AGTGCTGCCC GGAGTTTGAA CAAGGCAATG
    GTCGAGACAG TTAACAACCT CCTTCAGCCA CAAGCTTTGA ATGCATGGAG AGACCTGACT
    ACGAGTGATC AGCTGCGTGC GGCCACCATG TTGCTTCATA CTGTGGAGGA AAGTGCTTTT
    GTGCTGGCTG ATAACCTTTT GAAGACTGAC ATTGTCAGGG AGAATACAGA CAATATTAAA
    TTGGAAGTTG CAAGACTGAG CACAGAAGGA AACTTAGAAG ACCTAAAATT TCCAGAAAAC
    ATGGGCCATG GAAGCACTAT CCAGCTGTCT GCAAATACCT TAAAGCAAAA TGGCCGAAAT
    GGAGAGATCA GAGTGGCCTT TGTCCTGTAT AACAACTTGG GTCCTTATTT ATCCACGGAG
    AATGCCAGTA TGAAGTTGGG AACGGAAGCT TTGTCCACAA ATCATTCTGT TATTGTCAAT
    TCCCCTGTTA TTACGGCAGC AATAAACAAA GAGTTCAGTA ACAAGGTTTA TTTGGCTGAT
    CCTGTGGTAT TTACTGTTAA ACATATCAAG CAGTCAGAGG AAAATTTCAA CCCTAACTGT
    TCATTTTGGA GCTACTCCAA GCGTACAATG ACAGGTTATT GGTCAACACA AGGCTGTCGG
    CTCCTGACAA CAAATAAGAC ACATACTACA TGCTCTTGTA ACCACCTAAC AAATTTTGCA
    GTACTGATGG CACATGTGGA AGTTAAGCAC AGTGATGCGG TCCATGACCT CCTTCTGGAT
    GTGATCACGT GGGTTGGAAT TTTGCTGTCC CTTGTTTGTC TCCTGATTTG CATCTTCACA
    TTTTGCTTTT TCCGGGGGCT CCAGAGTGAC CGTAACACCA TCCACAAGAA CCTCTGCATC
    AGTCTCTTTG TAGCAGAGCT GCTCTTCCTG ATTGGGATCA ACCGAACTGA CCAACCAATT
    GCCTGTGCTG TTTTCGCTGC CCTGTTACAT TTCTTCTTCT TGGCTGCCTT CACCTGGATG
    TTCCTGGAGG GGGTGCAGCT TTATATCATG CTGGTGGAGG TTTTTGAGAG TGAACATTCA
    CGTAGGAAAT ACTTTTATCT GGTCGGCTAT GGGATGCCTG CACTCATTGT GGCTGTGTCA
    GCTGCAGTAG ACTACAGGAG TTATGGAACA GATAAAGTAT GTTGGCTCCG ACTTGACACC
    TACTTCATTT GGAGTTTTAT AGGACCAGCA ACTTTGATAA TTATGCTTAA TGTAATCTTC
    CTTGGGATTG CTTTATATAA AATGTTTCAT CATACTGCTA TACTGAAACC TGAATCAGGC
    TGTCTTGATA ACATCAAGTC ATGGGTTATA GGTGCAATAG CTCTTCTCTG CCTATTAGGA
    TTGACCTGGG CCTTTGGACT CATGTATATT AATGAAAGCA CAGTCATCAT GGCCTATCTC
    TTCACCATTT TCAATTCTCT ACAGGGAATG TTTATATTTA TTTTCCATTG TGTCCTACAG
    AAGAAGGTAC GAAAAGAGTA TGGGAAATGC CTGCGAACAC ATTGCTGTAG TGGCAAAAGT
    ACAGAGAGTT CCATTGGTTC AGGGAAAACA TCTGGTTCTC GAACTCCTGG ACGCTACTCC
    ACAGGCTCAC AGAGCCGAAT CCGTAGAATG TGGAATGACA CGGTTCGAAA GCAGTCAGAG
    TCTTCCTTTA TTACTGGAGA CATAAACAGT TCAGCGTCAC TCAACAGAGA GGGGCTTCTG
    AACAATGCCA GGGATACAAG TGTCATGGAT ACTCTACCAC TGAATGGTAA CCATGGCAAT
    AGTTACAGCA TTGCCAGCGG CGAATACCTG AGCAACTGTG TGCAAATCAT AGACCGTGGC
    TATAACCATA ACGAGACCGC CCTAGAGAAA AAGATTCTGA AGGAACTCAC TTCCAACTAT
    ATCCCTTCTT ACCTGAACAA CCATGAGCGC TCCAGTGAAC AGAACAGGAA TCTGATGAAC
    AAGCTGGTGA ATAACCTTGG CAGTGGAAGG GAAGATGATG CCATTGTCCT GGATGATGCC
    ACCTCGTTTA ACCACGAGGA GAGTTTGGGC CTGGAACTCA TTCATGAGGA ATCTGATGCT
    CCTTTGCTGC CCCCAAGAGT ATACTCCACC GAGAACCACC AGCCACACCA TTATACCAGA
    AGGCGGATCC CCCAAGACCA CAGTGAGAGC TTTTTCCCTT TGCTAACCAA CGAGCACACA
    GAAGATCTCC AGTCACCCCA TAGAGACTCT CTCTATACCA GCATGCCGAC ACTGGCTGGT
    GTGGCCGCCA CAGAGAGTGT TACCACCAGC ACCCAGACCG AACCCCCACC GGCCAAATGT
    GGTGATGCCG AAGATGTTTA CTACAAAAGC ATGCCAAACC TAGGCTCCAG AAACCACGTC
    CATCAGCTGC ATACTTACTA CCAGCTAGGT CGCGGCAGCA GTGATGGATT TATAGTTCCT
    CCAAACAAAG ATGGGACCCC TCCCGAGGGA AGTTCAAAAG GACCGGCTCA TTTGGTCACT
    AGTCTATAG

    The stop codons will be deleted if pcDNA3.1+/C-(K)DYK vector is selected.

    RefSeq XP_016863428.1
    CDS288..4616
    Translation

    Target ORF information:

    RefSeq Version XM_017007939.1
    Organism Homo sapiens(human)
    Definition Homo sapiens adhesion G protein-coupled receptor L3 (ADGRL3), transcript variant X13, mRNA.

    Target ORF information:

    Epitope DYKDDDDK
    Bacterial selection AMPR
    Mammalian selection NeoR
    Vector pcDNA3.1+/C-(K)DYK
    XM_017007939.1

    ORF Insert Sequence:

    1
    61
    121
    181
    241
    301
    361
    421
    481
    541
    601
    661
    721
    781
    841
    901
    961
    1021
    1081
    1141
    1201
    1261
    1321
    1381
    1441
    1501
    1561
    1621
    1681
    1741
    1801
    1861
    1921
    1981
    2041
    2101
    2161
    2221
    2281
    2341
    2401
    2461
    2521
    2581
    2641
    2701
    2761
    2821
    2881
    2941
    3001
    3061
    3121
    3181
    3241
    3301
    3361
    3421
    3481
    3541
    3601
    3661
    3721
    3781
    3841
    3901
    3961
    4021
    4081
    4141
    4201
    4261
    4321
    ATGTGGCCAT CGCAGCTACT AATTTTCATG ATGCTCTTAG CTCCAATAAT TCATGCTTTC 
    AGCCGTGCCC CAATTCCAAT GGCTGTGGTC CGCAGAGAGC TATCCTGTGA GAGCTATCCT
    ATAGAGCTTC GCTGTCCAGG AACAGACGTC ATCATGATAG AAAGTGCCAA CTATGGCAGG
    ACTGATGACA AAATTTGTGA CTCTGACCCT GCTCAGATGG AGAATATCCG ATGTTATCTG
    CCAGATGCCT ATAAGATTAT GTCTCAAAGA TGCAATAACA GAACCCAGTG TGCAGTGGTG
    GCAGGTCCTG ATGTTTTTCC AGACCCGTGT CCAGGAACCT ATAAATACCT TGAAGTGCAG
    TATGAATGTG TCCCTTACAT TTTTCTTTGT CCTGGACTAC TAAAAGGAGT ATACCAGAGT
    GAACATTTGT TTGAGTCCGA CCACCAATCT GGGGCGTGGT GCAAAGACCC TCTGCAGGCA
    TCTGACAAGA TTTATTATAT GCCCTGGACT CCCTACAGAA CTGATACCCT GACTGAGTAT
    TCATCCAAGG ATGACTTCAT TGCTGGAAGA CCAACTACAA CCTACAAGCT CCCTCACAGG
    GTGGATGGCA CAGGATTTGT AGTGTATGAT GGAGCTTTGT TCTTCAACAA AGAGCGCACC
    AGGAACATAG TAAAGTTTGA TTTGCGGACT AGGATAAAGA GTGGAGAGGC TATCATAGCA
    AATGCCAATT ACCATGATAC CTCCCCTTAC CGATGGGGAG GCAAATCTGA CATAGACCTG
    GCAGTAGATG AGAATGGGCT ATGGGTAATC TATGCAACAG AACAAAACAA TGGTAAAATT
    GTCATTAGTC AATTGAACCC TTACACCCTA CGGATCGAAG GAACATGGGA TACTGCATAT
    GATAAAAGGT CAGCTTCCAA TGCCTTTATG ATTTGTGGAA TTCTGTATGT GGTCAAATCT
    GTATATGAGG ATGATGACAA TGAGGCTACT GGAAATAAGA TTGACTACAT TTACAACACT
    GACCAAAGCA AGGATAGTTT GGTGGATGTA CCCTTTCCTA ATTCATACCA GTACATTGCA
    GCTGTGGATT ACAACCCCAG GGACAACCTA CTTTATGTAT GGAATAACTA TCACGTCGTG
    AAATATTCTT TGGATTTTGG ACCTCTGGAT AGTAGATCAG GGCAGGCACA TCATGGACAA
    GTTTCATACA TTTCTCCGCC AATTCACCTT GACTCTGAGC TAGAAAGACC CTCTGTTAAA
    GATATCTCTA CCACAGGACC TCTTGGCATG GGAAGCACTA CCACCAGTAC CACCCTTCGG
    ACCACAACTT TGAGCCCAGG AAGGAGTACC ACCCCGTCAG TGTCAGGAAG AAGAAACCGG
    AGTACTAGTA CCCCATCTCC AGCTGTCGAG GTACTTGATG ACATGACCAC ACACCTTCCA
    TCAGCATCGT CCCAAATCCC AGCTCTCGAA GAGAGCTGTG AGGCTGTGGA AGCCCGAGAA
    ATCATGTGGT TTAAGACTCG TCAAGGACAG ATAGCAAAGC AGCCATGCCC TGCAGGAACT
    ATAGGTGTAT CAACTTATCT ATGCCTTGCT CCTGATGGAA TTTGGGATCC CCAAGGTCCA
    GATCTCAGCA ACTGTTCTTC TCCTTGGGTC AATCATATAA CACAGAAGTT GAAATCTGGT
    GAAACAGCTG CCAACATTGC TAGAGAGCTG GCTGAACAGA CAAGAAATCA CTTGAATGCT
    GGGGACATCA CCTACTCTGT CCGGGCCATG GACCAGCTGG TAGGCCTCCT AGATGTACAG
    CTTCGGAACT TGACCCCAGG TGGAAAAGAT AGTGCTGCCC GGAGTTTGAA CAAGGCAATG
    GTCGAGACAG TTAACAACCT CCTTCAGCCA CAAGCTTTGA ATGCATGGAG AGACCTGACT
    ACGAGTGATC AGCTGCGTGC GGCCACCATG TTGCTTCATA CTGTGGAGGA AAGTGCTTTT
    GTGCTGGCTG ATAACCTTTT GAAGACTGAC ATTGTCAGGG AGAATACAGA CAATATTAAA
    TTGGAAGTTG CAAGACTGAG CACAGAAGGA AACTTAGAAG ACCTAAAATT TCCAGAAAAC
    ATGGGCCATG GAAGCACTAT CCAGCTGTCT GCAAATACCT TAAAGCAAAA TGGCCGAAAT
    GGAGAGATCA GAGTGGCCTT TGTCCTGTAT AACAACTTGG GTCCTTATTT ATCCACGGAG
    AATGCCAGTA TGAAGTTGGG AACGGAAGCT TTGTCCACAA ATCATTCTGT TATTGTCAAT
    TCCCCTGTTA TTACGGCAGC AATAAACAAA GAGTTCAGTA ACAAGGTTTA TTTGGCTGAT
    CCTGTGGTAT TTACTGTTAA ACATATCAAG CAGTCAGAGG AAAATTTCAA CCCTAACTGT
    TCATTTTGGA GCTACTCCAA GCGTACAATG ACAGGTTATT GGTCAACACA AGGCTGTCGG
    CTCCTGACAA CAAATAAGAC ACATACTACA TGCTCTTGTA ACCACCTAAC AAATTTTGCA
    GTACTGATGG CACATGTGGA AGTTAAGCAC AGTGATGCGG TCCATGACCT CCTTCTGGAT
    GTGATCACGT GGGTTGGAAT TTTGCTGTCC CTTGTTTGTC TCCTGATTTG CATCTTCACA
    TTTTGCTTTT TCCGGGGGCT CCAGAGTGAC CGTAACACCA TCCACAAGAA CCTCTGCATC
    AGTCTCTTTG TAGCAGAGCT GCTCTTCCTG ATTGGGATCA ACCGAACTGA CCAACCAATT
    GCCTGTGCTG TTTTCGCTGC CCTGTTACAT TTCTTCTTCT TGGCTGCCTT CACCTGGATG
    TTCCTGGAGG GGGTGCAGCT TTATATCATG CTGGTGGAGG TTTTTGAGAG TGAACATTCA
    CGTAGGAAAT ACTTTTATCT GGTCGGCTAT GGGATGCCTG CACTCATTGT GGCTGTGTCA
    GCTGCAGTAG ACTACAGGAG TTATGGAACA GATAAAGTAT GTTGGCTCCG ACTTGACACC
    TACTTCATTT GGAGTTTTAT AGGACCAGCA ACTTTGATAA TTATGCTTAA TGTAATCTTC
    CTTGGGATTG CTTTATATAA AATGTTTCAT CATACTGCTA TACTGAAACC TGAATCAGGC
    TGTCTTGATA ACATCAAGTC ATGGGTTATA GGTGCAATAG CTCTTCTCTG CCTATTAGGA
    TTGACCTGGG CCTTTGGACT CATGTATATT AATGAAAGCA CAGTCATCAT GGCCTATCTC
    TTCACCATTT TCAATTCTCT ACAGGGAATG TTTATATTTA TTTTCCATTG TGTCCTACAG
    AAGAAGGTAC GAAAAGAGTA TGGGAAATGC CTGCGAACAC ATTGCTGTAG TGGCAAAAGT
    ACAGAGAGTT CCATTGGTTC AGGGAAAACA TCTGGTTCTC GAACTCCTGG ACGCTACTCC
    ACAGGCTCAC AGAGCCGAAT CCGTAGAATG TGGAATGACA CGGTTCGAAA GCAGTCAGAG
    TCTTCCTTTA TTACTGGAGA CATAAACAGT TCAGCGTCAC TCAACAGAGA GGGGCTTCTG
    AACAATGCCA GGGATACAAG TGTCATGGAT ACTCTACCAC TGAATGGTAA CCATGGCAAT
    AGTTACAGCA TTGCCAGCGG CGAATACCTG AGCAACTGTG TGCAAATCAT AGACCGTGGC
    TATAACCATA ACGAGACCGC CCTAGAGAAA AAGATTCTGA AGGAACTCAC TTCCAACTAT
    ATCCCTTCTT ACCTGAACAA CCATGAGCGC TCCAGTGAAC AGAACAGGAA TCTGATGAAC
    AAGCTGGTGA ATAACCTTGG CAGTGGAAGG GAAGATGATG CCATTGTCCT GGATGATGCC
    ACCTCGTTTA ACCACGAGGA GAGTTTGGGC CTGGAACTCA TTCATGAGGA ATCTGATGCT
    CCTTTGCTGC CCCCAAGAGT ATACTCCACC GAGAACCACC AGCCACACCA TTATACCAGA
    AGGCGGATCC CCCAAGACCA CAGTGAGAGC TTTTTCCCTT TGCTAACCAA CGAGCACACA
    GAAGATCTCC AGTCACCCCA TAGAGACTCT CTCTATACCA GCATGCCGAC ACTGGCTGGT
    GTGGCCGCCA CAGAGAGTGT TACCACCAGC ACCCAGACCG AACCCCCACC GGCCAAATGT
    GGTGATGCCG AAGATGTTTA CTACAAAAGC ATGCCAAACC TAGGCTCCAG AAACCACGTC
    CATCAGCTGC ATACTTACTA CCAGCTAGGT CGCGGCAGCA GTGATGGATT TATAGTTCCT
    CCAAACAAAG ATGGGACCCC TCCCGAGGGA AGTTCAAAAG GACCGGCTCA TTTGGTCACT
    AGTCTATAG

    The stop codons will be deleted if pcDNA3.1+/C-(K)DYK vector is selected.

    CloneID OHu95009
    Clone ID Related Accession (Same CDS sequence) XM_017007941.1
    Accession Version XM_017007941.1 Latest version! Documents for ORF clone product in default vector
    Sequence Information ORF Nucleotide Sequence (Length: 3900bp)
    Protein sequence
    SNP
    Vector pcDNA3.1-C-(k)DYK or customized vector User Manual
    Clone information Clone Map MSDS
    Tag on pcDNA3.1+/C-(K)DYK C terminal DYKDDDDK tags
    ORF Insert Method CloneEZ™ Seamless cloning technology
    Insert Structure linear
    Update Date 2019-12-05
    Organism Homo sapiens(human)
    Product adhesion G protein-coupled receptor L3 isoform X14
    Comment Comment: MODEL REFSEQ: This record is predicted by automated computational analysis. This record is derived from a genomic sequence (NC_000004.12) annotated using gene prediction method: Gnomon, supported by mRNA and EST evidence. Also see: Documentation of NCBI's Annotation Process ##Genome-Annotation-Data-START## Annotation Provider :: NCBI Annotation Status :: Updated annotation Annotation Name :: Homo sapiens Updated Annotation Release 109.20191205 Annotation Version :: 109.20191205 Annotation Pipeline :: NCBI eukaryotic genome annotation pipeline Annotation Software Version :: 8.3 Annotation Method :: Best-placed RefSeq; propagated RefSeq model Features Annotated :: Gene; mRNA; CDS; ncRNA ##Genome-Annotation-Data-END##

    1
    61
    121
    181
    241
    301
    361
    421
    481
    541
    601
    661
    721
    781
    841
    901
    961
    1021
    1081
    1141
    1201
    1261
    1321
    1381
    1441
    1501
    1561
    1621
    1681
    1741
    1801
    1861
    1921
    1981
    2041
    2101
    2161
    2221
    2281
    2341
    2401
    2461
    2521
    2581
    2641
    2701
    2761
    2821
    2881
    2941
    3001
    3061
    3121
    3181
    3241
    3301
    3361
    3421
    3481
    3541
    3601
    3661
    3721
    3781
    3841
    ATGTGGCCAT CGCAGCTACT AATTTTCATG ATGCTCTTAG CTCCAATAAT TCATGGTGGC 
    AAGCACAGTG AACGACATCC TGCCCTTGCT GCTCCATTGC GACACGCTGA GCGCAGCCCA
    GGAGGCGCTC TTCCACCCAG ACATCTGCTT CAGCAGCCAG CTGCAGAGCG CACCGCTGCT
    CATCGTGGAC AAGGGCCCCG TGGAGCTACC AGAGGAGTTC GCGGTCCAGG TGCCCAAGGA
    GCACAGATTG CAGCGCAAGC TTTCAGCCGT GCCCCAATTC CAATGGCTGT GGTCCGCAGA
    GAGCTATCCT GTGAGAGCTA TCCTATAGAG CTTCGCTGTC CAGGAACAGA CGTCATCATG
    ATAGAAAGTG CCAACTATGG CAGGACTGAT GACAAAATTT GTGACTCTGA CCCTGCTCAG
    ATGGAGAATA TCCGATGTTA TCTGCCAGAT GCCTATAAGA TTATGTCTCA AAGATGCAAT
    AACAGAACCC AGTGTGCAGT GGTGGCAGGT CCTGATGTTT TTCCAGACCC GTGTCCAGGA
    ACCTATAAAT ACCTTGAAGT GCAGTATGAA TGTGTCCCTT ACAAAGTGGA ACAAAAAGTT
    TTTCTTTGTC CTGGACTACT AAAAGGAGTA TACCAGAGTG AACATTTGTT TGAGTCCGAC
    CACCAATCTG GGGCGTGGTG CAAAGACCCT CTGCAGGCAT CTGACAAGAT TTATTATATG
    CCCTGGACTC CCTACAGAAC TGATACCCTG ACTGAGTATT CATCCAAGGA TGACTTCATT
    GCTGGAAGAC CAACTACAAC CTACAAGCTC CCTCACAGGG TGGATGGCAC AGGATTTGTA
    GTGTATGATG GAGCTTTGTT CTTCAACAAA GAGCGCACCA GGAACATAGT AAAGTTTGAT
    TTGCGGACTA GGATAAAGAG TGGAGAGGCT ATCATAGCAA ATGCCAATTA CCATGATACC
    TCCCCTTACC GATGGGGAGG CAAATCTGAC ATAGACCTGG CAGTAGATGA GAATGGGCTA
    TGGGTAATCT ATGCAACAGA ACAAAACAAT GGTAAAATTG TCATTAGTCA ATTGAACCCT
    TACACCCTAC GGATCGAAGG AACATGGGAT ACTGCATATG ATAAAAGGTC AGCTTCCAAT
    GCCTTTATGA TTTGTGGAAT TCTGTATGTG GTCAAATCTG TATATGAGGA TGATGACAAT
    GAGGCTACTG GAAATAAGAT TGACTACATT TACAACACTG ACCAAAGCAA GGATAGTTTG
    GTGGATGTAC CCTTTCCTAA TTCATACCAG TACATTGCAG CTGTGGATTA CAACCCCAGG
    GACAACCTAC TTTATGTATG GAATAACTAT CACGTCGTGA AATATTCTTT GGATTTTGGA
    CCTCTGGATA GTAGATCAGG GCAGGCACAT CATGGACAAG TTTCATACAT TTCTCCGCCA
    ATTCACCTTG ACTCTGAGCT AGAAAGACCC TCTGTTAAAG ATATCTCTAC CACAGGACCT
    CTTGGCATGG GAAGCACTAC CACCAGTACC ACCCTTCGGA CCACAACTTT GAGCCCAGGA
    AGGAGTACCA CCCCGTCAGT GTCAGGAAGA AGAAACCGGA GTACTAGTAC CCCATCTCCA
    GCTGTCGAGG TACTTGATGA CATGACCACA CACCTTCCAT CAGCATCGTC CCAAATCCCA
    GCTCTCGAAG AGAGCTGTGA GGCTGTGGAA GCCCGAGAAA TCATGTGGTT TAAGACTCGT
    CAAGGACAGA TAGCAAAGCA GCCATGCCCT GCAGGAACTA TAGGTGTATC AACTTATCTA
    TGCCTTGCTC CTGATGGAAT TTGGGATCCC CAAGGTCCAG ATCTCAGCAA CTGTTCTTCT
    CCTTGGGTCA ATCATATAAC ACAGAAGTTG AAATCTGGTG AAACAGCTGC CAACATTGCT
    AGAGAGCTGG CTGAACAGAC AAGAAATCAC TTGAATGCTG GGGACATCAC CTACTCTGTC
    CGGGCCATGG ACCAGCTGGT AGGCCTCCTA GATGTACAGC TTCGGAACTT GACCCCAGGT
    GGAAAAGATA GTGCTGCCCG GAGTTTGAAC AAGCTTCAGA AAAGAGAGCG CTCTTGCAGA
    GCCTATGTCC AGGCAATGGT CGAGACAGTT AACAACCTCC TTCAGCCACA AGCTTTGAAT
    GCATGGAGAG ACCTGACTAC GAGTGATCAG CTGCGTGCGG CCACCATGTT GCTTCATACT
    GTGGAGGAAA GTGCTTTTGT GCTGGCTGAT AACCTTTTGA AGACTGACAT TGTCAGGGAG
    AATACAGACA ATATTAAATT GGAAGTTGCA AGACTGAGCA CAGAAGGAAA CTTAGAAGAC
    CTAAAATTTC CAGAAAACAT GGGCCATGGA AGCACTATCC AGCTGTCTGC AAATACCTTA
    AAGCAAAATG GCCGAAATGG AGAGATCAGA GTGGCCTTTG TCCTGTATAA CAACTTGGGT
    CCTTATTTAT CCACGGAGAA TGCCAGTATG AAGTTGGGAA CGGAAGCTTT GTCCACAAAT
    CATTCTGTTA TTGTCAATTC CCCTGTTATT ACGGCAGCAA TAAACAAAGA GTTCAGTAAC
    AAGGTTTATT TGGCTGATCC TGTGGTATTT ACTGTTAAAC ATATCAAGCA GTCAGAGGAA
    AATTTCAACC CTAACTGTTC ATTTTGGAGC TACTCCAAGC GTACAATGAC AGGTTATTGG
    TCAACACAAG GCTGTCGGCT CCTGACAACA AATAAGACAC ATACTACATG CTCTTGTAAC
    CACCTAACAA ATTTTGCAGT ACTGATGGCA CATGTGGAAG TTAAGCACAG TGATGCGGTC
    CATGACCTCC TTCTGGATGT GATCACGTGG GTTGGAATTT TGCTGTCCCT TGTTTGTCTC
    CTGATTTGCA TCTTCACATT TTGCTTTTTC CGGGGGCTCC AGAGTGACCG TAACACCATC
    CACAAGAACC TCTGCATCAG TCTCTTTGTA GCAGAGCTGC TCTTCCTGAT TGGGATCAAC
    CGAACTGACC AACCAATTGC CTGTGCTGTT TTCGCTGCCC TGTTACATTT CTTCTTCTTG
    GCTGCCTTCA CCTGGATGTT CCTGGAGGGG GTGCAGCTTT ATATCATGCT GGTGGAGGTT
    TTTGAGAGTG AACATTCACG TAGGAAATAC TTTTATCTGG TCGGCTATGG GATGCCTGCA
    CTCATTGTGG CTGTGTCAGC TGCAGTAGAC TACAGGAGTT ATGGAACAGA TAAAGTATGT
    TGGCTCCGAC TTGACACCTA CTTCATTTGG AGTTTTATAG GACCAGCAAC TTTGATAATT
    ATGCTTAATG TAATCTTCCT TGGGATTGCT TTATATAAAA TGTTTCATCA TACTGCTATA
    CTGAAACCTG AATCAGGCTG TCTTGATAAC ATCAAGTCAT GGGTTATAGG TGCAATAGCT
    CTTCTCTGCC TATTAGGATT GACCTGGGCC TTTGGACTCA TGTATATTAA TGAAAGCACA
    GTCATCATGG CCTATCTCTT CACCATTTTC AATTCTCTAC AGGGAATGTT TATATTTATT
    TTCCATTGTG TCCTACAGAA GAAGGTACGA AAAGAGTATG GGAAATGCCT GCGAACACAT
    TGCTGTAGTG GCAAAAGTAC AGAGAGTTCC ATTGGTTCAG GGAAAACATC TGGTTCTCGA
    ACTCCTGGAC GCTACTCCAC AGGCTCACAG AGCCGAATCC GTAGAATGTG GAATGACACG
    GTTCGAAAGC AGTCAGAGTC TTCCTTTATT ACTGGAGACA TAAACAGTTC AGCGTCACTC
    AACAGAGAGC CCTACAGAGA GACAAGTATG GGAGTAAAGC TAAACATTGC ATATCAAATA
    GGGGCTTCTG AACAATGCCA GGGATACAAG TGTCATGGAT ACTCTACCAC TGAATGGTAA

    The stop codons will be deleted if pcDNA3.1+/C-(K)DYK vector is selected.

    RefSeq XP_016863430.1
    CDS288..4187
    Translation

    Target ORF information:

    RefSeq Version XM_017007941.1
    Organism Homo sapiens(human)
    Definition Homo sapiens adhesion G protein-coupled receptor L3 (ADGRL3), transcript variant X15, mRNA.

    Target ORF information:

    Epitope DYKDDDDK
    Bacterial selection AMPR
    Mammalian selection NeoR
    Vector pcDNA3.1+/C-(K)DYK
    XM_017007941.1

    ORF Insert Sequence:

    1
    61
    121
    181
    241
    301
    361
    421
    481
    541
    601
    661
    721
    781
    841
    901
    961
    1021
    1081
    1141
    1201
    1261
    1321
    1381
    1441
    1501
    1561
    1621
    1681
    1741
    1801
    1861
    1921
    1981
    2041
    2101
    2161
    2221
    2281
    2341
    2401
    2461
    2521
    2581
    2641
    2701
    2761
    2821
    2881
    2941
    3001
    3061
    3121
    3181
    3241
    3301
    3361
    3421
    3481
    3541
    3601
    3661
    3721
    3781
    3841
    ATGTGGCCAT CGCAGCTACT AATTTTCATG ATGCTCTTAG CTCCAATAAT TCATGGTGGC 
    AAGCACAGTG AACGACATCC TGCCCTTGCT GCTCCATTGC GACACGCTGA GCGCAGCCCA
    GGAGGCGCTC TTCCACCCAG ACATCTGCTT CAGCAGCCAG CTGCAGAGCG CACCGCTGCT
    CATCGTGGAC AAGGGCCCCG TGGAGCTACC AGAGGAGTTC GCGGTCCAGG TGCCCAAGGA
    GCACAGATTG CAGCGCAAGC TTTCAGCCGT GCCCCAATTC CAATGGCTGT GGTCCGCAGA
    GAGCTATCCT GTGAGAGCTA TCCTATAGAG CTTCGCTGTC CAGGAACAGA CGTCATCATG
    ATAGAAAGTG CCAACTATGG CAGGACTGAT GACAAAATTT GTGACTCTGA CCCTGCTCAG
    ATGGAGAATA TCCGATGTTA TCTGCCAGAT GCCTATAAGA TTATGTCTCA AAGATGCAAT
    AACAGAACCC AGTGTGCAGT GGTGGCAGGT CCTGATGTTT TTCCAGACCC GTGTCCAGGA
    ACCTATAAAT ACCTTGAAGT GCAGTATGAA TGTGTCCCTT ACAAAGTGGA ACAAAAAGTT
    TTTCTTTGTC CTGGACTACT AAAAGGAGTA TACCAGAGTG AACATTTGTT TGAGTCCGAC
    CACCAATCTG GGGCGTGGTG CAAAGACCCT CTGCAGGCAT CTGACAAGAT TTATTATATG
    CCCTGGACTC CCTACAGAAC TGATACCCTG ACTGAGTATT CATCCAAGGA TGACTTCATT
    GCTGGAAGAC CAACTACAAC CTACAAGCTC CCTCACAGGG TGGATGGCAC AGGATTTGTA
    GTGTATGATG GAGCTTTGTT CTTCAACAAA GAGCGCACCA GGAACATAGT AAAGTTTGAT
    TTGCGGACTA GGATAAAGAG TGGAGAGGCT ATCATAGCAA ATGCCAATTA CCATGATACC
    TCCCCTTACC GATGGGGAGG CAAATCTGAC ATAGACCTGG CAGTAGATGA GAATGGGCTA
    TGGGTAATCT ATGCAACAGA ACAAAACAAT GGTAAAATTG TCATTAGTCA ATTGAACCCT
    TACACCCTAC GGATCGAAGG AACATGGGAT ACTGCATATG ATAAAAGGTC AGCTTCCAAT
    GCCTTTATGA TTTGTGGAAT TCTGTATGTG GTCAAATCTG TATATGAGGA TGATGACAAT
    GAGGCTACTG GAAATAAGAT TGACTACATT TACAACACTG ACCAAAGCAA GGATAGTTTG
    GTGGATGTAC CCTTTCCTAA TTCATACCAG TACATTGCAG CTGTGGATTA CAACCCCAGG
    GACAACCTAC TTTATGTATG GAATAACTAT CACGTCGTGA AATATTCTTT GGATTTTGGA
    CCTCTGGATA GTAGATCAGG GCAGGCACAT CATGGACAAG TTTCATACAT TTCTCCGCCA
    ATTCACCTTG ACTCTGAGCT AGAAAGACCC TCTGTTAAAG ATATCTCTAC CACAGGACCT
    CTTGGCATGG GAAGCACTAC CACCAGTACC ACCCTTCGGA CCACAACTTT GAGCCCAGGA
    AGGAGTACCA CCCCGTCAGT GTCAGGAAGA AGAAACCGGA GTACTAGTAC CCCATCTCCA
    GCTGTCGAGG TACTTGATGA CATGACCACA CACCTTCCAT CAGCATCGTC CCAAATCCCA
    GCTCTCGAAG AGAGCTGTGA GGCTGTGGAA GCCCGAGAAA TCATGTGGTT TAAGACTCGT
    CAAGGACAGA TAGCAAAGCA GCCATGCCCT GCAGGAACTA TAGGTGTATC AACTTATCTA
    TGCCTTGCTC CTGATGGAAT TTGGGATCCC CAAGGTCCAG ATCTCAGCAA CTGTTCTTCT
    CCTTGGGTCA ATCATATAAC ACAGAAGTTG AAATCTGGTG AAACAGCTGC CAACATTGCT
    AGAGAGCTGG CTGAACAGAC AAGAAATCAC TTGAATGCTG GGGACATCAC CTACTCTGTC
    CGGGCCATGG ACCAGCTGGT AGGCCTCCTA GATGTACAGC TTCGGAACTT GACCCCAGGT
    GGAAAAGATA GTGCTGCCCG GAGTTTGAAC AAGCTTCAGA AAAGAGAGCG CTCTTGCAGA
    GCCTATGTCC AGGCAATGGT CGAGACAGTT AACAACCTCC TTCAGCCACA AGCTTTGAAT
    GCATGGAGAG ACCTGACTAC GAGTGATCAG CTGCGTGCGG CCACCATGTT GCTTCATACT
    GTGGAGGAAA GTGCTTTTGT GCTGGCTGAT AACCTTTTGA AGACTGACAT TGTCAGGGAG
    AATACAGACA ATATTAAATT GGAAGTTGCA AGACTGAGCA CAGAAGGAAA CTTAGAAGAC
    CTAAAATTTC CAGAAAACAT GGGCCATGGA AGCACTATCC AGCTGTCTGC AAATACCTTA
    AAGCAAAATG GCCGAAATGG AGAGATCAGA GTGGCCTTTG TCCTGTATAA CAACTTGGGT
    CCTTATTTAT CCACGGAGAA TGCCAGTATG AAGTTGGGAA CGGAAGCTTT GTCCACAAAT
    CATTCTGTTA TTGTCAATTC CCCTGTTATT ACGGCAGCAA TAAACAAAGA GTTCAGTAAC
    AAGGTTTATT TGGCTGATCC TGTGGTATTT ACTGTTAAAC ATATCAAGCA GTCAGAGGAA
    AATTTCAACC CTAACTGTTC ATTTTGGAGC TACTCCAAGC GTACAATGAC AGGTTATTGG
    TCAACACAAG GCTGTCGGCT CCTGACAACA AATAAGACAC ATACTACATG CTCTTGTAAC
    CACCTAACAA ATTTTGCAGT ACTGATGGCA CATGTGGAAG TTAAGCACAG TGATGCGGTC
    CATGACCTCC TTCTGGATGT GATCACGTGG GTTGGAATTT TGCTGTCCCT TGTTTGTCTC
    CTGATTTGCA TCTTCACATT TTGCTTTTTC CGGGGGCTCC AGAGTGACCG TAACACCATC
    CACAAGAACC TCTGCATCAG TCTCTTTGTA GCAGAGCTGC TCTTCCTGAT TGGGATCAAC
    CGAACTGACC AACCAATTGC CTGTGCTGTT TTCGCTGCCC TGTTACATTT CTTCTTCTTG
    GCTGCCTTCA CCTGGATGTT CCTGGAGGGG GTGCAGCTTT ATATCATGCT GGTGGAGGTT
    TTTGAGAGTG AACATTCACG TAGGAAATAC TTTTATCTGG TCGGCTATGG GATGCCTGCA
    CTCATTGTGG CTGTGTCAGC TGCAGTAGAC TACAGGAGTT ATGGAACAGA TAAAGTATGT
    TGGCTCCGAC TTGACACCTA CTTCATTTGG AGTTTTATAG GACCAGCAAC TTTGATAATT
    ATGCTTAATG TAATCTTCCT TGGGATTGCT TTATATAAAA TGTTTCATCA TACTGCTATA
    CTGAAACCTG AATCAGGCTG TCTTGATAAC ATCAAGTCAT GGGTTATAGG TGCAATAGCT
    CTTCTCTGCC TATTAGGATT GACCTGGGCC TTTGGACTCA TGTATATTAA TGAAAGCACA
    GTCATCATGG CCTATCTCTT CACCATTTTC AATTCTCTAC AGGGAATGTT TATATTTATT
    TTCCATTGTG TCCTACAGAA GAAGGTACGA AAAGAGTATG GGAAATGCCT GCGAACACAT
    TGCTGTAGTG GCAAAAGTAC AGAGAGTTCC ATTGGTTCAG GGAAAACATC TGGTTCTCGA
    ACTCCTGGAC GCTACTCCAC AGGCTCACAG AGCCGAATCC GTAGAATGTG GAATGACACG
    GTTCGAAAGC AGTCAGAGTC TTCCTTTATT ACTGGAGACA TAAACAGTTC AGCGTCACTC
    AACAGAGAGC CCTACAGAGA GACAAGTATG GGAGTAAAGC TAAACATTGC ATATCAAATA
    GGGGCTTCTG AACAATGCCA GGGATACAAG TGTCATGGAT ACTCTACCAC TGAATGGTAA

    The stop codons will be deleted if pcDNA3.1+/C-(K)DYK vector is selected.

    CloneID OHu95010
    Clone ID Related Accession (Same CDS sequence) XM_017007942.1
    Accession Version XM_017007942.1 Latest version! Documents for ORF clone product in default vector
    Sequence Information ORF Nucleotide Sequence (Length: 3708bp)
    Protein sequence
    SNP
    Vector pcDNA3.1-C-(k)DYK or customized vector User Manual
    Clone information Clone Map MSDS
    Tag on pcDNA3.1+/C-(K)DYK C terminal DYKDDDDK tags
    ORF Insert Method CloneEZ™ Seamless cloning technology
    Insert Structure linear
    Update Date 2019-12-05
    Organism Homo sapiens(human)
    Product adhesion G protein-coupled receptor L3 isoform X15
    Comment Comment: MODEL REFSEQ: This record is predicted by automated computational analysis. This record is derived from a genomic sequence (NC_000004.12) annotated using gene prediction method: Gnomon, supported by mRNA and EST evidence. Also see: Documentation of NCBI's Annotation Process ##Genome-Annotation-Data-START## Annotation Provider :: NCBI Annotation Status :: Updated annotation Annotation Name :: Homo sapiens Updated Annotation Release 109.20191205 Annotation Version :: 109.20191205 Annotation Pipeline :: NCBI eukaryotic genome annotation pipeline Annotation Software Version :: 8.3 Annotation Method :: Best-placed RefSeq; propagated RefSeq model Features Annotated :: Gene; mRNA; CDS; ncRNA ##Genome-Annotation-Data-END##

    1
    61
    121
    181
    241
    301
    361
    421
    481
    541
    601
    661
    721
    781
    841
    901
    961
    1021
    1081
    1141
    1201
    1261
    1321
    1381
    1441
    1501
    1561
    1621
    1681
    1741
    1801
    1861
    1921
    1981
    2041
    2101
    2161
    2221
    2281
    2341
    2401
    2461
    2521
    2581
    2641
    2701
    2761
    2821
    2881
    2941
    3001
    3061
    3121
    3181
    3241
    3301
    3361
    3421
    3481
    3541
    3601
    3661
    ATGTGGCCAT CGCAGCTACT AATTTTCATG ATGCTCTTAG CTCCAATAAT TCATGCTTTC 
    AGCCGTGCCC CAATTCCAAT GGCTGTGGTC CGCAGAGAGC TATCCTGTGA GAGCTATCCT
    ATAGAGCTTC GCTGTCCAGG AACAGACGTC ATCATGATAG AAAGTGCCAA CTATGGCAGG
    ACTGATGACA AAATTTGTGA CTCTGACCCT GCTCAGATGG AGAATATCCG ATGTTATCTG
    CCAGATGCCT ATAAGATTAT GTCTCAAAGA TGCAATAACA GAACCCAGTG TGCAGTGGTG
    GCAGGTCCTG ATGTTTTTCC AGACCCGTGT CCAGGAACCT ATAAATACCT TGAAGTGCAG
    TATGAATGTG TCCCTTACAA AGTGGAACAA AAAGTTTTTC TTTGTCCTGG ACTACTAAAA
    GGAGTATACC AGAGTGAACA TTTGTTTGAG TCCGACCACC AATCTGGGGC GTGGTGCAAA
    GACCCTCTGC AGGCATCTGA CAAGATTTAT TATATGCCCT GGACTCCCTA CAGAACTGAT
    ACCCTGACTG AGTATTCATC CAAGGATGAC TTCATTGCTG GAAGACCAAC TACAACCTAC
    AAGCTCCCTC ACAGGGTGGA TGGCACAGGA TTTGTAGTGT ATGATGGAGC TTTGTTCTTC
    AACAAAGAGC GCACCAGGAA CATAGTAAAG TTTGATTTGC GGACTAGGAT AAAGAGTGGA
    GAGGCTATCA TAGCAAATGC CAATTACCAT GATACCTCCC CTTACCGATG GGGAGGCAAA
    TCTGACATAG ACCTGGCAGT AGATGAGAAT GGGCTATGGG TAATCTATGC AACAGAACAA
    AACAATGGTA AAATTGTCAT TAGTCAATTG AACCCTTACA CCCTACGGAT CGAAGGAACA
    TGGGATACTG CATATGATAA AAGGTCAGCT TCCAATGCCT TTATGATTTG TGGAATTCTG
    TATGTGGTCA AATCTGTATA TGAGGATGAT GACAATGAGG CTACTGGAAA TAAGATTGAC
    TACATTTACA ACACTGACCA AAGCAAGGAT AGTTTGGTGG ATGTACCCTT TCCTAATTCA
    TACCAGTACA TTGCAGCTGT GGATTACAAC CCCAGGGACA ACCTACTTTA TGTATGGAAT
    AACTATCACG TCGTGAAATA TTCTTTGGAT TTTGGACCTC TGGATAGTAG ATCAGGGCAG
    GCACATCATG GACAAGTTTC ATACATTTCT CCGCCAATTC ACCTTGACTC TGAGCTAGAA
    AGACCCTCTG TTAAAGGACC TCTTGGCATG GGAAGCACTA CCACCAGTAC CACCCTTCGG
    ACCACAACTT TGAGCCCAGG AAGGAGTACC ACCCCGTCAG TGTCAGGAAG AAGAAACCGG
    AGTACTAGTA CCCCATCTCC AGCTGTCGAG GTACTTGATG ACATGACCAC ACACCTTCCA
    TCAGCATCGT CCCAAATCCC AGCTCTCGAA GAGAGCTGTG AGGCTGTGGA AGCCCGAGAA
    ATCATGTGGT TTAAGACTCG TCAAGGACAG ATAGCAAAGC AGCCATGCCC TGCAGGAACT
    ATAGGTGTAT CAACTTATCT ATGCCTTGCT CCTGATGGAA TTTGGGATCC CCAAGGTCCA
    GATCTCAGCA ACTGTTCTTC TCCTTGGGTC AATCATATAA CACAGAAGTT GAAATCTGGT
    GAAACAGCTG CCAACATTGC TAGAGAGCTG GCTGAACAGA CAAGAAATCA CTTGAATGCT
    GGGGACATCA CCTACTCTGT CCGGGCCATG GACCAGCTGG TAGGCCTCCT AGATGTACAG
    CTTCGGAACT TGACCCCAGG TGGAAAAGAT AGTGCTGCCC GGAGTTTGAA CAAGCTTCAG
    AAAAGAGAGC GCTCTTGCAG AGCCTATGTC CAGGCAATGG TCGAGACAGT TAACAACCTC
    CTTCAGCCAC AAGCTTTGAA TGCATGGAGA GACCTGACTA CGAGTGATCA GCTGCGTGCG
    GCCACCATGT TGCTTCATAC TGTGGAGGAA AGTGCTTTTG TGCTGGCTGA TAACCTTTTG
    AAGACTGACA TTGTCAGGGA GAATACAGAC AATATTAAAT TGGAAGTTGC AAGACTGAGC
    ACAGAAGGAA ACTTAGAAGA CCTAAAATTT CCAGAAAACA TGGGCCATGG AAGCACTATC
    CAGCTGTCTG CAAATACCTT AAAGCAAAAT GGCCGAAATG GAGAGATCAG AGTGGCCTTT
    GTCCTGTATA ACAACTTGGG TCCTTATTTA TCCACGGAGA ATGCCAGTAT GAAGTTGGGA
    ACGGAAGCTT TGTCCACAAA TCATTCTGTT ATTGTCAATT CCCCTGTTAT TACGGCAGCA
    ATAAACAAAG AGTTCAGTAA CAAGGTTTAT TTGGCTGATC CTGTGGTATT TACTGTTAAA
    CATATCAAGC AGTCAGAGGA AAATTTCAAC CCTAACTGTT CATTTTGGAG CTACTCCAAG
    CGTACAATGA CAGGTTATTG GTCAACACAA GGCTGTCGGC TCCTGACAAC AAATAAGACA
    CATACTACAT GCTCTTGTAA CCACCTAACA AATTTTGCAG TACTGATGGC ACATGTGGAA
    GTTAAGCACA GTGATGCGGT CCATGACCTC CTTCTGGATG TGATCACGTG GGTTGGAATT
    TTGCTGTCCC TTGTTTGTCT CCTGATTTGC ATCTTCACAT TTTGCTTTTT CCGGGGGCTC
    CAGAGTGACC GTAACACCAT CCACAAGAAC CTCTGCATCA GTCTCTTTGT AGCAGAGCTG
    CTCTTCCTGA TTGGGATCAA CCGAACTGAC CAACCAATTG CCTGTGCTGT TTTCGCTGCC
    CTGTTACATT TCTTCTTCTT GGCTGCCTTC ACCTGGATGT TCCTGGAGGG GGTGCAGCTT
    TATATCATGC TGGTGGAGGT TTTTGAGAGT GAACATTCAC GTAGGAAATA CTTTTATCTG
    GTCGGCTATG GGATGCCTGC ACTCATTGTG GCTGTGTCAG CTGCAGTAGA CTACAGGAGT
    TATGGAACAG ATAAAGTATG TTGGCTCCGA CTTGACACCT ACTTCATTTG GAGTTTTATA
    GGACCAGCAA CTTTGATAAT TATGCTTAAT GTAATCTTCC TTGGGATTGC TTTATATAAA
    ATGTTTCATC ATACTGCTAT ACTGAAACCT GAATCAGGCT GTCTTGATAA CATCAACTAT
    GAGGATAACA GACCCTTCAT CAAGTCATGG GTTATAGGTG CAATAGCTCT TCTCTGCCTA
    TTAGGATTGA CCTGGGCCTT TGGACTCATG TATATTAATG AAAGCACAGT CATCATGGCC
    TATCTCTTCA CCATTTTCAA TTCTCTACAG GGAATGTTTA TATTTATTTT CCATTGTGTC
    CTACAGAAGA AGGTACGAAA AGAGTATGGG AAATGCCTGC GAACACATTG CTGTAGTGGC
    AAAAGTACAG AGAGTTCCAT TGGTTCAGGG AAAACATCTG GTTCTCGAAC TCCTGGACGC
    TACTCCACAG GCTCACAGAG CCGAATCCGT AGAATGTGGA ATGACACGGT TCGAAAGCAG
    TCAGAGTCTT CCTTTATTAC TGGAGACATA AACAGTTCAG CGTCACTCAA CAGAGAGCCC
    TACAGAGAGA CAAGTATGGG AGTAAAGCTA AACATTGCAT ATCAAATAGG GGCTTCTGAA
    CAATGCCAGG GATACAAGTG TCATGGATAC TCTACCACTG AATGGTAA

    The stop codons will be deleted if pcDNA3.1+/C-(K)DYK vector is selected.

    RefSeq XP_016863431.1
    CDS288..3995
    Translation

    Target ORF information:

    RefSeq Version XM_017007942.1
    Organism Homo sapiens(human)
    Definition Homo sapiens adhesion G protein-coupled receptor L3 (ADGRL3), transcript variant X16, mRNA.

    Target ORF information:

    Epitope DYKDDDDK
    Bacterial selection AMPR
    Mammalian selection NeoR
    Vector pcDNA3.1+/C-(K)DYK
    XM_017007942.1

    ORF Insert Sequence:

    1
    61
    121
    181
    241
    301
    361
    421
    481
    541
    601
    661
    721
    781
    841
    901
    961
    1021
    1081
    1141
    1201
    1261
    1321
    1381
    1441
    1501
    1561
    1621
    1681
    1741
    1801
    1861
    1921
    1981
    2041
    2101
    2161
    2221
    2281
    2341
    2401
    2461
    2521
    2581
    2641
    2701
    2761
    2821
    2881
    2941
    3001
    3061
    3121
    3181
    3241
    3301
    3361
    3421
    3481
    3541
    3601
    3661
    ATGTGGCCAT CGCAGCTACT AATTTTCATG ATGCTCTTAG CTCCAATAAT TCATGCTTTC 
    AGCCGTGCCC CAATTCCAAT GGCTGTGGTC CGCAGAGAGC TATCCTGTGA GAGCTATCCT
    ATAGAGCTTC GCTGTCCAGG AACAGACGTC ATCATGATAG AAAGTGCCAA CTATGGCAGG
    ACTGATGACA AAATTTGTGA CTCTGACCCT GCTCAGATGG AGAATATCCG ATGTTATCTG
    CCAGATGCCT ATAAGATTAT GTCTCAAAGA TGCAATAACA GAACCCAGTG TGCAGTGGTG
    GCAGGTCCTG ATGTTTTTCC AGACCCGTGT CCAGGAACCT ATAAATACCT TGAAGTGCAG
    TATGAATGTG TCCCTTACAA AGTGGAACAA AAAGTTTTTC TTTGTCCTGG ACTACTAAAA
    GGAGTATACC AGAGTGAACA TTTGTTTGAG TCCGACCACC AATCTGGGGC GTGGTGCAAA
    GACCCTCTGC AGGCATCTGA CAAGATTTAT TATATGCCCT GGACTCCCTA CAGAACTGAT
    ACCCTGACTG AGTATTCATC CAAGGATGAC TTCATTGCTG GAAGACCAAC TACAACCTAC
    AAGCTCCCTC ACAGGGTGGA TGGCACAGGA TTTGTAGTGT ATGATGGAGC TTTGTTCTTC
    AACAAAGAGC GCACCAGGAA CATAGTAAAG TTTGATTTGC GGACTAGGAT AAAGAGTGGA
    GAGGCTATCA TAGCAAATGC CAATTACCAT GATACCTCCC CTTACCGATG GGGAGGCAAA
    TCTGACATAG ACCTGGCAGT AGATGAGAAT GGGCTATGGG TAATCTATGC AACAGAACAA
    AACAATGGTA AAATTGTCAT TAGTCAATTG AACCCTTACA CCCTACGGAT CGAAGGAACA
    TGGGATACTG CATATGATAA AAGGTCAGCT TCCAATGCCT TTATGATTTG TGGAATTCTG
    TATGTGGTCA AATCTGTATA TGAGGATGAT GACAATGAGG CTACTGGAAA TAAGATTGAC
    TACATTTACA ACACTGACCA AAGCAAGGAT AGTTTGGTGG ATGTACCCTT TCCTAATTCA
    TACCAGTACA TTGCAGCTGT GGATTACAAC CCCAGGGACA ACCTACTTTA TGTATGGAAT
    AACTATCACG TCGTGAAATA TTCTTTGGAT TTTGGACCTC TGGATAGTAG ATCAGGGCAG
    GCACATCATG GACAAGTTTC ATACATTTCT CCGCCAATTC ACCTTGACTC TGAGCTAGAA
    AGACCCTCTG TTAAAGGACC TCTTGGCATG GGAAGCACTA CCACCAGTAC CACCCTTCGG
    ACCACAACTT TGAGCCCAGG AAGGAGTACC ACCCCGTCAG TGTCAGGAAG AAGAAACCGG
    AGTACTAGTA CCCCATCTCC AGCTGTCGAG GTACTTGATG ACATGACCAC ACACCTTCCA
    TCAGCATCGT CCCAAATCCC AGCTCTCGAA GAGAGCTGTG AGGCTGTGGA AGCCCGAGAA
    ATCATGTGGT TTAAGACTCG TCAAGGACAG ATAGCAAAGC AGCCATGCCC TGCAGGAACT
    ATAGGTGTAT CAACTTATCT ATGCCTTGCT CCTGATGGAA TTTGGGATCC CCAAGGTCCA
    GATCTCAGCA ACTGTTCTTC TCCTTGGGTC AATCATATAA CACAGAAGTT GAAATCTGGT
    GAAACAGCTG CCAACATTGC TAGAGAGCTG GCTGAACAGA CAAGAAATCA CTTGAATGCT
    GGGGACATCA CCTACTCTGT CCGGGCCATG GACCAGCTGG TAGGCCTCCT AGATGTACAG
    CTTCGGAACT TGACCCCAGG TGGAAAAGAT AGTGCTGCCC GGAGTTTGAA CAAGCTTCAG
    AAAAGAGAGC GCTCTTGCAG AGCCTATGTC CAGGCAATGG TCGAGACAGT TAACAACCTC
    CTTCAGCCAC AAGCTTTGAA TGCATGGAGA GACCTGACTA CGAGTGATCA GCTGCGTGCG
    GCCACCATGT TGCTTCATAC TGTGGAGGAA AGTGCTTTTG TGCTGGCTGA TAACCTTTTG
    AAGACTGACA TTGTCAGGGA GAATACAGAC AATATTAAAT TGGAAGTTGC AAGACTGAGC
    ACAGAAGGAA ACTTAGAAGA CCTAAAATTT CCAGAAAACA TGGGCCATGG AAGCACTATC
    CAGCTGTCTG CAAATACCTT AAAGCAAAAT GGCCGAAATG GAGAGATCAG AGTGGCCTTT
    GTCCTGTATA ACAACTTGGG TCCTTATTTA TCCACGGAGA ATGCCAGTAT GAAGTTGGGA
    ACGGAAGCTT TGTCCACAAA TCATTCTGTT ATTGTCAATT CCCCTGTTAT TACGGCAGCA
    ATAAACAAAG AGTTCAGTAA CAAGGTTTAT TTGGCTGATC CTGTGGTATT TACTGTTAAA
    CATATCAAGC AGTCAGAGGA AAATTTCAAC CCTAACTGTT CATTTTGGAG CTACTCCAAG
    CGTACAATGA CAGGTTATTG GTCAACACAA GGCTGTCGGC TCCTGACAAC AAATAAGACA
    CATACTACAT GCTCTTGTAA CCACCTAACA AATTTTGCAG TACTGATGGC ACATGTGGAA
    GTTAAGCACA GTGATGCGGT CCATGACCTC CTTCTGGATG TGATCACGTG GGTTGGAATT
    TTGCTGTCCC TTGTTTGTCT CCTGATTTGC ATCTTCACAT TTTGCTTTTT CCGGGGGCTC
    CAGAGTGACC GTAACACCAT CCACAAGAAC CTCTGCATCA GTCTCTTTGT AGCAGAGCTG
    CTCTTCCTGA TTGGGATCAA CCGAACTGAC CAACCAATTG CCTGTGCTGT TTTCGCTGCC
    CTGTTACATT TCTTCTTCTT GGCTGCCTTC ACCTGGATGT TCCTGGAGGG GGTGCAGCTT
    TATATCATGC TGGTGGAGGT TTTTGAGAGT GAACATTCAC GTAGGAAATA CTTTTATCTG
    GTCGGCTATG GGATGCCTGC ACTCATTGTG GCTGTGTCAG CTGCAGTAGA CTACAGGAGT
    TATGGAACAG ATAAAGTATG TTGGCTCCGA CTTGACACCT ACTTCATTTG GAGTTTTATA
    GGACCAGCAA CTTTGATAAT TATGCTTAAT GTAATCTTCC TTGGGATTGC TTTATATAAA
    ATGTTTCATC ATACTGCTAT ACTGAAACCT GAATCAGGCT GTCTTGATAA CATCAACTAT
    GAGGATAACA GACCCTTCAT CAAGTCATGG GTTATAGGTG CAATAGCTCT TCTCTGCCTA
    TTAGGATTGA CCTGGGCCTT TGGACTCATG TATATTAATG AAAGCACAGT CATCATGGCC
    TATCTCTTCA CCATTTTCAA TTCTCTACAG GGAATGTTTA TATTTATTTT CCATTGTGTC
    CTACAGAAGA AGGTACGAAA AGAGTATGGG AAATGCCTGC GAACACATTG CTGTAGTGGC
    AAAAGTACAG AGAGTTCCAT TGGTTCAGGG AAAACATCTG GTTCTCGAAC TCCTGGACGC
    TACTCCACAG GCTCACAGAG CCGAATCCGT AGAATGTGGA ATGACACGGT TCGAAAGCAG
    TCAGAGTCTT CCTTTATTAC TGGAGACATA AACAGTTCAG CGTCACTCAA CAGAGAGCCC
    TACAGAGAGA CAAGTATGGG AGTAAAGCTA AACATTGCAT ATCAAATAGG GGCTTCTGAA
    CAATGCCAGG GATACAAGTG TCATGGATAC TCTACCACTG AATGGTAA

    The stop codons will be deleted if pcDNA3.1+/C-(K)DYK vector is selected.

    CloneID OHu65888
    Clone ID Related Accession (Same CDS sequence) XM_017007940.1
    Accession Version XM_017007940.1 Latest version! Documents for ORF clone product in default vector
    Sequence Information ORF Nucleotide Sequence (Length: 3927bp)
    Protein sequence
    SNP
    Vector pcDNA3.1-C-(k)DYK or customized vector User Manual
    Clone information Clone Map MSDS
    Tag on pcDNA3.1+/C-(K)DYK C terminal DYKDDDDK tags
    ORF Insert Method CloneEZ™ Seamless cloning technology
    Insert Structure linear
    Update Date 2019-12-05
    Organism Homo sapiens(human)
    Product adhesion G protein-coupled receptor L3 isoform X13
    Comment Comment: MODEL REFSEQ: This record is predicted by automated computational analysis. This record is derived from a genomic sequence (NC_000004.12) annotated using gene prediction method: Gnomon, supported by mRNA and EST evidence. Also see: Documentation of NCBI's Annotation Process ##Genome-Annotation-Data-START## Annotation Provider :: NCBI Annotation Status :: Updated annotation Annotation Name :: Homo sapiens Updated Annotation Release 109.20191205 Annotation Version :: 109.20191205 Annotation Pipeline :: NCBI eukaryotic genome annotation pipeline Annotation Software Version :: 8.3 Annotation Method :: Best-placed RefSeq; propagated RefSeq model Features Annotated :: Gene; mRNA; CDS; ncRNA ##Genome-Annotation-Data-END##

    1
    61
    121
    181
    241
    301
    361
    421
    481
    541
    601
    661
    721
    781
    841
    901
    961
    1021
    1081
    1141
    1201
    1261
    1321
    1381
    1441
    1501
    1561
    1621
    1681
    1741
    1801
    1861
    1921
    1981
    2041
    2101
    2161
    2221
    2281
    2341
    2401
    2461
    2521
    2581
    2641
    2701
    2761
    2821
    2881
    2941
    3001
    3061
    3121
    3181
    3241
    3301
    3361
    3421
    3481
    3541
    3601
    3661
    3721
    3781
    3841
    3901
    ATGTGGCCAT CGCAGCTACT AATTTTCATG ATGCTCTTAG CTCCAATAAT TCATGGTGGC 
    AAGCACAGTG AACGACATCC TGCCCTTGCT GCTCCATTGC GACACGCTGA GCGCAGCCCA
    GGAGGCGCTC TTCCACCCAG ACATCTGCTT CAGCAGCCAG CTGCAGAGCG CACCGCTGCT
    CATCGTGGAC AAGGGCCCCG TGGAGCTACC AGAGGAGTTC GCGGTCCAGG TGCCCAAGGA
    GCACAGATTG CAGCGCAAGC TTTCAGCCGT GCCCCAATTC CAATGGCTGT GGTCCGCAGA
    GAGCTATCCT GTGAGAGCTA TCCTATAGAG CTTCGCTGTC CAGGAACAGA CGTCATCATG
    ATAGAAAGTG CCAACTATGG CAGGACTGAT GACAAAATTT GTGACTCTGA CCCTGCTCAG
    ATGGAGAATA TCCGATGTTA TCTGCCAGAT GCCTATAAGA TTATGTCTCA AAGATGCAAT
    AACAGAACCC AGTGTGCAGT GGTGGCAGGT CCTGATGTTT TTCCAGACCC GTGTCCAGGA
    ACCTATAAAT ACCTTGAAGT GCAGTATGAA TGTGTCCCTT ACAAAGTGGA ACAAAAAGTT
    TTTCTTTGTC CTGGACTACT AAAAGGAGTA TACCAGAGTG AACATTTGTT TGAGTCCGAC
    CACCAATCTG GGGCGTGGTG CAAAGACCCT CTGCAGGCAT CTGACAAGAT TTATTATATG
    CCCTGGACTC CCTACAGAAC TGATACCCTG ACTGAGTATT CATCCAAGGA TGACTTCATT
    GCTGGAAGAC CAACTACAAC CTACAAGCTC CCTCACAGGG TGGATGGCAC AGGATTTGTA
    GTGTATGATG GAGCTTTGTT CTTCAACAAA GAGCGCACCA GGAACATAGT AAAGTTTGAT
    TTGCGGACTA GGATAAAGAG TGGAGAGGCT ATCATAGCAA ATGCCAATTA CCATGATACC
    TCCCCTTACC GATGGGGAGG CAAATCTGAC ATAGACCTGG CAGTAGATGA GAATGGGCTA
    TGGGTAATCT ATGCAACAGA ACAAAACAAT GGTAAAATTG TCATTAGTCA ATTGAACCCT
    TACACCCTAC GGATCGAAGG AACATGGGAT ACTGCATATG ATAAAAGGTC AGCTTCCAAT
    GCCTTTATGA TTTGTGGAAT TCTGTATGTG GTCAAATCTG TATATGAGGA TGATGACAAT
    GAGGCTACTG GAAATAAGAT TGACTACATT TACAACACTG ACCAAAGCAA GGATAGTTTG
    GTGGATGTAC CCTTTCCTAA TTCATACCAG TACATTGCAG CTGTGGATTA CAACCCCAGG
    GACAACCTAC TTTATGTATG GAATAACTAT CACGTCGTGA AATATTCTTT GGATTTTGGA
    CCTCTGGATA GTAGATCAGG GCAGGCACAT CATGGACAAG TTTCATACAT TTCTCCGCCA
    ATTCACCTTG ACTCTGAGCT AGAAAGACCC TCTGTTAAAG ATATCTCTAC CACAGGACCT
    CTTGGCATGG GAAGCACTAC CACCAGTACC ACCCTTCGGA CCACAACTTT GAGCCCAGGA
    AGGAGTACCA CCCCGTCAGT GTCAGGAAGA AGAAACCGGA GTACTAGTAC CCCATCTCCA
    GCTGTCGAGG TACTTGATGA CATGACCACA CACCTTCCAT CAGCATCGTC CCAAATCCCA
    GCTCTCGAAG AGAGCTGTGA GGCTGTGGAA GCCCGAGAAA TCATGTGGTT TAAGACTCGT
    CAAGGACAGA TAGCAAAGCA GCCATGCCCT GCAGGAACTA TAGGTGTATC AACTTATCTA
    TGCCTTGCTC CTGATGGAAT TTGGGATCCC CAAGGTCCAG ATCTCAGCAA CTGTTCTTCT
    CCTTGGGTCA ATCATATAAC ACAGAAGTTG AAATCTGGTG AAACAGCTGC CAACATTGCT
    AGAGAGCTGG CTGAACAGAC AAGAAATCAC TTGAATGCTG GGGACATCAC CTACTCTGTC
    CGGGCCATGG ACCAGCTGGT AGGCCTCCTA GATGTACAGC TTCGGAACTT GACCCCAGGT
    GGAAAAGATA GTGCTGCCCG GAGTTTGAAC AAGCTTCAGA AAAGAGAGCG CTCTTGCAGA
    GCCTATGTCC AGGCAATGGT CGAGACAGTT AACAACCTCC TTCAGCCACA AGCTTTGAAT
    GCATGGAGAG ACCTGACTAC GAGTGATCAG CTGCGTGCGG CCACCATGTT GCTTCATACT
    GTGGAGGAAA GTGCTTTTGT GCTGGCTGAT AACCTTTTGA AGACTGACAT TGTCAGGGAG
    AATACAGACA ATATTAAATT GGAAGTTGCA AGACTGAGCA CAGAAGGAAA CTTAGAAGAC
    CTAAAATTTC CAGAAAACAT GGGCCATGGA AGCACTATCC AGCTGTCTGC AAATACCTTA
    AAGCAAAATG GCCGAAATGG AGAGATCAGA GTGGCCTTTG TCCTGTATAA CAACTTGGGT
    CCTTATTTAT CCACGGAGAA TGCCAGTATG AAGTTGGGAA CGGAAGCTTT GTCCACAAAT
    CATTCTGTTA TTGTCAATTC CCCTGTTATT ACGGCAGCAA TAAACAAAGA GTTCAGTAAC
    AAGGTTTATT TGGCTGATCC TGTGGTATTT ACTGTTAAAC ATATCAAGCA GTCAGAGGAA
    AATTTCAACC CTAACTGTTC ATTTTGGAGC TACTCCAAGC GTACAATGAC AGGTTATTGG
    TCAACACAAG GCTGTCGGCT CCTGACAACA AATAAGACAC ATACTACATG CTCTTGTAAC
    CACCTAACAA ATTTTGCAGT ACTGATGGCA CATGTGGAAG TTAAGCACAG TGATGCGGTC
    CATGACCTCC TTCTGGATGT GATCACGTGG GTTGGAATTT TGCTGTCCCT TGTTTGTCTC
    CTGATTTGCA TCTTCACATT TTGCTTTTTC CGGGGGCTCC AGAGTGACCG TAACACCATC
    CACAAGAACC TCTGCATCAG TCTCTTTGTA GCAGAGCTGC TCTTCCTGAT TGGGATCAAC
    CGAACTGACC AACCAATTGC CTGTGCTGTT TTCGCTGCCC TGTTACATTT CTTCTTCTTG
    GCTGCCTTCA CCTGGATGTT CCTGGAGGGG GTGCAGCTTT ATATCATGCT GGTGGAGGTT
    TTTGAGAGTG AACATTCACG TAGGAAATAC TTTTATCTGG TCGGCTATGG GATGCCTGCA
    CTCATTGTGG CTGTGTCAGC TGCAGTAGAC TACAGGAGTT ATGGAACAGA TAAAGTATGT
    TGGCTCCGAC TTGACACCTA CTTCATTTGG AGTTTTATAG GACCAGCAAC TTTGATAATT
    ATGCTTAATG TAATCTTCCT TGGGATTGCT TTATATAAAA TGTTTCATCA TACTGCTATA
    CTGAAACCTG AATCAGGCTG TCTTGATAAC ATCAACTATG AGGATAACAG ACCCTTCATC
    AAGTCATGGG TTATAGGTGC AATAGCTCTT CTCTGCCTAT TAGGATTGAC CTGGGCCTTT
    GGACTCATGT ATATTAATGA AAGCACAGTC ATCATGGCCT ATCTCTTCAC CATTTTCAAT
    TCTCTACAGG GAATGTTTAT ATTTATTTTC CATTGTGTCC TACAGAAGAA GGTACGAAAA
    GAGTATGGGA AATGCCTGCG AACACATTGC TGTAGTGGCA AAAGTACAGA GAGTTCCATT
    GGTTCAGGGA AAACATCTGG TTCTCGAACT CCTGGACGCT ACTCCACAGG CTCACAGAGC
    CGAATCCGTA GAATGTGGAA TGACACGGTT CGAAAGCAGT CAGAGTCTTC CTTTATTACT
    GGAGACATAA ACAGTTCAGC GTCACTCAAC AGAGAGCCCT ACAGAGAGAC AAGTATGGGA
    GTAAAGCTAA ACATTGCATA TCAAATAGGG GCTTCTGAAC AATGCCAGGG ATACAAGTGT
    CATGGATACT CTACCACTGA ATGGTAA

    The stop codons will be deleted if pcDNA3.1+/C-(K)DYK vector is selected.

    RefSeq XP_016863429.1
    CDS288..4214
    Translation

    Target ORF information:

    RefSeq Version XM_017007940.1
    Organism Homo sapiens(human)
    Definition Homo sapiens adhesion G protein-coupled receptor L3 (ADGRL3), transcript variant X14, mRNA.

    Target ORF information:

    Epitope DYKDDDDK
    Bacterial selection AMPR
    Mammalian selection NeoR
    Vector pcDNA3.1+/C-(K)DYK
    XM_017007940.1

    ORF Insert Sequence:

    1
    61
    121
    181
    241
    301
    361
    421
    481
    541
    601
    661
    721
    781
    841
    901
    961
    1021
    1081
    1141
    1201
    1261
    1321
    1381
    1441
    1501
    1561
    1621
    1681
    1741
    1801
    1861
    1921
    1981
    2041
    2101
    2161
    2221
    2281
    2341
    2401
    2461
    2521
    2581
    2641
    2701
    2761
    2821
    2881
    2941
    3001
    3061
    3121
    3181
    3241
    3301
    3361
    3421
    3481
    3541
    3601
    3661
    3721
    3781
    3841
    3901
    ATGTGGCCAT CGCAGCTACT AATTTTCATG ATGCTCTTAG CTCCAATAAT TCATGGTGGC 
    AAGCACAGTG AACGACATCC TGCCCTTGCT GCTCCATTGC GACACGCTGA GCGCAGCCCA
    GGAGGCGCTC TTCCACCCAG ACATCTGCTT CAGCAGCCAG CTGCAGAGCG CACCGCTGCT
    CATCGTGGAC AAGGGCCCCG TGGAGCTACC AGAGGAGTTC GCGGTCCAGG TGCCCAAGGA
    GCACAGATTG CAGCGCAAGC TTTCAGCCGT GCCCCAATTC CAATGGCTGT GGTCCGCAGA
    GAGCTATCCT GTGAGAGCTA TCCTATAGAG CTTCGCTGTC CAGGAACAGA CGTCATCATG
    ATAGAAAGTG CCAACTATGG CAGGACTGAT GACAAAATTT GTGACTCTGA CCCTGCTCAG
    ATGGAGAATA TCCGATGTTA TCTGCCAGAT GCCTATAAGA TTATGTCTCA AAGATGCAAT
    AACAGAACCC AGTGTGCAGT GGTGGCAGGT CCTGATGTTT TTCCAGACCC GTGTCCAGGA
    ACCTATAAAT ACCTTGAAGT GCAGTATGAA TGTGTCCCTT ACAAAGTGGA ACAAAAAGTT
    TTTCTTTGTC CTGGACTACT AAAAGGAGTA TACCAGAGTG AACATTTGTT TGAGTCCGAC
    CACCAATCTG GGGCGTGGTG CAAAGACCCT CTGCAGGCAT CTGACAAGAT TTATTATATG
    CCCTGGACTC CCTACAGAAC TGATACCCTG ACTGAGTATT CATCCAAGGA TGACTTCATT
    GCTGGAAGAC CAACTACAAC CTACAAGCTC CCTCACAGGG TGGATGGCAC AGGATTTGTA
    GTGTATGATG GAGCTTTGTT CTTCAACAAA GAGCGCACCA GGAACATAGT AAAGTTTGAT
    TTGCGGACTA GGATAAAGAG TGGAGAGGCT ATCATAGCAA ATGCCAATTA CCATGATACC
    TCCCCTTACC GATGGGGAGG CAAATCTGAC ATAGACCTGG CAGTAGATGA GAATGGGCTA
    TGGGTAATCT ATGCAACAGA ACAAAACAAT GGTAAAATTG TCATTAGTCA ATTGAACCCT
    TACACCCTAC GGATCGAAGG AACATGGGAT ACTGCATATG ATAAAAGGTC AGCTTCCAAT
    GCCTTTATGA TTTGTGGAAT TCTGTATGTG GTCAAATCTG TATATGAGGA TGATGACAAT
    GAGGCTACTG GAAATAAGAT TGACTACATT TACAACACTG ACCAAAGCAA GGATAGTTTG
    GTGGATGTAC CCTTTCCTAA TTCATACCAG TACATTGCAG CTGTGGATTA CAACCCCAGG
    GACAACCTAC TTTATGTATG GAATAACTAT CACGTCGTGA AATATTCTTT GGATTTTGGA
    CCTCTGGATA GTAGATCAGG GCAGGCACAT CATGGACAAG TTTCATACAT TTCTCCGCCA
    ATTCACCTTG ACTCTGAGCT AGAAAGACCC TCTGTTAAAG ATATCTCTAC CACAGGACCT
    CTTGGCATGG GAAGCACTAC CACCAGTACC ACCCTTCGGA CCACAACTTT GAGCCCAGGA
    AGGAGTACCA CCCCGTCAGT GTCAGGAAGA AGAAACCGGA GTACTAGTAC CCCATCTCCA
    GCTGTCGAGG TACTTGATGA CATGACCACA CACCTTCCAT CAGCATCGTC CCAAATCCCA
    GCTCTCGAAG AGAGCTGTGA GGCTGTGGAA GCCCGAGAAA TCATGTGGTT TAAGACTCGT
    CAAGGACAGA TAGCAAAGCA GCCATGCCCT GCAGGAACTA TAGGTGTATC AACTTATCTA
    TGCCTTGCTC CTGATGGAAT TTGGGATCCC CAAGGTCCAG ATCTCAGCAA CTGTTCTTCT
    CCTTGGGTCA ATCATATAAC ACAGAAGTTG AAATCTGGTG AAACAGCTGC CAACATTGCT
    AGAGAGCTGG CTGAACAGAC AAGAAATCAC TTGAATGCTG GGGACATCAC CTACTCTGTC
    CGGGCCATGG ACCAGCTGGT AGGCCTCCTA GATGTACAGC TTCGGAACTT GACCCCAGGT
    GGAAAAGATA GTGCTGCCCG GAGTTTGAAC AAGCTTCAGA AAAGAGAGCG CTCTTGCAGA
    GCCTATGTCC AGGCAATGGT CGAGACAGTT AACAACCTCC TTCAGCCACA AGCTTTGAAT
    GCATGGAGAG ACCTGACTAC GAGTGATCAG CTGCGTGCGG CCACCATGTT GCTTCATACT
    GTGGAGGAAA GTGCTTTTGT GCTGGCTGAT AACCTTTTGA AGACTGACAT TGTCAGGGAG
    AATACAGACA ATATTAAATT GGAAGTTGCA AGACTGAGCA CAGAAGGAAA CTTAGAAGAC
    CTAAAATTTC CAGAAAACAT GGGCCATGGA AGCACTATCC AGCTGTCTGC AAATACCTTA
    AAGCAAAATG GCCGAAATGG AGAGATCAGA GTGGCCTTTG TCCTGTATAA CAACTTGGGT
    CCTTATTTAT CCACGGAGAA TGCCAGTATG AAGTTGGGAA CGGAAGCTTT GTCCACAAAT
    CATTCTGTTA TTGTCAATTC CCCTGTTATT ACGGCAGCAA TAAACAAAGA GTTCAGTAAC
    AAGGTTTATT TGGCTGATCC TGTGGTATTT ACTGTTAAAC ATATCAAGCA GTCAGAGGAA
    AATTTCAACC CTAACTGTTC ATTTTGGAGC TACTCCAAGC GTACAATGAC AGGTTATTGG
    TCAACACAAG GCTGTCGGCT CCTGACAACA AATAAGACAC ATACTACATG CTCTTGTAAC
    CACCTAACAA ATTTTGCAGT ACTGATGGCA CATGTGGAAG TTAAGCACAG TGATGCGGTC
    CATGACCTCC TTCTGGATGT GATCACGTGG GTTGGAATTT TGCTGTCCCT TGTTTGTCTC
    CTGATTTGCA TCTTCACATT TTGCTTTTTC CGGGGGCTCC AGAGTGACCG TAACACCATC
    CACAAGAACC TCTGCATCAG TCTCTTTGTA GCAGAGCTGC TCTTCCTGAT TGGGATCAAC
    CGAACTGACC AACCAATTGC CTGTGCTGTT TTCGCTGCCC TGTTACATTT CTTCTTCTTG
    GCTGCCTTCA CCTGGATGTT CCTGGAGGGG GTGCAGCTTT ATATCATGCT GGTGGAGGTT
    TTTGAGAGTG AACATTCACG TAGGAAATAC TTTTATCTGG TCGGCTATGG GATGCCTGCA
    CTCATTGTGG CTGTGTCAGC TGCAGTAGAC TACAGGAGTT ATGGAACAGA TAAAGTATGT
    TGGCTCCGAC TTGACACCTA CTTCATTTGG AGTTTTATAG GACCAGCAAC TTTGATAATT
    ATGCTTAATG TAATCTTCCT TGGGATTGCT TTATATAAAA TGTTTCATCA TACTGCTATA
    CTGAAACCTG AATCAGGCTG TCTTGATAAC ATCAACTATG AGGATAACAG ACCCTTCATC
    AAGTCATGGG TTATAGGTGC AATAGCTCTT CTCTGCCTAT TAGGATTGAC CTGGGCCTTT
    GGACTCATGT ATATTAATGA AAGCACAGTC ATCATGGCCT ATCTCTTCAC CATTTTCAAT
    TCTCTACAGG GAATGTTTAT ATTTATTTTC CATTGTGTCC TACAGAAGAA GGTACGAAAA
    GAGTATGGGA AATGCCTGCG AACACATTGC TGTAGTGGCA AAAGTACAGA GAGTTCCATT
    GGTTCAGGGA AAACATCTGG TTCTCGAACT CCTGGACGCT ACTCCACAGG CTCACAGAGC
    CGAATCCGTA GAATGTGGAA TGACACGGTT CGAAAGCAGT CAGAGTCTTC CTTTATTACT
    GGAGACATAA ACAGTTCAGC GTCACTCAAC AGAGAGCCCT ACAGAGAGAC AAGTATGGGA
    GTAAAGCTAA ACATTGCATA TCAAATAGGG GCTTCTGAAC AATGCCAGGG ATACAAGTGT
    CATGGATACT CTACCACTGA ATGGTAA

    The stop codons will be deleted if pcDNA3.1+/C-(K)DYK vector is selected.

    CloneID OHu65886
    Clone ID Related Accession (Same CDS sequence) XM_017007935.1 , NM_001371344.1
    Accession Version NM_001371344.1 Latest version! Documents for ORF clone product in default vector
    Sequence Information ORF Nucleotide Sequence (Length: 4587bp)
    Protein sequence
    SNP
    Vector pcDNA3.1-C-(k)DYK or customized vector User Manual
    Clone information Clone Map MSDS
    Tag on pcDNA3.1+/C-(K)DYK C terminal DYKDDDDK tags
    ORF Insert Method CloneEZ™ Seamless cloning technology
    Insert Structure linear
    Update Date 2019-08-20
    Organism Homo sapiens(human)
    Product adhesion G protein-coupled receptor L3 isoform 6 precursor
    Comment Comment: REVIEWED REFSEQ: This record has been curated by NCBI staff. The reference sequence was derived from AC092643.2, AC020741.4, AC092668.2, AC108161.4, AC096723.3, AC092663.2 and AC007511.8. Sequence Note: The RefSeq transcript and protein were derived from genomic sequence to make the sequence consistent with the reference genome assembly. The genomic coordinates used for the transcript record were based on alignments. Publication Note: This RefSeq record includes a subset of the publications that are available for this gene. Please see the Gene record to access additional publications. ##Evidence-Data-START## Transcript exon combination :: SRR1803611.73432.1 [ECO:0000332] ##Evidence-Data-END## COMPLETENESS: complete on the 3' end.

    1
    61
    121
    181
    241
    301
    361
    421
    481
    541
    601
    661
    721
    781
    841
    901
    961
    1021
    1081
    1141
    1201
    1261
    1321
    1381
    1441
    1501
    1561
    1621
    1681
    1741
    1801
    1861
    1921
    1981
    2041
    2101
    2161
    2221
    2281
    2341
    2401
    2461
    2521
    2581
    2641
    2701
    2761
    2821
    2881
    2941
    3001
    3061
    3121
    3181
    3241
    3301
    3361
    3421
    3481
    3541
    3601
    3661
    3721
    3781
    3841
    3901
    3961
    4021
    4081
    4141
    4201
    4261
    4321
    4381
    4441
    4501
    4561
    ATGTGGCCAT CGCAGCTACT AATTTTCATG ATGCTCTTAG CTCCAATAAT TCATGGTGGC 
    AAGCACAGTG AACGACATCC TGCCCTTGCT GCTCCATTGC GACACGCTGA GCGCAGCCCA
    GGAGGCGCTC TTCCACCCAG ACATCTGCTT CAGCAGCCAG CTGCAGAGCG CACCGCTGCT
    CATCGTGGAC AAGGGCCCCG TGGAGCTACC AGAGGAGTTC GCGGTCCAGG TGCCCAAGGA
    GCACAGATTG CAGCGCAAGC TTTCAGCCGT GCCCCAATTC CAATGGCTGT GGTCCGCAGA
    GAGCTATCCT GTGAGAGCTA TCCTATAGAG CTTCGCTGTC CAGGAACAGA CGTCATCATG
    ATAGAAAGTG CCAACTATGG CAGGACTGAT GACAAAATTT GTGACTCTGA CCCTGCTCAG
    ATGGAGAATA TCCGATGTTA TCTGCCAGAT GCCTATAAGA TTATGTCTCA AAGATGCAAT
    AACAGAACCC AGTGTGCAGT GGTGGCAGGT CCTGATGTTT TTCCAGACCC GTGTCCAGGA
    ACCTATAAAT ACCTTGAAGT GCAGTATGAA TGTGTCCCTT ACAAAGTGGA ACAAAAAGTT
    TTTCTTTGTC CTGGACTACT AAAAGGAGTA TACCAGAGTG AACATTTGTT TGAGTCCGAC
    CACCAATCTG GGGCGTGGTG CAAAGACCCT CTGCAGGCAT CTGACAAGAT TTATTATATG
    CCCTGGACTC CCTACAGAAC TGATACCCTG ACTGAGTATT CATCCAAGGA TGACTTCATT
    GCTGGAAGAC CAACTACAAC CTACAAGCTC CCTCACAGGG TGGATGGCAC AGGATTTGTA
    GTGTATGATG GAGCTTTGTT CTTCAACAAA GAGCGCACCA GGAACATAGT AAAGTTTGAT
    TTGCGGACTA GGATAAAGAG TGGAGAGGCT ATCATAGCAA ATGCCAATTA CCATGATACC
    TCCCCTTACC GATGGGGAGG CAAATCTGAC ATAGACCTGG CAGTAGATGA GAATGGGCTA
    TGGGTAATCT ATGCAACAGA ACAAAACAAT GGTAAAATTG TCATTAGTCA ATTGAACCCT
    TACACCCTAC GGATCGAAGG AACATGGGAT ACTGCATATG ATAAAAGGTC AGCTTCCAAT
    GCCTTTATGA TTTGTGGAAT TCTGTATGTG GTCAAATCTG TATATGAGGA TGATGACAAT
    GAGGCTACTG GAAATAAGAT TGACTACATT TACAACACTG ACCAAAGCAA GGATAGTTTG
    GTGGATGTAC CCTTTCCTAA TTCATACCAG TACATTGCAG CTGTGGATTA CAACCCCAGG
    GACAACCTAC TTTATGTATG GAATAACTAT CACGTCGTGA AATATTCTTT GGATTTTGGA
    CCTCTGGATA GTAGATCAGG GCAGGCACAT CATGGACAAG TTTCATACAT TTCTCCGCCA
    ATTCACCTTG ACTCTGAGCT AGAAAGACCC TCTGTTAAAG ATATCTCTAC CACAGGACCT
    CTTGGCATGG GAAGCACTAC CACCAGTACC ACCCTTCGGA CCACAACTTT GAGCCCAGGA
    AGGAGTACCA CCCCGTCAGT GTCAGGAAGA AGAAACCGGA GTACTAGTAC CCCATCTCCA
    GCTGTCGAGG TACTTGATGA CATGACCACA CACCTTCCAT CAGCATCGTC CCAAATCCCA
    GCTCTCGAAG AGAGCTGTGA GGCTGTGGAA GCCCGAGAAA TCATGTGGTT TAAGACTCGT
    CAAGGACAGA TAGCAAAGCA GCCATGCCCT GCAGGAACTA TAGGTGTATC AACTTATCTA
    TGCCTTGCTC CTGATGGAAT TTGGGATCCC CAAGGTCCAG ATCTCAGCAA CTGTTCTTCT
    CCTTGGGTCA ATCATATAAC ACAGAAGTTG AAATCTGGTG AAACAGCTGC CAACATTGCT
    AGAGAGCTGG CTGAACAGAC AAGAAATCAC TTGAATGCTG GGGACATCAC CTACTCTGTC
    CGGGCCATGG ACCAGCTGGT AGGCCTCCTA GATGTACAGC TTCGGAACTT GACCCCAGGT
    GGAAAAGATA GTGCTGCCCG GAGTTTGAAC AAGCTTCAGA AAAGAGAGCG CTCTTGCAGA
    GCCTATGTCC AGGCAATGGT CGAGACAGTT AACAACCTCC TTCAGCCACA AGCTTTGAAT
    GCATGGAGAG ACCTGACTAC GAGTGATCAG CTGCGTGCGG CCACCATGTT GCTTCATACT
    GTGGAGGAAA GTGCTTTTGT GCTGGCTGAT AACCTTTTGA AGACTGACAT TGTCAGGGAG
    AATACAGACA ATATTAAATT GGAAGTTGCA AGACTGAGCA CAGAAGGAAA CTTAGAAGAC
    CTAAAATTTC CAGAAAACAT GGGCCATGGA AGCACTATCC AGCTGTCTGC AAATACCTTA
    AAGCAAAATG GCCGAAATGG AGAGATCAGA GTGGCCTTTG TCCTGTATAA CAACTTGGGT
    CCTTATTTAT CCACGGAGAA TGCCAGTATG AAGTTGGGAA CGGAAGCTTT GTCCACAAAT
    CATTCTGTTA TTGTCAATTC CCCTGTTATT ACGGCAGCAA TAAACAAAGA GTTCAGTAAC
    AAGGTTTATT TGGCTGATCC TGTGGTATTT ACTGTTAAAC ATATCAAGCA GTCAGAGGAA
    AATTTCAACC CTAACTGTTC ATTTTGGAGC TACTCCAAGC GTACAATGAC AGGTTATTGG
    TCAACACAAG GCTGTCGGCT CCTGACAACA AATAAGACAC ATACTACATG CTCTTGTAAC
    CACCTAACAA ATTTTGCAGT ACTGATGGCA CATGTGGAAG TTAAGCACAG TGATGCGGTC
    CATGACCTCC TTCTGGATGT GATCACGTGG GTTGGAATTT TGCTGTCCCT TGTTTGTCTC
    CTGATTTGCA TCTTCACATT TTGCTTTTTC CGGGGGCTCC AGAGTGACCG TAACACCATC
    CACAAGAACC TCTGCATCAG TCTCTTTGTA GCAGAGCTGC TCTTCCTGAT TGGGATCAAC
    CGAACTGACC AACCAATTGC CTGTGCTGTT TTCGCTGCCC TGTTACATTT CTTCTTCTTG
    GCTGCCTTCA CCTGGATGTT CCTGGAGGGG GTGCAGCTTT ATATCATGCT GGTGGAGGTT
    TTTGAGAGTG AACATTCACG TAGGAAATAC TTTTATCTGG TCGGCTATGG GATGCCTGCA
    CTCATTGTGG CTGTGTCAGC TGCAGTAGAC TACAGGAGTT ATGGAACAGA TAAAGTATGT
    TGGCTCCGAC TTGACACCTA CTTCATTTGG AGTTTTATAG GACCAGCAAC TTTGATAATT
    ATGCTTAATG TAATCTTCCT TGGGATTGCT TTATATAAAA TGTTTCATCA TACTGCTATA
    CTGAAACCTG AATCAGGCTG TCTTGATAAC ATCAAGTCAT GGGTTATAGG TGCAATAGCT
    CTTCTCTGCC TATTAGGATT GACCTGGGCC TTTGGACTCA TGTATATTAA TGAAAGCACA
    GTCATCATGG CCTATCTCTT CACCATTTTC AATTCTCTAC AGGGAATGTT TATATTTATT
    TTCCATTGTG TCCTACAGAA GAAGGTACGA AAAGAGTATG GGAAATGCCT GCGAACACAT
    TGCTGTAGTG GCAAAAGTAC AGAGAGTTCC ATTGGTTCAG GGAAAACATC TGGTTCTCGA
    ACTCCTGGAC GCTACTCCAC AGGCTCACAG AGCCGAATCC GTAGAATGTG GAATGACACG
    GTTCGAAAGC AGTCAGAGTC TTCCTTTATT ACTGGAGACA TAAACAGTTC AGCGTCACTC
    AACAGAGAGG GGCTTCTGAA CAATGCCAGG GATACAAGTG TCATGGATAC TCTACCACTG
    AATGGTAACC ATGGCAATAG TTACAGCATT GCCAGCGGCG AATACCTGAG CAACTGTGTG
    CAAATCATAG ACCGTGGCTA TAACCATAAC GAGACCGCCC TAGAGAAAAA GATTCTGAAG
    GAACTCACTT CCAACTATAT CCCTTCTTAC CTGAACAACC ATGAGCGCTC CAGTGAACAG
    AACAGGAATC TGATGAACAA GCTGGTGAAT AACCTTGGCA GTGGAAGGGA AGATGATGCC
    ATTGTCCTGG ATGATGCCAC CTCGTTTAAC CACGAGGAGA GTTTGGGCCT GGAACTCATT
    CATGAGGAAT CTGATGCTCC TTTGCTGCCC CCAAGAGTAT ACTCCACCGA GAACCACCAG
    CCACACCATT ATACCAGAAG GCGGATCCCC CAAGACCACA GTGAGAGCTT TTTCCCTTTG
    CTAACCAACG AGCACACAGA AGATCTCCAG TCACCCCATA GAGACTCTCT CTATACCAGC
    ATGCCGACAC TGGCTGGTGT GGCCGCCACA GAGAGTGTTA CCACCAGCAC CCAGACCGAA
    CCCCCACCGG CCAAATGTGG TGATGCCGAA GATGTTTACT ACAAAAGCAT GCCAAACCTA
    GGCTCCAGAA ACCACGTCCA TCAGCTGCAT ACTTACTACC AGCTAGGTCG CGGCAGCAGT
    GATGGATTTA TAGTTCCTCC AAACAAAGAT GGGACCCCTC CCGAGGGAAG TTCAAAAGGA
    CCGGCTCATT TGGTCACTAG TCTATAG

    The stop codons will be deleted if pcDNA3.1+/C-(K)DYK vector is selected.

    RefSeq NP_001358273.1
    CDS710..5296
    Translation

    Target ORF information:

    RefSeq Version NM_001371344.1
    Organism Homo sapiens(human)
    Definition Homo sapiens adhesion G protein-coupled receptor L3 (ADGRL3), transcript variant 6, mRNA.

    Target ORF information:

    Epitope DYKDDDDK
    Bacterial selection AMPR
    Mammalian selection NeoR
    Vector pcDNA3.1+/C-(K)DYK
    NM_001371344.1

    ORF Insert Sequence:

    1
    61
    121
    181
    241
    301
    361
    421
    481
    541
    601
    661
    721
    781
    841
    901
    961
    1021
    1081
    1141
    1201
    1261
    1321
    1381
    1441
    1501
    1561
    1621
    1681
    1741
    1801
    1861
    1921
    1981
    2041
    2101
    2161
    2221
    2281
    2341
    2401
    2461
    2521
    2581
    2641
    2701
    2761
    2821
    2881
    2941
    3001
    3061
    3121
    3181
    3241
    3301
    3361
    3421
    3481
    3541
    3601
    3661
    3721
    3781
    3841
    3901
    3961
    4021
    4081
    4141
    4201
    4261
    4321
    4381
    4441
    4501
    4561
    ATGTGGCCAT CGCAGCTACT AATTTTCATG ATGCTCTTAG CTCCAATAAT TCATGGTGGC 
    AAGCACAGTG AACGACATCC TGCCCTTGCT GCTCCATTGC GACACGCTGA GCGCAGCCCA
    GGAGGCGCTC TTCCACCCAG ACATCTGCTT CAGCAGCCAG CTGCAGAGCG CACCGCTGCT
    CATCGTGGAC AAGGGCCCCG TGGAGCTACC AGAGGAGTTC GCGGTCCAGG TGCCCAAGGA
    GCACAGATTG CAGCGCAAGC TTTCAGCCGT GCCCCAATTC CAATGGCTGT GGTCCGCAGA
    GAGCTATCCT GTGAGAGCTA TCCTATAGAG CTTCGCTGTC CAGGAACAGA CGTCATCATG
    ATAGAAAGTG CCAACTATGG CAGGACTGAT GACAAAATTT GTGACTCTGA CCCTGCTCAG
    ATGGAGAATA TCCGATGTTA TCTGCCAGAT GCCTATAAGA TTATGTCTCA AAGATGCAAT
    AACAGAACCC AGTGTGCAGT GGTGGCAGGT CCTGATGTTT TTCCAGACCC GTGTCCAGGA
    ACCTATAAAT ACCTTGAAGT GCAGTATGAA TGTGTCCCTT ACAAAGTGGA ACAAAAAGTT
    TTTCTTTGTC CTGGACTACT AAAAGGAGTA TACCAGAGTG AACATTTGTT TGAGTCCGAC
    CACCAATCTG GGGCGTGGTG CAAAGACCCT CTGCAGGCAT CTGACAAGAT TTATTATATG
    CCCTGGACTC CCTACAGAAC TGATACCCTG ACTGAGTATT CATCCAAGGA TGACTTCATT
    GCTGGAAGAC CAACTACAAC CTACAAGCTC CCTCACAGGG TGGATGGCAC AGGATTTGTA
    GTGTATGATG GAGCTTTGTT CTTCAACAAA GAGCGCACCA GGAACATAGT AAAGTTTGAT
    TTGCGGACTA GGATAAAGAG TGGAGAGGCT ATCATAGCAA ATGCCAATTA CCATGATACC
    TCCCCTTACC GATGGGGAGG CAAATCTGAC ATAGACCTGG CAGTAGATGA GAATGGGCTA
    TGGGTAATCT ATGCAACAGA ACAAAACAAT GGTAAAATTG TCATTAGTCA ATTGAACCCT
    TACACCCTAC GGATCGAAGG AACATGGGAT ACTGCATATG ATAAAAGGTC AGCTTCCAAT
    GCCTTTATGA TTTGTGGAAT TCTGTATGTG GTCAAATCTG TATATGAGGA TGATGACAAT
    GAGGCTACTG GAAATAAGAT TGACTACATT TACAACACTG ACCAAAGCAA GGATAGTTTG
    GTGGATGTAC CCTTTCCTAA TTCATACCAG TACATTGCAG CTGTGGATTA CAACCCCAGG
    GACAACCTAC TTTATGTATG GAATAACTAT CACGTCGTGA AATATTCTTT GGATTTTGGA
    CCTCTGGATA GTAGATCAGG GCAGGCACAT CATGGACAAG TTTCATACAT TTCTCCGCCA
    ATTCACCTTG ACTCTGAGCT AGAAAGACCC TCTGTTAAAG ATATCTCTAC CACAGGACCT
    CTTGGCATGG GAAGCACTAC CACCAGTACC ACCCTTCGGA CCACAACTTT GAGCCCAGGA
    AGGAGTACCA CCCCGTCAGT GTCAGGAAGA AGAAACCGGA GTACTAGTAC CCCATCTCCA
    GCTGTCGAGG TACTTGATGA CATGACCACA CACCTTCCAT CAGCATCGTC CCAAATCCCA
    GCTCTCGAAG AGAGCTGTGA GGCTGTGGAA GCCCGAGAAA TCATGTGGTT TAAGACTCGT
    CAAGGACAGA TAGCAAAGCA GCCATGCCCT GCAGGAACTA TAGGTGTATC AACTTATCTA
    TGCCTTGCTC CTGATGGAAT TTGGGATCCC CAAGGTCCAG ATCTCAGCAA CTGTTCTTCT
    CCTTGGGTCA ATCATATAAC ACAGAAGTTG AAATCTGGTG AAACAGCTGC CAACATTGCT
    AGAGAGCTGG CTGAACAGAC AAGAAATCAC TTGAATGCTG GGGACATCAC CTACTCTGTC
    CGGGCCATGG ACCAGCTGGT AGGCCTCCTA GATGTACAGC TTCGGAACTT GACCCCAGGT
    GGAAAAGATA GTGCTGCCCG GAGTTTGAAC AAGCTTCAGA AAAGAGAGCG CTCTTGCAGA
    GCCTATGTCC AGGCAATGGT CGAGACAGTT AACAACCTCC TTCAGCCACA AGCTTTGAAT
    GCATGGAGAG ACCTGACTAC GAGTGATCAG CTGCGTGCGG CCACCATGTT GCTTCATACT
    GTGGAGGAAA GTGCTTTTGT GCTGGCTGAT AACCTTTTGA AGACTGACAT TGTCAGGGAG
    AATACAGACA ATATTAAATT GGAAGTTGCA AGACTGAGCA CAGAAGGAAA CTTAGAAGAC
    CTAAAATTTC CAGAAAACAT GGGCCATGGA AGCACTATCC AGCTGTCTGC AAATACCTTA
    AAGCAAAATG GCCGAAATGG AGAGATCAGA GTGGCCTTTG TCCTGTATAA CAACTTGGGT
    CCTTATTTAT CCACGGAGAA TGCCAGTATG AAGTTGGGAA CGGAAGCTTT GTCCACAAAT
    CATTCTGTTA TTGTCAATTC CCCTGTTATT ACGGCAGCAA TAAACAAAGA GTTCAGTAAC
    AAGGTTTATT TGGCTGATCC TGTGGTATTT ACTGTTAAAC ATATCAAGCA GTCAGAGGAA
    AATTTCAACC CTAACTGTTC ATTTTGGAGC TACTCCAAGC GTACAATGAC AGGTTATTGG
    TCAACACAAG GCTGTCGGCT CCTGACAACA AATAAGACAC ATACTACATG CTCTTGTAAC
    CACCTAACAA ATTTTGCAGT ACTGATGGCA CATGTGGAAG TTAAGCACAG TGATGCGGTC
    CATGACCTCC TTCTGGATGT GATCACGTGG GTTGGAATTT TGCTGTCCCT TGTTTGTCTC
    CTGATTTGCA TCTTCACATT TTGCTTTTTC CGGGGGCTCC AGAGTGACCG TAACACCATC
    CACAAGAACC TCTGCATCAG TCTCTTTGTA GCAGAGCTGC TCTTCCTGAT TGGGATCAAC
    CGAACTGACC AACCAATTGC CTGTGCTGTT TTCGCTGCCC TGTTACATTT CTTCTTCTTG
    GCTGCCTTCA CCTGGATGTT CCTGGAGGGG GTGCAGCTTT ATATCATGCT GGTGGAGGTT
    TTTGAGAGTG AACATTCACG TAGGAAATAC TTTTATCTGG TCGGCTATGG GATGCCTGCA
    CTCATTGTGG CTGTGTCAGC TGCAGTAGAC TACAGGAGTT ATGGAACAGA TAAAGTATGT
    TGGCTCCGAC TTGACACCTA CTTCATTTGG AGTTTTATAG GACCAGCAAC TTTGATAATT
    ATGCTTAATG TAATCTTCCT TGGGATTGCT TTATATAAAA TGTTTCATCA TACTGCTATA
    CTGAAACCTG AATCAGGCTG TCTTGATAAC ATCAAGTCAT GGGTTATAGG TGCAATAGCT
    CTTCTCTGCC TATTAGGATT GACCTGGGCC TTTGGACTCA TGTATATTAA TGAAAGCACA
    GTCATCATGG CCTATCTCTT CACCATTTTC AATTCTCTAC AGGGAATGTT TATATTTATT
    TTCCATTGTG TCCTACAGAA GAAGGTACGA AAAGAGTATG GGAAATGCCT GCGAACACAT
    TGCTGTAGTG GCAAAAGTAC AGAGAGTTCC ATTGGTTCAG GGAAAACATC TGGTTCTCGA
    ACTCCTGGAC GCTACTCCAC AGGCTCACAG AGCCGAATCC GTAGAATGTG GAATGACACG
    GTTCGAAAGC AGTCAGAGTC TTCCTTTATT ACTGGAGACA TAAACAGTTC AGCGTCACTC
    AACAGAGAGG GGCTTCTGAA CAATGCCAGG GATACAAGTG TCATGGATAC TCTACCACTG
    AATGGTAACC ATGGCAATAG TTACAGCATT GCCAGCGGCG AATACCTGAG CAACTGTGTG
    CAAATCATAG ACCGTGGCTA TAACCATAAC GAGACCGCCC TAGAGAAAAA GATTCTGAAG
    GAACTCACTT CCAACTATAT CCCTTCTTAC CTGAACAACC ATGAGCGCTC CAGTGAACAG
    AACAGGAATC TGATGAACAA GCTGGTGAAT AACCTTGGCA GTGGAAGGGA AGATGATGCC
    ATTGTCCTGG ATGATGCCAC CTCGTTTAAC CACGAGGAGA GTTTGGGCCT GGAACTCATT
    CATGAGGAAT CTGATGCTCC TTTGCTGCCC CCAAGAGTAT ACTCCACCGA GAACCACCAG
    CCACACCATT ATACCAGAAG GCGGATCCCC CAAGACCACA GTGAGAGCTT TTTCCCTTTG
    CTAACCAACG AGCACACAGA AGATCTCCAG TCACCCCATA GAGACTCTCT CTATACCAGC
    ATGCCGACAC TGGCTGGTGT GGCCGCCACA GAGAGTGTTA CCACCAGCAC CCAGACCGAA
    CCCCCACCGG CCAAATGTGG TGATGCCGAA GATGTTTACT ACAAAAGCAT GCCAAACCTA
    GGCTCCAGAA ACCACGTCCA TCAGCTGCAT ACTTACTACC AGCTAGGTCG CGGCAGCAGT
    GATGGATTTA TAGTTCCTCC AAACAAAGAT GGGACCCCTC CCGAGGGAAG TTCAAAAGGA
    CCGGCTCATT TGGTCACTAG TCTATAG

    The stop codons will be deleted if pcDNA3.1+/C-(K)DYK vector is selected.

    CloneID OHu65887
    Clone ID Related Accession (Same CDS sequence) NM_001371345.1 , XM_011531791.2
    Accession Version NM_001371345.1 Latest version! Documents for ORF clone product in default vector
    Sequence Information ORF Nucleotide Sequence (Length: 4548bp)
    Protein sequence
    SNP
    Vector pcDNA3.1-C-(k)DYK or customized vector User Manual
    Clone information Clone Map MSDS
    Tag on pcDNA3.1+/C-(K)DYK C terminal DYKDDDDK tags
    ORF Insert Method CloneEZ™ Seamless cloning technology
    Insert Structure linear
    Update Date 2019-08-20
    Organism Homo sapiens(human)
    Product adhesion G protein-coupled receptor L3 isoform 7 precursor
    Comment Comment: REVIEWED REFSEQ: This record has been curated by NCBI staff. The reference sequence was derived from AC092643.2, AC020741.4, AC092668.2, AC108161.4, AC096723.3, AC092663.2 and AC007511.8. Sequence Note: The RefSeq transcript and protein were derived from genomic sequence to make the sequence consistent with the reference genome assembly. The genomic coordinates used for the transcript record were based on alignments. Publication Note: This RefSeq record includes a subset of the publications that are available for this gene. Please see the Gene record to access additional publications. ##Evidence-Data-START## Transcript exon combination :: SRR1803612.56536.1 [ECO:0000332] ##Evidence-Data-END## COMPLETENESS: complete on the 3' end.

    1
    61
    121
    181
    241
    301
    361
    421
    481
    541
    601
    661
    721
    781
    841
    901
    961
    1021
    1081
    1141
    1201
    1261
    1321
    1381
    1441
    1501
    1561
    1621
    1681
    1741
    1801
    1861
    1921
    1981
    2041
    2101
    2161
    2221
    2281
    2341
    2401
    2461
    2521
    2581
    2641
    2701
    2761
    2821
    2881
    2941
    3001
    3061
    3121
    3181
    3241
    3301
    3361
    3421
    3481
    3541
    3601
    3661
    3721
    3781
    3841
    3901
    3961
    4021
    4081
    4141
    4201
    4261
    4321
    4381
    4441
    4501
    ATGTGGCCAT CGCAGCTACT AATTTTCATG ATGCTCTTAG CTCCAATAAT TCATGGTGGC 
    AAGCACAGTG AACGACATCC TGCCCTTGCT GCTCCATTGC GACACGCTGA GCGCAGCCCA
    GGAGGCGCTC TTCCACCCAG ACATCTGCTT CAGCAGCCAG CTGCAGAGCG CACCGCTGCT
    CATCGTGGAC AAGGGCCCCG TGGAGCTACC AGAGGAGTTC GCGGTCCAGG TGCCCAAGGA
    GCACAGATTG CAGCGCAAGC TTTCAGCCGT GCCCCAATTC CAATGGCTGT GGTCCGCAGA
    GAGCTATCCT GTGAGAGCTA TCCTATAGAG CTTCGCTGTC CAGGAACAGA CGTCATCATG
    ATAGAAAGTG CCAACTATGG CAGGACTGAT GACAAAATTT GTGACTCTGA CCCTGCTCAG
    ATGGAGAATA TCCGATGTTA TCTGCCAGAT GCCTATAAGA TTATGTCTCA AAGATGCAAT
    AACAGAACCC AGTGTGCAGT GGTGGCAGGT CCTGATGTTT TTCCAGACCC GTGTCCAGGA
    ACCTATAAAT ACCTTGAAGT GCAGTATGAA TGTGTCCCTT ACAAAGTGGA ACAAAAAGTT
    TTTCTTTGTC CTGGACTACT AAAAGGAGTA TACCAGAGTG AACATTTGTT TGAGTCCGAC
    CACCAATCTG GGGCGTGGTG CAAAGACCCT CTGCAGGCAT CTGACAAGAT TTATTATATG
    CCCTGGACTC CCTACAGAAC TGATACCCTG ACTGAGTATT CATCCAAGGA TGACTTCATT
    GCTGGAAGAC CAACTACAAC CTACAAGCTC CCTCACAGGG TGGATGGCAC AGGATTTGTA
    GTGTATGATG GAGCTTTGTT CTTCAACAAA GAGCGCACCA GGAACATAGT AAAGTTTGAT
    TTGCGGACTA GGATAAAGAG TGGAGAGGCT ATCATAGCAA ATGCCAATTA CCATGATACC
    TCCCCTTACC GATGGGGAGG CAAATCTGAC ATAGACCTGG CAGTAGATGA GAATGGGCTA
    TGGGTAATCT ATGCAACAGA ACAAAACAAT GGTAAAATTG TCATTAGTCA ATTGAACCCT
    TACACCCTAC GGATCGAAGG AACATGGGAT ACTGCATATG ATAAAAGGTC AGCTTCCAAT
    GCCTTTATGA TTTGTGGAAT TCTGTATGTG GTCAAATCTG TATATGAGGA TGATGACAAT
    GAGGCTACTG GAAATAAGAT TGACTACATT TACAACACTG ACCAAAGCAA GGATAGTTTG
    GTGGATGTAC CCTTTCCTAA TTCATACCAG TACATTGCAG CTGTGGATTA CAACCCCAGG
    GACAACCTAC TTTATGTATG GAATAACTAT CACGTCGTGA AATATTCTTT GGATTTTGGA
    CCTCTGGATA GTAGATCAGG GCAGGCACAT CATGGACAAG TTTCATACAT TTCTCCGCCA
    ATTCACCTTG ACTCTGAGCT AGAAAGACCC TCTGTTAAAG ATATCTCTAC CACAGGACCT
    CTTGGCATGG GAAGCACTAC CACCAGTACC ACCCTTCGGA CCACAACTTT GAGCCCAGGA
    AGGAGTACCA CCCCGTCAGT GTCAGGAAGA AGAAACCGGA GTACTAGTAC CCCATCTCCA
    GCTGTCGAGG TACTTGATGA CATGACCACA CACCTTCCAT CAGCATCGTC CCAAATCCCA
    GCTCTCGAAG AGAGCTGTGA GGCTGTGGAA GCCCGAGAAA TCATGTGGTT TAAGACTCGT
    CAAGGACAGA TAGCAAAGCA GCCATGCCCT GCAGGAACTA TAGGTGTATC AACTTATCTA
    TGCCTTGCTC CTGATGGAAT TTGGGATCCC CAAGGTCCAG ATCTCAGCAA CTGTTCTTCT
    CCTTGGGTCA ATCATATAAC ACAGAAGTTG AAATCTGGTG AAACAGCTGC CAACATTGCT
    AGAGAGCTGG CTGAACAGAC AAGAAATCAC TTGAATGCTG GGGACATCAC CTACTCTGTC
    CGGGCCATGG ACCAGCTGGT AGGCCTCCTA GATGTACAGC TTCGGAACTT GACCCCAGGT
    GGAAAAGATA GTGCTGCCCG GAGTTTGAAC AAGGCAATGG TCGAGACAGT TAACAACCTC
    CTTCAGCCAC AAGCTTTGAA TGCATGGAGA GACCTGACTA CGAGTGATCA GCTGCGTGCG
    GCCACCATGT TGCTTCATAC TGTGGAGGAA AGTGCTTTTG TGCTGGCTGA TAACCTTTTG
    AAGACTGACA TTGTCAGGGA GAATACAGAC AATATTAAAT TGGAAGTTGC AAGACTGAGC
    ACAGAAGGAA ACTTAGAAGA CCTAAAATTT CCAGAAAACA TGGGCCATGG AAGCACTATC
    CAGCTGTCTG CAAATACCTT AAAGCAAAAT GGCCGAAATG GAGAGATCAG AGTGGCCTTT
    GTCCTGTATA ACAACTTGGG TCCTTATTTA TCCACGGAGA ATGCCAGTAT GAAGTTGGGA
    ACGGAAGCTT TGTCCACAAA TCATTCTGTT ATTGTCAATT CCCCTGTTAT TACGGCAGCA
    ATAAACAAAG AGTTCAGTAA CAAGGTTTAT TTGGCTGATC CTGTGGTATT TACTGTTAAA
    CATATCAAGC AGTCAGAGGA AAATTTCAAC CCTAACTGTT CATTTTGGAG CTACTCCAAG
    CGTACAATGA CAGGTTATTG GTCAACACAA GGCTGTCGGC TCCTGACAAC AAATAAGACA
    CATACTACAT GCTCTTGTAA CCACCTAACA AATTTTGCAG TACTGATGGC ACATGTGGAA
    GTTAAGCACA GTGATGCGGT CCATGACCTC CTTCTGGATG TGATCACGTG GGTTGGAATT
    TTGCTGTCCC TTGTTTGTCT CCTGATTTGC ATCTTCACAT TTTGCTTTTT CCGGGGGCTC
    CAGAGTGACC GTAACACCAT CCACAAGAAC CTCTGCATCA GTCTCTTTGT AGCAGAGCTG
    CTCTTCCTGA TTGGGATCAA CCGAACTGAC CAACCAATTG CCTGTGCTGT TTTCGCTGCC
    CTGTTACATT TCTTCTTCTT GGCTGCCTTC ACCTGGATGT TCCTGGAGGG GGTGCAGCTT
    TATATCATGC TGGTGGAGGT TTTTGAGAGT GAACATTCAC GTAGGAAATA CTTTTATCTG
    GTCGGCTATG GGATGCCTGC ACTCATTGTG GCTGTGTCAG CTGCAGTAGA CTACAGGAGT
    TATGGAACAG ATAAAGTATG TTGGCTCCGA CTTGACACCT ACTTCATTTG GAGTTTTATA
    GGACCAGCAA CTTTGATAAT TATGCTTAAT GTAATCTTCC TTGGGATTGC TTTATATAAA
    ATGTTTCATC ATACTGCTAT ACTGAAACCT GAATCAGGCT GTCTTGATAA CATCAAGTCA
    TGGGTTATAG GTGCAATAGC TCTTCTCTGC CTATTAGGAT TGACCTGGGC CTTTGGACTC
    ATGTATATTA ATGAAAGCAC AGTCATCATG GCCTATCTCT TCACCATTTT CAATTCTCTA
    CAGGGAATGT TTATATTTAT TTTCCATTGT GTCCTACAGA AGAAGGTACG AAAAGAGTAT
    GGGAAATGCC TGCGAACACA TTGCTGTAGT GGCAAAAGTA CAGAGAGTTC CATTGGTTCA
    GGGAAAACAT CTGGTTCTCG AACTCCTGGA CGCTACTCCA CAGGCTCACA GAGCCGAATC
    CGTAGAATGT GGAATGACAC GGTTCGAAAG CAGTCAGAGT CTTCCTTTAT TACTGGAGAC
    ATAAACAGTT CAGCGTCACT CAACAGAGAG GGGCTTCTGA ACAATGCCAG GGATACAAGT
    GTCATGGATA CTCTACCACT GAATGGTAAC CATGGCAATA GTTACAGCAT TGCCAGCGGC
    GAATACCTGA GCAACTGTGT GCAAATCATA GACCGTGGCT ATAACCATAA CGAGACCGCC
    CTAGAGAAAA AGATTCTGAA GGAACTCACT TCCAACTATA TCCCTTCTTA CCTGAACAAC
    CATGAGCGCT CCAGTGAACA GAACAGGAAT CTGATGAACA AGCTGGTGAA TAACCTTGGC
    AGTGGAAGGG AAGATGATGC CATTGTCCTG GATGATGCCA CCTCGTTTAA CCACGAGGAG
    AGTTTGGGCC TGGAACTCAT TCATGAGGAA TCTGATGCTC CTTTGCTGCC CCCAAGAGTA
    TACTCCACCG AGAACCACCA GCCACACCAT TATACCAGAA GGCGGATCCC CCAAGACCAC
    AGTGAGAGCT TTTTCCCTTT GCTAACCAAC GAGCACACAG AAGATCTCCA GTCACCCCAT
    AGAGACTCTC TCTATACCAG CATGCCGACA CTGGCTGGTG TGGCCGCCAC AGAGAGTGTT
    ACCACCAGCA CCCAGACCGA ACCCCCACCG GCCAAATGTG GTGATGCCGA AGATGTTTAC
    TACAAAAGCA TGCCAAACCT AGGCTCCAGA AACCACGTCC ATCAGCTGCA TACTTACTAC
    CAGCTAGGTC GCGGCAGCAG TGATGGATTT ATAGTTCCTC CAAACAAAGA TGGGACCCCT
    CCCGAGGGAA GTTCAAAAGG ACCGGCTCAT TTGGTCACTA GTCTATAG

    The stop codons will be deleted if pcDNA3.1+/C-(K)DYK vector is selected.

    RefSeq NP_001358274.1
    CDS710..5257
    Translation

    Target ORF information:

    RefSeq Version NM_001371345.1
    Organism Homo sapiens(human)
    Definition Homo sapiens adhesion G protein-coupled receptor L3 (ADGRL3), transcript variant 7, mRNA.

    Target ORF information:

    Epitope DYKDDDDK
    Bacterial selection AMPR
    Mammalian selection NeoR
    Vector pcDNA3.1+/C-(K)DYK
    NM_001371345.1

    ORF Insert Sequence:

    1
    61
    121
    181
    241
    301
    361
    421
    481
    541
    601
    661
    721
    781
    841
    901
    961
    1021
    1081
    1141
    1201
    1261
    1321
    1381
    1441
    1501
    1561
    1621
    1681
    1741
    1801
    1861
    1921
    1981
    2041
    2101
    2161
    2221
    2281
    2341
    2401
    2461
    2521
    2581
    2641
    2701
    2761
    2821
    2881
    2941
    3001
    3061
    3121
    3181
    3241
    3301
    3361
    3421
    3481
    3541
    3601
    3661
    3721
    3781
    3841
    3901
    3961
    4021
    4081
    4141
    4201
    4261
    4321
    4381
    4441
    4501
    ATGTGGCCAT CGCAGCTACT AATTTTCATG ATGCTCTTAG CTCCAATAAT TCATGGTGGC 
    AAGCACAGTG AACGACATCC TGCCCTTGCT GCTCCATTGC GACACGCTGA GCGCAGCCCA
    GGAGGCGCTC TTCCACCCAG ACATCTGCTT CAGCAGCCAG CTGCAGAGCG CACCGCTGCT
    CATCGTGGAC AAGGGCCCCG TGGAGCTACC AGAGGAGTTC GCGGTCCAGG TGCCCAAGGA
    GCACAGATTG CAGCGCAAGC TTTCAGCCGT GCCCCAATTC CAATGGCTGT GGTCCGCAGA
    GAGCTATCCT GTGAGAGCTA TCCTATAGAG CTTCGCTGTC CAGGAACAGA CGTCATCATG
    ATAGAAAGTG CCAACTATGG CAGGACTGAT GACAAAATTT GTGACTCTGA CCCTGCTCAG
    ATGGAGAATA TCCGATGTTA TCTGCCAGAT GCCTATAAGA TTATGTCTCA AAGATGCAAT
    AACAGAACCC AGTGTGCAGT GGTGGCAGGT CCTGATGTTT TTCCAGACCC GTGTCCAGGA
    ACCTATAAAT ACCTTGAAGT GCAGTATGAA TGTGTCCCTT ACAAAGTGGA ACAAAAAGTT
    TTTCTTTGTC CTGGACTACT AAAAGGAGTA TACCAGAGTG AACATTTGTT TGAGTCCGAC
    CACCAATCTG GGGCGTGGTG CAAAGACCCT CTGCAGGCAT CTGACAAGAT TTATTATATG
    CCCTGGACTC CCTACAGAAC TGATACCCTG ACTGAGTATT CATCCAAGGA TGACTTCATT
    GCTGGAAGAC CAACTACAAC CTACAAGCTC CCTCACAGGG TGGATGGCAC AGGATTTGTA
    GTGTATGATG GAGCTTTGTT CTTCAACAAA GAGCGCACCA GGAACATAGT AAAGTTTGAT
    TTGCGGACTA GGATAAAGAG TGGAGAGGCT ATCATAGCAA ATGCCAATTA CCATGATACC
    TCCCCTTACC GATGGGGAGG CAAATCTGAC ATAGACCTGG CAGTAGATGA GAATGGGCTA
    TGGGTAATCT ATGCAACAGA ACAAAACAAT GGTAAAATTG TCATTAGTCA ATTGAACCCT
    TACACCCTAC GGATCGAAGG AACATGGGAT ACTGCATATG ATAAAAGGTC AGCTTCCAAT
    GCCTTTATGA TTTGTGGAAT TCTGTATGTG GTCAAATCTG TATATGAGGA TGATGACAAT
    GAGGCTACTG GAAATAAGAT TGACTACATT TACAACACTG ACCAAAGCAA GGATAGTTTG
    GTGGATGTAC CCTTTCCTAA TTCATACCAG TACATTGCAG CTGTGGATTA CAACCCCAGG
    GACAACCTAC TTTATGTATG GAATAACTAT CACGTCGTGA AATATTCTTT GGATTTTGGA
    CCTCTGGATA GTAGATCAGG GCAGGCACAT CATGGACAAG TTTCATACAT TTCTCCGCCA
    ATTCACCTTG ACTCTGAGCT AGAAAGACCC TCTGTTAAAG ATATCTCTAC CACAGGACCT
    CTTGGCATGG GAAGCACTAC CACCAGTACC ACCCTTCGGA CCACAACTTT GAGCCCAGGA
    AGGAGTACCA CCCCGTCAGT GTCAGGAAGA AGAAACCGGA GTACTAGTAC CCCATCTCCA
    GCTGTCGAGG TACTTGATGA CATGACCACA CACCTTCCAT CAGCATCGTC CCAAATCCCA
    GCTCTCGAAG AGAGCTGTGA GGCTGTGGAA GCCCGAGAAA TCATGTGGTT TAAGACTCGT
    CAAGGACAGA TAGCAAAGCA GCCATGCCCT GCAGGAACTA TAGGTGTATC AACTTATCTA
    TGCCTTGCTC CTGATGGAAT TTGGGATCCC CAAGGTCCAG ATCTCAGCAA CTGTTCTTCT
    CCTTGGGTCA ATCATATAAC ACAGAAGTTG AAATCTGGTG AAACAGCTGC CAACATTGCT
    AGAGAGCTGG CTGAACAGAC AAGAAATCAC TTGAATGCTG GGGACATCAC CTACTCTGTC
    CGGGCCATGG ACCAGCTGGT AGGCCTCCTA GATGTACAGC TTCGGAACTT GACCCCAGGT
    GGAAAAGATA GTGCTGCCCG GAGTTTGAAC AAGGCAATGG TCGAGACAGT TAACAACCTC
    CTTCAGCCAC AAGCTTTGAA TGCATGGAGA GACCTGACTA CGAGTGATCA GCTGCGTGCG
    GCCACCATGT TGCTTCATAC TGTGGAGGAA AGTGCTTTTG TGCTGGCTGA TAACCTTTTG
    AAGACTGACA TTGTCAGGGA GAATACAGAC AATATTAAAT TGGAAGTTGC AAGACTGAGC
    ACAGAAGGAA ACTTAGAAGA CCTAAAATTT CCAGAAAACA TGGGCCATGG AAGCACTATC
    CAGCTGTCTG CAAATACCTT AAAGCAAAAT GGCCGAAATG GAGAGATCAG AGTGGCCTTT
    GTCCTGTATA ACAACTTGGG TCCTTATTTA TCCACGGAGA ATGCCAGTAT GAAGTTGGGA
    ACGGAAGCTT TGTCCACAAA TCATTCTGTT ATTGTCAATT CCCCTGTTAT TACGGCAGCA
    ATAAACAAAG AGTTCAGTAA CAAGGTTTAT TTGGCTGATC CTGTGGTATT TACTGTTAAA
    CATATCAAGC AGTCAGAGGA AAATTTCAAC CCTAACTGTT CATTTTGGAG CTACTCCAAG
    CGTACAATGA CAGGTTATTG GTCAACACAA GGCTGTCGGC TCCTGACAAC AAATAAGACA
    CATACTACAT GCTCTTGTAA CCACCTAACA AATTTTGCAG TACTGATGGC ACATGTGGAA
    GTTAAGCACA GTGATGCGGT CCATGACCTC CTTCTGGATG TGATCACGTG GGTTGGAATT
    TTGCTGTCCC TTGTTTGTCT CCTGATTTGC ATCTTCACAT TTTGCTTTTT CCGGGGGCTC
    CAGAGTGACC GTAACACCAT CCACAAGAAC CTCTGCATCA GTCTCTTTGT AGCAGAGCTG
    CTCTTCCTGA TTGGGATCAA CCGAACTGAC CAACCAATTG CCTGTGCTGT TTTCGCTGCC
    CTGTTACATT TCTTCTTCTT GGCTGCCTTC ACCTGGATGT TCCTGGAGGG GGTGCAGCTT
    TATATCATGC TGGTGGAGGT TTTTGAGAGT GAACATTCAC GTAGGAAATA CTTTTATCTG
    GTCGGCTATG GGATGCCTGC ACTCATTGTG GCTGTGTCAG CTGCAGTAGA CTACAGGAGT
    TATGGAACAG ATAAAGTATG TTGGCTCCGA CTTGACACCT ACTTCATTTG GAGTTTTATA
    GGACCAGCAA CTTTGATAAT TATGCTTAAT GTAATCTTCC TTGGGATTGC TTTATATAAA
    ATGTTTCATC ATACTGCTAT ACTGAAACCT GAATCAGGCT GTCTTGATAA CATCAAGTCA
    TGGGTTATAG GTGCAATAGC TCTTCTCTGC CTATTAGGAT TGACCTGGGC CTTTGGACTC
    ATGTATATTA ATGAAAGCAC AGTCATCATG GCCTATCTCT TCACCATTTT CAATTCTCTA
    CAGGGAATGT TTATATTTAT TTTCCATTGT GTCCTACAGA AGAAGGTACG AAAAGAGTAT
    GGGAAATGCC TGCGAACACA TTGCTGTAGT GGCAAAAGTA CAGAGAGTTC CATTGGTTCA
    GGGAAAACAT CTGGTTCTCG AACTCCTGGA CGCTACTCCA CAGGCTCACA GAGCCGAATC
    CGTAGAATGT GGAATGACAC GGTTCGAAAG CAGTCAGAGT CTTCCTTTAT TACTGGAGAC
    ATAAACAGTT CAGCGTCACT CAACAGAGAG GGGCTTCTGA ACAATGCCAG GGATACAAGT
    GTCATGGATA CTCTACCACT GAATGGTAAC CATGGCAATA GTTACAGCAT TGCCAGCGGC
    GAATACCTGA GCAACTGTGT GCAAATCATA GACCGTGGCT ATAACCATAA CGAGACCGCC
    CTAGAGAAAA AGATTCTGAA GGAACTCACT TCCAACTATA TCCCTTCTTA CCTGAACAAC
    CATGAGCGCT CCAGTGAACA GAACAGGAAT CTGATGAACA AGCTGGTGAA TAACCTTGGC
    AGTGGAAGGG AAGATGATGC CATTGTCCTG GATGATGCCA CCTCGTTTAA CCACGAGGAG
    AGTTTGGGCC TGGAACTCAT TCATGAGGAA TCTGATGCTC CTTTGCTGCC CCCAAGAGTA
    TACTCCACCG AGAACCACCA GCCACACCAT TATACCAGAA GGCGGATCCC CCAAGACCAC
    AGTGAGAGCT TTTTCCCTTT GCTAACCAAC GAGCACACAG AAGATCTCCA GTCACCCCAT
    AGAGACTCTC TCTATACCAG CATGCCGACA CTGGCTGGTG TGGCCGCCAC AGAGAGTGTT
    ACCACCAGCA CCCAGACCGA ACCCCCACCG GCCAAATGTG GTGATGCCGA AGATGTTTAC
    TACAAAAGCA TGCCAAACCT AGGCTCCAGA AACCACGTCC ATCAGCTGCA TACTTACTAC
    CAGCTAGGTC GCGGCAGCAG TGATGGATTT ATAGTTCCTC CAAACAAAGA TGGGACCCCT
    CCCGAGGGAA GTTCAAAAGG ACCGGCTCAT TTGGTCACTA GTCTATAG

    The stop codons will be deleted if pcDNA3.1+/C-(K)DYK vector is selected.

    CloneID OHu95007
    Clone ID Related Accession (Same CDS sequence) NM_001371343.1 , XM_017007938.1
    Accession Version NM_001371343.1 Latest version! Documents for ORF clone product in default vector
    Sequence Information ORF Nucleotide Sequence (Length: 4533bp)
    Protein sequence
    SNP
    Vector pcDNA3.1-C-(k)DYK or customized vector User Manual
    Clone information Clone Map MSDS
    Tag on pcDNA3.1+/C-(K)DYK C terminal DYKDDDDK tags
    ORF Insert Method CloneEZ™ Seamless cloning technology
    Insert Structure linear
    Update Date 2019-08-20
    Organism Homo sapiens(human)
    Product adhesion G protein-coupled receptor L3 isoform 5 precursor
    Comment Comment: REVIEWED REFSEQ: This record has been curated by NCBI staff. The reference sequence was derived from AC092643.2, AC020741.4, AC092668.2, AC108161.4, AC096723.3, AC092663.2 and AC007511.8. Sequence Note: The RefSeq transcript and protein were derived from genomic sequence to make the sequence consistent with the reference genome assembly. The genomic coordinates used for the transcript record were based on alignments. Publication Note: This RefSeq record includes a subset of the publications that are available for this gene. Please see the Gene record to access additional publications. ##Evidence-Data-START## Transcript exon combination :: SRR1660809.123131.1 [ECO:0000332] ##Evidence-Data-END## COMPLETENESS: complete on the 3' end.

    1
    61
    121
    181
    241
    301
    361
    421
    481
    541
    601
    661
    721
    781
    841
    901
    961
    1021
    1081
    1141
    1201
    1261
    1321
    1381
    1441
    1501
    1561
    1621
    1681
    1741
    1801
    1861
    1921
    1981
    2041
    2101
    2161
    2221
    2281
    2341
    2401
    2461
    2521
    2581
    2641
    2701
    2761
    2821
    2881
    2941
    3001
    3061
    3121
    3181
    3241
    3301
    3361
    3421
    3481
    3541
    3601
    3661
    3721
    3781
    3841
    3901
    3961
    4021
    4081
    4141
    4201
    4261
    4321
    4381
    4441
    4501
    ATGTGGCCAT CGCAGCTACT AATTTTCATG ATGCTCTTAG CTCCAATAAT TCATGGTGGC 
    AAGCACAGTG AACGACATCC TGCCCTTGCT GCTCCATTGC GACACGCTGA GCGCAGCCCA
    GGAGGCGCTC TTCCACCCAG ACATCTGCTT CAGCAGCCAG CTGCAGAGCG CACCGCTGCT
    CATCGTGGAC AAGGGCCCCG TGGAGCTACC AGAGGAGTTC GCGGTCCAGG TGCCCAAGGA
    GCACAGATTG CAGCGCAAGC TTTCAGCCGT GCCCCAATTC CAATGGCTGT GGTCCGCAGA
    GAGCTATCCT GTGAGAGCTA TCCTATAGAG CTTCGCTGTC CAGGAACAGA CGTCATCATG
    ATAGAAAGTG CCAACTATGG CAGGACTGAT GACAAAATTT GTGACTCTGA CCCTGCTCAG
    ATGGAGAATA TCCGATGTTA TCTGCCAGAT GCCTATAAGA TTATGTCTCA AAGATGCAAT
    AACAGAACCC AGTGTGCAGT GGTGGCAGGT CCTGATGTTT TTCCAGACCC GTGTCCAGGA
    ACCTATAAAT ACCTTGAAGT GCAGTATGAA TGTGTCCCTT ACAAAGTGGA ACAAAAAGTT
    TTTCTTTGTC CTGGACTACT AAAAGGAGTA TACCAGAGTG AACATTTGTT TGAGTCCGAC
    CACCAATCTG GGGCGTGGTG CAAAGACCCT CTGCAGGCAT CTGACAAGAT TTATTATATG
    CCCTGGACTC CCTACAGAAC TGATACCCTG ACTGAGTATT CATCCAAGGA TGACTTCATT
    GCTGGAAGAC CAACTACAAC CTACAAGCTC CCTCACAGGG TGGATGGCAC AGGATTTGTA
    GTGTATGATG GAGCTTTGTT CTTCAACAAA GAGCGCACCA GGAACATAGT AAAGTTTGAT
    TTGCGGACTA GGATAAAGAG TGGAGAGGCT ATCATAGCAA ATGCCAATTA CCATGATACC
    TCCCCTTACC GATGGGGAGG CAAATCTGAC ATAGACCTGG CAGTAGATGA GAATGGGCTA
    TGGGTAATCT ATGCAACAGA ACAAAACAAT GGTAAAATTG TCATTAGTCA ATTGAACCCT
    TACACCCTAC GGATCGAAGG AACATGGGAT ACTGCATATG ATAAAAGGTC AGCTTCCAAT
    GCCTTTATGA TTTGTGGAAT TCTGTATGTG GTCAAATCTG TATATGAGGA TGATGACAAT
    GAGGCTACTG GAAATAAGAT TGACTACATT TACAACACTG ACCAAAGCAA GGATAGTTTG
    GTGGATGTAC CCTTTCCTAA TTCATACCAG TACATTGCAG CTGTGGATTA CAACCCCAGG
    GACAACCTAC TTTATGTATG GAATAACTAT CACGTCGTGA AATATTCTTT GGATTTTGGA
    CCTCTGGATA GTAGATCAGG GCAGGCACAT CATGGACAAG TTTCATACAT TTCTCCGCCA
    ATTCACCTTG ACTCTGAGCT AGAAAGACCC TCTGTTAAAG GACCTCTTGG CATGGGAAGC
    ACTACCACCA GTACCACCCT TCGGACCACA ACTTTGAGCC CAGGAAGGAG TACCACCCCG
    TCAGTGTCAG GAAGAAGAAA CCGGAGTACT AGTACCCCAT CTCCAGCTGT CGAGGTACTT
    GATGACATGA CCACACACCT TCCATCAGCA TCGTCCCAAA TCCCAGCTCT CGAAGAGAGC
    TGTGAGGCTG TGGAAGCCCG AGAAATCATG TGGTTTAAGA CTCGTCAAGG ACAGATAGCA
    AAGCAGCCAT GCCCTGCAGG AACTATAGGT GTATCAACTT ATCTATGCCT TGCTCCTGAT
    GGAATTTGGG ATCCCCAAGG TCCAGATCTC AGCAACTGTT CTTCTCCTTG GGTCAATCAT
    ATAACACAGA AGTTGAAATC TGGTGAAACA GCTGCCAACA TTGCTAGAGA GCTGGCTGAA
    CAGACAAGAA ATCACTTGAA TGCTGGGGAC ATCACCTACT CTGTCCGGGC CATGGACCAG
    CTGGTAGGCC TCCTAGATGT ACAGCTTCGG AACTTGACCC CAGGTGGAAA AGATAGTGCT
    GCCCGGAGTT TGAACAAGGC AATGGTCGAG ACAGTTAACA ACCTCCTTCA GCCACAAGCT
    TTGAATGCAT GGAGAGACCT GACTACGAGT GATCAGCTGC GTGCGGCCAC CATGTTGCTT
    CATACTGTGG AGGAAAGTGC TTTTGTGCTG GCTGATAACC TTTTGAAGAC TGACATTGTC
    AGGGAGAATA CAGACAATAT TAAATTGGAA GTTGCAAGAC TGAGCACAGA AGGAAACTTA
    GAAGACCTAA AATTTCCAGA AAACATGGGC CATGGAAGCA CTATCCAGCT GTCTGCAAAT
    ACCTTAAAGC AAAATGGCCG AAATGGAGAG ATCAGAGTGG CCTTTGTCCT GTATAACAAC
    TTGGGTCCTT ATTTATCCAC GGAGAATGCC AGTATGAAGT TGGGAACGGA AGCTTTGTCC
    ACAAATCATT CTGTTATTGT CAATTCCCCT GTTATTACGG CAGCAATAAA CAAAGAGTTC
    AGTAACAAGG TTTATTTGGC TGATCCTGTG GTATTTACTG TTAAACATAT CAAGCAGTCA
    GAGGAAAATT TCAACCCTAA CTGTTCATTT TGGAGCTACT CCAAGCGTAC AATGACAGGT
    TATTGGTCAA CACAAGGCTG TCGGCTCCTG ACAACAAATA AGACACATAC TACATGCTCT
    TGTAACCACC TAACAAATTT TGCAGTACTG ATGGCACATG TGGAAGTTAA GCACAGTGAT
    GCGGTCCATG ACCTCCTTCT GGATGTGATC ACGTGGGTTG GAATTTTGCT GTCCCTTGTT
    TGTCTCCTGA TTTGCATCTT CACATTTTGC TTTTTCCGGG GGCTCCAGAG TGACCGTAAC
    ACCATCCACA AGAACCTCTG CATCAGTCTC TTTGTAGCAG AGCTGCTCTT CCTGATTGGG
    ATCAACCGAA CTGACCAACC AATTGCCTGT GCTGTTTTCG CTGCCCTGTT ACATTTCTTC
    TTCTTGGCTG CCTTCACCTG GATGTTCCTG GAGGGGGTGC AGCTTTATAT CATGCTGGTG
    GAGGTTTTTG AGAGTGAACA TTCACGTAGG AAATACTTTT ATCTGGTCGG CTATGGGATG
    CCTGCACTCA TTGTGGCTGT GTCAGCTGCA GTAGACTACA GGAGTTATGG AACAGATAAA
    GTATGTTGGC TCCGACTTGA CACCTACTTC ATTTGGAGTT TTATAGGACC AGCAACTTTG
    ATAATTATGC TTAATGTAAT CTTCCTTGGG ATTGCTTTAT ATAAAATGTT TCATCATACT
    GCTATACTGA AACCTGAATC AGGCTGTCTT GATAACATCA AGTCATGGGT TATAGGTGCA
    ATAGCTCTTC TCTGCCTATT AGGATTGACC TGGGCCTTTG GACTCATGTA TATTAATGAA
    AGCACAGTCA TCATGGCCTA TCTCTTCACC ATTTTCAATT CTCTACAGGG AATGTTTATA
    TTTATTTTCC ATTGTGTCCT ACAGAAGAAG GTACGAAAAG AGTATGGGAA ATGCCTGCGA
    ACACATTGCT GTAGTGGCAA AAGTACAGAG AGTTCCATTG GTTCAGGGAA AACATCTGGT
    TCTCGAACTC CTGGACGCTA CTCCACAGGC TCACAGAGCC GAATCCGTAG AATGTGGAAT
    GACACGGTTC GAAAGCAGTC AGAGTCTTCC TTTATTACTG GAGACATAAA CAGTTCAGCG
    TCACTCAACA GAGAGGGGCT TCTGAACAAT GCCAGGGATA CAAGTGTCAT GGATACTCTA
    CCACTGAATG GTAACCATGG CAATAGTTAC AGCATTGCCA GCGGCGAATA CCTGAGCAAC
    TGTGTGCAAA TCATAGACCG TGGCTATAAC CATAACGAGA CCGCCCTAGA GAAAAAGATT
    CTGAAGGAAC TCACTTCCAA CTATATCCCT TCTTACCTGA ACAACCATGA GCGCTCCAGT
    GAACAGAACA GGAATCTGAT GAACAAGCTG GTGAATAACC TTGGCAGTGG AAGGGAAGAT
    GATGCCATTG TCCTGGATGA TGCCACCTCG TTTAACCACG AGGAGAGTTT GGGCCTGGAA
    CTCATTCATG AGGAATCTGA TGCTCCTTTG CTGCCCCCAA GAGTATACTC CACCGAGAAC
    CACCAGCCAC ACCATTATAC CAGAAGGCGG ATCCCCCAAG ACCACAGTGA GAGCTTTTTC
    CCTTTGCTAA CCAACGAGCA CACAGAAGAT CTCCAGTCAC CCCATAGAGA CTCTCTCTAT
    ACCAGCATGC CGACACTGGC TGGTGTGGCC GCCACAGAGA GTGTTACCAC CAGCACCCAG
    ACCGAACCCC CACCGGCCAA ATGTGGTGAT GCCGAAGATG TTTACTACAA AAGCATGCCA
    AACCTAGGCT CCAGAAACCA CGTCCATCAG CTGCATACTT ACTACCAGCT AGGTCGCGGC
    AGCAGTGATG GATTTATAGT TCCTCCAAAC AAAGATGGGA CCCCTCCCGA GGGAAGTTCA
    AAAGGACCGG CTCATTTGGT CACTAGTCTA TAG

    The stop codons will be deleted if pcDNA3.1+/C-(K)DYK vector is selected.

    RefSeq NP_001358272.1
    CDS776..5308
    Translation

    Target ORF information:

    RefSeq Version NM_001371343.1
    Organism Homo sapiens(human)
    Definition Homo sapiens adhesion G protein-coupled receptor L3 (ADGRL3), transcript variant 5, mRNA.

    Target ORF information:

    Epitope DYKDDDDK
    Bacterial selection AMPR
    Mammalian selection NeoR
    Vector pcDNA3.1+/C-(K)DYK
    NM_001371343.1

    ORF Insert Sequence:

    1
    61
    121
    181
    241
    301
    361
    421
    481
    541
    601
    661
    721
    781
    841
    901
    961
    1021
    1081
    1141
    1201
    1261
    1321
    1381
    1441
    1501
    1561
    1621
    1681
    1741
    1801
    1861
    1921
    1981
    2041
    2101
    2161
    2221
    2281
    2341
    2401
    2461
    2521
    2581
    2641
    2701
    2761
    2821
    2881
    2941
    3001
    3061
    3121
    3181
    3241
    3301
    3361
    3421
    3481
    3541
    3601
    3661
    3721
    3781
    3841
    3901
    3961
    4021
    4081
    4141
    4201
    4261
    4321
    4381
    4441
    4501
    ATGTGGCCAT CGCAGCTACT AATTTTCATG ATGCTCTTAG CTCCAATAAT TCATGGTGGC 
    AAGCACAGTG AACGACATCC TGCCCTTGCT GCTCCATTGC GACACGCTGA GCGCAGCCCA
    GGAGGCGCTC TTCCACCCAG ACATCTGCTT CAGCAGCCAG CTGCAGAGCG CACCGCTGCT
    CATCGTGGAC AAGGGCCCCG TGGAGCTACC AGAGGAGTTC GCGGTCCAGG TGCCCAAGGA
    GCACAGATTG CAGCGCAAGC TTTCAGCCGT GCCCCAATTC CAATGGCTGT GGTCCGCAGA
    GAGCTATCCT GTGAGAGCTA TCCTATAGAG CTTCGCTGTC CAGGAACAGA CGTCATCATG
    ATAGAAAGTG CCAACTATGG CAGGACTGAT GACAAAATTT GTGACTCTGA CCCTGCTCAG
    ATGGAGAATA TCCGATGTTA TCTGCCAGAT GCCTATAAGA TTATGTCTCA AAGATGCAAT
    AACAGAACCC AGTGTGCAGT GGTGGCAGGT CCTGATGTTT TTCCAGACCC GTGTCCAGGA
    ACCTATAAAT ACCTTGAAGT GCAGTATGAA TGTGTCCCTT ACAAAGTGGA ACAAAAAGTT
    TTTCTTTGTC CTGGACTACT AAAAGGAGTA TACCAGAGTG AACATTTGTT TGAGTCCGAC
    CACCAATCTG GGGCGTGGTG CAAAGACCCT CTGCAGGCAT CTGACAAGAT TTATTATATG
    CCCTGGACTC CCTACAGAAC TGATACCCTG ACTGAGTATT CATCCAAGGA TGACTTCATT
    GCTGGAAGAC CAACTACAAC CTACAAGCTC CCTCACAGGG TGGATGGCAC AGGATTTGTA
    GTGTATGATG GAGCTTTGTT CTTCAACAAA GAGCGCACCA GGAACATAGT AAAGTTTGAT
    TTGCGGACTA GGATAAAGAG TGGAGAGGCT ATCATAGCAA ATGCCAATTA CCATGATACC
    TCCCCTTACC GATGGGGAGG CAAATCTGAC ATAGACCTGG CAGTAGATGA GAATGGGCTA
    TGGGTAATCT ATGCAACAGA ACAAAACAAT GGTAAAATTG TCATTAGTCA ATTGAACCCT
    TACACCCTAC GGATCGAAGG AACATGGGAT ACTGCATATG ATAAAAGGTC AGCTTCCAAT
    GCCTTTATGA TTTGTGGAAT TCTGTATGTG GTCAAATCTG TATATGAGGA TGATGACAAT
    GAGGCTACTG GAAATAAGAT TGACTACATT TACAACACTG ACCAAAGCAA GGATAGTTTG
    GTGGATGTAC CCTTTCCTAA TTCATACCAG TACATTGCAG CTGTGGATTA CAACCCCAGG
    GACAACCTAC TTTATGTATG GAATAACTAT CACGTCGTGA AATATTCTTT GGATTTTGGA
    CCTCTGGATA GTAGATCAGG GCAGGCACAT CATGGACAAG TTTCATACAT TTCTCCGCCA
    ATTCACCTTG ACTCTGAGCT AGAAAGACCC TCTGTTAAAG GACCTCTTGG CATGGGAAGC
    ACTACCACCA GTACCACCCT TCGGACCACA ACTTTGAGCC CAGGAAGGAG TACCACCCCG
    TCAGTGTCAG GAAGAAGAAA CCGGAGTACT AGTACCCCAT CTCCAGCTGT CGAGGTACTT
    GATGACATGA CCACACACCT TCCATCAGCA TCGTCCCAAA TCCCAGCTCT CGAAGAGAGC
    TGTGAGGCTG TGGAAGCCCG AGAAATCATG TGGTTTAAGA CTCGTCAAGG ACAGATAGCA
    AAGCAGCCAT GCCCTGCAGG AACTATAGGT GTATCAACTT ATCTATGCCT TGCTCCTGAT
    GGAATTTGGG ATCCCCAAGG TCCAGATCTC AGCAACTGTT CTTCTCCTTG GGTCAATCAT
    ATAACACAGA AGTTGAAATC TGGTGAAACA GCTGCCAACA TTGCTAGAGA GCTGGCTGAA
    CAGACAAGAA ATCACTTGAA TGCTGGGGAC ATCACCTACT CTGTCCGGGC CATGGACCAG
    CTGGTAGGCC TCCTAGATGT ACAGCTTCGG AACTTGACCC CAGGTGGAAA AGATAGTGCT
    GCCCGGAGTT TGAACAAGGC AATGGTCGAG ACAGTTAACA ACCTCCTTCA GCCACAAGCT
    TTGAATGCAT GGAGAGACCT GACTACGAGT GATCAGCTGC GTGCGGCCAC CATGTTGCTT
    CATACTGTGG AGGAAAGTGC TTTTGTGCTG GCTGATAACC TTTTGAAGAC TGACATTGTC
    AGGGAGAATA CAGACAATAT TAAATTGGAA GTTGCAAGAC TGAGCACAGA AGGAAACTTA
    GAAGACCTAA AATTTCCAGA AAACATGGGC CATGGAAGCA CTATCCAGCT GTCTGCAAAT
    ACCTTAAAGC AAAATGGCCG AAATGGAGAG ATCAGAGTGG CCTTTGTCCT GTATAACAAC
    TTGGGTCCTT ATTTATCCAC GGAGAATGCC AGTATGAAGT TGGGAACGGA AGCTTTGTCC
    ACAAATCATT CTGTTATTGT CAATTCCCCT GTTATTACGG CAGCAATAAA CAAAGAGTTC
    AGTAACAAGG TTTATTTGGC TGATCCTGTG GTATTTACTG TTAAACATAT CAAGCAGTCA
    GAGGAAAATT TCAACCCTAA CTGTTCATTT TGGAGCTACT CCAAGCGTAC AATGACAGGT
    TATTGGTCAA CACAAGGCTG TCGGCTCCTG ACAACAAATA AGACACATAC TACATGCTCT
    TGTAACCACC TAACAAATTT TGCAGTACTG ATGGCACATG TGGAAGTTAA GCACAGTGAT
    GCGGTCCATG ACCTCCTTCT GGATGTGATC ACGTGGGTTG GAATTTTGCT GTCCCTTGTT
    TGTCTCCTGA TTTGCATCTT CACATTTTGC TTTTTCCGGG GGCTCCAGAG TGACCGTAAC
    ACCATCCACA AGAACCTCTG CATCAGTCTC TTTGTAGCAG AGCTGCTCTT CCTGATTGGG
    ATCAACCGAA CTGACCAACC AATTGCCTGT GCTGTTTTCG CTGCCCTGTT ACATTTCTTC
    TTCTTGGCTG CCTTCACCTG GATGTTCCTG GAGGGGGTGC AGCTTTATAT CATGCTGGTG
    GAGGTTTTTG AGAGTGAACA TTCACGTAGG AAATACTTTT ATCTGGTCGG CTATGGGATG
    CCTGCACTCA TTGTGGCTGT GTCAGCTGCA GTAGACTACA GGAGTTATGG AACAGATAAA
    GTATGTTGGC TCCGACTTGA CACCTACTTC ATTTGGAGTT TTATAGGACC AGCAACTTTG
    ATAATTATGC TTAATGTAAT CTTCCTTGGG ATTGCTTTAT ATAAAATGTT TCATCATACT
    GCTATACTGA AACCTGAATC AGGCTGTCTT GATAACATCA AGTCATGGGT TATAGGTGCA
    ATAGCTCTTC TCTGCCTATT AGGATTGACC TGGGCCTTTG GACTCATGTA TATTAATGAA
    AGCACAGTCA TCATGGCCTA TCTCTTCACC ATTTTCAATT CTCTACAGGG AATGTTTATA
    TTTATTTTCC ATTGTGTCCT ACAGAAGAAG GTACGAAAAG AGTATGGGAA ATGCCTGCGA
    ACACATTGCT GTAGTGGCAA AAGTACAGAG AGTTCCATTG GTTCAGGGAA AACATCTGGT
    TCTCGAACTC CTGGACGCTA CTCCACAGGC TCACAGAGCC GAATCCGTAG AATGTGGAAT
    GACACGGTTC GAAAGCAGTC AGAGTCTTCC TTTATTACTG GAGACATAAA CAGTTCAGCG
    TCACTCAACA GAGAGGGGCT TCTGAACAAT GCCAGGGATA CAAGTGTCAT GGATACTCTA
    CCACTGAATG GTAACCATGG CAATAGTTAC AGCATTGCCA GCGGCGAATA CCTGAGCAAC
    TGTGTGCAAA TCATAGACCG TGGCTATAAC CATAACGAGA CCGCCCTAGA GAAAAAGATT
    CTGAAGGAAC TCACTTCCAA CTATATCCCT TCTTACCTGA ACAACCATGA GCGCTCCAGT
    GAACAGAACA GGAATCTGAT GAACAAGCTG GTGAATAACC TTGGCAGTGG AAGGGAAGAT
    GATGCCATTG TCCTGGATGA TGCCACCTCG TTTAACCACG AGGAGAGTTT GGGCCTGGAA
    CTCATTCATG AGGAATCTGA TGCTCCTTTG CTGCCCCCAA GAGTATACTC CACCGAGAAC
    CACCAGCCAC ACCATTATAC CAGAAGGCGG ATCCCCCAAG ACCACAGTGA GAGCTTTTTC
    CCTTTGCTAA CCAACGAGCA CACAGAAGAT CTCCAGTCAC CCCATAGAGA CTCTCTCTAT
    ACCAGCATGC CGACACTGGC TGGTGTGGCC GCCACAGAGA GTGTTACCAC CAGCACCCAG
    ACCGAACCCC CACCGGCCAA ATGTGGTGAT GCCGAAGATG TTTACTACAA AAGCATGCCA
    AACCTAGGCT CCAGAAACCA CGTCCATCAG CTGCATACTT ACTACCAGCT AGGTCGCGGC
    AGCAGTGATG GATTTATAGT TCCTCCAAAC AAAGATGGGA CCCCTCCCGA GGGAAGTTCA
    AAAGGACCGG CTCATTTGGT CACTAGTCTA TAG

    The stop codons will be deleted if pcDNA3.1+/C-(K)DYK vector is selected.

    CloneID OHu95001
    Clone ID Related Accession (Same CDS sequence) XM_017007930.1 , XM_017007929.1
    Accession Version XM_017007930.1 Latest version! Documents for ORF clone product in default vector
    Sequence Information ORF Nucleotide Sequence (Length: 4761bp)
    Protein sequence
    SNP
    Vector pcDNA3.1-C-(k)DYK or customized vector User Manual
    Clone information Clone Map MSDS
    Tag on pcDNA3.1+/C-(K)DYK C terminal DYKDDDDK tags
    ORF Insert Method CloneEZ™ Seamless cloning technology
    Insert Structure linear
    Update Date 2019-12-05
    Organism Homo sapiens(human)
    Product adhesion G protein-coupled receptor L3 isoform X1
    Comment Comment: MODEL REFSEQ: This record is predicted by automated computational analysis. This record is derived from a genomic sequence (NC_000004.12) annotated using gene prediction method: Gnomon, supported by mRNA and EST evidence. Also see: Documentation of NCBI's Annotation Process ##Genome-Annotation-Data-START## Annotation Provider :: NCBI Annotation Status :: Updated annotation Annotation Name :: Homo sapiens Updated Annotation Release 109.20191205 Annotation Version :: 109.20191205 Annotation Pipeline :: NCBI eukaryotic genome annotation pipeline Annotation Software Version :: 8.3 Annotation Method :: Best-placed RefSeq; propagated RefSeq model Features Annotated :: Gene; mRNA; CDS; ncRNA ##Genome-Annotation-Data-END##

    1
    61
    121
    181
    241
    301
    361
    421
    481
    541
    601
    661
    721
    781
    841
    901
    961
    1021
    1081
    1141
    1201
    1261
    1321
    1381
    1441
    1501
    1561
    1621
    1681
    1741
    1801
    1861
    1921
    1981
    2041
    2101
    2161
    2221
    2281
    2341
    2401
    2461
    2521
    2581
    2641
    2701
    2761
    2821
    2881
    2941
    3001
    3061
    3121
    3181
    3241
    3301
    3361
    3421
    3481
    3541
    3601
    3661
    3721
    3781
    3841
    3901
    3961
    4021
    4081
    4141
    4201
    4261
    4321
    4381
    4441
    4501
    4561
    4621
    4681
    4741
    ATGTGGCCAT CGCAGCTACT AATTTTCATG ATGCTCTTAG CTCCAATAAT TCATGGTGGC 
    AAGCACAGTG AACGACATCC TGCCCTTGCT GCTCCATTGC GACACGCTGA GCGCAGCCCA
    GGAGGCGCTC TTCCACCCAG ACATCTGCTT CAGCAGCCAG CTGCAGAGCG CACCGCTGCT
    CATCGTGGAC AAGGGCCCCG TGGAGCTACC AGAGGAGTTC GCGGTCCAGG TGCCCAAGGA
    GCACAGATTG CAGCGCAAGC TTTCAGCCGT GCCCCAATTC CAATGGCTGT GGTCCGCAGA
    GAGCTATCCT GTGAGAGCTA TCCTATAGAG CTTCGCTGTC CAGGAACAGA CGTCATCATG
    ATAGAAAGTG CCAACTATGG CAGGACTGAT GACAAAATTT GTGACTCTGA CCCTGCTCAG
    ATGGAGAATA TCCGATGTTA TCTGCCAGAT GCCTATAAGA TTATGTCTCA AAGATGCAAT
    AACAGAACCC AGTGTGCAGT GGTGGCAGGT CCTGATGTTT TTCCAGACCC GTGTCCAGGA
    ACCTATAAAT ACCTTGAAGT GCAGTATGAA TGTGTCCCTT ACAAAGTGGA ACAAAAAGTT
    TTTCTTTGTC CTGGACTACT AAAAGGAGTA TACCAGAGTG AACATTTGTT TGAGTCCGAC
    CACCAATCTG GGGCGTGGTG CAAAGACCCT CTGCAGGCAT CTGACAAGAT TTATTATATG
    CCCTGGACTC CCTACAGAAC TGATACCCTG ACTGAGTATT CATCCAAGGA TGACTTCATT
    GCTGGAAGAC CAACTACAAC CTACAAGCTC CCTCACAGGG TGGATGGCAC AGGATTTGTA
    GTGTATGATG GAGCTTTGTT CTTCAACAAA GAGCGCACCA GGAACATAGT AAAGTTTGAT
    TTGCGGACTA GGATAAAGAG TGGAGAGGCT ATCATAGCAA ATGCCAATTA CCATGATACC
    TCCCCTTACC GATGGGGAGG CAAATCTGAC ATAGACCTGG CAGTAGATGA GAATGGGCTA
    TGGGTAATCT ATGCAACAGA ACAAAACAAT GGTAAAATTG TCATTAGTCA ATTGAACCCT
    TACACCCTAC GGATCGAAGG AACATGGGAT ACTGCATATG ATAAAAGGTC AGCTTCCAAT
    GCCTTTATGA TTTGTGGAAT TCTGTATGTG GTCAAATCTG TATATGAGGA TGATGACAAT
    GAGGCTACTG GAAATAAGAT TGACTACATT TACAACACTG ACCAAAGCAA GGATAGTTTG
    GTGGATGTAC CCTTTCCTAA TTCATACCAG TACATTGCAG CTGTGGATTA CAACCCCAGG
    GACAACCTAC TTTATGTATG GAATAACTAT CACGTCGTGA AATATTCTTT GGATTTTGGA
    CCTCTGGATA GTAGATCAGG GCAGGCACAT CATGGACAAG TTTCATACAT TTCTCCGCCA
    ATTCACCTTG ACTCTGAGCT AGAAAGACCC TCTGTTAAAG ATATCTCTAC CACAGGACCT
    CTTGGCATGG GAAGCACTAC CACCAGTACC ACCCTTCGGA CCACAACTTT GAGCCCAGGA
    AGGAGTACCA CCCCGTCAGT GTCAGGAAGA AGAAACCGGA GTACTAGTAC CCCATCTCCA
    GCTGTCGAGG TACTTGATGA CATGACCACA CACCTTCCAT CAGCATCGTC CCAAATCCCA
    GCTCTCGAAG AGAGCTGTGA GGCTGTGGAA GCCCGAGAAA TCATGTGGTT TAAGACTCGT
    CAAGGACAGA TAGCAAAGCA GCCATGCCCT GCAGGAACTA TAGGTGTATC AACTTATCTA
    TGCCTTGCTC CTGATGGAAT TTGGGATCCC CAAGGTCCAG ATCTCAGCAA CTGTTCTTCT
    CCTTGGGTCA ATCATATAAC ACAGAAGTTG AAATCTGGTG AAACAGCTGC CAACATTGCT
    AGAGAGCTGG CTGAACAGAC AAGAAATCAC TTGAATGCTG GGGACATCAC CTACTCTGTC
    CGGGCCATGG ACCAGCTGGT AGGCCTCCTA GATGTACAGC TTCGGAACTT GACCCCAGGT
    GGAAAAGATA GTGCTGCCCG GAGTTTGAAC AAGCTTCAGA AAAGAGAGCG CTCTTGCAGA
    GCCTATGTCC AGGCAATGGT CGAGACAGTT AACAACCTCC TTCAGCCACA AGCTTTGAAT
    GCATGGAGAG ACCTGACTAC GAGTGATCAG CTGCGTGCGG CCACCATGTT GCTTCATACT
    GTGGAGGAAA GTGCTTTTGT GCTGGCTGAT AACCTTTTGA AGACTGACAT TGTCAGGGAG
    AATACAGACA ATATTAAATT GGAAGTTGCA AGACTGAGCA CAGAAGGAAA CTTAGAAGAC
    CTAAAATTTC CAGAAAACAT GGGCCATGGA AGCACTATCC AGCTGTCTGC AAATACCTTA
    AAGCAAAATG GCCGAAATGG AGAGATCAGA GTGGCCTTTG TCCTGTATAA CAACTTGGGT
    CCTTATTTAT CCACGGAGAA TGCCAGTATG AAGTTGGGAA CGGAAGCTTT GTCCACAAAT
    CATTCTGTTA TTGTCAATTC CCCTGTTATT ACGGCAGCAA TAAACAAAGA GTTCAGTAAC
    AAGGTTTATT TGGCTGATCC TGTGGTATTT ACTGTTAAAC ATATCAAGCA GTCAGAGGAA
    AATTTCAACC CTAACTGTTC ATTTTGGAGC TACTCCAAGC GTACAATGAC AGGTTATTGG
    TCAACACAAG GCTGTCGGCT CCTGACAACA AATAAGACAC ATACTACATG CTCTTGTAAC
    CACCTAACAA ATTTTGCAGT ACTGATGGCA CATGTGGAAG TTAAGCACAG TGATGCGGTC
    CATGACCTCC TTCTGGATGT GATCACGTGG GTTGGAATTT TGCTGTCCCT TGTTTGTCTC
    CTGATTTGCA TCTTCACATT TTGCTTTTTC CGGGGGCTCC AGAGTGACCG TAACACCATC
    CACAAGAACC TCTGCATCAG TCTCTTTGTA GCAGAGCTGC TCTTCCTGAT TGGGATCAAC
    CGAACTGACC AACCAATTGC CTGTGCTGTT TTCGCTGCCC TGTTACATTT CTTCTTCTTG
    GCTGCCTTCA CCTGGATGTT CCTGGAGGGG GTGCAGCTTT ATATCATGCT GGTGGAGGTT
    TTTGAGAGTG AACATTCACG TAGGAAATAC TTTTATCTGG TCGGCTATGG GATGCCTGCA
    CTCATTGTGG CTGTGTCAGC TGCAGTAGAC TACAGGAGTT ATGGAACAGA TAAAGTATGT
    TGGCTCCGAC TTGACACCTA CTTCATTTGG AGTTTTATAG GACCAGCAAC TTTGATAATT
    ATGCTTAATG TAATCTTCCT TGGGATTGCT TTATATAAAA TGTTTCATCA TACTGCTATA
    CTGAAACCTG AATCAGGCTG TCTTGATAAC ATCAACTATG AGGATAACAG ACCCTTCATC
    AAGTCATGGG TTATAGGTGC AATAGCTCTT CTCTGCCTAT TAGGATTGAC CTGGGCCTTT
    GGACTCATGT ATATTAATGA AAGCACAGTC ATCATGGCCT ATCTCTTCAC CATTTTCAAT
    TCTCTACAGG GAATGTTTAT ATTTATTTTC CATTGTGTCC TACAGAAGAA GGTACGAAAA
    GAGTATGGGA AATGCCTGCG AACACATTGC TGTAGTGGCA AAAGTACAGA GAGTTCCATT
    GGTTCAGGGA AAACATCTGG TTCTCGAACT CCTGGACGCT ACTCCACAGG CTCACAGAGC
    CGAATCCGTA GAATGTGGAA TGACACGGTT CGAAAGCAGT CAGAGTCTTC CTTTATTACT
    GGAGACATAA ACAGTTCAGC GTCACTCAAC AGAGGAGCCA TGGCTAATCA TCTTATAAGC
    AATGCTCTGC TTCGTCCGCA TGGTACTAAC AATCCCTATA ATACATTGCT TGGGGAACCG
    GCGGTCTGTA ACAACCCTTC TGTCAGCATG TACAACGCAC AAGAGCCCTA CAGAGAGACA
    AAGGGGCTTC TGAACAATGC CAGGGATACA AGTGTCATGG ATACTCTACC ACTGAATGGT
    AACCATGGCA ATAGTTACAG CATTGCCAGC GGCGAATACC TGAGCAACTG TGTGCAAATC
    ATAGACCGTG GCTATAACCA TAACGAGACC GCCCTAGAGA AAAAGATTCT GAAGGAACTC
    ACTTCCAACT ATATCCCTTC TTACCTGAAC AACCATGAGC GCTCCAGTGA ACAGAACAGG
    AATCTGATGA ACAAGCTGGT GAATAACCTT GGCAGTGGAA GGGAAGATGA TGCCATTGTC
    CTGGATGATG CCACCTCGTT TAACCACGAG GAGAGTTTGG GCCTGGAACT CATTCATGAG
    GAATCTGATG CTCCTTTGCT GCCCCCAAGA GTATACTCCA CCGAGAACCA CCAGCCACAC
    CATTATACCA GAAGGCGGAT CCCCCAAGAC CACAGTGAGA GCTTTTTCCC TTTGCTAACC
    AACGAGCACA CAGAAGATCT CCAGTCACCC CATAGAGACT CTCTCTATAC CAGCATGCCG
    ACACTGGCTG GTGTGGCCGC CACAGAGAGT GTTACCACCA GCACCCAGAC CGAACCCCCA
    CCGGCCAAAT GTGGTGATGC CGAAGATGTT TACTACAAAA GCATGCCAAA CCTAGGCTCC
    AGAAACCACG TCCATCAGCT GCATACTTAC TACCAGCTAG GTCGCGGCAG CAGTGATGGA
    TTTATAGTTC CTCCAAACAA AGATGGGACC CCTCCCGAGG GAAGTTCAAA AGGACCGGCT
    CATTTGGTCA CTAGTCTATA G

    The stop codons will be deleted if pcDNA3.1+/C-(K)DYK vector is selected.

    RefSeq XP_016863419.1
    CDS2013..6773
    Translation

    Target ORF information:

    RefSeq Version XM_017007930.1
    Organism Homo sapiens(human)
    Definition Homo sapiens adhesion G protein-coupled receptor L3 (ADGRL3), transcript variant X2, mRNA.

    Target ORF information:

    Epitope DYKDDDDK
    Bacterial selection AMPR
    Mammalian selection NeoR
    Vector pcDNA3.1+/C-(K)DYK
    XM_017007930.1

    ORF Insert Sequence:

    1
    61
    121
    181
    241
    301
    361
    421
    481
    541
    601
    661
    721
    781
    841
    901
    961
    1021
    1081
    1141
    1201
    1261
    1321
    1381
    1441
    1501
    1561
    1621
    1681
    1741
    1801
    1861
    1921
    1981
    2041
    2101
    2161
    2221
    2281
    2341
    2401
    2461
    2521
    2581
    2641
    2701
    2761
    2821
    2881
    2941
    3001
    3061
    3121
    3181
    3241
    3301
    3361
    3421
    3481
    3541
    3601
    3661
    3721
    3781
    3841
    3901
    3961
    4021
    4081
    4141
    4201
    4261
    4321
    4381
    4441
    4501
    4561
    4621
    4681
    4741
    ATGTGGCCAT CGCAGCTACT AATTTTCATG ATGCTCTTAG CTCCAATAAT TCATGGTGGC 
    AAGCACAGTG AACGACATCC TGCCCTTGCT GCTCCATTGC GACACGCTGA GCGCAGCCCA
    GGAGGCGCTC TTCCACCCAG ACATCTGCTT CAGCAGCCAG CTGCAGAGCG CACCGCTGCT
    CATCGTGGAC AAGGGCCCCG TGGAGCTACC AGAGGAGTTC GCGGTCCAGG TGCCCAAGGA
    GCACAGATTG CAGCGCAAGC TTTCAGCCGT GCCCCAATTC CAATGGCTGT GGTCCGCAGA
    GAGCTATCCT GTGAGAGCTA TCCTATAGAG CTTCGCTGTC CAGGAACAGA CGTCATCATG
    ATAGAAAGTG CCAACTATGG CAGGACTGAT GACAAAATTT GTGACTCTGA CCCTGCTCAG
    ATGGAGAATA TCCGATGTTA TCTGCCAGAT GCCTATAAGA TTATGTCTCA AAGATGCAAT
    AACAGAACCC AGTGTGCAGT GGTGGCAGGT CCTGATGTTT TTCCAGACCC GTGTCCAGGA
    ACCTATAAAT ACCTTGAAGT GCAGTATGAA TGTGTCCCTT ACAAAGTGGA ACAAAAAGTT
    TTTCTTTGTC CTGGACTACT AAAAGGAGTA TACCAGAGTG AACATTTGTT TGAGTCCGAC
    CACCAATCTG GGGCGTGGTG CAAAGACCCT CTGCAGGCAT CTGACAAGAT TTATTATATG
    CCCTGGACTC CCTACAGAAC TGATACCCTG ACTGAGTATT CATCCAAGGA TGACTTCATT
    GCTGGAAGAC CAACTACAAC CTACAAGCTC CCTCACAGGG TGGATGGCAC AGGATTTGTA
    GTGTATGATG GAGCTTTGTT CTTCAACAAA GAGCGCACCA GGAACATAGT AAAGTTTGAT
    TTGCGGACTA GGATAAAGAG TGGAGAGGCT ATCATAGCAA ATGCCAATTA CCATGATACC
    TCCCCTTACC GATGGGGAGG CAAATCTGAC ATAGACCTGG CAGTAGATGA GAATGGGCTA
    TGGGTAATCT ATGCAACAGA ACAAAACAAT GGTAAAATTG TCATTAGTCA ATTGAACCCT
    TACACCCTAC GGATCGAAGG AACATGGGAT ACTGCATATG ATAAAAGGTC AGCTTCCAAT
    GCCTTTATGA TTTGTGGAAT TCTGTATGTG GTCAAATCTG TATATGAGGA TGATGACAAT
    GAGGCTACTG GAAATAAGAT TGACTACATT TACAACACTG ACCAAAGCAA GGATAGTTTG
    GTGGATGTAC CCTTTCCTAA TTCATACCAG TACATTGCAG CTGTGGATTA CAACCCCAGG
    GACAACCTAC TTTATGTATG GAATAACTAT CACGTCGTGA AATATTCTTT GGATTTTGGA
    CCTCTGGATA GTAGATCAGG GCAGGCACAT CATGGACAAG TTTCATACAT TTCTCCGCCA
    ATTCACCTTG ACTCTGAGCT AGAAAGACCC TCTGTTAAAG ATATCTCTAC CACAGGACCT
    CTTGGCATGG GAAGCACTAC CACCAGTACC ACCCTTCGGA CCACAACTTT GAGCCCAGGA
    AGGAGTACCA CCCCGTCAGT GTCAGGAAGA AGAAACCGGA GTACTAGTAC CCCATCTCCA
    GCTGTCGAGG TACTTGATGA CATGACCACA CACCTTCCAT CAGCATCGTC CCAAATCCCA
    GCTCTCGAAG AGAGCTGTGA GGCTGTGGAA GCCCGAGAAA TCATGTGGTT TAAGACTCGT
    CAAGGACAGA TAGCAAAGCA GCCATGCCCT GCAGGAACTA TAGGTGTATC AACTTATCTA
    TGCCTTGCTC CTGATGGAAT TTGGGATCCC CAAGGTCCAG ATCTCAGCAA CTGTTCTTCT
    CCTTGGGTCA ATCATATAAC ACAGAAGTTG AAATCTGGTG AAACAGCTGC CAACATTGCT
    AGAGAGCTGG CTGAACAGAC AAGAAATCAC TTGAATGCTG GGGACATCAC CTACTCTGTC
    CGGGCCATGG ACCAGCTGGT AGGCCTCCTA GATGTACAGC TTCGGAACTT GACCCCAGGT
    GGAAAAGATA GTGCTGCCCG GAGTTTGAAC AAGCTTCAGA AAAGAGAGCG CTCTTGCAGA
    GCCTATGTCC AGGCAATGGT CGAGACAGTT AACAACCTCC TTCAGCCACA AGCTTTGAAT
    GCATGGAGAG ACCTGACTAC GAGTGATCAG CTGCGTGCGG CCACCATGTT GCTTCATACT
    GTGGAGGAAA GTGCTTTTGT GCTGGCTGAT AACCTTTTGA AGACTGACAT TGTCAGGGAG
    AATACAGACA ATATTAAATT GGAAGTTGCA AGACTGAGCA CAGAAGGAAA CTTAGAAGAC
    CTAAAATTTC CAGAAAACAT GGGCCATGGA AGCACTATCC AGCTGTCTGC AAATACCTTA
    AAGCAAAATG GCCGAAATGG AGAGATCAGA GTGGCCTTTG TCCTGTATAA CAACTTGGGT
    CCTTATTTAT CCACGGAGAA TGCCAGTATG AAGTTGGGAA CGGAAGCTTT GTCCACAAAT
    CATTCTGTTA TTGTCAATTC CCCTGTTATT ACGGCAGCAA TAAACAAAGA GTTCAGTAAC
    AAGGTTTATT TGGCTGATCC TGTGGTATTT ACTGTTAAAC ATATCAAGCA GTCAGAGGAA
    AATTTCAACC CTAACTGTTC ATTTTGGAGC TACTCCAAGC GTACAATGAC AGGTTATTGG
    TCAACACAAG GCTGTCGGCT CCTGACAACA AATAAGACAC ATACTACATG CTCTTGTAAC
    CACCTAACAA ATTTTGCAGT ACTGATGGCA CATGTGGAAG TTAAGCACAG TGATGCGGTC
    CATGACCTCC TTCTGGATGT GATCACGTGG GTTGGAATTT TGCTGTCCCT TGTTTGTCTC
    CTGATTTGCA TCTTCACATT TTGCTTTTTC CGGGGGCTCC AGAGTGACCG TAACACCATC
    CACAAGAACC TCTGCATCAG TCTCTTTGTA GCAGAGCTGC TCTTCCTGAT TGGGATCAAC
    CGAACTGACC AACCAATTGC CTGTGCTGTT TTCGCTGCCC TGTTACATTT CTTCTTCTTG
    GCTGCCTTCA CCTGGATGTT CCTGGAGGGG GTGCAGCTTT ATATCATGCT GGTGGAGGTT
    TTTGAGAGTG AACATTCACG TAGGAAATAC TTTTATCTGG TCGGCTATGG GATGCCTGCA
    CTCATTGTGG CTGTGTCAGC TGCAGTAGAC TACAGGAGTT ATGGAACAGA TAAAGTATGT
    TGGCTCCGAC TTGACACCTA CTTCATTTGG AGTTTTATAG GACCAGCAAC TTTGATAATT
    ATGCTTAATG TAATCTTCCT TGGGATTGCT TTATATAAAA TGTTTCATCA TACTGCTATA
    CTGAAACCTG AATCAGGCTG TCTTGATAAC ATCAACTATG AGGATAACAG ACCCTTCATC
    AAGTCATGGG TTATAGGTGC AATAGCTCTT CTCTGCCTAT TAGGATTGAC CTGGGCCTTT
    GGACTCATGT ATATTAATGA AAGCACAGTC ATCATGGCCT ATCTCTTCAC CATTTTCAAT
    TCTCTACAGG GAATGTTTAT ATTTATTTTC CATTGTGTCC TACAGAAGAA GGTACGAAAA
    GAGTATGGGA AATGCCTGCG AACACATTGC TGTAGTGGCA AAAGTACAGA GAGTTCCATT
    GGTTCAGGGA AAACATCTGG TTCTCGAACT CCTGGACGCT ACTCCACAGG CTCACAGAGC
    CGAATCCGTA GAATGTGGAA TGACACGGTT CGAAAGCAGT CAGAGTCTTC CTTTATTACT
    GGAGACATAA ACAGTTCAGC GTCACTCAAC AGAGGAGCCA TGGCTAATCA TCTTATAAGC
    AATGCTCTGC TTCGTCCGCA TGGTACTAAC AATCCCTATA ATACATTGCT TGGGGAACCG
    GCGGTCTGTA ACAACCCTTC TGTCAGCATG TACAACGCAC AAGAGCCCTA CAGAGAGACA
    AAGGGGCTTC TGAACAATGC CAGGGATACA AGTGTCATGG ATACTCTACC ACTGAATGGT
    AACCATGGCA ATAGTTACAG CATTGCCAGC GGCGAATACC TGAGCAACTG TGTGCAAATC
    ATAGACCGTG GCTATAACCA TAACGAGACC GCCCTAGAGA AAAAGATTCT GAAGGAACTC
    ACTTCCAACT ATATCCCTTC TTACCTGAAC AACCATGAGC GCTCCAGTGA ACAGAACAGG
    AATCTGATGA ACAAGCTGGT GAATAACCTT GGCAGTGGAA GGGAAGATGA TGCCATTGTC
    CTGGATGATG CCACCTCGTT TAACCACGAG GAGAGTTTGG GCCTGGAACT CATTCATGAG
    GAATCTGATG CTCCTTTGCT GCCCCCAAGA GTATACTCCA CCGAGAACCA CCAGCCACAC
    CATTATACCA GAAGGCGGAT CCCCCAAGAC CACAGTGAGA GCTTTTTCCC TTTGCTAACC
    AACGAGCACA CAGAAGATCT CCAGTCACCC CATAGAGACT CTCTCTATAC CAGCATGCCG
    ACACTGGCTG GTGTGGCCGC CACAGAGAGT GTTACCACCA GCACCCAGAC CGAACCCCCA
    CCGGCCAAAT GTGGTGATGC CGAAGATGTT TACTACAAAA GCATGCCAAA CCTAGGCTCC
    AGAAACCACG TCCATCAGCT GCATACTTAC TACCAGCTAG GTCGCGGCAG CAGTGATGGA
    TTTATAGTTC CTCCAAACAA AGATGGGACC CCTCCCGAGG GAAGTTCAAA AGGACCGGCT
    CATTTGGTCA CTAGTCTATA G

    The stop codons will be deleted if pcDNA3.1+/C-(K)DYK vector is selected.

    CloneID OHu95001
    Clone ID Related Accession (Same CDS sequence) XM_017007930.1 , XM_017007929.1
    Accession Version XM_017007929.1 Latest version! Documents for ORF clone product in default vector
    Sequence Information ORF Nucleotide Sequence (Length: 4761bp)
    Protein sequence
    SNP
    Vector pcDNA3.1-C-(k)DYK or customized vector User Manual
    Clone information Clone Map MSDS
    Tag on pcDNA3.1+/C-(K)DYK C terminal DYKDDDDK tags
    ORF Insert Method CloneEZ™ Seamless cloning technology
    Insert Structure linear
    Update Date 2019-12-05
    Organism Homo sapiens(human)
    Product adhesion G protein-coupled receptor L3 isoform X1
    Comment Comment: MODEL REFSEQ: This record is predicted by automated computational analysis. This record is derived from a genomic sequence (NC_000004.12) annotated using gene prediction method: Gnomon, supported by mRNA and EST evidence. Also see: Documentation of NCBI's Annotation Process ##Genome-Annotation-Data-START## Annotation Provider :: NCBI Annotation Status :: Updated annotation Annotation Name :: Homo sapiens Updated Annotation Release 109.20191205 Annotation Version :: 109.20191205 Annotation Pipeline :: NCBI eukaryotic genome annotation pipeline Annotation Software Version :: 8.3 Annotation Method :: Best-placed RefSeq; propagated RefSeq model Features Annotated :: Gene; mRNA; CDS; ncRNA ##Genome-Annotation-Data-END##

    1
    61
    121
    181
    241
    301
    361
    421
    481
    541
    601
    661
    721
    781
    841
    901
    961
    1021
    1081
    1141
    1201
    1261
    1321
    1381
    1441
    1501
    1561
    1621
    1681
    1741
    1801
    1861
    1921
    1981
    2041
    2101
    2161
    2221
    2281
    2341
    2401
    2461
    2521
    2581
    2641
    2701
    2761
    2821
    2881
    2941
    3001
    3061
    3121
    3181
    3241
    3301
    3361
    3421
    3481
    3541
    3601
    3661
    3721
    3781
    3841
    3901
    3961
    4021
    4081
    4141
    4201
    4261
    4321
    4381
    4441
    4501
    4561
    4621
    4681
    4741
    ATGTGGCCAT CGCAGCTACT AATTTTCATG ATGCTCTTAG CTCCAATAAT TCATGGTGGC 
    AAGCACAGTG AACGACATCC TGCCCTTGCT GCTCCATTGC GACACGCTGA GCGCAGCCCA
    GGAGGCGCTC TTCCACCCAG ACATCTGCTT CAGCAGCCAG CTGCAGAGCG CACCGCTGCT
    CATCGTGGAC AAGGGCCCCG TGGAGCTACC AGAGGAGTTC GCGGTCCAGG TGCCCAAGGA
    GCACAGATTG CAGCGCAAGC TTTCAGCCGT GCCCCAATTC CAATGGCTGT GGTCCGCAGA
    GAGCTATCCT GTGAGAGCTA TCCTATAGAG CTTCGCTGTC CAGGAACAGA CGTCATCATG
    ATAGAAAGTG CCAACTATGG CAGGACTGAT GACAAAATTT GTGACTCTGA CCCTGCTCAG
    ATGGAGAATA TCCGATGTTA TCTGCCAGAT GCCTATAAGA TTATGTCTCA AAGATGCAAT
    AACAGAACCC AGTGTGCAGT GGTGGCAGGT CCTGATGTTT TTCCAGACCC GTGTCCAGGA
    ACCTATAAAT ACCTTGAAGT GCAGTATGAA TGTGTCCCTT ACAAAGTGGA ACAAAAAGTT
    TTTCTTTGTC CTGGACTACT AAAAGGAGTA TACCAGAGTG AACATTTGTT TGAGTCCGAC
    CACCAATCTG GGGCGTGGTG CAAAGACCCT CTGCAGGCAT CTGACAAGAT TTATTATATG
    CCCTGGACTC CCTACAGAAC TGATACCCTG ACTGAGTATT CATCCAAGGA TGACTTCATT
    GCTGGAAGAC CAACTACAAC CTACAAGCTC CCTCACAGGG TGGATGGCAC AGGATTTGTA
    GTGTATGATG GAGCTTTGTT CTTCAACAAA GAGCGCACCA GGAACATAGT AAAGTTTGAT
    TTGCGGACTA GGATAAAGAG TGGAGAGGCT ATCATAGCAA ATGCCAATTA CCATGATACC
    TCCCCTTACC GATGGGGAGG CAAATCTGAC ATAGACCTGG CAGTAGATGA GAATGGGCTA
    TGGGTAATCT ATGCAACAGA ACAAAACAAT GGTAAAATTG TCATTAGTCA ATTGAACCCT
    TACACCCTAC GGATCGAAGG AACATGGGAT ACTGCATATG ATAAAAGGTC AGCTTCCAAT
    GCCTTTATGA TTTGTGGAAT TCTGTATGTG GTCAAATCTG TATATGAGGA TGATGACAAT
    GAGGCTACTG GAAATAAGAT TGACTACATT TACAACACTG ACCAAAGCAA GGATAGTTTG
    GTGGATGTAC CCTTTCCTAA TTCATACCAG TACATTGCAG CTGTGGATTA CAACCCCAGG
    GACAACCTAC TTTATGTATG GAATAACTAT CACGTCGTGA AATATTCTTT GGATTTTGGA
    CCTCTGGATA GTAGATCAGG GCAGGCACAT CATGGACAAG TTTCATACAT TTCTCCGCCA
    ATTCACCTTG ACTCTGAGCT AGAAAGACCC TCTGTTAAAG ATATCTCTAC CACAGGACCT
    CTTGGCATGG GAAGCACTAC CACCAGTACC ACCCTTCGGA CCACAACTTT GAGCCCAGGA
    AGGAGTACCA CCCCGTCAGT GTCAGGAAGA AGAAACCGGA GTACTAGTAC CCCATCTCCA
    GCTGTCGAGG TACTTGATGA CATGACCACA CACCTTCCAT CAGCATCGTC CCAAATCCCA
    GCTCTCGAAG AGAGCTGTGA GGCTGTGGAA GCCCGAGAAA TCATGTGGTT TAAGACTCGT
    CAAGGACAGA TAGCAAAGCA GCCATGCCCT GCAGGAACTA TAGGTGTATC AACTTATCTA
    TGCCTTGCTC CTGATGGAAT TTGGGATCCC CAAGGTCCAG ATCTCAGCAA CTGTTCTTCT
    CCTTGGGTCA ATCATATAAC ACAGAAGTTG AAATCTGGTG AAACAGCTGC CAACATTGCT
    AGAGAGCTGG CTGAACAGAC AAGAAATCAC TTGAATGCTG GGGACATCAC CTACTCTGTC
    CGGGCCATGG ACCAGCTGGT AGGCCTCCTA GATGTACAGC TTCGGAACTT GACCCCAGGT
    GGAAAAGATA GTGCTGCCCG GAGTTTGAAC AAGCTTCAGA AAAGAGAGCG CTCTTGCAGA
    GCCTATGTCC AGGCAATGGT CGAGACAGTT AACAACCTCC TTCAGCCACA AGCTTTGAAT
    GCATGGAGAG ACCTGACTAC GAGTGATCAG CTGCGTGCGG CCACCATGTT GCTTCATACT
    GTGGAGGAAA GTGCTTTTGT GCTGGCTGAT AACCTTTTGA AGACTGACAT TGTCAGGGAG
    AATACAGACA ATATTAAATT GGAAGTTGCA AGACTGAGCA CAGAAGGAAA CTTAGAAGAC
    CTAAAATTTC CAGAAAACAT GGGCCATGGA AGCACTATCC AGCTGTCTGC AAATACCTTA
    AAGCAAAATG GCCGAAATGG AGAGATCAGA GTGGCCTTTG TCCTGTATAA CAACTTGGGT
    CCTTATTTAT CCACGGAGAA TGCCAGTATG AAGTTGGGAA CGGAAGCTTT GTCCACAAAT
    CATTCTGTTA TTGTCAATTC CCCTGTTATT ACGGCAGCAA TAAACAAAGA GTTCAGTAAC
    AAGGTTTATT TGGCTGATCC TGTGGTATTT ACTGTTAAAC ATATCAAGCA GTCAGAGGAA
    AATTTCAACC CTAACTGTTC ATTTTGGAGC TACTCCAAGC GTACAATGAC AGGTTATTGG
    TCAACACAAG GCTGTCGGCT CCTGACAACA AATAAGACAC ATACTACATG CTCTTGTAAC
    CACCTAACAA ATTTTGCAGT ACTGATGGCA CATGTGGAAG TTAAGCACAG TGATGCGGTC
    CATGACCTCC TTCTGGATGT GATCACGTGG GTTGGAATTT TGCTGTCCCT TGTTTGTCTC
    CTGATTTGCA TCTTCACATT TTGCTTTTTC CGGGGGCTCC AGAGTGACCG TAACACCATC
    CACAAGAACC TCTGCATCAG TCTCTTTGTA GCAGAGCTGC TCTTCCTGAT TGGGATCAAC
    CGAACTGACC AACCAATTGC CTGTGCTGTT TTCGCTGCCC TGTTACATTT CTTCTTCTTG
    GCTGCCTTCA CCTGGATGTT CCTGGAGGGG GTGCAGCTTT ATATCATGCT GGTGGAGGTT
    TTTGAGAGTG AACATTCACG TAGGAAATAC TTTTATCTGG TCGGCTATGG GATGCCTGCA
    CTCATTGTGG CTGTGTCAGC TGCAGTAGAC TACAGGAGTT ATGGAACAGA TAAAGTATGT
    TGGCTCCGAC TTGACACCTA CTTCATTTGG AGTTTTATAG GACCAGCAAC TTTGATAATT
    ATGCTTAATG TAATCTTCCT TGGGATTGCT TTATATAAAA TGTTTCATCA TACTGCTATA
    CTGAAACCTG AATCAGGCTG TCTTGATAAC ATCAACTATG AGGATAACAG ACCCTTCATC
    AAGTCATGGG TTATAGGTGC AATAGCTCTT CTCTGCCTAT TAGGATTGAC CTGGGCCTTT
    GGACTCATGT ATATTAATGA AAGCACAGTC ATCATGGCCT ATCTCTTCAC CATTTTCAAT
    TCTCTACAGG GAATGTTTAT ATTTATTTTC CATTGTGTCC TACAGAAGAA GGTACGAAAA
    GAGTATGGGA AATGCCTGCG AACACATTGC TGTAGTGGCA AAAGTACAGA GAGTTCCATT
    GGTTCAGGGA AAACATCTGG TTCTCGAACT CCTGGACGCT ACTCCACAGG CTCACAGAGC
    CGAATCCGTA GAATGTGGAA TGACACGGTT CGAAAGCAGT CAGAGTCTTC CTTTATTACT
    GGAGACATAA ACAGTTCAGC GTCACTCAAC AGAGGAGCCA TGGCTAATCA TCTTATAAGC
    AATGCTCTGC TTCGTCCGCA TGGTACTAAC AATCCCTATA ATACATTGCT TGGGGAACCG
    GCGGTCTGTA ACAACCCTTC TGTCAGCATG TACAACGCAC AAGAGCCCTA CAGAGAGACA
    AAGGGGCTTC TGAACAATGC CAGGGATACA AGTGTCATGG ATACTCTACC ACTGAATGGT
    AACCATGGCA ATAGTTACAG CATTGCCAGC GGCGAATACC TGAGCAACTG TGTGCAAATC
    ATAGACCGTG GCTATAACCA TAACGAGACC GCCCTAGAGA AAAAGATTCT GAAGGAACTC
    ACTTCCAACT ATATCCCTTC TTACCTGAAC AACCATGAGC GCTCCAGTGA ACAGAACAGG
    AATCTGATGA ACAAGCTGGT GAATAACCTT GGCAGTGGAA GGGAAGATGA TGCCATTGTC
    CTGGATGATG CCACCTCGTT TAACCACGAG GAGAGTTTGG GCCTGGAACT CATTCATGAG
    GAATCTGATG CTCCTTTGCT GCCCCCAAGA GTATACTCCA CCGAGAACCA CCAGCCACAC
    CATTATACCA GAAGGCGGAT CCCCCAAGAC CACAGTGAGA GCTTTTTCCC TTTGCTAACC
    AACGAGCACA CAGAAGATCT CCAGTCACCC CATAGAGACT CTCTCTATAC CAGCATGCCG
    ACACTGGCTG GTGTGGCCGC CACAGAGAGT GTTACCACCA GCACCCAGAC CGAACCCCCA
    CCGGCCAAAT GTGGTGATGC CGAAGATGTT TACTACAAAA GCATGCCAAA CCTAGGCTCC
    AGAAACCACG TCCATCAGCT GCATACTTAC TACCAGCTAG GTCGCGGCAG CAGTGATGGA
    TTTATAGTTC CTCCAAACAA AGATGGGACC CCTCCCGAGG GAAGTTCAAA AGGACCGGCT
    CATTTGGTCA CTAGTCTATA G

    The stop codons will be deleted if pcDNA3.1+/C-(K)DYK vector is selected.

    RefSeq XP_016863418.1
    CDS3061..7821
    Translation

    Target ORF information:

    RefSeq Version XM_017007929.1
    Organism Homo sapiens(human)
    Definition Homo sapiens adhesion G protein-coupled receptor L3 (ADGRL3), transcript variant X1, mRNA.

    Target ORF information:

    Epitope DYKDDDDK
    Bacterial selection AMPR
    Mammalian selection NeoR
    Vector pcDNA3.1+/C-(K)DYK
    XM_017007929.1

    ORF Insert Sequence:

    1
    61
    121
    181
    241
    301
    361
    421
    481
    541
    601
    661
    721
    781
    841
    901
    961
    1021
    1081
    1141
    1201
    1261
    1321
    1381
    1441
    1501
    1561
    1621
    1681
    1741
    1801
    1861
    1921
    1981
    2041
    2101
    2161
    2221
    2281
    2341
    2401
    2461
    2521
    2581
    2641
    2701
    2761
    2821
    2881
    2941
    3001
    3061
    3121
    3181
    3241
    3301
    3361
    3421
    3481
    3541
    3601
    3661
    3721
    3781
    3841
    3901
    3961
    4021
    4081
    4141
    4201
    4261
    4321
    4381
    4441
    4501
    4561
    4621
    4681
    4741
    ATGTGGCCAT CGCAGCTACT AATTTTCATG ATGCTCTTAG CTCCAATAAT TCATGGTGGC 
    AAGCACAGTG AACGACATCC TGCCCTTGCT GCTCCATTGC GACACGCTGA GCGCAGCCCA
    GGAGGCGCTC TTCCACCCAG ACATCTGCTT CAGCAGCCAG CTGCAGAGCG CACCGCTGCT
    CATCGTGGAC AAGGGCCCCG TGGAGCTACC AGAGGAGTTC GCGGTCCAGG TGCCCAAGGA
    GCACAGATTG CAGCGCAAGC TTTCAGCCGT GCCCCAATTC CAATGGCTGT GGTCCGCAGA
    GAGCTATCCT GTGAGAGCTA TCCTATAGAG CTTCGCTGTC CAGGAACAGA CGTCATCATG
    ATAGAAAGTG CCAACTATGG CAGGACTGAT GACAAAATTT GTGACTCTGA CCCTGCTCAG
    ATGGAGAATA TCCGATGTTA TCTGCCAGAT GCCTATAAGA TTATGTCTCA AAGATGCAAT
    AACAGAACCC AGTGTGCAGT GGTGGCAGGT CCTGATGTTT TTCCAGACCC GTGTCCAGGA
    ACCTATAAAT ACCTTGAAGT GCAGTATGAA TGTGTCCCTT ACAAAGTGGA ACAAAAAGTT
    TTTCTTTGTC CTGGACTACT AAAAGGAGTA TACCAGAGTG AACATTTGTT TGAGTCCGAC
    CACCAATCTG GGGCGTGGTG CAAAGACCCT CTGCAGGCAT CTGACAAGAT TTATTATATG
    CCCTGGACTC CCTACAGAAC TGATACCCTG ACTGAGTATT CATCCAAGGA TGACTTCATT
    GCTGGAAGAC CAACTACAAC CTACAAGCTC CCTCACAGGG TGGATGGCAC AGGATTTGTA
    GTGTATGATG GAGCTTTGTT CTTCAACAAA GAGCGCACCA GGAACATAGT AAAGTTTGAT
    TTGCGGACTA GGATAAAGAG TGGAGAGGCT ATCATAGCAA ATGCCAATTA CCATGATACC
    TCCCCTTACC GATGGGGAGG CAAATCTGAC ATAGACCTGG CAGTAGATGA GAATGGGCTA
    TGGGTAATCT ATGCAACAGA ACAAAACAAT GGTAAAATTG TCATTAGTCA ATTGAACCCT
    TACACCCTAC GGATCGAAGG AACATGGGAT ACTGCATATG ATAAAAGGTC AGCTTCCAAT
    GCCTTTATGA TTTGTGGAAT TCTGTATGTG GTCAAATCTG TATATGAGGA TGATGACAAT
    GAGGCTACTG GAAATAAGAT TGACTACATT TACAACACTG ACCAAAGCAA GGATAGTTTG
    GTGGATGTAC CCTTTCCTAA TTCATACCAG TACATTGCAG CTGTGGATTA CAACCCCAGG
    GACAACCTAC TTTATGTATG GAATAACTAT CACGTCGTGA AATATTCTTT GGATTTTGGA
    CCTCTGGATA GTAGATCAGG GCAGGCACAT CATGGACAAG TTTCATACAT TTCTCCGCCA
    ATTCACCTTG ACTCTGAGCT AGAAAGACCC TCTGTTAAAG ATATCTCTAC CACAGGACCT
    CTTGGCATGG GAAGCACTAC CACCAGTACC ACCCTTCGGA CCACAACTTT GAGCCCAGGA
    AGGAGTACCA CCCCGTCAGT GTCAGGAAGA AGAAACCGGA GTACTAGTAC CCCATCTCCA
    GCTGTCGAGG TACTTGATGA CATGACCACA CACCTTCCAT CAGCATCGTC CCAAATCCCA
    GCTCTCGAAG AGAGCTGTGA GGCTGTGGAA GCCCGAGAAA TCATGTGGTT TAAGACTCGT
    CAAGGACAGA TAGCAAAGCA GCCATGCCCT GCAGGAACTA TAGGTGTATC AACTTATCTA
    TGCCTTGCTC CTGATGGAAT TTGGGATCCC CAAGGTCCAG ATCTCAGCAA CTGTTCTTCT
    CCTTGGGTCA ATCATATAAC ACAGAAGTTG AAATCTGGTG AAACAGCTGC CAACATTGCT
    AGAGAGCTGG CTGAACAGAC AAGAAATCAC TTGAATGCTG GGGACATCAC CTACTCTGTC
    CGGGCCATGG ACCAGCTGGT AGGCCTCCTA GATGTACAGC TTCGGAACTT GACCCCAGGT
    GGAAAAGATA GTGCTGCCCG GAGTTTGAAC AAGCTTCAGA AAAGAGAGCG CTCTTGCAGA
    GCCTATGTCC AGGCAATGGT CGAGACAGTT AACAACCTCC TTCAGCCACA AGCTTTGAAT
    GCATGGAGAG ACCTGACTAC GAGTGATCAG CTGCGTGCGG CCACCATGTT GCTTCATACT
    GTGGAGGAAA GTGCTTTTGT GCTGGCTGAT AACCTTTTGA AGACTGACAT TGTCAGGGAG
    AATACAGACA ATATTAAATT GGAAGTTGCA AGACTGAGCA CAGAAGGAAA CTTAGAAGAC
    CTAAAATTTC CAGAAAACAT GGGCCATGGA AGCACTATCC AGCTGTCTGC AAATACCTTA
    AAGCAAAATG GCCGAAATGG AGAGATCAGA GTGGCCTTTG TCCTGTATAA CAACTTGGGT
    CCTTATTTAT CCACGGAGAA TGCCAGTATG AAGTTGGGAA CGGAAGCTTT GTCCACAAAT
    CATTCTGTTA TTGTCAATTC CCCTGTTATT ACGGCAGCAA TAAACAAAGA GTTCAGTAAC
    AAGGTTTATT TGGCTGATCC TGTGGTATTT ACTGTTAAAC ATATCAAGCA GTCAGAGGAA
    AATTTCAACC CTAACTGTTC ATTTTGGAGC TACTCCAAGC GTACAATGAC AGGTTATTGG
    TCAACACAAG GCTGTCGGCT CCTGACAACA AATAAGACAC ATACTACATG CTCTTGTAAC
    CACCTAACAA ATTTTGCAGT ACTGATGGCA CATGTGGAAG TTAAGCACAG TGATGCGGTC
    CATGACCTCC TTCTGGATGT GATCACGTGG GTTGGAATTT TGCTGTCCCT TGTTTGTCTC
    CTGATTTGCA TCTTCACATT TTGCTTTTTC CGGGGGCTCC AGAGTGACCG TAACACCATC
    CACAAGAACC TCTGCATCAG TCTCTTTGTA GCAGAGCTGC TCTTCCTGAT TGGGATCAAC
    CGAACTGACC AACCAATTGC CTGTGCTGTT TTCGCTGCCC TGTTACATTT CTTCTTCTTG
    GCTGCCTTCA CCTGGATGTT CCTGGAGGGG GTGCAGCTTT ATATCATGCT GGTGGAGGTT
    TTTGAGAGTG AACATTCACG TAGGAAATAC TTTTATCTGG TCGGCTATGG GATGCCTGCA
    CTCATTGTGG CTGTGTCAGC TGCAGTAGAC TACAGGAGTT ATGGAACAGA TAAAGTATGT
    TGGCTCCGAC TTGACACCTA CTTCATTTGG AGTTTTATAG GACCAGCAAC TTTGATAATT
    ATGCTTAATG TAATCTTCCT TGGGATTGCT TTATATAAAA TGTTTCATCA TACTGCTATA
    CTGAAACCTG AATCAGGCTG TCTTGATAAC ATCAACTATG AGGATAACAG ACCCTTCATC
    AAGTCATGGG TTATAGGTGC AATAGCTCTT CTCTGCCTAT TAGGATTGAC CTGGGCCTTT
    GGACTCATGT ATATTAATGA AAGCACAGTC ATCATGGCCT ATCTCTTCAC CATTTTCAAT
    TCTCTACAGG GAATGTTTAT ATTTATTTTC CATTGTGTCC TACAGAAGAA GGTACGAAAA
    GAGTATGGGA AATGCCTGCG AACACATTGC TGTAGTGGCA AAAGTACAGA GAGTTCCATT
    GGTTCAGGGA AAACATCTGG TTCTCGAACT CCTGGACGCT ACTCCACAGG CTCACAGAGC
    CGAATCCGTA GAATGTGGAA TGACACGGTT CGAAAGCAGT CAGAGTCTTC CTTTATTACT
    GGAGACATAA ACAGTTCAGC GTCACTCAAC AGAGGAGCCA TGGCTAATCA TCTTATAAGC
    AATGCTCTGC TTCGTCCGCA TGGTACTAAC AATCCCTATA ATACATTGCT TGGGGAACCG
    GCGGTCTGTA ACAACCCTTC TGTCAGCATG TACAACGCAC AAGAGCCCTA CAGAGAGACA
    AAGGGGCTTC TGAACAATGC CAGGGATACA AGTGTCATGG ATACTCTACC ACTGAATGGT
    AACCATGGCA ATAGTTACAG CATTGCCAGC GGCGAATACC TGAGCAACTG TGTGCAAATC
    ATAGACCGTG GCTATAACCA TAACGAGACC GCCCTAGAGA AAAAGATTCT GAAGGAACTC
    ACTTCCAACT ATATCCCTTC TTACCTGAAC AACCATGAGC GCTCCAGTGA ACAGAACAGG
    AATCTGATGA ACAAGCTGGT GAATAACCTT GGCAGTGGAA GGGAAGATGA TGCCATTGTC
    CTGGATGATG CCACCTCGTT TAACCACGAG GAGAGTTTGG GCCTGGAACT CATTCATGAG
    GAATCTGATG CTCCTTTGCT GCCCCCAAGA GTATACTCCA CCGAGAACCA CCAGCCACAC
    CATTATACCA GAAGGCGGAT CCCCCAAGAC CACAGTGAGA GCTTTTTCCC TTTGCTAACC
    AACGAGCACA CAGAAGATCT CCAGTCACCC CATAGAGACT CTCTCTATAC CAGCATGCCG
    ACACTGGCTG GTGTGGCCGC CACAGAGAGT GTTACCACCA GCACCCAGAC CGAACCCCCA
    CCGGCCAAAT GTGGTGATGC CGAAGATGTT TACTACAAAA GCATGCCAAA CCTAGGCTCC
    AGAAACCACG TCCATCAGCT GCATACTTAC TACCAGCTAG GTCGCGGCAG CAGTGATGGA
    TTTATAGTTC CTCCAAACAA AGATGGGACC CCTCCCGAGG GAAGTTCAAA AGGACCGGCT
    CATTTGGTCA CTAGTCTATA G

    The stop codons will be deleted if pcDNA3.1+/C-(K)DYK vector is selected.

    CloneID OHu95002
    Clone ID Related Accession (Same CDS sequence) XM_017007931.1
    Accession Version XM_017007931.1 Latest version! Documents for ORF clone product in default vector
    Sequence Information ORF Nucleotide Sequence (Length: 4743bp)
    Protein sequence
    SNP
    Vector pcDNA3.1-C-(k)DYK or customized vector User Manual
    Clone information Clone Map MSDS
    Tag on pcDNA3.1+/C-(K)DYK C terminal DYKDDDDK tags
    ORF Insert Method CloneEZ™ Seamless cloning technology
    Insert Structure linear
    Update Date 2019-12-05
    Organism Homo sapiens(human)
    Product adhesion G protein-coupled receptor L3 isoform X2
    Comment Comment: MODEL REFSEQ: This record is predicted by automated computational analysis. This record is derived from a genomic sequence (NC_000004.12) annotated using gene prediction method: Gnomon, supported by mRNA and EST evidence. Also see: Documentation of NCBI's Annotation Process ##Genome-Annotation-Data-START## Annotation Provider :: NCBI Annotation Status :: Updated annotation Annotation Name :: Homo sapiens Updated Annotation Release 109.20191205 Annotation Version :: 109.20191205 Annotation Pipeline :: NCBI eukaryotic genome annotation pipeline Annotation Software Version :: 8.3 Annotation Method :: Best-placed RefSeq; propagated RefSeq model Features Annotated :: Gene; mRNA; CDS; ncRNA ##Genome-Annotation-Data-END##

    1
    61
    121
    181
    241
    301
    361
    421
    481
    541
    601
    661
    721
    781
    841
    901
    961
    1021
    1081
    1141
    1201
    1261
    1321
    1381
    1441
    1501
    1561
    1621
    1681
    1741
    1801
    1861
    1921
    1981
    2041
    2101
    2161
    2221
    2281
    2341
    2401
    2461
    2521
    2581
    2641
    2701
    2761
    2821
    2881
    2941
    3001
    3061
    3121
    3181
    3241
    3301
    3361
    3421
    3481
    3541
    3601
    3661
    3721
    3781
    3841
    3901
    3961
    4021
    4081
    4141
    4201
    4261
    4321
    4381
    4441
    4501
    4561
    4621
    4681
    4741
    ATGTGGCCAT CGCAGCTACT AATTTTCATG ATGCTCTTAG CTCCAATAAT TCATGGTGGC 
    AAGCACAGTG AACGACATCC TGCCCTTGCT GCTCCATTGC GACACGCTGA GCGCAGCCCA
    GGAGGCGCTC TTCCACCCAG ACATCTGCTT CAGCAGCCAG CTGCAGAGCG CACCGCTGCT
    CATCGTGGAC AAGGGCCCCG TGGAGCTACC AGAGGAGTTC GCGGTCCAGG TGCCCAAGGA
    GCACAGATTG CAGCGCAAGC TTTCAGCCGT GCCCCAATTC CAATGGCTGT GGTCCGCAGA
    GAGCTATCCT GTGAGAGCTA TCCTATAGAG CTTCGCTGTC CAGGAACAGA CGTCATCATG
    ATAGAAAGTG CCAACTATGG CAGGACTGAT GACAAAATTT GTGACTCTGA CCCTGCTCAG
    ATGGAGAATA TCCGATGTTA TCTGCCAGAT GCCTATAAGA TTATGTCTCA AAGATGCAAT
    AACAGAACCC AGTGTGCAGT GGTGGCAGGT CCTGATGTTT TTCCAGACCC GTGTCCAGGA
    ACCTATAAAT ACCTTGAAGT GCAGTATGAA TGTGTCCCTT ACAAAGTGGA ACAAAAAGTT
    TTTCTTTGTC CTGGACTACT AAAAGGAGTA TACCAGAGTG AACATTTGTT TGAGTCCGAC
    CACCAATCTG GGGCGTGGTG CAAAGACCCT CTGCAGGCAT CTGACAAGAT TTATTATATG
    CCCTGGACTC CCTACAGAAC TGATACCCTG ACTGAGTATT CATCCAAGGA TGACTTCATT
    GCTGGAAGAC CAACTACAAC CTACAAGCTC CCTCACAGGG TGGATGGCAC AGGATTTGTA
    GTGTATGATG GAGCTTTGTT CTTCAACAAA GAGCGCACCA GGAACATAGT AAAGTTTGAT
    TTGCGGACTA GGATAAAGAG TGGAGAGGCT ATCATAGCAA ATGCCAATTA CCATGATACC
    TCCCCTTACC GATGGGGAGG CAAATCTGAC ATAGACCTGG CAGTAGATGA GAATGGGCTA
    TGGGTAATCT ATGCAACAGA ACAAAACAAT GGTAAAATTG TCATTAGTCA ATTGAACCCT
    TACACCCTAC GGATCGAAGG AACATGGGAT ACTGCATATG ATAAAAGGTC AGCTTCCAAT
    GCCTTTATGA TTTGTGGAAT TCTGTATGTG GTCAAATCTG TATATGAGGA TGATGACAAT
    GAGGCTACTG GAAATAAGAT TGACTACATT TACAACACTG ACCAAAGCAA GGATAGTTTG
    GTGGATGTAC CCTTTCCTAA TTCATACCAG TACATTGCAG CTGTGGATTA CAACCCCAGG
    GACAACCTAC TTTATGTATG GAATAACTAT CACGTCGTGA AATATTCTTT GGATTTTGGA
    CCTCTGGATA GTAGATCAGG GCAGGCACAT CATGGACAAG TTTCATACAT TTCTCCGCCA
    ATTCACCTTG ACTCTGAGCT AGAAAGACCC TCTGTTAAAG ATATCTCTAC CACAGGACCT
    CTTGGCATGG GAAGCACTAC CACCAGTACC ACCCTTCGGA CCACAACTTT GAGCCCAGGA
    AGGAGTACCA CCCCGTCAGT GTCAGGAAGA AGAAACCGGA GTACTAGTAC CCCATCTCCA
    GCTGTCGAGG TACTTGATGA CATGACCACA CACCTTCCAT CAGCATCGTC CCAAATCCCA
    GCTCTCGAAG AGAGCTGTGA GGCTGTGGAA GCCCGAGAAA TCATGTGGTT TAAGACTCGT
    CAAGGACAGA TAGCAAAGCA GCCATGCCCT GCAGGAACTA TAGGTGTATC AACTTATCTA
    TGCCTTGCTC CTGATGGAAT TTGGGATCCC CAAGGTCCAG ATCTCAGCAA CTGTTCTTCT
    CCTTGGGTCA ATCATATAAC ACAGAAGTTG AAATCTGGTG AAACAGCTGC CAACATTGCT
    AGAGAGCTGG CTGAACAGAC AAGAAATCAC TTGAATGCTG GGGACATCAC CTACTCTGTC
    CGGGCCATGG ACCAGCTGGT AGGCCTCCTA GATGTACAGC TTCGGAACTT GACCCCAGGT
    GGAAAAGATA GTGCTGCCCG GAGTTTGAAC AAGCTTCAGA AAAGAGAGCG CTCTTGCAGA
    GCCTATGTCC AGGCAATGGT CGAGACAGTT AACAACCTCC TTCAGCCACA AGCTTTGAAT
    GCATGGAGAG ACCTGACTAC GAGTGATCAG CTGCGTGCGG CCACCATGTT GCTTCATACT
    GTGGAGGAAA GTGCTTTTGT GCTGGCTGAT AACCTTTTGA AGACTGACAT TGTCAGGGAG
    AATACAGACA ATATTAAATT GGAAGTTGCA AGACTGAGCA CAGAAGGAAA CTTAGAAGAC
    CTAAAATTTC CAGAAAACAT GGGCCATGGA AGCACTATCC AGCTGTCTGC AAATACCTTA
    AAGCAAAATG GCCGAAATGG AGAGATCAGA GTGGCCTTTG TCCTGTATAA CAACTTGGGT
    CCTTATTTAT CCACGGAGAA TGCCAGTATG AAGTTGGGAA CGGAAGCTTT GTCCACAAAT
    CATTCTGTTA TTGTCAATTC CCCTGTTATT ACGGCAGCAA TAAACAAAGA GTTCAGTAAC
    AAGGTTTATT TGGCTGATCC TGTGGTATTT ACTGTTAAAC ATATCAAGCA GTCAGAGGAA
    AATTTCAACC CTAACTGTTC ATTTTGGAGC TACTCCAAGC GTACAATGAC AGGTTATTGG
    TCAACACAAG GCTGTCGGCT CCTGACAACA AATAAGACAC ATACTACATG CTCTTGTAAC
    CACCTAACAA ATTTTGCAGT ACTGATGGCA CATGTGGAAG TTAAGCACAG TGATGCGGTC
    CATGACCTCC TTCTGGATGT GATCACGTGG GTTGGAATTT TGCTGTCCCT TGTTTGTCTC
    CTGATTTGCA TCTTCACATT TTGCTTTTTC CGGGGGCTCC AGAGTGACCG TAACACCATC
    CACAAGAACC TCTGCATCAG TCTCTTTGTA GCAGAGCTGC TCTTCCTGAT TGGGATCAAC
    CGAACTGACC AACCAATTGC CTGTGCTGTT TTCGCTGCCC TGTTACATTT CTTCTTCTTG
    GCTGCCTTCA CCTGGATGTT CCTGGAGGGG GTGCAGCTTT ATATCATGCT GGTGGAGGTT
    TTTGAGAGTG AACATTCACG TAGGAAATAC TTTTATCTGG TCGGCTATGG GATGCCTGCA
    CTCATTGTGG CTGTGTCAGC TGCAGTAGAC TACAGGAGTT ATGGAACAGA TAAAGTATGT
    TGGCTCCGAC TTGACACCTA CTTCATTTGG AGTTTTATAG GACCAGCAAC TTTGATAATT
    ATGCTTAATG TAATCTTCCT TGGGATTGCT TTATATAAAA TGTTTCATCA TACTGCTATA
    CTGAAACCTG AATCAGGCTG TCTTGATAAC ATCAACTATG AGGATAACAG ACCCTTCATC
    AAGTCATGGG TTATAGGTGC AATAGCTCTT CTCTGCCTAT TAGGATTGAC CTGGGCCTTT
    GGACTCATGT ATATTAATGA AAGCACAGTC ATCATGGCCT ATCTCTTCAC CATTTTCAAT
    TCTCTACAGG GAATGTTTAT ATTTATTTTC CATTGTGTCC TACAGAAGAA GGTACGAAAA
    GAGTATGGGA AATGCCTGCG AACACATTGC TGTAGTGGCA AAAGTACAGA GAGTTCCATT
    GGTTCAGGGA AAACATCTGG TTCTCGAACT CCTGGACGCT ACTCCACAGG CTCACAGAGC
    CGAATCCGTA GAATGTGGAA TGACACGGTT CGAAAGCAGT CAGAGTCTTC CTTTATTACT
    GGAGACATAA ACAGTTCAGC GTCACTCAAC AGAGGAGCCA TGGCTAATCA TCTTATAAGC
    AATGCTCTGC TTCGTCCGCA TGGTACTAAC AATCCCTATA ATACATTGCT TGGGGAACCG
    GCGGTCTGTA ACAACCCTTC TGTCAGCATG TACAACGCAC AAGAGGGGCT TCTGAACAAT
    GCCAGGGATA CAAGTGTCAT GGATACTCTA CCACTGAATG GTAACCATGG CAATAGTTAC
    AGCATTGCCA GCGGCGAATA CCTGAGCAAC TGTGTGCAAA TCATAGACCG TGGCTATAAC
    CATAACGAGA CCGCCCTAGA GAAAAAGATT CTGAAGGAAC TCACTTCCAA CTATATCCCT
    TCTTACCTGA ACAACCATGA GCGCTCCAGT GAACAGAACA GGAATCTGAT GAACAAGCTG
    GTGAATAACC TTGGCAGTGG AAGGGAAGAT GATGCCATTG TCCTGGATGA TGCCACCTCG
    TTTAACCACG AGGAGAGTTT GGGCCTGGAA CTCATTCATG AGGAATCTGA TGCTCCTTTG
    CTGCCCCCAA GAGTATACTC CACCGAGAAC CACCAGCCAC ACCATTATAC CAGAAGGCGG
    ATCCCCCAAG ACCACAGTGA GAGCTTTTTC CCTTTGCTAA CCAACGAGCA CACAGAAGAT
    CTCCAGTCAC CCCATAGAGA CTCTCTCTAT ACCAGCATGC CGACACTGGC TGGTGTGGCC
    GCCACAGAGA GTGTTACCAC CAGCACCCAG ACCGAACCCC CACCGGCCAA ATGTGGTGAT
    GCCGAAGATG TTTACTACAA AAGCATGCCA AACCTAGGCT CCAGAAACCA CGTCCATCAG
    CTGCATACTT ACTACCAGCT AGGTCGCGGC AGCAGTGATG GATTTATAGT TCCTCCAAAC
    AAAGATGGGA CCCCTCCCGA GGGAAGTTCA AAAGGACCGG CTCATTTGGT CACTAGTCTA
    TAG

    The stop codons will be deleted if pcDNA3.1+/C-(K)DYK vector is selected.

    RefSeq XP_016863420.1
    CDS288..5030
    Translation

    Target ORF information:

    RefSeq Version XM_017007931.1
    Organism Homo sapiens(human)
    Definition Homo sapiens adhesion G protein-coupled receptor L3 (ADGRL3), transcript variant X3, mRNA.

    Target ORF information:

    Epitope DYKDDDDK
    Bacterial selection AMPR
    Mammalian selection NeoR
    Vector pcDNA3.1+/C-(K)DYK
    XM_017007931.1

    ORF Insert Sequence:

    1
    61
    121
    181
    241
    301
    361
    421
    481
    541
    601
    661
    721
    781
    841
    901
    961
    1021
    1081
    1141
    1201
    1261
    1321
    1381
    1441
    1501
    1561
    1621
    1681
    1741
    1801
    1861
    1921
    1981
    2041
    2101
    2161
    2221
    2281
    2341
    2401
    2461
    2521
    2581
    2641
    2701
    2761
    2821
    2881
    2941
    3001
    3061
    3121
    3181
    3241
    3301
    3361
    3421
    3481
    3541
    3601
    3661
    3721
    3781
    3841
    3901
    3961
    4021
    4081
    4141
    4201
    4261
    4321
    4381
    4441
    4501
    4561
    4621
    4681
    4741
    ATGTGGCCAT CGCAGCTACT AATTTTCATG ATGCTCTTAG CTCCAATAAT TCATGGTGGC 
    AAGCACAGTG AACGACATCC TGCCCTTGCT GCTCCATTGC GACACGCTGA GCGCAGCCCA
    GGAGGCGCTC TTCCACCCAG ACATCTGCTT CAGCAGCCAG CTGCAGAGCG CACCGCTGCT
    CATCGTGGAC AAGGGCCCCG TGGAGCTACC AGAGGAGTTC GCGGTCCAGG TGCCCAAGGA
    GCACAGATTG CAGCGCAAGC TTTCAGCCGT GCCCCAATTC CAATGGCTGT GGTCCGCAGA
    GAGCTATCCT GTGAGAGCTA TCCTATAGAG CTTCGCTGTC CAGGAACAGA CGTCATCATG
    ATAGAAAGTG CCAACTATGG CAGGACTGAT GACAAAATTT GTGACTCTGA CCCTGCTCAG
    ATGGAGAATA TCCGATGTTA TCTGCCAGAT GCCTATAAGA TTATGTCTCA AAGATGCAAT
    AACAGAACCC AGTGTGCAGT GGTGGCAGGT CCTGATGTTT TTCCAGACCC GTGTCCAGGA
    ACCTATAAAT ACCTTGAAGT GCAGTATGAA TGTGTCCCTT ACAAAGTGGA ACAAAAAGTT
    TTTCTTTGTC CTGGACTACT AAAAGGAGTA TACCAGAGTG AACATTTGTT TGAGTCCGAC
    CACCAATCTG GGGCGTGGTG CAAAGACCCT CTGCAGGCAT CTGACAAGAT TTATTATATG
    CCCTGGACTC CCTACAGAAC TGATACCCTG ACTGAGTATT CATCCAAGGA TGACTTCATT
    GCTGGAAGAC CAACTACAAC CTACAAGCTC CCTCACAGGG TGGATGGCAC AGGATTTGTA
    GTGTATGATG GAGCTTTGTT CTTCAACAAA GAGCGCACCA GGAACATAGT AAAGTTTGAT
    TTGCGGACTA GGATAAAGAG TGGAGAGGCT ATCATAGCAA ATGCCAATTA CCATGATACC
    TCCCCTTACC GATGGGGAGG CAAATCTGAC ATAGACCTGG CAGTAGATGA GAATGGGCTA
    TGGGTAATCT ATGCAACAGA ACAAAACAAT GGTAAAATTG TCATTAGTCA ATTGAACCCT
    TACACCCTAC GGATCGAAGG AACATGGGAT ACTGCATATG ATAAAAGGTC AGCTTCCAAT
    GCCTTTATGA TTTGTGGAAT TCTGTATGTG GTCAAATCTG TATATGAGGA TGATGACAAT
    GAGGCTACTG GAAATAAGAT TGACTACATT TACAACACTG ACCAAAGCAA GGATAGTTTG
    GTGGATGTAC CCTTTCCTAA TTCATACCAG TACATTGCAG CTGTGGATTA CAACCCCAGG
    GACAACCTAC TTTATGTATG GAATAACTAT CACGTCGTGA AATATTCTTT GGATTTTGGA
    CCTCTGGATA GTAGATCAGG GCAGGCACAT CATGGACAAG TTTCATACAT TTCTCCGCCA
    ATTCACCTTG ACTCTGAGCT AGAAAGACCC TCTGTTAAAG ATATCTCTAC CACAGGACCT
    CTTGGCATGG GAAGCACTAC CACCAGTACC ACCCTTCGGA CCACAACTTT GAGCCCAGGA
    AGGAGTACCA CCCCGTCAGT GTCAGGAAGA AGAAACCGGA GTACTAGTAC CCCATCTCCA
    GCTGTCGAGG TACTTGATGA CATGACCACA CACCTTCCAT CAGCATCGTC CCAAATCCCA
    GCTCTCGAAG AGAGCTGTGA GGCTGTGGAA GCCCGAGAAA TCATGTGGTT TAAGACTCGT
    CAAGGACAGA TAGCAAAGCA GCCATGCCCT GCAGGAACTA TAGGTGTATC AACTTATCTA
    TGCCTTGCTC CTGATGGAAT TTGGGATCCC CAAGGTCCAG ATCTCAGCAA CTGTTCTTCT
    CCTTGGGTCA ATCATATAAC ACAGAAGTTG AAATCTGGTG AAACAGCTGC CAACATTGCT
    AGAGAGCTGG CTGAACAGAC AAGAAATCAC TTGAATGCTG GGGACATCAC CTACTCTGTC
    CGGGCCATGG ACCAGCTGGT AGGCCTCCTA GATGTACAGC TTCGGAACTT GACCCCAGGT
    GGAAAAGATA GTGCTGCCCG GAGTTTGAAC AAGCTTCAGA AAAGAGAGCG CTCTTGCAGA
    GCCTATGTCC AGGCAATGGT CGAGACAGTT AACAACCTCC TTCAGCCACA AGCTTTGAAT
    GCATGGAGAG ACCTGACTAC GAGTGATCAG CTGCGTGCGG CCACCATGTT GCTTCATACT
    GTGGAGGAAA GTGCTTTTGT GCTGGCTGAT AACCTTTTGA AGACTGACAT TGTCAGGGAG
    AATACAGACA ATATTAAATT GGAAGTTGCA AGACTGAGCA CAGAAGGAAA CTTAGAAGAC
    CTAAAATTTC CAGAAAACAT GGGCCATGGA AGCACTATCC AGCTGTCTGC AAATACCTTA
    AAGCAAAATG GCCGAAATGG AGAGATCAGA GTGGCCTTTG TCCTGTATAA CAACTTGGGT
    CCTTATTTAT CCACGGAGAA TGCCAGTATG AAGTTGGGAA CGGAAGCTTT GTCCACAAAT
    CATTCTGTTA TTGTCAATTC CCCTGTTATT ACGGCAGCAA TAAACAAAGA GTTCAGTAAC
    AAGGTTTATT TGGCTGATCC TGTGGTATTT ACTGTTAAAC ATATCAAGCA GTCAGAGGAA
    AATTTCAACC CTAACTGTTC ATTTTGGAGC TACTCCAAGC GTACAATGAC AGGTTATTGG
    TCAACACAAG GCTGTCGGCT CCTGACAACA AATAAGACAC ATACTACATG CTCTTGTAAC
    CACCTAACAA ATTTTGCAGT ACTGATGGCA CATGTGGAAG TTAAGCACAG TGATGCGGTC
    CATGACCTCC TTCTGGATGT GATCACGTGG GTTGGAATTT TGCTGTCCCT TGTTTGTCTC
    CTGATTTGCA TCTTCACATT TTGCTTTTTC CGGGGGCTCC AGAGTGACCG TAACACCATC
    CACAAGAACC TCTGCATCAG TCTCTTTGTA GCAGAGCTGC TCTTCCTGAT TGGGATCAAC
    CGAACTGACC AACCAATTGC CTGTGCTGTT TTCGCTGCCC TGTTACATTT CTTCTTCTTG
    GCTGCCTTCA CCTGGATGTT CCTGGAGGGG GTGCAGCTTT ATATCATGCT GGTGGAGGTT
    TTTGAGAGTG AACATTCACG TAGGAAATAC TTTTATCTGG TCGGCTATGG GATGCCTGCA
    CTCATTGTGG CTGTGTCAGC TGCAGTAGAC TACAGGAGTT ATGGAACAGA TAAAGTATGT
    TGGCTCCGAC TTGACACCTA CTTCATTTGG AGTTTTATAG GACCAGCAAC TTTGATAATT
    ATGCTTAATG TAATCTTCCT TGGGATTGCT TTATATAAAA TGTTTCATCA TACTGCTATA
    CTGAAACCTG AATCAGGCTG TCTTGATAAC ATCAACTATG AGGATAACAG ACCCTTCATC
    AAGTCATGGG TTATAGGTGC AATAGCTCTT CTCTGCCTAT TAGGATTGAC CTGGGCCTTT
    GGACTCATGT ATATTAATGA AAGCACAGTC ATCATGGCCT ATCTCTTCAC CATTTTCAAT
    TCTCTACAGG GAATGTTTAT ATTTATTTTC CATTGTGTCC TACAGAAGAA GGTACGAAAA
    GAGTATGGGA AATGCCTGCG AACACATTGC TGTAGTGGCA AAAGTACAGA GAGTTCCATT
    GGTTCAGGGA AAACATCTGG TTCTCGAACT CCTGGACGCT ACTCCACAGG CTCACAGAGC
    CGAATCCGTA GAATGTGGAA TGACACGGTT CGAAAGCAGT CAGAGTCTTC CTTTATTACT
    GGAGACATAA ACAGTTCAGC GTCACTCAAC AGAGGAGCCA TGGCTAATCA TCTTATAAGC
    AATGCTCTGC TTCGTCCGCA TGGTACTAAC AATCCCTATA ATACATTGCT TGGGGAACCG
    GCGGTCTGTA ACAACCCTTC TGTCAGCATG TACAACGCAC AAGAGGGGCT TCTGAACAAT
    GCCAGGGATA CAAGTGTCAT GGATACTCTA CCACTGAATG GTAACCATGG CAATAGTTAC
    AGCATTGCCA GCGGCGAATA CCTGAGCAAC TGTGTGCAAA TCATAGACCG TGGCTATAAC
    CATAACGAGA CCGCCCTAGA GAAAAAGATT CTGAAGGAAC TCACTTCCAA CTATATCCCT
    TCTTACCTGA ACAACCATGA GCGCTCCAGT GAACAGAACA GGAATCTGAT GAACAAGCTG
    GTGAATAACC TTGGCAGTGG AAGGGAAGAT GATGCCATTG TCCTGGATGA TGCCACCTCG
    TTTAACCACG AGGAGAGTTT GGGCCTGGAA CTCATTCATG AGGAATCTGA TGCTCCTTTG
    CTGCCCCCAA GAGTATACTC CACCGAGAAC CACCAGCCAC ACCATTATAC CAGAAGGCGG
    ATCCCCCAAG ACCACAGTGA GAGCTTTTTC CCTTTGCTAA CCAACGAGCA CACAGAAGAT
    CTCCAGTCAC CCCATAGAGA CTCTCTCTAT ACCAGCATGC CGACACTGGC TGGTGTGGCC
    GCCACAGAGA GTGTTACCAC CAGCACCCAG ACCGAACCCC CACCGGCCAA ATGTGGTGAT
    GCCGAAGATG TTTACTACAA AAGCATGCCA AACCTAGGCT CCAGAAACCA CGTCCATCAG
    CTGCATACTT ACTACCAGCT AGGTCGCGGC AGCAGTGATG GATTTATAGT TCCTCCAAAC
    AAAGATGGGA CCCCTCCCGA GGGAAGTTCA AAAGGACCGG CTCATTTGGT CACTAGTCTA
    TAG

    The stop codons will be deleted if pcDNA3.1+/C-(K)DYK vector is selected.

    CloneID OHu95003
    Clone ID Related Accession (Same CDS sequence) XM_017007933.1
    Accession Version XM_017007933.1 Latest version! Documents for ORF clone product in default vector
    Sequence Information ORF Nucleotide Sequence (Length: 4605bp)
    Protein sequence
    SNP
    Vector pcDNA3.1-C-(k)DYK or customized vector User Manual
    Clone information Clone Map MSDS
    Tag on pcDNA3.1+/C-(K)DYK C terminal DYKDDDDK tags
    ORF Insert Method CloneEZ™ Seamless cloning technology
    Insert Structure linear
    Update Date 2019-12-05
    Organism Homo sapiens(human)
    Product adhesion G protein-coupled receptor L3 isoform X5
    Comment Comment: MODEL REFSEQ: This record is predicted by automated computational analysis. This record is derived from a genomic sequence (NC_000004.12) annotated using gene prediction method: Gnomon, supported by mRNA and EST evidence. Also see: Documentation of NCBI's Annotation Process ##Genome-Annotation-Data-START## Annotation Provider :: NCBI Annotation Status :: Updated annotation Annotation Name :: Homo sapiens Updated Annotation Release 109.20191205 Annotation Version :: 109.20191205 Annotation Pipeline :: NCBI eukaryotic genome annotation pipeline Annotation Software Version :: 8.3 Annotation Method :: Best-placed RefSeq; propagated RefSeq model Features Annotated :: Gene; mRNA; CDS; ncRNA ##Genome-Annotation-Data-END##

    1
    61
    121
    181
    241
    301
    361
    421
    481
    541
    601
    661
    721
    781
    841
    901
    961
    1021
    1081
    1141
    1201
    1261
    1321
    1381
    1441
    1501
    1561
    1621
    1681
    1741
    1801
    1861
    1921
    1981
    2041
    2101
    2161
    2221
    2281
    2341
    2401
    2461
    2521
    2581
    2641
    2701
    2761
    2821
    2881
    2941
    3001
    3061
    3121
    3181
    3241
    3301
    3361
    3421
    3481
    3541
    3601
    3661
    3721
    3781
    3841
    3901
    3961
    4021
    4081
    4141
    4201
    4261
    4321
    4381
    4441
    4501
    4561
    ATGTGGCCAT CGCAGCTACT AATTTTCATG ATGCTCTTAG CTCCAATAAT TCATGGTGGC 
    AAGCACAGTG AACGACATCC TGCCCTTGCT GCTCCATTGC GACACGCTGA GCGCAGCCCA
    GGAGGCGCTC TTCCACCCAG ACATCTGCTT CAGCAGCCAG CTGCAGAGCG CACCGCTGCT
    CATCGTGGAC AAGGGCCCCG TGGAGCTACC AGAGGAGTTC GCGGTCCAGG TGCCCAAGGA
    GCACAGATTG CAGCGCAAGC TTTCAGCCGT GCCCCAATTC CAATGGCTGT GGTCCGCAGA
    GAGCTATCCT GTGAGAGCTA TCCTATAGAG CTTCGCTGTC CAGGAACAGA CGTCATCATG
    ATAGAAAGTG CCAACTATGG CAGGACTGAT GACAAAATTT GTGACTCTGA CCCTGCTCAG
    ATGGAGAATA TCCGATGTTA TCTGCCAGAT GCCTATAAGA TTATGTCTCA AAGATGCAAT
    AACAGAACCC AGTGTGCAGT GGTGGCAGGT CCTGATGTTT TTCCAGACCC GTGTCCAGGA
    ACCTATAAAT ACCTTGAAGT GCAGTATGAA TGTGTCCCTT ACAAAGTGGA ACAAAAAGTT
    TTTCTTTGTC CTGGACTACT AAAAGGAGTA TACCAGAGTG AACATTTGTT TGAGTCCGAC
    CACCAATCTG GGGCGTGGTG CAAAGACCCT CTGCAGGCAT CTGACAAGAT TTATTATATG
    CCCTGGACTC CCTACAGAAC TGATACCCTG ACTGAGTATT CATCCAAGGA TGACTTCATT
    GCTGGAAGAC CAACTACAAC CTACAAGCTC CCTCACAGGG TGGATGGCAC AGGATTTGTA
    GTGTATGATG GAGCTTTGTT CTTCAACAAA GAGCGCACCA GGAACATAGT AAAGTTTGAT
    TTGCGGACTA GGATAAAGAG TGGAGAGGCT ATCATAGCAA ATGCCAATTA CCATGATACC
    TCCCCTTACC GATGGGGAGG CAAATCTGAC ATAGACCTGG CAGTAGATGA GAATGGGCTA
    TGGGTAATCT ATGCAACAGA ACAAAACAAT GGTAAAATTG TCATTAGTCA ATTGAACCCT
    TACACCCTAC GGATCGAAGG AACATGGGAT ACTGCATATG ATAAAAGGTC AGCTTCCAAT
    GCCTTTATGA TTTGTGGAAT TCTGTATGTG GTCAAATCTG TATATGAGGA TGATGACAAT
    GAGGCTACTG GAAATAAGAT TGACTACATT TACAACACTG ACCAAAGCAA GGATAGTTTG
    GTGGATGTAC CCTTTCCTAA TTCATACCAG TACATTGCAG CTGTGGATTA CAACCCCAGG
    GACAACCTAC TTTATGTATG GAATAACTAT CACGTCGTGA AATATTCTTT GGATTTTGGA
    CCTCTGGATA GTAGATCAGG GCAGGCACAT CATGGACAAG TTTCATACAT TTCTCCGCCA
    ATTCACCTTG ACTCTGAGCT AGAAAGACCC TCTGTTAAAG ATATCTCTAC CACAGGACCT
    CTTGGCATGG GAAGCACTAC CACCAGTACC ACCCTTCGGA CCACAACTTT GAGCCCAGGA
    AGGAGTACCA CCCCGTCAGT GTCAGGAAGA AGAAACCGGA GTACTAGTAC CCCATCTCCA
    GCTGTCGAGG TACTTGATGA CATGACCACA CACCTTCCAT CAGCATCGTC CCAAATCCCA
    GCTCTCGAAG AGAGCTGTGA GGCTGTGGAA GCCCGAGAAA TCATGTGGTT TAAGACTCGT
    CAAGGACAGA TAGCAAAGCA GCCATGCCCT GCAGGAACTA TAGGTGTATC AACTTATCTA
    TGCCTTGCTC CTGATGGAAT TTGGGATCCC CAAGGTCCAG ATCTCAGCAA CTGTTCTTCT
    CCTTGGGTCA ATCATATAAC ACAGAAGTTG AAATCTGGTG AAACAGCTGC CAACATTGCT
    AGAGAGCTGG CTGAACAGAC AAGAAATCAC TTGAATGCTG GGGACATCAC CTACTCTGTC
    CGGGCCATGG ACCAGCTGGT AGGCCTCCTA GATGTACAGC TTCGGAACTT GACCCCAGGT
    GGAAAAGATA GTGCTGCCCG GAGTTTGAAC AAGCTTCAGA AAAGAGAGCG CTCTTGCAGA
    GCCTATGTCC AGGCAATGGT CGAGACAGTT AACAACCTCC TTCAGCCACA AGCTTTGAAT
    GCATGGAGAG ACCTGACTAC GAGTGATCAG CTGCGTGCGG CCACCATGTT GCTTCATACT
    GTGGAGGAAA GTGCTTTTGT GCTGGCTGAT AACCTTTTGA AGACTGACAT TGTCAGGGAG
    AATACAGACA ATATTAAATT GGAAGTTGCA AGACTGAGCA CAGAAGGAAA CTTAGAAGAC
    CTAAAATTTC CAGAAAACAT GGGCCATGGA AGCACTATCC AGCTGTCTGC AAATACCTTA
    AAGCAAAATG GCCGAAATGG AGAGATCAGA GTGGCCTTTG TCCTGTATAA CAACTTGGGT
    CCTTATTTAT CCACGGAGAA TGCCAGTATG AAGTTGGGAA CGGAAGCTTT GTCCACAAAT
    CATTCTGTTA TTGTCAATTC CCCTGTTATT ACGGCAGCAA TAAACAAAGA GTTCAGTAAC
    AAGGTTTATT TGGCTGATCC TGTGGTATTT ACTGTTAAAC ATATCAAGCA GTCAGAGGAA
    AATTTCAACC CTAACTGTTC ATTTTGGAGC TACTCCAAGC GTACAATGAC AGGTTATTGG
    TCAACACAAG GCTGTCGGCT CCTGACAACA AATAAGACAC ATACTACATG CTCTTGTAAC
    CACCTAACAA ATTTTGCAGT ACTGATGGCA CATGTGGAAG TTAAGCACAG TGATGCGGTC
    CATGACCTCC TTCTGGATGT GATCACGTGG GTTGGAATTT TGCTGTCCCT TGTTTGTCTC
    CTGATTTGCA TCTTCACATT TTGCTTTTTC CGGGGGCTCC AGAGTGACCG TAACACCATC
    CACAAGAACC TCTGCATCAG TCTCTTTGTA GCAGAGCTGC TCTTCCTGAT TGGGATCAAC
    CGAACTGACC AACCAATTGC CTGTGCTGTT TTCGCTGCCC TGTTACATTT CTTCTTCTTG
    GCTGCCTTCA CCTGGATGTT CCTGGAGGGG GTGCAGCTTT ATATCATGCT GGTGGAGGTT
    TTTGAGAGTG AACATTCACG TAGGAAATAC TTTTATCTGG TCGGCTATGG GATGCCTGCA
    CTCATTGTGG CTGTGTCAGC TGCAGTAGAC TACAGGAGTT ATGGAACAGA TAAAGTATGT
    TGGCTCCGAC TTGACACCTA CTTCATTTGG AGTTTTATAG GACCAGCAAC TTTGATAATT
    ATGCTTAATG TAATCTTCCT TGGGATTGCT TTATATAAAA TGTTTCATCA TACTGCTATA
    CTGAAACCTG AATCAGGCTG TCTTGATAAC ATCAAGTCAT GGGTTATAGG TGCAATAGCT
    CTTCTCTGCC TATTAGGATT GACCTGGGCC TTTGGACTCA TGTATATTAA TGAAAGCACA
    GTCATCATGG CCTATCTCTT CACCATTTTC AATTCTCTAC AGGGAATGTT TATATTTATT
    TTCCATTGTG TCCTACAGAA GAAGGTACGA AAAGAGTATG GGAAATGCCT GCGAACACAT
    TGCTGTAGTG GCAAAAGTAC AGAGAGTTCC ATTGGTTCAG GGAAAACATC TGGTTCTCGA
    ACTCCTGGAC GCTACTCCAC AGGCTCACAG AGCCGAATCC GTAGAATGTG GAATGACACG
    GTTCGAAAGC AGTCAGAGTC TTCCTTTATT ACTGGAGACA TAAACAGTTC AGCGTCACTC
    AACAGAGAGC CCTACAGAGA GACAAAGGGG CTTCTGAACA ATGCCAGGGA TACAAGTGTC
    ATGGATACTC TACCACTGAA TGGTAACCAT GGCAATAGTT ACAGCATTGC CAGCGGCGAA
    TACCTGAGCA ACTGTGTGCA AATCATAGAC CGTGGCTATA ACCATAACGA GACCGCCCTA
    GAGAAAAAGA TTCTGAAGGA ACTCACTTCC AACTATATCC CTTCTTACCT GAACAACCAT
    GAGCGCTCCA GTGAACAGAA CAGGAATCTG ATGAACAAGC TGGTGAATAA CCTTGGCAGT
    GGAAGGGAAG ATGATGCCAT TGTCCTGGAT GATGCCACCT CGTTTAACCA CGAGGAGAGT
    TTGGGCCTGG AACTCATTCA TGAGGAATCT GATGCTCCTT TGCTGCCCCC AAGAGTATAC
    TCCACCGAGA ACCACCAGCC ACACCATTAT ACCAGAAGGC GGATCCCCCA AGACCACAGT
    GAGAGCTTTT TCCCTTTGCT AACCAACGAG CACACAGAAG ATCTCCAGTC ACCCCATAGA
    GACTCTCTCT ATACCAGCAT GCCGACACTG GCTGGTGTGG CCGCCACAGA GAGTGTTACC
    ACCAGCACCC AGACCGAACC CCCACCGGCC AAATGTGGTG ATGCCGAAGA TGTTTACTAC
    AAAAGCATGC CAAACCTAGG CTCCAGAAAC CACGTCCATC AGCTGCATAC TTACTACCAG
    CTAGGTCGCG GCAGCAGTGA TGGATTTATA GTTCCTCCAA ACAAAGATGG GACCCCTCCC
    GAGGGAAGTT CAAAAGGACC GGCTCATTTG GTCACTAGTC TATAG

    The stop codons will be deleted if pcDNA3.1+/C-(K)DYK vector is selected.

    RefSeq XP_016863422.1
    CDS288..4892
    Translation

    Target ORF information:

    RefSeq Version XM_017007933.1
    Organism Homo sapiens(human)
    Definition Homo sapiens adhesion G protein-coupled receptor L3 (ADGRL3), transcript variant X6, mRNA.

    Target ORF information:

    Epitope DYKDDDDK
    Bacterial selection AMPR
    Mammalian selection NeoR
    Vector pcDNA3.1+/C-(K)DYK
    XM_017007933.1

    ORF Insert Sequence:

    1
    61
    121
    181
    241
    301
    361
    421
    481
    541
    601
    661
    721
    781
    841
    901
    961
    1021
    1081
    1141
    1201
    1261
    1321
    1381
    1441
    1501
    1561
    1621
    1681
    1741
    1801
    1861
    1921
    1981
    2041
    2101
    2161
    2221
    2281
    2341
    2401
    2461
    2521
    2581
    2641
    2701
    2761
    2821
    2881
    2941
    3001
    3061
    3121
    3181
    3241
    3301
    3361
    3421
    3481
    3541
    3601
    3661
    3721
    3781
    3841
    3901
    3961
    4021
    4081
    4141
    4201
    4261
    4321
    4381
    4441
    4501
    4561
    ATGTGGCCAT CGCAGCTACT AATTTTCATG ATGCTCTTAG CTCCAATAAT TCATGGTGGC 
    AAGCACAGTG AACGACATCC TGCCCTTGCT GCTCCATTGC GACACGCTGA GCGCAGCCCA
    GGAGGCGCTC TTCCACCCAG ACATCTGCTT CAGCAGCCAG CTGCAGAGCG CACCGCTGCT
    CATCGTGGAC AAGGGCCCCG TGGAGCTACC AGAGGAGTTC GCGGTCCAGG TGCCCAAGGA
    GCACAGATTG CAGCGCAAGC TTTCAGCCGT GCCCCAATTC CAATGGCTGT GGTCCGCAGA
    GAGCTATCCT GTGAGAGCTA TCCTATAGAG CTTCGCTGTC CAGGAACAGA CGTCATCATG
    ATAGAAAGTG CCAACTATGG CAGGACTGAT GACAAAATTT GTGACTCTGA CCCTGCTCAG
    ATGGAGAATA TCCGATGTTA TCTGCCAGAT GCCTATAAGA TTATGTCTCA AAGATGCAAT
    AACAGAACCC AGTGTGCAGT GGTGGCAGGT CCTGATGTTT TTCCAGACCC GTGTCCAGGA
    ACCTATAAAT ACCTTGAAGT GCAGTATGAA TGTGTCCCTT ACAAAGTGGA ACAAAAAGTT
    TTTCTTTGTC CTGGACTACT AAAAGGAGTA TACCAGAGTG AACATTTGTT TGAGTCCGAC
    CACCAATCTG GGGCGTGGTG CAAAGACCCT CTGCAGGCAT CTGACAAGAT TTATTATATG
    CCCTGGACTC CCTACAGAAC TGATACCCTG ACTGAGTATT CATCCAAGGA TGACTTCATT
    GCTGGAAGAC CAACTACAAC CTACAAGCTC CCTCACAGGG TGGATGGCAC AGGATTTGTA
    GTGTATGATG GAGCTTTGTT CTTCAACAAA GAGCGCACCA GGAACATAGT AAAGTTTGAT
    TTGCGGACTA GGATAAAGAG TGGAGAGGCT ATCATAGCAA ATGCCAATTA CCATGATACC
    TCCCCTTACC GATGGGGAGG CAAATCTGAC ATAGACCTGG CAGTAGATGA GAATGGGCTA
    TGGGTAATCT ATGCAACAGA ACAAAACAAT GGTAAAATTG TCATTAGTCA ATTGAACCCT
    TACACCCTAC GGATCGAAGG AACATGGGAT ACTGCATATG ATAAAAGGTC AGCTTCCAAT
    GCCTTTATGA TTTGTGGAAT TCTGTATGTG GTCAAATCTG TATATGAGGA TGATGACAAT
    GAGGCTACTG GAAATAAGAT TGACTACATT TACAACACTG ACCAAAGCAA GGATAGTTTG
    GTGGATGTAC CCTTTCCTAA TTCATACCAG TACATTGCAG CTGTGGATTA CAACCCCAGG
    GACAACCTAC TTTATGTATG GAATAACTAT CACGTCGTGA AATATTCTTT GGATTTTGGA
    CCTCTGGATA GTAGATCAGG GCAGGCACAT CATGGACAAG TTTCATACAT TTCTCCGCCA
    ATTCACCTTG ACTCTGAGCT AGAAAGACCC TCTGTTAAAG ATATCTCTAC CACAGGACCT
    CTTGGCATGG GAAGCACTAC CACCAGTACC ACCCTTCGGA CCACAACTTT GAGCCCAGGA
    AGGAGTACCA CCCCGTCAGT GTCAGGAAGA AGAAACCGGA GTACTAGTAC CCCATCTCCA
    GCTGTCGAGG TACTTGATGA CATGACCACA CACCTTCCAT CAGCATCGTC CCAAATCCCA
    GCTCTCGAAG AGAGCTGTGA GGCTGTGGAA GCCCGAGAAA TCATGTGGTT TAAGACTCGT
    CAAGGACAGA TAGCAAAGCA GCCATGCCCT GCAGGAACTA TAGGTGTATC AACTTATCTA
    TGCCTTGCTC CTGATGGAAT TTGGGATCCC CAAGGTCCAG ATCTCAGCAA CTGTTCTTCT
    CCTTGGGTCA ATCATATAAC ACAGAAGTTG AAATCTGGTG AAACAGCTGC CAACATTGCT
    AGAGAGCTGG CTGAACAGAC AAGAAATCAC TTGAATGCTG GGGACATCAC CTACTCTGTC
    CGGGCCATGG ACCAGCTGGT AGGCCTCCTA GATGTACAGC TTCGGAACTT GACCCCAGGT
    GGAAAAGATA GTGCTGCCCG GAGTTTGAAC AAGCTTCAGA AAAGAGAGCG CTCTTGCAGA
    GCCTATGTCC AGGCAATGGT CGAGACAGTT AACAACCTCC TTCAGCCACA AGCTTTGAAT
    GCATGGAGAG ACCTGACTAC GAGTGATCAG CTGCGTGCGG CCACCATGTT GCTTCATACT
    GTGGAGGAAA GTGCTTTTGT GCTGGCTGAT AACCTTTTGA AGACTGACAT TGTCAGGGAG
    AATACAGACA ATATTAAATT GGAAGTTGCA AGACTGAGCA CAGAAGGAAA CTTAGAAGAC
    CTAAAATTTC CAGAAAACAT GGGCCATGGA AGCACTATCC AGCTGTCTGC AAATACCTTA
    AAGCAAAATG GCCGAAATGG AGAGATCAGA GTGGCCTTTG TCCTGTATAA CAACTTGGGT
    CCTTATTTAT CCACGGAGAA TGCCAGTATG AAGTTGGGAA CGGAAGCTTT GTCCACAAAT
    CATTCTGTTA TTGTCAATTC CCCTGTTATT ACGGCAGCAA TAAACAAAGA GTTCAGTAAC
    AAGGTTTATT TGGCTGATCC TGTGGTATTT ACTGTTAAAC ATATCAAGCA GTCAGAGGAA
    AATTTCAACC CTAACTGTTC ATTTTGGAGC TACTCCAAGC GTACAATGAC AGGTTATTGG
    TCAACACAAG GCTGTCGGCT CCTGACAACA AATAAGACAC ATACTACATG CTCTTGTAAC
    CACCTAACAA ATTTTGCAGT ACTGATGGCA CATGTGGAAG TTAAGCACAG TGATGCGGTC
    CATGACCTCC TTCTGGATGT GATCACGTGG GTTGGAATTT TGCTGTCCCT TGTTTGTCTC
    CTGATTTGCA TCTTCACATT TTGCTTTTTC CGGGGGCTCC AGAGTGACCG TAACACCATC
    CACAAGAACC TCTGCATCAG TCTCTTTGTA GCAGAGCTGC TCTTCCTGAT TGGGATCAAC
    CGAACTGACC AACCAATTGC CTGTGCTGTT TTCGCTGCCC TGTTACATTT CTTCTTCTTG
    GCTGCCTTCA CCTGGATGTT CCTGGAGGGG GTGCAGCTTT ATATCATGCT GGTGGAGGTT
    TTTGAGAGTG AACATTCACG TAGGAAATAC TTTTATCTGG TCGGCTATGG GATGCCTGCA
    CTCATTGTGG CTGTGTCAGC TGCAGTAGAC TACAGGAGTT ATGGAACAGA TAAAGTATGT
    TGGCTCCGAC TTGACACCTA CTTCATTTGG AGTTTTATAG GACCAGCAAC TTTGATAATT
    ATGCTTAATG TAATCTTCCT TGGGATTGCT TTATATAAAA TGTTTCATCA TACTGCTATA
    CTGAAACCTG AATCAGGCTG TCTTGATAAC ATCAAGTCAT GGGTTATAGG TGCAATAGCT
    CTTCTCTGCC TATTAGGATT GACCTGGGCC TTTGGACTCA TGTATATTAA TGAAAGCACA
    GTCATCATGG CCTATCTCTT CACCATTTTC AATTCTCTAC AGGGAATGTT TATATTTATT
    TTCCATTGTG TCCTACAGAA GAAGGTACGA AAAGAGTATG GGAAATGCCT GCGAACACAT
    TGCTGTAGTG GCAAAAGTAC AGAGAGTTCC ATTGGTTCAG GGAAAACATC TGGTTCTCGA
    ACTCCTGGAC GCTACTCCAC AGGCTCACAG AGCCGAATCC GTAGAATGTG GAATGACACG
    GTTCGAAAGC AGTCAGAGTC TTCCTTTATT ACTGGAGACA TAAACAGTTC AGCGTCACTC
    AACAGAGAGC CCTACAGAGA GACAAAGGGG CTTCTGAACA ATGCCAGGGA TACAAGTGTC
    ATGGATACTC TACCACTGAA TGGTAACCAT GGCAATAGTT ACAGCATTGC CAGCGGCGAA
    TACCTGAGCA ACTGTGTGCA AATCATAGAC CGTGGCTATA ACCATAACGA GACCGCCCTA
    GAGAAAAAGA TTCTGAAGGA ACTCACTTCC AACTATATCC CTTCTTACCT GAACAACCAT
    GAGCGCTCCA GTGAACAGAA CAGGAATCTG ATGAACAAGC TGGTGAATAA CCTTGGCAGT
    GGAAGGGAAG ATGATGCCAT TGTCCTGGAT GATGCCACCT CGTTTAACCA CGAGGAGAGT
    TTGGGCCTGG AACTCATTCA TGAGGAATCT GATGCTCCTT TGCTGCCCCC AAGAGTATAC
    TCCACCGAGA ACCACCAGCC ACACCATTAT ACCAGAAGGC GGATCCCCCA AGACCACAGT
    GAGAGCTTTT TCCCTTTGCT AACCAACGAG CACACAGAAG ATCTCCAGTC ACCCCATAGA
    GACTCTCTCT ATACCAGCAT GCCGACACTG GCTGGTGTGG CCGCCACAGA GAGTGTTACC
    ACCAGCACCC AGACCGAACC CCCACCGGCC AAATGTGGTG ATGCCGAAGA TGTTTACTAC
    AAAAGCATGC CAAACCTAGG CTCCAGAAAC CACGTCCATC AGCTGCATAC TTACTACCAG
    CTAGGTCGCG GCAGCAGTGA TGGATTTATA GTTCCTCCAA ACAAAGATGG GACCCCTCCC
    GAGGGAAGTT CAAAAGGACC GGCTCATTTG GTCACTAGTC TATAG

    The stop codons will be deleted if pcDNA3.1+/C-(K)DYK vector is selected.

    CloneID OHu95004
    Clone ID Related Accession (Same CDS sequence) XM_017007934.1
    Accession Version XM_017007934.1 Latest version! Documents for ORF clone product in default vector
    Sequence Information ORF Nucleotide Sequence (Length: 4599bp)
    Protein sequence
    SNP
    Vector pcDNA3.1-C-(k)DYK or customized vector User Manual
    Clone information Clone Map MSDS
    Tag on pcDNA3.1+/C-(K)DYK C terminal DYKDDDDK tags
    ORF Insert Method CloneEZ™ Seamless cloning technology
    Insert Structure linear
    Update Date 2019-12-05
    Organism Homo sapiens(human)
    Product adhesion G protein-coupled receptor L3 isoform X6
    Comment Comment: MODEL REFSEQ: This record is predicted by automated computational analysis. This record is derived from a genomic sequence (NC_000004.12) annotated using gene prediction method: Gnomon, supported by mRNA and EST evidence. Also see: Documentation of NCBI's Annotation Process ##Genome-Annotation-Data-START## Annotation Provider :: NCBI Annotation Status :: Updated annotation Annotation Name :: Homo sapiens Updated Annotation Release 109.20191205 Annotation Version :: 109.20191205 Annotation Pipeline :: NCBI eukaryotic genome annotation pipeline Annotation Software Version :: 8.3 Annotation Method :: Best-placed RefSeq; propagated RefSeq model Features Annotated :: Gene; mRNA; CDS; ncRNA ##Genome-Annotation-Data-END##

    1
    61
    121
    181
    241
    301
    361
    421
    481
    541
    601
    661
    721
    781
    841
    901
    961
    1021
    1081
    1141
    1201
    1261
    1321
    1381
    1441
    1501
    1561
    1621
    1681
    1741
    1801
    1861
    1921
    1981
    2041
    2101
    2161
    2221
    2281
    2341
    2401
    2461
    2521
    2581
    2641
    2701
    2761
    2821
    2881
    2941
    3001
    3061
    3121
    3181
    3241
    3301
    3361
    3421
    3481
    3541
    3601
    3661
    3721
    3781
    3841
    3901
    3961
    4021
    4081
    4141
    4201
    4261
    4321
    4381
    4441
    4501
    4561
    ATGTGGCCAT CGCAGCTACT AATTTTCATG ATGCTCTTAG CTCCAATAAT TCATGGTGGC 
    AAGCACAGTG AACGACATCC TGCCCTTGCT GCTCCATTGC GACACGCTGA GCGCAGCCCA
    GGAGGCGCTC TTCCACCCAG ACATCTGCTT CAGCAGCCAG CTGCAGAGCG CACCGCTGCT
    CATCGTGGAC AAGGGCCCCG TGGAGCTACC AGAGGAGTTC GCGGTCCAGG TGCCCAAGGA
    GCACAGATTG CAGCGCAAGC TTTCAGCCGT GCCCCAATTC CAATGGCTGT GGTCCGCAGA
    GAGCTATCCT GTGAGAGCTA TCCTATAGAG CTTCGCTGTC CAGGAACAGA CGTCATCATG
    ATAGAAAGTG CCAACTATGG CAGGACTGAT GACAAAATTT GTGACTCTGA CCCTGCTCAG
    ATGGAGAATA TCCGATGTTA TCTGCCAGAT GCCTATAAGA TTATGTCTCA AAGATGCAAT
    AACAGAACCC AGTGTGCAGT GGTGGCAGGT CCTGATGTTT TTCCAGACCC GTGTCCAGGA
    ACCTATAAAT ACCTTGAAGT GCAGTATGAA TGTGTCCCTT ACAAAGTGGA ACAAAAAGTT
    TTTCTTTGTC CTGGACTACT AAAAGGAGTA TACCAGAGTG AACATTTGTT TGAGTCCGAC
    CACCAATCTG GGGCGTGGTG CAAAGACCCT CTGCAGGCAT CTGACAAGAT TTATTATATG
    CCCTGGACTC CCTACAGAAC TGATACCCTG ACTGAGTATT CATCCAAGGA TGACTTCATT
    GCTGGAAGAC CAACTACAAC CTACAAGCTC CCTCACAGGG TGGATGGCAC AGGATTTGTA
    GTGTATGATG GAGCTTTGTT CTTCAACAAA GAGCGCACCA GGAACATAGT AAAGTTTGAT
    TTGCGGACTA GGATAAAGAG TGGAGAGGCT ATCATAGCAA ATGCCAATTA CCATGATACC
    TCCCCTTACC GATGGGGAGG CAAATCTGAC ATAGACCTGG CAGTAGATGA GAATGGGCTA
    TGGGTAATCT ATGCAACAGA ACAAAACAAT GGTAAAATTG TCATTAGTCA ATTGAACCCT
    TACACCCTAC GGATCGAAGG AACATGGGAT ACTGCATATG ATAAAAGGTC AGCTTCCAAT
    GCCTTTATGA TTTGTGGAAT TCTGTATGTG GTCAAATCTG TATATGAGGA TGATGACAAT
    GAGGCTACTG GAAATAAGAT TGACTACATT TACAACACTG ACCAAAGCAA GGATAGTTTG
    GTGGATGTAC CCTTTCCTAA TTCATACCAG TACATTGCAG CTGTGGATTA CAACCCCAGG
    GACAACCTAC TTTATGTATG GAATAACTAT CACGTCGTGA AATATTCTTT GGATTTTGGA
    CCTCTGGATA GTAGATCAGG GCAGGCACAT CATGGACAAG TTTCATACAT TTCTCCGCCA
    ATTCACCTTG ACTCTGAGCT AGAAAGACCC TCTGTTAAAG GACCTCTTGG CATGGGAAGC
    ACTACCACCA GTACCACCCT TCGGACCACA ACTTTGAGCC CAGGAAGGAG TACCACCCCG
    TCAGTGTCAG GAAGAAGAAA CCGGAGTACT AGTACCCCAT CTCCAGCTGT CGAGGTACTT
    GATGACATGA CCACACACCT TCCATCAGCA TCGTCCCAAA TCCCAGCTCT CGAAGAGAGC
    TGTGAGGCTG TGGAAGCCCG AGAAATCATG TGGTTTAAGA CTCGTCAAGG ACAGATAGCA
    AAGCAGCCAT GCCCTGCAGG AACTATAGGT GTATCAACTT ATCTATGCCT TGCTCCTGAT
    GGAATTTGGG ATCCCCAAGG TCCAGATCTC AGCAACTGTT CTTCTCCTTG GGTCAATCAT
    ATAACACAGA AGTTGAAATC TGGTGAAACA GCTGCCAACA TTGCTAGAGA GCTGGCTGAA
    CAGACAAGAA ATCACTTGAA TGCTGGGGAC ATCACCTACT CTGTCCGGGC CATGGACCAG
    CTGGTAGGCC TCCTAGATGT ACAGCTTCGG AACTTGACCC CAGGTGGAAA AGATAGTGCT
    GCCCGGAGTT TGAACAAGCT TCAGAAAAGA GAGCGCTCTT GCAGAGCCTA TGTCCAGGCA
    ATGGTCGAGA CAGTTAACAA CCTCCTTCAG CCACAAGCTT TGAATGCATG GAGAGACCTG
    ACTACGAGTG ATCAGCTGCG TGCGGCCACC ATGTTGCTTC ATACTGTGGA GGAAAGTGCT
    TTTGTGCTGG CTGATAACCT TTTGAAGACT GACATTGTCA GGGAGAATAC AGACAATATT
    AAATTGGAAG TTGCAAGACT GAGCACAGAA GGAAACTTAG AAGACCTAAA ATTTCCAGAA
    AACATGGGCC ATGGAAGCAC TATCCAGCTG TCTGCAAATA CCTTAAAGCA AAATGGCCGA
    AATGGAGAGA TCAGAGTGGC CTTTGTCCTG TATAACAACT TGGGTCCTTA TTTATCCACG
    GAGAATGCCA GTATGAAGTT GGGAACGGAA GCTTTGTCCA CAAATCATTC TGTTATTGTC
    AATTCCCCTG TTATTACGGC AGCAATAAAC AAAGAGTTCA GTAACAAGGT TTATTTGGCT
    GATCCTGTGG TATTTACTGT TAAACATATC AAGCAGTCAG AGGAAAATTT CAACCCTAAC
    TGTTCATTTT GGAGCTACTC CAAGCGTACA ATGACAGGTT ATTGGTCAAC ACAAGGCTGT
    CGGCTCCTGA CAACAAATAA GACACATACT ACATGCTCTT GTAACCACCT AACAAATTTT
    GCAGTACTGA TGGCACATGT GGAAGTTAAG CACAGTGATG CGGTCCATGA CCTCCTTCTG
    GATGTGATCA CGTGGGTTGG AATTTTGCTG TCCCTTGTTT GTCTCCTGAT TTGCATCTTC
    ACATTTTGCT TTTTCCGGGG GCTCCAGAGT GACCGTAACA CCATCCACAA GAACCTCTGC
    ATCAGTCTCT TTGTAGCAGA GCTGCTCTTC CTGATTGGGA TCAACCGAAC TGACCAACCA
    ATTGCCTGTG CTGTTTTCGC TGCCCTGTTA CATTTCTTCT TCTTGGCTGC CTTCACCTGG
    ATGTTCCTGG AGGGGGTGCA GCTTTATATC ATGCTGGTGG AGGTTTTTGA GAGTGAACAT
    TCACGTAGGA AATACTTTTA TCTGGTCGGC TATGGGATGC CTGCACTCAT TGTGGCTGTG
    TCAGCTGCAG TAGACTACAG GAGTTATGGA ACAGATAAAG TATGTTGGCT CCGACTTGAC
    ACCTACTTCA TTTGGAGTTT TATAGGACCA GCAACTTTGA TAATTATGCT TAATGTAATC
    TTCCTTGGGA TTGCTTTATA TAAAATGTTT CATCATACTG CTATACTGAA ACCTGAATCA
    GGCTGTCTTG ATAACATCAA CTATGAGGAT AACAGACCCT TCATCAAGTC ATGGGTTATA
    GGTGCAATAG CTCTTCTCTG CCTATTAGGA TTGACCTGGG CCTTTGGACT CATGTATATT
    AATGAAAGCA CAGTCATCAT GGCCTATCTC TTCACCATTT TCAATTCTCT ACAGGGAATG
    TTTATATTTA TTTTCCATTG TGTCCTACAG AAGAAGGTAC GAAAAGAGTA TGGGAAATGC
    CTGCGAACAC ATTGCTGTAG TGGCAAAAGT ACAGAGAGTT CCATTGGTTC AGGGAAAACA
    TCTGGTTCTC GAACTCCTGG ACGCTACTCC ACAGGCTCAC AGAGCCGAAT CCGTAGAATG
    TGGAATGACA CGGTTCGAAA GCAGTCAGAG TCTTCCTTTA TTACTGGAGA CATAAACAGT
    TCAGCGTCAC TCAACAGAGA GGGGCTTCTG AACAATGCCA GGGATACAAG TGTCATGGAT
    ACTCTACCAC TGAATGGTAA CCATGGCAAT AGTTACAGCA TTGCCAGCGG CGAATACCTG
    AGCAACTGTG TGCAAATCAT AGACCGTGGC TATAACCATA ACGAGACCGC CCTAGAGAAA
    AAGATTCTGA AGGAACTCAC TTCCAACTAT ATCCCTTCTT ACCTGAACAA CCATGAGCGC
    TCCAGTGAAC AGAACAGGAA TCTGATGAAC AAGCTGGTGA ATAACCTTGG CAGTGGAAGG
    GAAGATGATG CCATTGTCCT GGATGATGCC ACCTCGTTTA ACCACGAGGA GAGTTTGGGC
    CTGGAACTCA TTCATGAGGA ATCTGATGCT CCTTTGCTGC CCCCAAGAGT ATACTCCACC
    GAGAACCACC AGCCACACCA TTATACCAGA AGGCGGATCC CCCAAGACCA CAGTGAGAGC
    TTTTTCCCTT TGCTAACCAA CGAGCACACA GAAGATCTCC AGTCACCCCA TAGAGACTCT
    CTCTATACCA GCATGCCGAC ACTGGCTGGT GTGGCCGCCA CAGAGAGTGT TACCACCAGC
    ACCCAGACCG AACCCCCACC GGCCAAATGT GGTGATGCCG AAGATGTTTA CTACAAAAGC
    ATGCCAAACC TAGGCTCCAG AAACCACGTC CATCAGCTGC ATACTTACTA CCAGCTAGGT
    CGCGGCAGCA GTGATGGATT TATAGTTCCT CCAAACAAAG ATGGGACCCC TCCCGAGGGA
    AGTTCAAAAG GACCGGCTCA TTTGGTCACT AGTCTATAG

    The stop codons will be deleted if pcDNA3.1+/C-(K)DYK vector is selected.

    RefSeq XP_016863423.1
    CDS288..4886
    Translation

    Target ORF information:

    RefSeq Version XM_017007934.1
    Organism Homo sapiens(human)
    Definition Homo sapiens adhesion G protein-coupled receptor L3 (ADGRL3), transcript variant X7, mRNA.

    Target ORF information:

    Epitope DYKDDDDK
    Bacterial selection AMPR
    Mammalian selection NeoR
    Vector pcDNA3.1+/C-(K)DYK
    XM_017007934.1

    ORF Insert Sequence:

    1
    61
    121
    181
    241
    301
    361
    421
    481
    541
    601
    661
    721
    781
    841
    901
    961
    1021
    1081
    1141
    1201
    1261
    1321
    1381
    1441
    1501
    1561
    1621
    1681
    1741
    1801
    1861
    1921
    1981
    2041
    2101
    2161
    2221
    2281
    2341
    2401
    2461
    2521
    2581
    2641
    2701
    2761
    2821
    2881
    2941
    3001
    3061
    3121
    3181
    3241
    3301
    3361
    3421
    3481
    3541
    3601
    3661
    3721
    3781
    3841
    3901
    3961
    4021
    4081
    4141
    4201
    4261
    4321
    4381
    4441
    4501
    4561
    ATGTGGCCAT CGCAGCTACT AATTTTCATG ATGCTCTTAG CTCCAATAAT TCATGGTGGC 
    AAGCACAGTG AACGACATCC TGCCCTTGCT GCTCCATTGC GACACGCTGA GCGCAGCCCA
    GGAGGCGCTC TTCCACCCAG ACATCTGCTT CAGCAGCCAG CTGCAGAGCG CACCGCTGCT
    CATCGTGGAC AAGGGCCCCG TGGAGCTACC AGAGGAGTTC GCGGTCCAGG TGCCCAAGGA
    GCACAGATTG CAGCGCAAGC TTTCAGCCGT GCCCCAATTC CAATGGCTGT GGTCCGCAGA
    GAGCTATCCT GTGAGAGCTA TCCTATAGAG CTTCGCTGTC CAGGAACAGA CGTCATCATG
    ATAGAAAGTG CCAACTATGG CAGGACTGAT GACAAAATTT GTGACTCTGA CCCTGCTCAG
    ATGGAGAATA TCCGATGTTA TCTGCCAGAT GCCTATAAGA TTATGTCTCA AAGATGCAAT
    AACAGAACCC AGTGTGCAGT GGTGGCAGGT CCTGATGTTT TTCCAGACCC GTGTCCAGGA
    ACCTATAAAT ACCTTGAAGT GCAGTATGAA TGTGTCCCTT ACAAAGTGGA ACAAAAAGTT
    TTTCTTTGTC CTGGACTACT AAAAGGAGTA TACCAGAGTG AACATTTGTT TGAGTCCGAC
    CACCAATCTG GGGCGTGGTG CAAAGACCCT CTGCAGGCAT CTGACAAGAT TTATTATATG
    CCCTGGACTC CCTACAGAAC TGATACCCTG ACTGAGTATT CATCCAAGGA TGACTTCATT
    GCTGGAAGAC CAACTACAAC CTACAAGCTC CCTCACAGGG TGGATGGCAC AGGATTTGTA
    GTGTATGATG GAGCTTTGTT CTTCAACAAA GAGCGCACCA GGAACATAGT AAAGTTTGAT
    TTGCGGACTA GGATAAAGAG TGGAGAGGCT ATCATAGCAA ATGCCAATTA CCATGATACC
    TCCCCTTACC GATGGGGAGG CAAATCTGAC ATAGACCTGG CAGTAGATGA GAATGGGCTA
    TGGGTAATCT ATGCAACAGA ACAAAACAAT GGTAAAATTG TCATTAGTCA ATTGAACCCT
    TACACCCTAC GGATCGAAGG AACATGGGAT ACTGCATATG ATAAAAGGTC AGCTTCCAAT
    GCCTTTATGA TTTGTGGAAT TCTGTATGTG GTCAAATCTG TATATGAGGA TGATGACAAT
    GAGGCTACTG GAAATAAGAT TGACTACATT TACAACACTG ACCAAAGCAA GGATAGTTTG
    GTGGATGTAC CCTTTCCTAA TTCATACCAG TACATTGCAG CTGTGGATTA CAACCCCAGG
    GACAACCTAC TTTATGTATG GAATAACTAT CACGTCGTGA AATATTCTTT GGATTTTGGA
    CCTCTGGATA GTAGATCAGG GCAGGCACAT CATGGACAAG TTTCATACAT TTCTCCGCCA
    ATTCACCTTG ACTCTGAGCT AGAAAGACCC TCTGTTAAAG GACCTCTTGG CATGGGAAGC
    ACTACCACCA GTACCACCCT TCGGACCACA ACTTTGAGCC CAGGAAGGAG TACCACCCCG
    TCAGTGTCAG GAAGAAGAAA CCGGAGTACT AGTACCCCAT CTCCAGCTGT CGAGGTACTT
    GATGACATGA CCACACACCT TCCATCAGCA TCGTCCCAAA TCCCAGCTCT CGAAGAGAGC
    TGTGAGGCTG TGGAAGCCCG AGAAATCATG TGGTTTAAGA CTCGTCAAGG ACAGATAGCA
    AAGCAGCCAT GCCCTGCAGG AACTATAGGT GTATCAACTT ATCTATGCCT TGCTCCTGAT
    GGAATTTGGG ATCCCCAAGG TCCAGATCTC AGCAACTGTT CTTCTCCTTG GGTCAATCAT
    ATAACACAGA AGTTGAAATC TGGTGAAACA GCTGCCAACA TTGCTAGAGA GCTGGCTGAA
    CAGACAAGAA ATCACTTGAA TGCTGGGGAC ATCACCTACT CTGTCCGGGC CATGGACCAG
    CTGGTAGGCC TCCTAGATGT ACAGCTTCGG AACTTGACCC CAGGTGGAAA AGATAGTGCT
    GCCCGGAGTT TGAACAAGCT TCAGAAAAGA GAGCGCTCTT GCAGAGCCTA TGTCCAGGCA
    ATGGTCGAGA CAGTTAACAA CCTCCTTCAG CCACAAGCTT TGAATGCATG GAGAGACCTG
    ACTACGAGTG ATCAGCTGCG TGCGGCCACC ATGTTGCTTC ATACTGTGGA GGAAAGTGCT
    TTTGTGCTGG CTGATAACCT TTTGAAGACT GACATTGTCA GGGAGAATAC AGACAATATT
    AAATTGGAAG TTGCAAGACT GAGCACAGAA GGAAACTTAG AAGACCTAAA ATTTCCAGAA
    AACATGGGCC ATGGAAGCAC TATCCAGCTG TCTGCAAATA CCTTAAAGCA AAATGGCCGA
    AATGGAGAGA TCAGAGTGGC CTTTGTCCTG TATAACAACT TGGGTCCTTA TTTATCCACG
    GAGAATGCCA GTATGAAGTT GGGAACGGAA GCTTTGTCCA CAAATCATTC TGTTATTGTC
    AATTCCCCTG TTATTACGGC AGCAATAAAC AAAGAGTTCA GTAACAAGGT TTATTTGGCT
    GATCCTGTGG TATTTACTGT TAAACATATC AAGCAGTCAG AGGAAAATTT CAACCCTAAC
    TGTTCATTTT GGAGCTACTC CAAGCGTACA ATGACAGGTT ATTGGTCAAC ACAAGGCTGT
    CGGCTCCTGA CAACAAATAA GACACATACT ACATGCTCTT GTAACCACCT AACAAATTTT
    GCAGTACTGA TGGCACATGT GGAAGTTAAG CACAGTGATG CGGTCCATGA CCTCCTTCTG
    GATGTGATCA CGTGGGTTGG AATTTTGCTG TCCCTTGTTT GTCTCCTGAT TTGCATCTTC
    ACATTTTGCT TTTTCCGGGG GCTCCAGAGT GACCGTAACA CCATCCACAA GAACCTCTGC
    ATCAGTCTCT TTGTAGCAGA GCTGCTCTTC CTGATTGGGA TCAACCGAAC TGACCAACCA
    ATTGCCTGTG CTGTTTTCGC TGCCCTGTTA CATTTCTTCT TCTTGGCTGC CTTCACCTGG
    ATGTTCCTGG AGGGGGTGCA GCTTTATATC ATGCTGGTGG AGGTTTTTGA GAGTGAACAT
    TCACGTAGGA AATACTTTTA TCTGGTCGGC TATGGGATGC CTGCACTCAT TGTGGCTGTG
    TCAGCTGCAG TAGACTACAG GAGTTATGGA ACAGATAAAG TATGTTGGCT CCGACTTGAC
    ACCTACTTCA TTTGGAGTTT TATAGGACCA GCAACTTTGA TAATTATGCT TAATGTAATC
    TTCCTTGGGA TTGCTTTATA TAAAATGTTT CATCATACTG CTATACTGAA ACCTGAATCA
    GGCTGTCTTG ATAACATCAA CTATGAGGAT AACAGACCCT TCATCAAGTC ATGGGTTATA
    GGTGCAATAG CTCTTCTCTG CCTATTAGGA TTGACCTGGG CCTTTGGACT CATGTATATT
    AATGAAAGCA CAGTCATCAT GGCCTATCTC TTCACCATTT TCAATTCTCT ACAGGGAATG
    TTTATATTTA TTTTCCATTG TGTCCTACAG AAGAAGGTAC GAAAAGAGTA TGGGAAATGC
    CTGCGAACAC ATTGCTGTAG TGGCAAAAGT ACAGAGAGTT CCATTGGTTC AGGGAAAACA
    TCTGGTTCTC GAACTCCTGG ACGCTACTCC ACAGGCTCAC AGAGCCGAAT CCGTAGAATG
    TGGAATGACA CGGTTCGAAA GCAGTCAGAG TCTTCCTTTA TTACTGGAGA CATAAACAGT
    TCAGCGTCAC TCAACAGAGA GGGGCTTCTG AACAATGCCA GGGATACAAG TGTCATGGAT
    ACTCTACCAC TGAATGGTAA CCATGGCAAT AGTTACAGCA TTGCCAGCGG CGAATACCTG
    AGCAACTGTG TGCAAATCAT AGACCGTGGC TATAACCATA ACGAGACCGC CCTAGAGAAA
    AAGATTCTGA AGGAACTCAC TTCCAACTAT ATCCCTTCTT ACCTGAACAA CCATGAGCGC
    TCCAGTGAAC AGAACAGGAA TCTGATGAAC AAGCTGGTGA ATAACCTTGG CAGTGGAAGG
    GAAGATGATG CCATTGTCCT GGATGATGCC ACCTCGTTTA ACCACGAGGA GAGTTTGGGC
    CTGGAACTCA TTCATGAGGA ATCTGATGCT CCTTTGCTGC CCCCAAGAGT ATACTCCACC
    GAGAACCACC AGCCACACCA TTATACCAGA AGGCGGATCC CCCAAGACCA CAGTGAGAGC
    TTTTTCCCTT TGCTAACCAA CGAGCACACA GAAGATCTCC AGTCACCCCA TAGAGACTCT
    CTCTATACCA GCATGCCGAC ACTGGCTGGT GTGGCCGCCA CAGAGAGTGT TACCACCAGC
    ACCCAGACCG AACCCCCACC GGCCAAATGT GGTGATGCCG AAGATGTTTA CTACAAAAGC
    ATGCCAAACC TAGGCTCCAG AAACCACGTC CATCAGCTGC ATACTTACTA CCAGCTAGGT
    CGCGGCAGCA GTGATGGATT TATAGTTCCT CCAAACAAAG ATGGGACCCC TCCCGAGGGA
    AGTTCAAAAG GACCGGCTCA TTTGGTCACT AGTCTATAG

    The stop codons will be deleted if pcDNA3.1+/C-(K)DYK vector is selected.

    CloneID OHu95005
    Clone ID Related Accession (Same CDS sequence) XM_017007936.1
    Accession Version XM_017007936.1 Latest version! Documents for ORF clone product in default vector
    Sequence Information ORF Nucleotide Sequence (Length: 4575bp)
    Protein sequence
    SNP
    Vector pcDNA3.1-C-(k)DYK or customized vector User Manual
    Clone information Clone Map MSDS
    Tag on pcDNA3.1+/C-(K)DYK C terminal DYKDDDDK tags
    ORF Insert Method CloneEZ™ Seamless cloning technology
    Insert Structure linear
    Update Date 2019-12-05
    Organism Homo sapiens(human)
    Product adhesion G protein-coupled receptor L3 isoform X8
    Comment Comment: MODEL REFSEQ: This record is predicted by automated computational analysis. This record is derived from a genomic sequence (NC_000004.12) annotated using gene prediction method: Gnomon, supported by mRNA and EST evidence. Also see: Documentation of NCBI's Annotation Process ##Genome-Annotation-Data-START## Annotation Provider :: NCBI Annotation Status :: Updated annotation Annotation Name :: Homo sapiens Updated Annotation Release 109.20191205 Annotation Version :: 109.20191205 Annotation Pipeline :: NCBI eukaryotic genome annotation pipeline Annotation Software Version :: 8.3 Annotation Method :: Best-placed RefSeq; propagated RefSeq model Features Annotated :: Gene; mRNA; CDS; ncRNA ##Genome-Annotation-Data-END##

    1
    61
    121
    181
    241
    301
    361
    421
    481
    541
    601
    661
    721
    781
    841
    901
    961
    1021
    1081
    1141
    1201
    1261
    1321
    1381
    1441
    1501
    1561
    1621
    1681
    1741
    1801
    1861
    1921
    1981
    2041
    2101
    2161
    2221
    2281
    2341
    2401
    2461
    2521
    2581
    2641
    2701
    2761
    2821
    2881
    2941
    3001
    3061
    3121
    3181
    3241
    3301
    3361
    3421
    3481
    3541
    3601
    3661
    3721
    3781
    3841
    3901
    3961
    4021
    4081
    4141
    4201
    4261
    4321
    4381
    4441
    4501
    4561
    ATGTGGCCAT CGCAGCTACT AATTTTCATG ATGCTCTTAG CTCCAATAAT TCATGGTGGC 
    AAGCACAGTG AACGACATCC TGCCCTTGCT GCTCCATTGC GACACGCTGA GCGCAGCCCA
    GGAGGCGCTC TTCCACCCAG ACATCTGCTT CAGCAGCCAG CTGCAGAGCG CACCGCTGCT
    CATCGTGGAC AAGGGCCCCG TGGAGCTACC AGAGGAGTTC GCGGTCCAGG TGCCCAAGGA
    GCACAGATTG CAGCGCAAGC TTTCAGCCGT GCCCCAATTC CAATGGCTGT GGTCCGCAGA
    GAGCTATCCT GTGAGAGCTA TCCTATAGAG CTTCGCTGTC CAGGAACAGA CGTCATCATG
    ATAGAAAGTG CCAACTATGG CAGGACTGAT GACAAAATTT GTGACTCTGA CCCTGCTCAG
    ATGGAGAATA TCCGATGTTA TCTGCCAGAT GCCTATAAGA TTATGTCTCA AAGATGCAAT
    AACAGAACCC AGTGTGCAGT GGTGGCAGGT CCTGATGTTT TTCCAGACCC GTGTCCAGGA
    ACCTATAAAT ACCTTGAAGT GCAGTATGAA TGTGTCCCTT ACAAAGTGGA ACAAAAAGTT
    TTTCTTTGTC CTGGACTACT AAAAGGAGTA TACCAGAGTG AACATTTGTT TGAGTCCGAC
    CACCAATCTG GGGCGTGGTG CAAAGACCCT CTGCAGGCAT CTGACAAGAT TTATTATATG
    CCCTGGACTC CCTACAGAAC TGATACCCTG ACTGAGTATT CATCCAAGGA TGACTTCATT
    GCTGGAAGAC CAACTACAAC CTACAAGCTC CCTCACAGGG TGGATGGCAC AGGATTTGTA
    GTGTATGATG GAGCTTTGTT CTTCAACAAA GAGCGCACCA GGAACATAGT AAAGTTTGAT
    TTGCGGACTA GGATAAAGAG TGGAGAGGCT ATCATAGCAA ATGCCAATTA CCATGATACC
    TCCCCTTACC GATGGGGAGG CAAATCTGAC ATAGACCTGG CAGTAGATGA GAATGGGCTA
    TGGGTAATCT ATGCAACAGA ACAAAACAAT GGTAAAATTG TCATTAGTCA ATTGAACCCT
    TACACCCTAC GGATCGAAGG AACATGGGAT ACTGCATATG ATAAAAGGTC AGCTTCCAAT
    GCCTTTATGA TTTGTGGAAT TCTGTATGTG GTCAAATCTG TATATGAGGA TGATGACAAT
    GAGGCTACTG GAAATAAGAT TGACTACATT TACAACACTG ACCAAAGCAA GGATAGTTTG
    GTGGATGTAC CCTTTCCTAA TTCATACCAG TACATTGCAG CTGTGGATTA CAACCCCAGG
    GACAACCTAC TTTATGTATG GAATAACTAT CACGTCGTGA AATATTCTTT GGATTTTGGA
    CCTCTGGATA GTAGATCAGG GCAGGCACAT CATGGACAAG TTTCATACAT TTCTCCGCCA
    ATTCACCTTG ACTCTGAGCT AGAAAGACCC TCTGTTAAAG ATATCTCTAC CACAGGACCT
    CTTGGCATGG GAAGCACTAC CACCAGTACC ACCCTTCGGA CCACAACTTT GAGCCCAGGA
    AGGAGTACCA CCCCGTCAGT GTCAGGAAGA AGAAACCGGA GTACTAGTAC CCCATCTCCA
    GCTGTCGAGG TACTTGATGA CATGACCACA CACCTTCCAT CAGCATCGTC CCAAATCCCA
    GCTCTCGAAG AGAGCTGTGA GGCTGTGGAA GCCCGAGAAA TCATGTGGTT TAAGACTCGT
    CAAGGACAGA TAGCAAAGCA GCCATGCCCT GCAGGAACTA TAGGTGTATC AACTTATCTA
    TGCCTTGCTC CTGATGGAAT TTGGGATCCC CAAGGTCCAG ATCTCAGCAA CTGTTCTTCT
    CCTTGGGTCA ATCATATAAC ACAGAAGTTG AAATCTGGTG AAACAGCTGC CAACATTGCT
    AGAGAGCTGG CTGAACAGAC AAGAAATCAC TTGAATGCTG GGGACATCAC CTACTCTGTC
    CGGGCCATGG ACCAGCTGGT AGGCCTCCTA GATGTACAGC TTCGGAACTT GACCCCAGGT
    GGAAAAGATA GTGCTGCCCG GAGTTTGAAC AAGGCAATGG TCGAGACAGT TAACAACCTC
    CTTCAGCCAC AAGCTTTGAA TGCATGGAGA GACCTGACTA CGAGTGATCA GCTGCGTGCG
    GCCACCATGT TGCTTCATAC TGTGGAGGAA AGTGCTTTTG TGCTGGCTGA TAACCTTTTG
    AAGACTGACA TTGTCAGGGA GAATACAGAC AATATTAAAT TGGAAGTTGC AAGACTGAGC
    ACAGAAGGAA ACTTAGAAGA CCTAAAATTT CCAGAAAACA TGGGCCATGG AAGCACTATC
    CAGCTGTCTG CAAATACCTT AAAGCAAAAT GGCCGAAATG GAGAGATCAG AGTGGCCTTT
    GTCCTGTATA ACAACTTGGG TCCTTATTTA TCCACGGAGA ATGCCAGTAT GAAGTTGGGA
    ACGGAAGCTT TGTCCACAAA TCATTCTGTT ATTGTCAATT CCCCTGTTAT TACGGCAGCA
    ATAAACAAAG AGTTCAGTAA CAAGGTTTAT TTGGCTGATC CTGTGGTATT TACTGTTAAA
    CATATCAAGC AGTCAGAGGA AAATTTCAAC CCTAACTGTT CATTTTGGAG CTACTCCAAG
    CGTACAATGA CAGGTTATTG GTCAACACAA GGCTGTCGGC TCCTGACAAC AAATAAGACA
    CATACTACAT GCTCTTGTAA CCACCTAACA AATTTTGCAG TACTGATGGC ACATGTGGAA
    GTTAAGCACA GTGATGCGGT CCATGACCTC CTTCTGGATG TGATCACGTG GGTTGGAATT
    TTGCTGTCCC TTGTTTGTCT CCTGATTTGC ATCTTCACAT TTTGCTTTTT CCGGGGGCTC
    CAGAGTGACC GTAACACCAT CCACAAGAAC CTCTGCATCA GTCTCTTTGT AGCAGAGCTG
    CTCTTCCTGA TTGGGATCAA CCGAACTGAC CAACCAATTG CCTGTGCTGT TTTCGCTGCC
    CTGTTACATT TCTTCTTCTT GGCTGCCTTC ACCTGGATGT TCCTGGAGGG GGTGCAGCTT
    TATATCATGC TGGTGGAGGT TTTTGAGAGT GAACATTCAC GTAGGAAATA CTTTTATCTG
    GTCGGCTATG GGATGCCTGC ACTCATTGTG GCTGTGTCAG CTGCAGTAGA CTACAGGAGT
    TATGGAACAG ATAAAGTATG TTGGCTCCGA CTTGACACCT ACTTCATTTG GAGTTTTATA
    GGACCAGCAA CTTTGATAAT TATGCTTAAT GTAATCTTCC TTGGGATTGC TTTATATAAA
    ATGTTTCATC ATACTGCTAT ACTGAAACCT GAATCAGGCT GTCTTGATAA CATCAACTAT
    GAGGATAACA GACCCTTCAT CAAGTCATGG GTTATAGGTG CAATAGCTCT TCTCTGCCTA
    TTAGGATTGA CCTGGGCCTT TGGACTCATG TATATTAATG AAAGCACAGT CATCATGGCC
    TATCTCTTCA CCATTTTCAA TTCTCTACAG GGAATGTTTA TATTTATTTT CCATTGTGTC
    CTACAGAAGA AGGTACGAAA AGAGTATGGG AAATGCCTGC GAACACATTG CTGTAGTGGC
    AAAAGTACAG AGAGTTCCAT TGGTTCAGGG AAAACATCTG GTTCTCGAAC TCCTGGACGC
    TACTCCACAG GCTCACAGAG CCGAATCCGT AGAATGTGGA ATGACACGGT TCGAAAGCAG
    TCAGAGTCTT CCTTTATTAC TGGAGACATA AACAGTTCAG CGTCACTCAA CAGAGAGGGG
    CTTCTGAACA ATGCCAGGGA TACAAGTGTC ATGGATACTC TACCACTGAA TGGTAACCAT
    GGCAATAGTT ACAGCATTGC CAGCGGCGAA TACCTGAGCA ACTGTGTGCA AATCATAGAC
    CGTGGCTATA ACCATAACGA GACCGCCCTA GAGAAAAAGA TTCTGAAGGA ACTCACTTCC
    AACTATATCC CTTCTTACCT GAACAACCAT GAGCGCTCCA GTGAACAGAA CAGGAATCTG
    ATGAACAAGC TGGTGAATAA CCTTGGCAGT GGAAGGGAAG ATGATGCCAT TGTCCTGGAT
    GATGCCACCT CGTTTAACCA CGAGGAGAGT TTGGGCCTGG AACTCATTCA TGAGGAATCT
    GATGCTCCTT TGCTGCCCCC AAGAGTATAC TCCACCGAGA ACCACCAGCC ACACCATTAT
    ACCAGAAGGC GGATCCCCCA AGACCACAGT GAGAGCTTTT TCCCTTTGCT AACCAACGAG
    CACACAGAAG ATCTCCAGTC ACCCCATAGA GACTCTCTCT ATACCAGCAT GCCGACACTG
    GCTGGTGTGG CCGCCACAGA GAGTGTTACC ACCAGCACCC AGACCGAACC CCCACCGGCC
    AAATGTGGTG ATGCCGAAGA TGTTTACTAC AAAAGCATGC CAAACCTAGG CTCCAGAAAC
    CACGTCCATC AGCTGCATAC TTACTACCAG CTAGGTCGCG GCAGCAGTGA TGGATTTATA
    GTTCCTCCAA ACAAAGATGG GACCCCTCCC GAGGGAAGTT CAAAAGGACC GGCTCATTTG
    GTCACTAGTC TATAG

    The stop codons will be deleted if pcDNA3.1+/C-(K)DYK vector is selected.

    RefSeq XP_016863425.1
    CDS288..4862
    Translation

    Target ORF information:

    RefSeq Version XM_017007936.1
    Organism Homo sapiens(human)
    Definition Homo sapiens adhesion G protein-coupled receptor L3 (ADGRL3), transcript variant X9, mRNA.

    Target ORF information:

    Epitope DYKDDDDK
    Bacterial selection AMPR
    Mammalian selection NeoR
    Vector pcDNA3.1+/C-(K)DYK
    XM_017007936.1

    ORF Insert Sequence:

    1
    61
    121
    181
    241
    301
    361
    421
    481
    541
    601
    661
    721
    781
    841
    901
    961
    1021
    1081
    1141
    1201
    1261
    1321
    1381
    1441
    1501
    1561
    1621
    1681
    1741
    1801
    1861
    1921
    1981
    2041
    2101
    2161
    2221
    2281
    2341
    2401
    2461
    2521
    2581
    2641
    2701
    2761
    2821
    2881
    2941
    3001
    3061
    3121
    3181
    3241
    3301
    3361
    3421
    3481
    3541
    3601
    3661
    3721
    3781
    3841
    3901
    3961
    4021
    4081
    4141
    4201
    4261
    4321
    4381
    4441
    4501
    4561
    ATGTGGCCAT CGCAGCTACT AATTTTCATG ATGCTCTTAG CTCCAATAAT TCATGGTGGC 
    AAGCACAGTG AACGACATCC TGCCCTTGCT GCTCCATTGC GACACGCTGA GCGCAGCCCA
    GGAGGCGCTC TTCCACCCAG ACATCTGCTT CAGCAGCCAG CTGCAGAGCG CACCGCTGCT
    CATCGTGGAC AAGGGCCCCG TGGAGCTACC AGAGGAGTTC GCGGTCCAGG TGCCCAAGGA
    GCACAGATTG CAGCGCAAGC TTTCAGCCGT GCCCCAATTC CAATGGCTGT GGTCCGCAGA
    GAGCTATCCT GTGAGAGCTA TCCTATAGAG CTTCGCTGTC CAGGAACAGA CGTCATCATG
    ATAGAAAGTG CCAACTATGG CAGGACTGAT GACAAAATTT GTGACTCTGA CCCTGCTCAG
    ATGGAGAATA TCCGATGTTA TCTGCCAGAT GCCTATAAGA TTATGTCTCA AAGATGCAAT
    AACAGAACCC AGTGTGCAGT GGTGGCAGGT CCTGATGTTT TTCCAGACCC GTGTCCAGGA
    ACCTATAAAT ACCTTGAAGT GCAGTATGAA TGTGTCCCTT ACAAAGTGGA ACAAAAAGTT
    TTTCTTTGTC CTGGACTACT AAAAGGAGTA TACCAGAGTG AACATTTGTT TGAGTCCGAC
    CACCAATCTG GGGCGTGGTG CAAAGACCCT CTGCAGGCAT CTGACAAGAT TTATTATATG
    CCCTGGACTC CCTACAGAAC TGATACCCTG ACTGAGTATT CATCCAAGGA TGACTTCATT
    GCTGGAAGAC CAACTACAAC CTACAAGCTC CCTCACAGGG TGGATGGCAC AGGATTTGTA
    GTGTATGATG GAGCTTTGTT CTTCAACAAA GAGCGCACCA GGAACATAGT AAAGTTTGAT
    TTGCGGACTA GGATAAAGAG TGGAGAGGCT ATCATAGCAA ATGCCAATTA CCATGATACC
    TCCCCTTACC GATGGGGAGG CAAATCTGAC ATAGACCTGG CAGTAGATGA GAATGGGCTA
    TGGGTAATCT ATGCAACAGA ACAAAACAAT GGTAAAATTG TCATTAGTCA ATTGAACCCT
    TACACCCTAC GGATCGAAGG AACATGGGAT ACTGCATATG ATAAAAGGTC AGCTTCCAAT
    GCCTTTATGA TTTGTGGAAT TCTGTATGTG GTCAAATCTG TATATGAGGA TGATGACAAT
    GAGGCTACTG GAAATAAGAT TGACTACATT TACAACACTG ACCAAAGCAA GGATAGTTTG
    GTGGATGTAC CCTTTCCTAA TTCATACCAG TACATTGCAG CTGTGGATTA CAACCCCAGG
    GACAACCTAC TTTATGTATG GAATAACTAT CACGTCGTGA AATATTCTTT GGATTTTGGA
    CCTCTGGATA GTAGATCAGG GCAGGCACAT CATGGACAAG TTTCATACAT TTCTCCGCCA
    ATTCACCTTG ACTCTGAGCT AGAAAGACCC TCTGTTAAAG ATATCTCTAC CACAGGACCT
    CTTGGCATGG GAAGCACTAC CACCAGTACC ACCCTTCGGA CCACAACTTT GAGCCCAGGA
    AGGAGTACCA CCCCGTCAGT GTCAGGAAGA AGAAACCGGA GTACTAGTAC CCCATCTCCA
    GCTGTCGAGG TACTTGATGA CATGACCACA CACCTTCCAT CAGCATCGTC CCAAATCCCA
    GCTCTCGAAG AGAGCTGTGA GGCTGTGGAA GCCCGAGAAA TCATGTGGTT TAAGACTCGT
    CAAGGACAGA TAGCAAAGCA GCCATGCCCT GCAGGAACTA TAGGTGTATC AACTTATCTA
    TGCCTTGCTC CTGATGGAAT TTGGGATCCC CAAGGTCCAG ATCTCAGCAA CTGTTCTTCT
    CCTTGGGTCA ATCATATAAC ACAGAAGTTG AAATCTGGTG AAACAGCTGC CAACATTGCT
    AGAGAGCTGG CTGAACAGAC AAGAAATCAC TTGAATGCTG GGGACATCAC CTACTCTGTC
    CGGGCCATGG ACCAGCTGGT AGGCCTCCTA GATGTACAGC TTCGGAACTT GACCCCAGGT
    GGAAAAGATA GTGCTGCCCG GAGTTTGAAC AAGGCAATGG TCGAGACAGT TAACAACCTC
    CTTCAGCCAC AAGCTTTGAA TGCATGGAGA GACCTGACTA CGAGTGATCA GCTGCGTGCG
    GCCACCATGT TGCTTCATAC TGTGGAGGAA AGTGCTTTTG TGCTGGCTGA TAACCTTTTG
    AAGACTGACA TTGTCAGGGA GAATACAGAC AATATTAAAT TGGAAGTTGC AAGACTGAGC
    ACAGAAGGAA ACTTAGAAGA CCTAAAATTT CCAGAAAACA TGGGCCATGG AAGCACTATC
    CAGCTGTCTG CAAATACCTT AAAGCAAAAT GGCCGAAATG GAGAGATCAG AGTGGCCTTT
    GTCCTGTATA ACAACTTGGG TCCTTATTTA TCCACGGAGA ATGCCAGTAT GAAGTTGGGA
    ACGGAAGCTT TGTCCACAAA TCATTCTGTT ATTGTCAATT CCCCTGTTAT TACGGCAGCA
    ATAAACAAAG AGTTCAGTAA CAAGGTTTAT TTGGCTGATC CTGTGGTATT TACTGTTAAA
    CATATCAAGC AGTCAGAGGA AAATTTCAAC CCTAACTGTT CATTTTGGAG CTACTCCAAG
    CGTACAATGA CAGGTTATTG GTCAACACAA GGCTGTCGGC TCCTGACAAC AAATAAGACA
    CATACTACAT GCTCTTGTAA CCACCTAACA AATTTTGCAG TACTGATGGC ACATGTGGAA
    GTTAAGCACA GTGATGCGGT CCATGACCTC CTTCTGGATG TGATCACGTG GGTTGGAATT
    TTGCTGTCCC TTGTTTGTCT CCTGATTTGC ATCTTCACAT TTTGCTTTTT CCGGGGGCTC
    CAGAGTGACC GTAACACCAT CCACAAGAAC CTCTGCATCA GTCTCTTTGT AGCAGAGCTG
    CTCTTCCTGA TTGGGATCAA CCGAACTGAC CAACCAATTG CCTGTGCTGT TTTCGCTGCC
    CTGTTACATT TCTTCTTCTT GGCTGCCTTC ACCTGGATGT TCCTGGAGGG GGTGCAGCTT
    TATATCATGC TGGTGGAGGT TTTTGAGAGT GAACATTCAC GTAGGAAATA CTTTTATCTG
    GTCGGCTATG GGATGCCTGC ACTCATTGTG GCTGTGTCAG CTGCAGTAGA CTACAGGAGT
    TATGGAACAG ATAAAGTATG TTGGCTCCGA CTTGACACCT ACTTCATTTG GAGTTTTATA
    GGACCAGCAA CTTTGATAAT TATGCTTAAT GTAATCTTCC TTGGGATTGC TTTATATAAA
    ATGTTTCATC ATACTGCTAT ACTGAAACCT GAATCAGGCT GTCTTGATAA CATCAACTAT
    GAGGATAACA GACCCTTCAT CAAGTCATGG GTTATAGGTG CAATAGCTCT TCTCTGCCTA
    TTAGGATTGA CCTGGGCCTT TGGACTCATG TATATTAATG AAAGCACAGT CATCATGGCC
    TATCTCTTCA CCATTTTCAA TTCTCTACAG GGAATGTTTA TATTTATTTT CCATTGTGTC
    CTACAGAAGA AGGTACGAAA AGAGTATGGG AAATGCCTGC GAACACATTG CTGTAGTGGC
    AAAAGTACAG AGAGTTCCAT TGGTTCAGGG AAAACATCTG GTTCTCGAAC TCCTGGACGC
    TACTCCACAG GCTCACAGAG CCGAATCCGT AGAATGTGGA ATGACACGGT TCGAAAGCAG
    TCAGAGTCTT CCTTTATTAC TGGAGACATA AACAGTTCAG CGTCACTCAA CAGAGAGGGG
    CTTCTGAACA ATGCCAGGGA TACAAGTGTC ATGGATACTC TACCACTGAA TGGTAACCAT
    GGCAATAGTT ACAGCATTGC CAGCGGCGAA TACCTGAGCA ACTGTGTGCA AATCATAGAC
    CGTGGCTATA ACCATAACGA GACCGCCCTA GAGAAAAAGA TTCTGAAGGA ACTCACTTCC
    AACTATATCC CTTCTTACCT GAACAACCAT GAGCGCTCCA GTGAACAGAA CAGGAATCTG
    ATGAACAAGC TGGTGAATAA CCTTGGCAGT GGAAGGGAAG ATGATGCCAT TGTCCTGGAT
    GATGCCACCT CGTTTAACCA CGAGGAGAGT TTGGGCCTGG AACTCATTCA TGAGGAATCT
    GATGCTCCTT TGCTGCCCCC AAGAGTATAC TCCACCGAGA ACCACCAGCC ACACCATTAT
    ACCAGAAGGC GGATCCCCCA AGACCACAGT GAGAGCTTTT TCCCTTTGCT AACCAACGAG
    CACACAGAAG ATCTCCAGTC ACCCCATAGA GACTCTCTCT ATACCAGCAT GCCGACACTG
    GCTGGTGTGG CCGCCACAGA GAGTGTTACC ACCAGCACCC AGACCGAACC CCCACCGGCC
    AAATGTGGTG ATGCCGAAGA TGTTTACTAC AAAAGCATGC CAAACCTAGG CTCCAGAAAC
    CACGTCCATC AGCTGCATAC TTACTACCAG CTAGGTCGCG GCAGCAGTGA TGGATTTATA
    GTTCCTCCAA ACAAAGATGG GACCCCTCCC GAGGGAAGTT CAAAAGGACC GGCTCATTTG
    GTCACTAGTC TATAG

    The stop codons will be deleted if pcDNA3.1+/C-(K)DYK vector is selected.

    CloneID OHu95006
    Clone ID Related Accession (Same CDS sequence) XM_017007937.1
    Accession Version XM_017007937.1 Latest version! Documents for ORF clone product in default vector
    Sequence Information ORF Nucleotide Sequence (Length: 4557bp)
    Protein sequence
    SNP
    Vector pcDNA3.1-C-(k)DYK or customized vector User Manual
    Clone information Clone Map MSDS
    Tag on pcDNA3.1+/C-(K)DYK C terminal DYKDDDDK tags
    ORF Insert Method CloneEZ™ Seamless cloning technology
    Insert Structure linear
    Update Date 2019-12-05
    Organism Homo sapiens(human)
    Product adhesion G protein-coupled receptor L3 isoform X9
    Comment Comment: MODEL REFSEQ: This record is predicted by automated computational analysis. This record is derived from a genomic sequence (NC_000004.12) annotated using gene prediction method: Gnomon, supported by mRNA and EST evidence. Also see: Documentation of NCBI's Annotation Process ##Genome-Annotation-Data-START## Annotation Provider :: NCBI Annotation Status :: Updated annotation Annotation Name :: Homo sapiens Updated Annotation Release 109.20191205 Annotation Version :: 109.20191205 Annotation Pipeline :: NCBI eukaryotic genome annotation pipeline Annotation Software Version :: 8.3 Annotation Method :: Best-placed RefSeq; propagated RefSeq model Features Annotated :: Gene; mRNA; CDS; ncRNA ##Genome-Annotation-Data-END##

    1
    61
    121
    181
    241
    301
    361
    421
    481
    541
    601
    661
    721
    781
    841
    901
    961
    1021
    1081
    1141
    1201
    1261
    1321
    1381
    1441
    1501
    1561
    1621
    1681
    1741
    1801
    1861
    1921
    1981
    2041
    2101
    2161
    2221
    2281
    2341
    2401
    2461
    2521
    2581
    2641
    2701
    2761
    2821
    2881
    2941
    3001
    3061
    3121
    3181
    3241
    3301
    3361
    3421
    3481
    3541
    3601
    3661
    3721
    3781
    3841
    3901
    3961
    4021
    4081
    4141
    4201
    4261
    4321
    4381
    4441
    4501
    ATGTGGCCAT CGCAGCTACT AATTTTCATG ATGCTCTTAG CTCCAATAAT TCATGCTTTC 
    AGCCGTGCCC CAATTCCAAT GGCTGTGGTC CGCAGAGAGC TATCCTGTGA GAGCTATCCT
    ATAGAGCTTC GCTGTCCAGG AACAGACGTC ATCATGATAG AAAGTGCCAA CTATGGCAGG
    ACTGATGACA AAATTTGTGA CTCTGACCCT GCTCAGATGG AGAATATCCG ATGTTATCTG
    CCAGATGCCT ATAAGATTAT GTCTCAAAGA TGCAATAACA GAACCCAGTG TGCAGTGGTG
    GCAGGTCCTG ATGTTTTTCC AGACCCGTGT CCAGGAACCT ATAAATACCT TGAAGTGCAG
    TATGAATGTG TCCCTTACAA AGTGGAACAA AAAGTTTTTC TTTGTCCTGG ACTACTAAAA
    GGAGTATACC AGAGTGAACA TTTGTTTGAG TCCGACCACC AATCTGGGGC GTGGTGCAAA
    GACCCTCTGC AGGCATCTGA CAAGATTTAT TATATGCCCT GGACTCCCTA CAGAACTGAT
    ACCCTGACTG AGTATTCATC CAAGGATGAC TTCATTGCTG GAAGACCAAC TACAACCTAC
    AAGCTCCCTC ACAGGGTGGA TGGCACAGGA TTTGTAGTGT ATGATGGAGC TTTGTTCTTC
    AACAAAGAGC GCACCAGGAA CATAGTAAAG TTTGATTTGC GGACTAGGAT AAAGAGTGGA
    GAGGCTATCA TAGCAAATGC CAATTACCAT GATACCTCCC CTTACCGATG GGGAGGCAAA
    TCTGACATAG ACCTGGCAGT AGATGAGAAT GGGCTATGGG TAATCTATGC AACAGAACAA
    AACAATGGTA AAATTGTCAT TAGTCAATTG AACCCTTACA CCCTACGGAT CGAAGGAACA
    TGGGATACTG CATATGATAA AAGGTCAGCT TCCAATGCCT TTATGATTTG TGGAATTCTG
    TATGTGGTCA AATCTGTATA TGAGGATGAT GACAATGAGG CTACTGGAAA TAAGATTGAC
    TACATTTACA ACACTGACCA AAGCAAGGAT AGTTTGGTGG ATGTACCCTT TCCTAATTCA
    TACCAGTACA TTGCAGCTGT GGATTACAAC CCCAGGGACA ACCTACTTTA TGTATGGAAT
    AACTATCACG TCGTGAAATA TTCTTTGGAT TTTGGACCTC TGGATAGTAG ATCAGGGCAG
    GCACATCATG GACAAGTTTC ATACATTTCT CCGCCAATTC ACCTTGACTC TGAGCTAGAA
    AGACCCTCTG TTAAAGATAT CTCTACCACA GGACCTCTTG GCATGGGAAG CACTACCACC
    AGTACCACCC TTCGGACCAC AACTTTGAGC CCAGGAAGGA GTACCACCCC GTCAGTGTCA
    GGAAGAAGAA ACCGGAGTAC TAGTACCCCA TCTCCAGCTG TCGAGGTACT TGATGACATG
    ACCACACACC TTCCATCAGC ATCGTCCCAA ATCCCAGCTC TCGAAGAGAG CTGTGAGGCT
    GTGGAAGCCC GAGAAATCAT GTGGTTTAAG ACTCGTCAAG GACAGATAGC AAAGCAGCCA
    TGCCCTGCAG GAACTATAGG TGTATCAACT TATCTATGCC TTGCTCCTGA TGGAATTTGG
    GATCCCCAAG GTCCAGATCT CAGCAACTGT TCTTCTCCTT GGGTCAATCA TATAACACAG
    AAGTTGAAAT CTGGTGAAAC AGCTGCCAAC ATTGCTAGAG AGCTGGCTGA ACAGACAAGA
    AATCACTTGA ATGCTGGGGA CATCACCTAC TCTGTCCGGG CCATGGACCA GCTGGTAGGC
    CTCCTAGATG TACAGCTTCG GAACTTGACC CCAGGTGGAA AAGATAGTGC TGCCCGGAGT
    TTGAACAAGC TTCAGAAAAG AGAGCGCTCT TGCAGAGCCT ATGTCCAGGC AATGGTCGAG
    ACAGTTAACA ACCTCCTTCA GCCACAAGCT TTGAATGCAT GGAGAGACCT GACTACGAGT
    GATCAGCTGC GTGCGGCCAC CATGTTGCTT CATACTGTGG AGGAAAGTGC TTTTGTGCTG
    GCTGATAACC TTTTGAAGAC TGACATTGTC AGGGAGAATA CAGACAATAT TAAATTGGAA
    GTTGCAAGAC TGAGCACAGA AGGAAACTTA GAAGACCTAA AATTTCCAGA AAACATGGGC
    CATGGAAGCA CTATCCAGCT GTCTGCAAAT ACCTTAAAGC AAAATGGCCG AAATGGAGAG
    ATCAGAGTGG CCTTTGTCCT GTATAACAAC TTGGGTCCTT ATTTATCCAC GGAGAATGCC
    AGTATGAAGT TGGGAACGGA AGCTTTGTCC ACAAATCATT CTGTTATTGT CAATTCCCCT
    GTTATTACGG CAGCAATAAA CAAAGAGTTC AGTAACAAGG TTTATTTGGC TGATCCTGTG
    GTATTTACTG TTAAACATAT CAAGCAGTCA GAGGAAAATT TCAACCCTAA CTGTTCATTT
    TGGAGCTACT CCAAGCGTAC AATGACAGGT TATTGGTCAA CACAAGGCTG TCGGCTCCTG
    ACAACAAATA AGACACATAC TACATGCTCT TGTAACCACC TAACAAATTT TGCAGTACTG
    ATGGCACATG TGGAAGTTAA GCACAGTGAT GCGGTCCATG ACCTCCTTCT GGATGTGATC
    ACGTGGGTTG GAATTTTGCT GTCCCTTGTT TGTCTCCTGA TTTGCATCTT CACATTTTGC
    TTTTTCCGGG GGCTCCAGAG TGACCGTAAC ACCATCCACA AGAACCTCTG CATCAGTCTC
    TTTGTAGCAG AGCTGCTCTT CCTGATTGGG ATCAACCGAA CTGACCAACC AATTGCCTGT
    GCTGTTTTCG CTGCCCTGTT ACATTTCTTC TTCTTGGCTG CCTTCACCTG GATGTTCCTG
    GAGGGGGTGC AGCTTTATAT CATGCTGGTG GAGGTTTTTG AGAGTGAACA TTCACGTAGG
    AAATACTTTT ATCTGGTCGG CTATGGGATG CCTGCACTCA TTGTGGCTGT GTCAGCTGCA
    GTAGACTACA GGAGTTATGG AACAGATAAA GTATGTTGGC TCCGACTTGA CACCTACTTC
    ATTTGGAGTT TTATAGGACC AGCAACTTTG ATAATTATGC TTAATGTAAT CTTCCTTGGG
    ATTGCTTTAT ATAAAATGTT TCATCATACT GCTATACTGA AACCTGAATC AGGCTGTCTT
    GATAACATCA ACTATGAGGA TAACAGACCC TTCATCAAGT CATGGGTTAT AGGTGCAATA
    GCTCTTCTCT GCCTATTAGG ATTGACCTGG GCCTTTGGAC TCATGTATAT TAATGAAAGC
    ACAGTCATCA TGGCCTATCT CTTCACCATT TTCAATTCTC TACAGGGAAT GTTTATATTT
    ATTTTCCATT GTGTCCTACA GAAGAAGGTA CGAAAAGAGT ATGGGAAATG CCTGCGAACA
    CATTGCTGTA GTGGCAAAAG TACAGAGAGT TCCATTGGTT CAGGGAAAAC ATCTGGTTCT
    CGAACTCCTG GACGCTACTC CACAGGCTCA CAGAGCCGAA TCCGTAGAAT GTGGAATGAC
    ACGGTTCGAA AGCAGTCAGA GTCTTCCTTT ATTACTGGAG ACATAAACAG TTCAGCGTCA
    CTCAACAGAG GAGCCATGGC TAATCATCTT ATAAGCAATG CTCTGCTTCG TCCGCATGGT
    ACTAACAATC CCTATAATAC ATTGCTTGGG GAACCGGCGG TCTGTAACAA CCCTTCTGTC
    AGCATGTACA ACGCACAAGA GCCCTACAGA GAGACAAAGG GGCTTCTGAA CAATGCCAGG
    GATACAAGTG TCATGGATAC TCTACCACTG AATGGTAACC ATGGCAATAG TTACAGCATT
    GCCAGCGGCG AATACCTGAG CAACTGTGTG CAAATCATAG ACCGTGGCTA TAACCATAAC
    GAGACCGCCC TAGAGAAAAA GATTCTGAAG GAACTCACTT CCAACTATAT CCCTTCTTAC
    CTGAACAACC ATGAGCGCTC CAGTGAACAG AACAGGAATC TGATGAACAA GCTGGTGAAT
    AACCTTGGCA GTGGAAGGGA AGATGATGCC ATTGTCCTGG ATGATGCCAC CTCGTTTAAC
    CACGAGGAGA GTTTGGGCCT GGAACTCATT CATGAGGAAT CTGATGCTCC TTTGCTGCCC
    CCAAGAGTAT ACTCCACCGA GAACCACCAG CCACACCATT ATACCAGAAG GCGGATCCCC
    CAAGACCACA GTGAGAGCTT TTTCCCTTTG CTAACCAACG AGCACACAGA AGATCTCCAG
    TCACCCCATA GAGACTCTCT CTATACCAGC ATGCCGACAC TGGCTGGTGT GGCCGCCACA
    GAGAGTGTTA CCACCAGCAC CCAGACCGAA CCCCCACCGG CCAAATGTGG TGATGCCGAA
    GATGTTTACT ACAAAAGCAT GCCAAACCTA GGCTCCAGAA ACCACGTCCA TCAGCTGCAT
    ACTTACTACC AGCTAGGTCG CGGCAGCAGT GATGGATTTA TAGTTCCTCC AAACAAAGAT
    GGGACCCCTC CCGAGGGAAG TTCAAAAGGA CCGGCTCATT TGGTCACTAG TCTATAG

    The stop codons will be deleted if pcDNA3.1+/C-(K)DYK vector is selected.

    RefSeq XP_016863426.1
    CDS2013..6569
    Translation

    Target ORF information:

    RefSeq Version XM_017007937.1
    Organism Homo sapiens(human)
    Definition Homo sapiens adhesion G protein-coupled receptor L3 (ADGRL3), transcript variant X10, mRNA.

    Target ORF information:

    Epitope DYKDDDDK
    Bacterial selection AMPR
    Mammalian selection NeoR
    Vector pcDNA3.1+/C-(K)DYK
    XM_017007937.1

    ORF Insert Sequence:

    1
    61
    121
    181
    241
    301
    361
    421
    481
    541
    601
    661
    721
    781
    841
    901
    961
    1021
    1081
    1141
    1201
    1261
    1321
    1381
    1441
    1501
    1561
    1621
    1681
    1741
    1801
    1861
    1921
    1981
    2041
    2101
    2161
    2221
    2281
    2341
    2401
    2461
    2521
    2581
    2641
    2701
    2761
    2821
    2881
    2941
    3001
    3061
    3121
    3181
    3241
    3301
    3361
    3421
    3481
    3541
    3601
    3661
    3721
    3781
    3841
    3901
    3961
    4021
    4081
    4141
    4201
    4261
    4321
    4381
    4441
    4501
    ATGTGGCCAT CGCAGCTACT AATTTTCATG ATGCTCTTAG CTCCAATAAT TCATGCTTTC 
    AGCCGTGCCC CAATTCCAAT GGCTGTGGTC CGCAGAGAGC TATCCTGTGA GAGCTATCCT
    ATAGAGCTTC GCTGTCCAGG AACAGACGTC ATCATGATAG AAAGTGCCAA CTATGGCAGG
    ACTGATGACA AAATTTGTGA CTCTGACCCT GCTCAGATGG AGAATATCCG ATGTTATCTG
    CCAGATGCCT ATAAGATTAT GTCTCAAAGA TGCAATAACA GAACCCAGTG TGCAGTGGTG
    GCAGGTCCTG ATGTTTTTCC AGACCCGTGT CCAGGAACCT ATAAATACCT TGAAGTGCAG
    TATGAATGTG TCCCTTACAA AGTGGAACAA AAAGTTTTTC TTTGTCCTGG ACTACTAAAA
    GGAGTATACC AGAGTGAACA TTTGTTTGAG TCCGACCACC AATCTGGGGC GTGGTGCAAA
    GACCCTCTGC AGGCATCTGA CAAGATTTAT TATATGCCCT GGACTCCCTA CAGAACTGAT
    ACCCTGACTG AGTATTCATC CAAGGATGAC TTCATTGCTG GAAGACCAAC TACAACCTAC
    AAGCTCCCTC ACAGGGTGGA TGGCACAGGA TTTGTAGTGT ATGATGGAGC TTTGTTCTTC
    AACAAAGAGC GCACCAGGAA CATAGTAAAG TTTGATTTGC GGACTAGGAT AAAGAGTGGA
    GAGGCTATCA TAGCAAATGC CAATTACCAT GATACCTCCC CTTACCGATG GGGAGGCAAA
    TCTGACATAG ACCTGGCAGT AGATGAGAAT GGGCTATGGG TAATCTATGC AACAGAACAA
    AACAATGGTA AAATTGTCAT TAGTCAATTG AACCCTTACA CCCTACGGAT CGAAGGAACA
    TGGGATACTG CATATGATAA AAGGTCAGCT TCCAATGCCT TTATGATTTG TGGAATTCTG
    TATGTGGTCA AATCTGTATA TGAGGATGAT GACAATGAGG CTACTGGAAA TAAGATTGAC
    TACATTTACA ACACTGACCA AAGCAAGGAT AGTTTGGTGG ATGTACCCTT TCCTAATTCA
    TACCAGTACA TTGCAGCTGT GGATTACAAC CCCAGGGACA ACCTACTTTA TGTATGGAAT
    AACTATCACG TCGTGAAATA TTCTTTGGAT TTTGGACCTC TGGATAGTAG ATCAGGGCAG
    GCACATCATG GACAAGTTTC ATACATTTCT CCGCCAATTC ACCTTGACTC TGAGCTAGAA
    AGACCCTCTG TTAAAGATAT CTCTACCACA GGACCTCTTG GCATGGGAAG CACTACCACC
    AGTACCACCC TTCGGACCAC AACTTTGAGC CCAGGAAGGA GTACCACCCC GTCAGTGTCA
    GGAAGAAGAA ACCGGAGTAC TAGTACCCCA TCTCCAGCTG TCGAGGTACT TGATGACATG
    ACCACACACC TTCCATCAGC ATCGTCCCAA ATCCCAGCTC TCGAAGAGAG CTGTGAGGCT
    GTGGAAGCCC GAGAAATCAT GTGGTTTAAG ACTCGTCAAG GACAGATAGC AAAGCAGCCA
    TGCCCTGCAG GAACTATAGG TGTATCAACT TATCTATGCC TTGCTCCTGA TGGAATTTGG
    GATCCCCAAG GTCCAGATCT CAGCAACTGT TCTTCTCCTT GGGTCAATCA TATAACACAG
    AAGTTGAAAT CTGGTGAAAC AGCTGCCAAC ATTGCTAGAG AGCTGGCTGA ACAGACAAGA
    AATCACTTGA ATGCTGGGGA CATCACCTAC TCTGTCCGGG CCATGGACCA GCTGGTAGGC
    CTCCTAGATG TACAGCTTCG GAACTTGACC CCAGGTGGAA AAGATAGTGC TGCCCGGAGT
    TTGAACAAGC TTCAGAAAAG AGAGCGCTCT TGCAGAGCCT ATGTCCAGGC AATGGTCGAG
    ACAGTTAACA ACCTCCTTCA GCCACAAGCT TTGAATGCAT GGAGAGACCT GACTACGAGT
    GATCAGCTGC GTGCGGCCAC CATGTTGCTT CATACTGTGG AGGAAAGTGC TTTTGTGCTG
    GCTGATAACC TTTTGAAGAC TGACATTGTC AGGGAGAATA CAGACAATAT TAAATTGGAA
    GTTGCAAGAC TGAGCACAGA AGGAAACTTA GAAGACCTAA AATTTCCAGA AAACATGGGC
    CATGGAAGCA CTATCCAGCT GTCTGCAAAT ACCTTAAAGC AAAATGGCCG AAATGGAGAG
    ATCAGAGTGG CCTTTGTCCT GTATAACAAC TTGGGTCCTT ATTTATCCAC GGAGAATGCC
    AGTATGAAGT TGGGAACGGA AGCTTTGTCC ACAAATCATT CTGTTATTGT CAATTCCCCT
    GTTATTACGG CAGCAATAAA CAAAGAGTTC AGTAACAAGG TTTATTTGGC TGATCCTGTG
    GTATTTACTG TTAAACATAT CAAGCAGTCA GAGGAAAATT TCAACCCTAA CTGTTCATTT
    TGGAGCTACT CCAAGCGTAC AATGACAGGT TATTGGTCAA CACAAGGCTG TCGGCTCCTG
    ACAACAAATA AGACACATAC TACATGCTCT TGTAACCACC TAACAAATTT TGCAGTACTG
    ATGGCACATG TGGAAGTTAA GCACAGTGAT GCGGTCCATG ACCTCCTTCT GGATGTGATC
    ACGTGGGTTG GAATTTTGCT GTCCCTTGTT TGTCTCCTGA TTTGCATCTT CACATTTTGC
    TTTTTCCGGG GGCTCCAGAG TGACCGTAAC ACCATCCACA AGAACCTCTG CATCAGTCTC
    TTTGTAGCAG AGCTGCTCTT CCTGATTGGG ATCAACCGAA CTGACCAACC AATTGCCTGT
    GCTGTTTTCG CTGCCCTGTT ACATTTCTTC TTCTTGGCTG CCTTCACCTG GATGTTCCTG
    GAGGGGGTGC AGCTTTATAT CATGCTGGTG GAGGTTTTTG AGAGTGAACA TTCACGTAGG
    AAATACTTTT ATCTGGTCGG CTATGGGATG CCTGCACTCA TTGTGGCTGT GTCAGCTGCA
    GTAGACTACA GGAGTTATGG AACAGATAAA GTATGTTGGC TCCGACTTGA CACCTACTTC
    ATTTGGAGTT TTATAGGACC AGCAACTTTG ATAATTATGC TTAATGTAAT CTTCCTTGGG
    ATTGCTTTAT ATAAAATGTT TCATCATACT GCTATACTGA AACCTGAATC AGGCTGTCTT
    GATAACATCA ACTATGAGGA TAACAGACCC TTCATCAAGT CATGGGTTAT AGGTGCAATA
    GCTCTTCTCT GCCTATTAGG ATTGACCTGG GCCTTTGGAC TCATGTATAT TAATGAAAGC
    ACAGTCATCA TGGCCTATCT CTTCACCATT TTCAATTCTC TACAGGGAAT GTTTATATTT
    ATTTTCCATT GTGTCCTACA GAAGAAGGTA CGAAAAGAGT ATGGGAAATG CCTGCGAACA
    CATTGCTGTA GTGGCAAAAG TACAGAGAGT TCCATTGGTT CAGGGAAAAC ATCTGGTTCT
    CGAACTCCTG GACGCTACTC CACAGGCTCA CAGAGCCGAA TCCGTAGAAT GTGGAATGAC
    ACGGTTCGAA AGCAGTCAGA GTCTTCCTTT ATTACTGGAG ACATAAACAG TTCAGCGTCA
    CTCAACAGAG GAGCCATGGC TAATCATCTT ATAAGCAATG CTCTGCTTCG TCCGCATGGT
    ACTAACAATC CCTATAATAC ATTGCTTGGG GAACCGGCGG TCTGTAACAA CCCTTCTGTC
    AGCATGTACA ACGCACAAGA GCCCTACAGA GAGACAAAGG GGCTTCTGAA CAATGCCAGG
    GATACAAGTG TCATGGATAC TCTACCACTG AATGGTAACC ATGGCAATAG TTACAGCATT
    GCCAGCGGCG AATACCTGAG CAACTGTGTG CAAATCATAG ACCGTGGCTA TAACCATAAC
    GAGACCGCCC TAGAGAAAAA GATTCTGAAG GAACTCACTT CCAACTATAT CCCTTCTTAC
    CTGAACAACC ATGAGCGCTC CAGTGAACAG AACAGGAATC TGATGAACAA GCTGGTGAAT
    AACCTTGGCA GTGGAAGGGA AGATGATGCC ATTGTCCTGG ATGATGCCAC CTCGTTTAAC
    CACGAGGAGA GTTTGGGCCT GGAACTCATT CATGAGGAAT CTGATGCTCC TTTGCTGCCC
    CCAAGAGTAT ACTCCACCGA GAACCACCAG CCACACCATT ATACCAGAAG GCGGATCCCC
    CAAGACCACA GTGAGAGCTT TTTCCCTTTG CTAACCAACG AGCACACAGA AGATCTCCAG
    TCACCCCATA GAGACTCTCT CTATACCAGC ATGCCGACAC TGGCTGGTGT GGCCGCCACA
    GAGAGTGTTA CCACCAGCAC CCAGACCGAA CCCCCACCGG CCAAATGTGG TGATGCCGAA
    GATGTTTACT ACAAAAGCAT GCCAAACCTA GGCTCCAGAA ACCACGTCCA TCAGCTGCAT
    ACTTACTACC AGCTAGGTCG CGGCAGCAGT GATGGATTTA TAGTTCCTCC AAACAAAGAT
    GGGACCCCTC CCGAGGGAAG TTCAAAAGGA CCGGCTCATT TGGTCACTAG TCTATAG

    The stop codons will be deleted if pcDNA3.1+/C-(K)DYK vector is selected.

    CloneID OHu95007
    Clone ID Related Accession (Same CDS sequence) NM_001371343.1 , XM_017007938.1
    Accession Version XM_017007938.1 Latest version! Documents for ORF clone product in default vector
    Sequence Information ORF Nucleotide Sequence (Length: 4533bp)
    Protein sequence
    SNP
    Vector pcDNA3.1-C-(k)DYK or customized vector User Manual
    Clone information Clone Map MSDS
    Tag on pcDNA3.1+/C-(K)DYK C terminal DYKDDDDK tags
    ORF Insert Method CloneEZ™ Seamless cloning technology
    Insert Structure linear
    Update Date 2019-12-05
    Organism Homo sapiens(human)
    Product adhesion G protein-coupled receptor L3 isoform X11
    Comment Comment: MODEL REFSEQ: This record is predicted by automated computational analysis. This record is derived from a genomic sequence (NC_000004.12) annotated using gene prediction method: Gnomon, supported by mRNA and EST evidence. Also see: Documentation of NCBI's Annotation Process ##Genome-Annotation-Data-START## Annotation Provider :: NCBI Annotation Status :: Updated annotation Annotation Name :: Homo sapiens Updated Annotation Release 109.20191205 Annotation Version :: 109.20191205 Annotation Pipeline :: NCBI eukaryotic genome annotation pipeline Annotation Software Version :: 8.3 Annotation Method :: Best-placed RefSeq; propagated RefSeq model Features Annotated :: Gene; mRNA; CDS; ncRNA ##Genome-Annotation-Data-END##

    1
    61
    121
    181
    241
    301
    361
    421
    481
    541
    601
    661
    721
    781
    841
    901
    961
    1021
    1081
    1141
    1201
    1261
    1321
    1381
    1441
    1501
    1561
    1621
    1681
    1741
    1801
    1861
    1921
    1981
    2041
    2101
    2161
    2221
    2281
    2341
    2401
    2461
    2521
    2581
    2641
    2701
    2761
    2821
    2881
    2941
    3001
    3061
    3121
    3181
    3241
    3301
    3361
    3421
    3481
    3541
    3601
    3661
    3721
    3781
    3841
    3901
    3961
    4021
    4081
    4141
    4201
    4261
    4321
    4381
    4441
    4501
    ATGTGGCCAT CGCAGCTACT AATTTTCATG ATGCTCTTAG CTCCAATAAT TCATGGTGGC 
    AAGCACAGTG AACGACATCC TGCCCTTGCT GCTCCATTGC GACACGCTGA GCGCAGCCCA
    GGAGGCGCTC TTCCACCCAG ACATCTGCTT CAGCAGCCAG CTGCAGAGCG CACCGCTGCT
    CATCGTGGAC AAGGGCCCCG TGGAGCTACC AGAGGAGTTC GCGGTCCAGG TGCCCAAGGA
    GCACAGATTG CAGCGCAAGC TTTCAGCCGT GCCCCAATTC CAATGGCTGT GGTCCGCAGA
    GAGCTATCCT GTGAGAGCTA TCCTATAGAG CTTCGCTGTC CAGGAACAGA CGTCATCATG
    ATAGAAAGTG CCAACTATGG CAGGACTGAT GACAAAATTT GTGACTCTGA CCCTGCTCAG
    ATGGAGAATA TCCGATGTTA TCTGCCAGAT GCCTATAAGA TTATGTCTCA AAGATGCAAT
    AACAGAACCC AGTGTGCAGT GGTGGCAGGT CCTGATGTTT TTCCAGACCC GTGTCCAGGA
    ACCTATAAAT ACCTTGAAGT GCAGTATGAA TGTGTCCCTT ACAAAGTGGA ACAAAAAGTT
    TTTCTTTGTC CTGGACTACT AAAAGGAGTA TACCAGAGTG AACATTTGTT TGAGTCCGAC
    CACCAATCTG GGGCGTGGTG CAAAGACCCT CTGCAGGCAT CTGACAAGAT TTATTATATG
    CCCTGGACTC CCTACAGAAC TGATACCCTG ACTGAGTATT CATCCAAGGA TGACTTCATT
    GCTGGAAGAC CAACTACAAC CTACAAGCTC CCTCACAGGG TGGATGGCAC AGGATTTGTA
    GTGTATGATG GAGCTTTGTT CTTCAACAAA GAGCGCACCA GGAACATAGT AAAGTTTGAT
    TTGCGGACTA GGATAAAGAG TGGAGAGGCT ATCATAGCAA ATGCCAATTA CCATGATACC
    TCCCCTTACC GATGGGGAGG CAAATCTGAC ATAGACCTGG CAGTAGATGA GAATGGGCTA
    TGGGTAATCT ATGCAACAGA ACAAAACAAT GGTAAAATTG TCATTAGTCA ATTGAACCCT
    TACACCCTAC GGATCGAAGG AACATGGGAT ACTGCATATG ATAAAAGGTC AGCTTCCAAT
    GCCTTTATGA TTTGTGGAAT TCTGTATGTG GTCAAATCTG TATATGAGGA TGATGACAAT
    GAGGCTACTG GAAATAAGAT TGACTACATT TACAACACTG ACCAAAGCAA GGATAGTTTG
    GTGGATGTAC CCTTTCCTAA TTCATACCAG TACATTGCAG CTGTGGATTA CAACCCCAGG
    GACAACCTAC TTTATGTATG GAATAACTAT CACGTCGTGA AATATTCTTT GGATTTTGGA
    CCTCTGGATA GTAGATCAGG GCAGGCACAT CATGGACAAG TTTCATACAT TTCTCCGCCA
    ATTCACCTTG ACTCTGAGCT AGAAAGACCC TCTGTTAAAG GACCTCTTGG CATGGGAAGC
    ACTACCACCA GTACCACCCT TCGGACCACA ACTTTGAGCC CAGGAAGGAG TACCACCCCG
    TCAGTGTCAG GAAGAAGAAA CCGGAGTACT AGTACCCCAT CTCCAGCTGT CGAGGTACTT
    GATGACATGA CCACACACCT TCCATCAGCA TCGTCCCAAA TCCCAGCTCT CGAAGAGAGC
    TGTGAGGCTG TGGAAGCCCG AGAAATCATG TGGTTTAAGA CTCGTCAAGG ACAGATAGCA
    AAGCAGCCAT GCCCTGCAGG AACTATAGGT GTATCAACTT ATCTATGCCT TGCTCCTGAT
    GGAATTTGGG ATCCCCAAGG TCCAGATCTC AGCAACTGTT CTTCTCCTTG GGTCAATCAT
    ATAACACAGA AGTTGAAATC TGGTGAAACA GCTGCCAACA TTGCTAGAGA GCTGGCTGAA
    CAGACAAGAA ATCACTTGAA TGCTGGGGAC ATCACCTACT CTGTCCGGGC CATGGACCAG
    CTGGTAGGCC TCCTAGATGT ACAGCTTCGG AACTTGACCC CAGGTGGAAA AGATAGTGCT
    GCCCGGAGTT TGAACAAGGC AATGGTCGAG ACAGTTAACA ACCTCCTTCA GCCACAAGCT
    TTGAATGCAT GGAGAGACCT GACTACGAGT GATCAGCTGC GTGCGGCCAC CATGTTGCTT
    CATACTGTGG AGGAAAGTGC TTTTGTGCTG GCTGATAACC TTTTGAAGAC TGACATTGTC
    AGGGAGAATA CAGACAATAT TAAATTGGAA GTTGCAAGAC TGAGCACAGA AGGAAACTTA
    GAAGACCTAA AATTTCCAGA AAACATGGGC CATGGAAGCA CTATCCAGCT GTCTGCAAAT
    ACCTTAAAGC AAAATGGCCG AAATGGAGAG ATCAGAGTGG CCTTTGTCCT GTATAACAAC
    TTGGGTCCTT ATTTATCCAC GGAGAATGCC AGTATGAAGT TGGGAACGGA AGCTTTGTCC
    ACAAATCATT CTGTTATTGT CAATTCCCCT GTTATTACGG CAGCAATAAA CAAAGAGTTC
    AGTAACAAGG TTTATTTGGC TGATCCTGTG GTATTTACTG TTAAACATAT CAAGCAGTCA
    GAGGAAAATT TCAACCCTAA CTGTTCATTT TGGAGCTACT CCAAGCGTAC AATGACAGGT
    TATTGGTCAA CACAAGGCTG TCGGCTCCTG ACAACAAATA AGACACATAC TACATGCTCT
    TGTAACCACC TAACAAATTT TGCAGTACTG ATGGCACATG TGGAAGTTAA GCACAGTGAT
    GCGGTCCATG ACCTCCTTCT GGATGTGATC ACGTGGGTTG GAATTTTGCT GTCCCTTGTT
    TGTCTCCTGA TTTGCATCTT CACATTTTGC TTTTTCCGGG GGCTCCAGAG TGACCGTAAC
    ACCATCCACA AGAACCTCTG CATCAGTCTC TTTGTAGCAG AGCTGCTCTT CCTGATTGGG
    ATCAACCGAA CTGACCAACC AATTGCCTGT GCTGTTTTCG CTGCCCTGTT ACATTTCTTC
    TTCTTGGCTG CCTTCACCTG GATGTTCCTG GAGGGGGTGC AGCTTTATAT CATGCTGGTG
    GAGGTTTTTG AGAGTGAACA TTCACGTAGG AAATACTTTT ATCTGGTCGG CTATGGGATG
    CCTGCACTCA TTGTGGCTGT GTCAGCTGCA GTAGACTACA GGAGTTATGG AACAGATAAA
    GTATGTTGGC TCCGACTTGA CACCTACTTC ATTTGGAGTT TTATAGGACC AGCAACTTTG
    ATAATTATGC TTAATGTAAT CTTCCTTGGG ATTGCTTTAT ATAAAATGTT TCATCATACT
    GCTATACTGA AACCTGAATC AGGCTGTCTT GATAACATCA AGTCATGGGT TATAGGTGCA
    ATAGCTCTTC TCTGCCTATT AGGATTGACC TGGGCCTTTG GACTCATGTA TATTAATGAA
    AGCACAGTCA TCATGGCCTA TCTCTTCACC ATTTTCAATT CTCTACAGGG AATGTTTATA
    TTTATTTTCC ATTGTGTCCT ACAGAAGAAG GTACGAAAAG AGTATGGGAA ATGCCTGCGA
    ACACATTGCT GTAGTGGCAA AAGTACAGAG AGTTCCATTG GTTCAGGGAA AACATCTGGT
    TCTCGAACTC CTGGACGCTA CTCCACAGGC TCACAGAGCC GAATCCGTAG AATGTGGAAT
    GACACGGTTC GAAAGCAGTC AGAGTCTTCC TTTATTACTG GAGACATAAA CAGTTCAGCG
    TCACTCAACA GAGAGGGGCT TCTGAACAAT GCCAGGGATA CAAGTGTCAT GGATACTCTA
    CCACTGAATG GTAACCATGG CAATAGTTAC AGCATTGCCA GCGGCGAATA CCTGAGCAAC
    TGTGTGCAAA TCATAGACCG TGGCTATAAC CATAACGAGA CCGCCCTAGA GAAAAAGATT
    CTGAAGGAAC TCACTTCCAA CTATATCCCT TCTTACCTGA ACAACCATGA GCGCTCCAGT
    GAACAGAACA GGAATCTGAT GAACAAGCTG GTGAATAACC TTGGCAGTGG AAGGGAAGAT
    GATGCCATTG TCCTGGATGA TGCCACCTCG TTTAACCACG AGGAGAGTTT GGGCCTGGAA
    CTCATTCATG AGGAATCTGA TGCTCCTTTG CTGCCCCCAA GAGTATACTC CACCGAGAAC
    CACCAGCCAC ACCATTATAC CAGAAGGCGG ATCCCCCAAG ACCACAGTGA GAGCTTTTTC
    CCTTTGCTAA CCAACGAGCA CACAGAAGAT CTCCAGTCAC CCCATAGAGA CTCTCTCTAT
    ACCAGCATGC CGACACTGGC TGGTGTGGCC GCCACAGAGA GTGTTACCAC CAGCACCCAG
    ACCGAACCCC CACCGGCCAA ATGTGGTGAT GCCGAAGATG TTTACTACAA AAGCATGCCA
    AACCTAGGCT CCAGAAACCA CGTCCATCAG CTGCATACTT ACTACCAGCT AGGTCGCGGC
    AGCAGTGATG GATTTATAGT TCCTCCAAAC AAAGATGGGA CCCCTCCCGA GGGAAGTTCA
    AAAGGACCGG CTCATTTGGT CACTAGTCTA TAG

    The stop codons will be deleted if pcDNA3.1+/C-(K)DYK vector is selected.

    RefSeq XP_016863427.1
    CDS288..4820
    Translation

    Target ORF information:

    RefSeq Version XM_017007938.1
    Organism Homo sapiens(human)
    Definition Homo sapiens adhesion G protein-coupled receptor L3 (ADGRL3), transcript variant X12, mRNA.

    Target ORF information:

    Epitope DYKDDDDK
    Bacterial selection AMPR
    Mammalian selection NeoR
    Vector pcDNA3.1+/C-(K)DYK
    XM_017007938.1

    ORF Insert Sequence:

    1
    61
    121
    181
    241
    301
    361
    421
    481
    541
    601
    661
    721
    781
    841
    901
    961
    1021
    1081
    1141
    1201
    1261
    1321
    1381
    1441
    1501
    1561
    1621
    1681
    1741
    1801
    1861
    1921
    1981
    2041
    2101
    2161
    2221
    2281
    2341
    2401
    2461
    2521
    2581
    2641
    2701
    2761
    2821
    2881
    2941
    3001
    3061
    3121
    3181
    3241
    3301
    3361
    3421
    3481
    3541
    3601
    3661
    3721
    3781
    3841
    3901
    3961
    4021
    4081
    4141
    4201
    4261
    4321
    4381
    4441
    4501
    ATGTGGCCAT CGCAGCTACT AATTTTCATG ATGCTCTTAG CTCCAATAAT TCATGGTGGC 
    AAGCACAGTG AACGACATCC TGCCCTTGCT GCTCCATTGC GACACGCTGA GCGCAGCCCA
    GGAGGCGCTC TTCCACCCAG ACATCTGCTT CAGCAGCCAG CTGCAGAGCG CACCGCTGCT
    CATCGTGGAC AAGGGCCCCG TGGAGCTACC AGAGGAGTTC GCGGTCCAGG TGCCCAAGGA
    GCACAGATTG CAGCGCAAGC TTTCAGCCGT GCCCCAATTC CAATGGCTGT GGTCCGCAGA
    GAGCTATCCT GTGAGAGCTA TCCTATAGAG CTTCGCTGTC CAGGAACAGA CGTCATCATG
    ATAGAAAGTG CCAACTATGG CAGGACTGAT GACAAAATTT GTGACTCTGA CCCTGCTCAG
    ATGGAGAATA TCCGATGTTA TCTGCCAGAT GCCTATAAGA TTATGTCTCA AAGATGCAAT
    AACAGAACCC AGTGTGCAGT GGTGGCAGGT CCTGATGTTT TTCCAGACCC GTGTCCAGGA
    ACCTATAAAT ACCTTGAAGT GCAGTATGAA TGTGTCCCTT ACAAAGTGGA ACAAAAAGTT
    TTTCTTTGTC CTGGACTACT AAAAGGAGTA TACCAGAGTG AACATTTGTT TGAGTCCGAC
    CACCAATCTG GGGCGTGGTG CAAAGACCCT CTGCAGGCAT CTGACAAGAT TTATTATATG
    CCCTGGACTC CCTACAGAAC TGATACCCTG ACTGAGTATT CATCCAAGGA TGACTTCATT
    GCTGGAAGAC CAACTACAAC CTACAAGCTC CCTCACAGGG TGGATGGCAC AGGATTTGTA
    GTGTATGATG GAGCTTTGTT CTTCAACAAA GAGCGCACCA GGAACATAGT AAAGTTTGAT
    TTGCGGACTA GGATAAAGAG TGGAGAGGCT ATCATAGCAA ATGCCAATTA CCATGATACC
    TCCCCTTACC GATGGGGAGG CAAATCTGAC ATAGACCTGG CAGTAGATGA GAATGGGCTA
    TGGGTAATCT ATGCAACAGA ACAAAACAAT GGTAAAATTG TCATTAGTCA ATTGAACCCT
    TACACCCTAC GGATCGAAGG AACATGGGAT ACTGCATATG ATAAAAGGTC AGCTTCCAAT
    GCCTTTATGA TTTGTGGAAT TCTGTATGTG GTCAAATCTG TATATGAGGA TGATGACAAT
    GAGGCTACTG GAAATAAGAT TGACTACATT TACAACACTG ACCAAAGCAA GGATAGTTTG
    GTGGATGTAC CCTTTCCTAA TTCATACCAG TACATTGCAG CTGTGGATTA CAACCCCAGG
    GACAACCTAC TTTATGTATG GAATAACTAT CACGTCGTGA AATATTCTTT GGATTTTGGA
    CCTCTGGATA GTAGATCAGG GCAGGCACAT CATGGACAAG TTTCATACAT TTCTCCGCCA
    ATTCACCTTG ACTCTGAGCT AGAAAGACCC TCTGTTAAAG GACCTCTTGG CATGGGAAGC
    ACTACCACCA GTACCACCCT TCGGACCACA ACTTTGAGCC CAGGAAGGAG TACCACCCCG
    TCAGTGTCAG GAAGAAGAAA CCGGAGTACT AGTACCCCAT CTCCAGCTGT CGAGGTACTT
    GATGACATGA CCACACACCT TCCATCAGCA TCGTCCCAAA TCCCAGCTCT CGAAGAGAGC
    TGTGAGGCTG TGGAAGCCCG AGAAATCATG TGGTTTAAGA CTCGTCAAGG ACAGATAGCA
    AAGCAGCCAT GCCCTGCAGG AACTATAGGT GTATCAACTT ATCTATGCCT TGCTCCTGAT
    GGAATTTGGG ATCCCCAAGG TCCAGATCTC AGCAACTGTT CTTCTCCTTG GGTCAATCAT
    ATAACACAGA AGTTGAAATC TGGTGAAACA GCTGCCAACA TTGCTAGAGA GCTGGCTGAA
    CAGACAAGAA ATCACTTGAA TGCTGGGGAC ATCACCTACT CTGTCCGGGC CATGGACCAG
    CTGGTAGGCC TCCTAGATGT ACAGCTTCGG AACTTGACCC CAGGTGGAAA AGATAGTGCT
    GCCCGGAGTT TGAACAAGGC AATGGTCGAG ACAGTTAACA ACCTCCTTCA GCCACAAGCT
    TTGAATGCAT GGAGAGACCT GACTACGAGT GATCAGCTGC GTGCGGCCAC CATGTTGCTT
    CATACTGTGG AGGAAAGTGC TTTTGTGCTG GCTGATAACC TTTTGAAGAC TGACATTGTC
    AGGGAGAATA CAGACAATAT TAAATTGGAA GTTGCAAGAC TGAGCACAGA AGGAAACTTA
    GAAGACCTAA AATTTCCAGA AAACATGGGC CATGGAAGCA CTATCCAGCT GTCTGCAAAT
    ACCTTAAAGC AAAATGGCCG AAATGGAGAG ATCAGAGTGG CCTTTGTCCT GTATAACAAC
    TTGGGTCCTT ATTTATCCAC GGAGAATGCC AGTATGAAGT TGGGAACGGA AGCTTTGTCC
    ACAAATCATT CTGTTATTGT CAATTCCCCT GTTATTACGG CAGCAATAAA CAAAGAGTTC
    AGTAACAAGG TTTATTTGGC TGATCCTGTG GTATTTACTG TTAAACATAT CAAGCAGTCA
    GAGGAAAATT TCAACCCTAA CTGTTCATTT TGGAGCTACT CCAAGCGTAC AATGACAGGT
    TATTGGTCAA CACAAGGCTG TCGGCTCCTG ACAACAAATA AGACACATAC TACATGCTCT
    TGTAACCACC TAACAAATTT TGCAGTACTG ATGGCACATG TGGAAGTTAA GCACAGTGAT
    GCGGTCCATG ACCTCCTTCT GGATGTGATC ACGTGGGTTG GAATTTTGCT GTCCCTTGTT
    TGTCTCCTGA TTTGCATCTT CACATTTTGC TTTTTCCGGG GGCTCCAGAG TGACCGTAAC
    ACCATCCACA AGAACCTCTG CATCAGTCTC TTTGTAGCAG AGCTGCTCTT CCTGATTGGG
    ATCAACCGAA CTGACCAACC AATTGCCTGT GCTGTTTTCG CTGCCCTGTT ACATTTCTTC
    TTCTTGGCTG CCTTCACCTG GATGTTCCTG GAGGGGGTGC AGCTTTATAT CATGCTGGTG
    GAGGTTTTTG AGAGTGAACA TTCACGTAGG AAATACTTTT ATCTGGTCGG CTATGGGATG
    CCTGCACTCA TTGTGGCTGT GTCAGCTGCA GTAGACTACA GGAGTTATGG AACAGATAAA
    GTATGTTGGC TCCGACTTGA CACCTACTTC ATTTGGAGTT TTATAGGACC AGCAACTTTG
    ATAATTATGC TTAATGTAAT CTTCCTTGGG ATTGCTTTAT ATAAAATGTT TCATCATACT
    GCTATACTGA AACCTGAATC AGGCTGTCTT GATAACATCA AGTCATGGGT TATAGGTGCA
    ATAGCTCTTC TCTGCCTATT AGGATTGACC TGGGCCTTTG GACTCATGTA TATTAATGAA
    AGCACAGTCA TCATGGCCTA TCTCTTCACC ATTTTCAATT CTCTACAGGG AATGTTTATA
    TTTATTTTCC ATTGTGTCCT ACAGAAGAAG GTACGAAAAG AGTATGGGAA ATGCCTGCGA
    ACACATTGCT GTAGTGGCAA AAGTACAGAG AGTTCCATTG GTTCAGGGAA AACATCTGGT
    TCTCGAACTC CTGGACGCTA CTCCACAGGC TCACAGAGCC GAATCCGTAG AATGTGGAAT
    GACACGGTTC GAAAGCAGTC AGAGTCTTCC TTTATTACTG GAGACATAAA CAGTTCAGCG
    TCACTCAACA GAGAGGGGCT TCTGAACAAT GCCAGGGATA CAAGTGTCAT GGATACTCTA
    CCACTGAATG GTAACCATGG CAATAGTTAC AGCATTGCCA GCGGCGAATA CCTGAGCAAC
    TGTGTGCAAA TCATAGACCG TGGCTATAAC CATAACGAGA CCGCCCTAGA GAAAAAGATT
    CTGAAGGAAC TCACTTCCAA CTATATCCCT TCTTACCTGA ACAACCATGA GCGCTCCAGT
    GAACAGAACA GGAATCTGAT GAACAAGCTG GTGAATAACC TTGGCAGTGG AAGGGAAGAT
    GATGCCATTG TCCTGGATGA TGCCACCTCG TTTAACCACG AGGAGAGTTT GGGCCTGGAA
    CTCATTCATG AGGAATCTGA TGCTCCTTTG CTGCCCCCAA GAGTATACTC CACCGAGAAC
    CACCAGCCAC ACCATTATAC CAGAAGGCGG ATCCCCCAAG ACCACAGTGA GAGCTTTTTC
    CCTTTGCTAA CCAACGAGCA CACAGAAGAT CTCCAGTCAC CCCATAGAGA CTCTCTCTAT
    ACCAGCATGC CGACACTGGC TGGTGTGGCC GCCACAGAGA GTGTTACCAC CAGCACCCAG
    ACCGAACCCC CACCGGCCAA ATGTGGTGAT GCCGAAGATG TTTACTACAA AAGCATGCCA
    AACCTAGGCT CCAGAAACCA CGTCCATCAG CTGCATACTT ACTACCAGCT AGGTCGCGGC
    AGCAGTGATG GATTTATAGT TCCTCCAAAC AAAGATGGGA CCCCTCCCGA GGGAAGTTCA
    AAAGGACCGG CTCATTTGGT CACTAGTCTA TAG

    The stop codons will be deleted if pcDNA3.1+/C-(K)DYK vector is selected.

    CloneID OHu19603
    Clone ID Related Accession (Same CDS sequence) XM_011531792.1 , NM_015236.5 , NM_015236.4 , NM_015236.6
    Accession Version NM_015236.5 Documents for ORF clone product in default vector
    Sequence Information ORF Nucleotide Sequence (Length: 4410bp)
    Protein sequence
    SNP
    Vector pcDNA3.1-C-(k)DYK or customized vector User Manual
    Clone information Clone Map MSDS
    Tag on pcDNA3.1+/C-(K)DYK C terminal DYKDDDDK tags
    ORF Insert Method CloneEZ™ Seamless cloning technology
    Insert Structure linear
    Update Date 2019-02-24
    Organism Homo sapiens(human)
    Product adhesion G protein-coupled receptor L3 isoform 2 precursor
    Comment Comment: REVIEWED REFSEQ: This record has been curated by NCBI staff. The reference sequence was derived from AK309793.1, AC092643.2, AF307080.1, AC108161.4, AC092663.2, AB018311.1, AC007511.8 and BF511741.1. This sequence is a reference standard in the RefSeqGene project. On or before Apr 11, 2016 this sequence version replaced XM_011531792.1, NM_015236.4. Transcript Variant: This variant (2) lacks an in-frame coding exon in the 5' region compared to variant 1. The resulting isoform (2) is shorter missing an internal protein segment compared to isoform 1. Sequence Note: This RefSeq record was created from transcript and genomic sequence data to make the sequence consistent with the reference genome assembly. The genomic coordinates used for the transcript record were based on transcript alignments. Publication Note: This RefSeq record includes a subset of the publications that are available for this gene. Please see the Gene record to access additional publications. ##Evidence-Data-START## Transcript exon combination :: SRR1803613.228925.1 [ECO:0000332] RNAseq introns :: single sample supports all introns SAMEA2145743, SAMEA2148093 [ECO:0000348] ##Evidence-Data-END## COMPLETENESS: complete on the 3' end.

    1
    61
    121
    181
    241
    301
    361
    421
    481
    541
    601
    661
    721
    781
    841
    901
    961
    1021
    1081
    1141
    1201
    1261
    1321
    1381
    1441
    1501
    1561
    1621
    1681
    1741
    1801
    1861
    1921
    1981
    2041
    2101
    2161
    2221
    2281
    2341
    2401
    2461
    2521
    2581
    2641
    2701
    2761
    2821
    2881
    2941
    3001
    3061
    3121
    3181
    3241
    3301
    3361
    3421
    3481
    3541
    3601
    3661
    3721
    3781
    3841
    3901
    3961
    4021
    4081
    4141
    4201
    4261
    4321
    4381
    ATGTGGCCAT CGCAGCTACT AATTTTCATG ATGCTCTTAG CTCCAATAAT TCATGCTTTC 
    AGCCGTGCCC CAATTCCAAT GGCTGTGGTC CGCAGAGAGC TATCCTGTGA GAGCTATCCT
    ATAGAGCTTC GCTGTCCAGG AACAGACGTC ATCATGATAG AAAGTGCCAA CTATGGCAGG
    ACTGATGACA AAATTTGTGA CTCTGACCCT GCTCAGATGG AGAATATCCG ATGTTATCTG
    CCAGATGCCT ATAAGATTAT GTCTCAAAGA TGCAATAACA GAACCCAGTG TGCAGTGGTG
    GCAGGTCCTG ATGTTTTTCC AGACCCGTGT CCAGGAACCT ATAAATACCT TGAAGTGCAG
    TATGAATGTG TCCCTTACAA AGTGGAACAA AAAGTTTTTC TTTGTCCTGG ACTACTAAAA
    GGAGTATACC AGAGTGAACA TTTGTTTGAG TCCGACCACC AATCTGGGGC GTGGTGCAAA
    GACCCTCTGC AGGCATCTGA CAAGATTTAT TATATGCCCT GGACTCCCTA CAGAACTGAT
    ACCCTGACTG AGTATTCATC CAAGGATGAC TTCATTGCTG GAAGACCAAC TACAACCTAC
    AAGCTCCCTC ACAGGGTGGA TGGCACAGGA TTTGTAGTGT ATGATGGAGC TTTGTTCTTC
    AACAAAGAGC GCACCAGGAA CATAGTAAAG TTTGATTTGC GGACTAGGAT AAAGAGTGGA
    GAGGCTATCA TAGCAAATGC CAATTACCAT GATACCTCCC CTTACCGATG GGGAGGCAAA
    TCTGACATAG ACCTGGCAGT AGATGAGAAT GGGCTATGGG TAATCTATGC AACAGAACAA
    AACAATGGTA AAATTGTCAT TAGTCAATTG AACCCTTACA CCCTACGGAT CGAAGGAACA
    TGGGATACTG CATATGATAA AAGGTCAGCT TCCAATGCCT TTATGATTTG TGGAATTCTG
    TATGTGGTCA AATCTGTATA TGAGGATGAT GACAATGAGG CTACTGGAAA TAAGATTGAC
    TACATTTACA ACACTGACCA AAGCAAGGAT AGTTTGGTGG ATGTACCCTT TCCTAATTCA
    TACCAGTACA TTGCAGCTGT GGATTACAAC CCCAGGGACA ACCTACTTTA TGTATGGAAT
    AACTATCACG TCGTGAAATA TTCTTTGGAT TTTGGACCTC TGGATAGTAG ATCAGGGCAG
    GCACATCATG GACAAGTTTC ATACATTTCT CCGCCAATTC ACCTTGACTC TGAGCTAGAA
    AGACCCTCTG TTAAAGATAT CTCTACCACA GGACCTCTTG GCATGGGAAG CACTACCACC
    AGTACCACCC TTCGGACCAC AACTTTGAGC CCAGGAAGGA GTACCACCCC GTCAGTGTCA
    GGAAGAAGAA ACCGGAGTAC TAGTACCCCA TCTCCAGCTG TCGAGGTACT TGATGACATG
    ACCACACACC TTCCATCAGC ATCGTCCCAA ATCCCAGCTC TCGAAGAGAG CTGTGAGGCT
    GTGGAAGCCC GAGAAATCAT GTGGTTTAAG ACTCGTCAAG GACAGATAGC AAAGCAGCCA
    TGCCCTGCAG GAACTATAGG TGTATCAACT TATCTATGCC TTGCTCCTGA TGGAATTTGG
    GATCCCCAAG GTCCAGATCT CAGCAACTGT TCTTCTCCTT GGGTCAATCA TATAACACAG
    AAGTTGAAAT CTGGTGAAAC AGCTGCCAAC ATTGCTAGAG AGCTGGCTGA ACAGACAAGA
    AATCACTTGA ATGCTGGGGA CATCACCTAC TCTGTCCGGG CCATGGACCA GCTGGTAGGC
    CTCCTAGATG TACAGCTTCG GAACTTGACC CCAGGTGGAA AAGATAGTGC TGCCCGGAGT
    TTGAACAAGC TTCAGAAAAG AGAGCGCTCT TGCAGAGCCT ATGTCCAGGC AATGGTCGAG
    ACAGTTAACA ACCTCCTTCA GCCACAAGCT TTGAATGCAT GGAGAGACCT GACTACGAGT
    GATCAGCTGC GTGCGGCCAC CATGTTGCTT CATACTGTGG AGGAAAGTGC TTTTGTGCTG
    GCTGATAACC TTTTGAAGAC TGACATTGTC AGGGAGAATA CAGACAATAT TAAATTGGAA
    GTTGCAAGAC TGAGCACAGA AGGAAACTTA GAAGACCTAA AATTTCCAGA AAACATGGGC
    CATGGAAGCA CTATCCAGCT GTCTGCAAAT ACCTTAAAGC AAAATGGCCG AAATGGAGAG
    ATCAGAGTGG CCTTTGTCCT GTATAACAAC TTGGGTCCTT ATTTATCCAC GGAGAATGCC
    AGTATGAAGT TGGGAACGGA AGCTTTGTCC ACAAATCATT CTGTTATTGT CAATTCCCCT
    GTTATTACGG CAGCAATAAA CAAAGAGTTC AGTAACAAGG TTTATTTGGC TGATCCTGTG
    GTATTTACTG TTAAACATAT CAAGCAGTCA GAGGAAAATT TCAACCCTAA CTGTTCATTT
    TGGAGCTACT CCAAGCGTAC AATGACAGGT TATTGGTCAA CACAAGGCTG TCGGCTCCTG
    ACAACAAATA AGACACATAC TACATGCTCT TGTAACCACC TAACAAATTT TGCAGTACTG
    ATGGCACATG TGGAAGTTAA GCACAGTGAT GCGGTCCATG ACCTCCTTCT GGATGTGATC
    ACGTGGGTTG GAATTTTGCT GTCCCTTGTT TGTCTCCTGA TTTGCATCTT CACATTTTGC
    TTTTTCCGGG GGCTCCAGAG TGACCGTAAC ACCATCCACA AGAACCTCTG CATCAGTCTC
    TTTGTAGCAG AGCTGCTCTT CCTGATTGGG ATCAACCGAA CTGACCAACC AATTGCCTGT
    GCTGTTTTCG CTGCCCTGTT ACATTTCTTC TTCTTGGCTG CCTTCACCTG GATGTTCCTG
    GAGGGGGTGC AGCTTTATAT CATGCTGGTG GAGGTTTTTG AGAGTGAACA TTCACGTAGG
    AAATACTTTT ATCTGGTCGG CTATGGGATG CCTGCACTCA TTGTGGCTGT GTCAGCTGCA
    GTAGACTACA GGAGTTATGG AACAGATAAA GTATGTTGGC TCCGACTTGA CACCTACTTC
    ATTTGGAGTT TTATAGGACC AGCAACTTTG ATAATTATGC TTAATGTAAT CTTCCTTGGG
    ATTGCTTTAT ATAAAATGTT TCATCATACT GCTATACTGA AACCTGAATC AGGCTGTCTT
    GATAACATCA ACTATGAGGA TAACAGACCC TTCATCAAGT CATGGGTTAT AGGTGCAATA
    GCTCTTCTCT GCCTATTAGG ATTGACCTGG GCCTTTGGAC TCATGTATAT TAATGAAAGC
    ACAGTCATCA TGGCCTATCT CTTCACCATT TTCAATTCTC TACAGGGAAT GTTTATATTT
    ATTTTCCATT GTGTCCTACA GAAGAAGGTA CGAAAAGAGT ATGGGAAATG CCTGCGAACA
    CATTGCTGTA GTGGCAAAAG TACAGAGAGT TCCATTGGTT CAGGGAAAAC ATCTGGTTCT
    CGAACTCCTG GACGCTACTC CACAGGCTCA CAGAGCCGAA TCCGTAGAAT GTGGAATGAC
    ACGGTTCGAA AGCAGTCAGA GTCTTCCTTT ATTACTGGAG ACATAAACAG TTCAGCGTCA
    CTCAACAGAG AGGGGCTTCT GAACAATGCC AGGGATACAA GTGTCATGGA TACTCTACCA
    CTGAATGGTA ACCATGGCAA TAGTTACAGC ATTGCCAGCG GCGAATACCT GAGCAACTGT
    GTGCAAATCA TAGACCGTGG CTATAACCAT AACGAGACCG CCCTAGAGAA AAAGATTCTG
    AAGGAACTCA CTTCCAACTA TATCCCTTCT TACCTGAACA ACCATGAGCG CTCCAGTGAA
    CAGAACAGGA ATCTGATGAA CAAGCTGGTG AATAACCTTG GCAGTGGAAG GGAAGATGAT
    GCCATTGTCC TGGATGATGC CACCTCGTTT AACCACGAGG AGAGTTTGGG CCTGGAACTC
    ATTCATGAGG AATCTGATGC TCCTTTGCTG CCCCCAAGAG TATACTCCAC CGAGAACCAC
    CAGCCACACC ATTATACCAG AAGGCGGATC CCCCAAGACC ACAGTGAGAG CTTTTTCCCT
    TTGCTAACCA ACGAGCACAC AGAAGATCTC CAGTCACCCC ATAGAGACTC TCTCTATACC
    AGCATGCCGA CACTGGCTGG TGTGGCCGCC ACAGAGAGTG TTACCACCAG CACCCAGACC
    GAACCCCCAC CGGCCAAATG TGGTGATGCC GAAGATGTTT ACTACAAAAG CATGCCAAAC
    CTAGGCTCCA GAAACCACGT CCATCAGCTG CATACTTACT ACCAGCTAGG TCGCGGCAGC
    AGTGATGGAT TTATAGTTCC TCCAAACAAA GATGGGACCC CTCCCGAGGG AAGTTCAAAA
    GGACCGGCTC ATTTGGTCAC TAGTCTATAG

    The stop codons will be deleted if pcDNA3.1+/C-(K)DYK vector is selected.

    RefSeq NP_056051.2
    CDS750..5159
    Translation

    Target ORF information:

    RefSeq Version NM_015236.5
    Organism Homo sapiens(human)
    Definition Homo sapiens adhesion G protein-coupled receptor L3 (ADGRL3), transcript variant 2, mRNA.

    Target ORF information:

    Epitope DYKDDDDK
    Bacterial selection AMPR
    Mammalian selection NeoR
    Vector pcDNA3.1+/C-(K)DYK
    NM_015236.5

    ORF Insert Sequence:

    1
    61
    121
    181
    241
    301
    361
    421
    481
    541
    601
    661
    721
    781
    841
    901
    961
    1021
    1081
    1141
    1201
    1261
    1321
    1381
    1441
    1501
    1561
    1621
    1681
    1741
    1801
    1861
    1921
    1981
    2041
    2101
    2161
    2221
    2281
    2341
    2401
    2461
    2521
    2581
    2641
    2701
    2761
    2821
    2881
    2941
    3001
    3061
    3121
    3181
    3241
    3301
    3361
    3421
    3481
    3541
    3601
    3661
    3721
    3781
    3841
    3901
    3961
    4021
    4081
    4141
    4201
    4261
    4321
    4381
    ATGTGGCCAT CGCAGCTACT AATTTTCATG ATGCTCTTAG CTCCAATAAT TCATGCTTTC 
    AGCCGTGCCC CAATTCCAAT GGCTGTGGTC CGCAGAGAGC TATCCTGTGA GAGCTATCCT
    ATAGAGCTTC GCTGTCCAGG AACAGACGTC ATCATGATAG AAAGTGCCAA CTATGGCAGG
    ACTGATGACA AAATTTGTGA CTCTGACCCT GCTCAGATGG AGAATATCCG ATGTTATCTG
    CCAGATGCCT ATAAGATTAT GTCTCAAAGA TGCAATAACA GAACCCAGTG TGCAGTGGTG
    GCAGGTCCTG ATGTTTTTCC AGACCCGTGT CCAGGAACCT ATAAATACCT TGAAGTGCAG
    TATGAATGTG TCCCTTACAA AGTGGAACAA AAAGTTTTTC TTTGTCCTGG ACTACTAAAA
    GGAGTATACC AGAGTGAACA TTTGTTTGAG TCCGACCACC AATCTGGGGC GTGGTGCAAA
    GACCCTCTGC AGGCATCTGA CAAGATTTAT TATATGCCCT GGACTCCCTA CAGAACTGAT
    ACCCTGACTG AGTATTCATC CAAGGATGAC TTCATTGCTG GAAGACCAAC TACAACCTAC
    AAGCTCCCTC ACAGGGTGGA TGGCACAGGA TTTGTAGTGT ATGATGGAGC TTTGTTCTTC
    AACAAAGAGC GCACCAGGAA CATAGTAAAG TTTGATTTGC GGACTAGGAT AAAGAGTGGA
    GAGGCTATCA TAGCAAATGC CAATTACCAT GATACCTCCC CTTACCGATG GGGAGGCAAA
    TCTGACATAG ACCTGGCAGT AGATGAGAAT GGGCTATGGG TAATCTATGC AACAGAACAA
    AACAATGGTA AAATTGTCAT TAGTCAATTG AACCCTTACA CCCTACGGAT CGAAGGAACA
    TGGGATACTG CATATGATAA AAGGTCAGCT TCCAATGCCT TTATGATTTG TGGAATTCTG
    TATGTGGTCA AATCTGTATA TGAGGATGAT GACAATGAGG CTACTGGAAA TAAGATTGAC
    TACATTTACA ACACTGACCA AAGCAAGGAT AGTTTGGTGG ATGTACCCTT TCCTAATTCA
    TACCAGTACA TTGCAGCTGT GGATTACAAC CCCAGGGACA ACCTACTTTA TGTATGGAAT
    AACTATCACG TCGTGAAATA TTCTTTGGAT TTTGGACCTC TGGATAGTAG ATCAGGGCAG
    GCACATCATG GACAAGTTTC ATACATTTCT CCGCCAATTC ACCTTGACTC TGAGCTAGAA
    AGACCCTCTG TTAAAGATAT CTCTACCACA GGACCTCTTG GCATGGGAAG CACTACCACC
    AGTACCACCC TTCGGACCAC AACTTTGAGC CCAGGAAGGA GTACCACCCC GTCAGTGTCA
    GGAAGAAGAA ACCGGAGTAC TAGTACCCCA TCTCCAGCTG TCGAGGTACT TGATGACATG
    ACCACACACC TTCCATCAGC ATCGTCCCAA ATCCCAGCTC TCGAAGAGAG CTGTGAGGCT
    GTGGAAGCCC GAGAAATCAT GTGGTTTAAG ACTCGTCAAG GACAGATAGC AAAGCAGCCA
    TGCCCTGCAG GAACTATAGG TGTATCAACT TATCTATGCC TTGCTCCTGA TGGAATTTGG
    GATCCCCAAG GTCCAGATCT CAGCAACTGT TCTTCTCCTT GGGTCAATCA TATAACACAG
    AAGTTGAAAT CTGGTGAAAC AGCTGCCAAC ATTGCTAGAG AGCTGGCTGA ACAGACAAGA
    AATCACTTGA ATGCTGGGGA CATCACCTAC TCTGTCCGGG CCATGGACCA GCTGGTAGGC
    CTCCTAGATG TACAGCTTCG GAACTTGACC CCAGGTGGAA AAGATAGTGC TGCCCGGAGT
    TTGAACAAGC TTCAGAAAAG AGAGCGCTCT TGCAGAGCCT ATGTCCAGGC AATGGTCGAG
    ACAGTTAACA ACCTCCTTCA GCCACAAGCT TTGAATGCAT GGAGAGACCT GACTACGAGT
    GATCAGCTGC GTGCGGCCAC CATGTTGCTT CATACTGTGG AGGAAAGTGC TTTTGTGCTG
    GCTGATAACC TTTTGAAGAC TGACATTGTC AGGGAGAATA CAGACAATAT TAAATTGGAA
    GTTGCAAGAC TGAGCACAGA AGGAAACTTA GAAGACCTAA AATTTCCAGA AAACATGGGC
    CATGGAAGCA CTATCCAGCT GTCTGCAAAT ACCTTAAAGC AAAATGGCCG AAATGGAGAG
    ATCAGAGTGG CCTTTGTCCT GTATAACAAC TTGGGTCCTT ATTTATCCAC GGAGAATGCC
    AGTATGAAGT TGGGAACGGA AGCTTTGTCC ACAAATCATT CTGTTATTGT CAATTCCCCT
    GTTATTACGG CAGCAATAAA CAAAGAGTTC AGTAACAAGG TTTATTTGGC TGATCCTGTG
    GTATTTACTG TTAAACATAT CAAGCAGTCA GAGGAAAATT TCAACCCTAA CTGTTCATTT
    TGGAGCTACT CCAAGCGTAC AATGACAGGT TATTGGTCAA CACAAGGCTG TCGGCTCCTG
    ACAACAAATA AGACACATAC TACATGCTCT TGTAACCACC TAACAAATTT TGCAGTACTG
    ATGGCACATG TGGAAGTTAA GCACAGTGAT GCGGTCCATG ACCTCCTTCT GGATGTGATC
    ACGTGGGTTG GAATTTTGCT GTCCCTTGTT TGTCTCCTGA TTTGCATCTT CACATTTTGC
    TTTTTCCGGG GGCTCCAGAG TGACCGTAAC ACCATCCACA AGAACCTCTG CATCAGTCTC
    TTTGTAGCAG AGCTGCTCTT CCTGATTGGG ATCAACCGAA CTGACCAACC AATTGCCTGT
    GCTGTTTTCG CTGCCCTGTT ACATTTCTTC TTCTTGGCTG CCTTCACCTG GATGTTCCTG
    GAGGGGGTGC AGCTTTATAT CATGCTGGTG GAGGTTTTTG AGAGTGAACA TTCACGTAGG
    AAATACTTTT ATCTGGTCGG CTATGGGATG CCTGCACTCA TTGTGGCTGT GTCAGCTGCA
    GTAGACTACA GGAGTTATGG AACAGATAAA GTATGTTGGC TCCGACTTGA CACCTACTTC
    ATTTGGAGTT TTATAGGACC AGCAACTTTG ATAATTATGC TTAATGTAAT CTTCCTTGGG
    ATTGCTTTAT ATAAAATGTT TCATCATACT GCTATACTGA AACCTGAATC AGGCTGTCTT
    GATAACATCA ACTATGAGGA TAACAGACCC TTCATCAAGT CATGGGTTAT AGGTGCAATA
    GCTCTTCTCT GCCTATTAGG ATTGACCTGG GCCTTTGGAC TCATGTATAT TAATGAAAGC
    ACAGTCATCA TGGCCTATCT CTTCACCATT TTCAATTCTC TACAGGGAAT GTTTATATTT
    ATTTTCCATT GTGTCCTACA GAAGAAGGTA CGAAAAGAGT ATGGGAAATG CCTGCGAACA
    CATTGCTGTA GTGGCAAAAG TACAGAGAGT TCCATTGGTT CAGGGAAAAC ATCTGGTTCT
    CGAACTCCTG GACGCTACTC CACAGGCTCA CAGAGCCGAA TCCGTAGAAT GTGGAATGAC
    ACGGTTCGAA AGCAGTCAGA GTCTTCCTTT ATTACTGGAG ACATAAACAG TTCAGCGTCA
    CTCAACAGAG AGGGGCTTCT GAACAATGCC AGGGATACAA GTGTCATGGA TACTCTACCA
    CTGAATGGTA ACCATGGCAA TAGTTACAGC ATTGCCAGCG GCGAATACCT GAGCAACTGT
    GTGCAAATCA TAGACCGTGG CTATAACCAT AACGAGACCG CCCTAGAGAA AAAGATTCTG
    AAGGAACTCA CTTCCAACTA TATCCCTTCT TACCTGAACA ACCATGAGCG CTCCAGTGAA
    CAGAACAGGA ATCTGATGAA CAAGCTGGTG AATAACCTTG GCAGTGGAAG GGAAGATGAT
    GCCATTGTCC TGGATGATGC CACCTCGTTT AACCACGAGG AGAGTTTGGG CCTGGAACTC
    ATTCATGAGG AATCTGATGC TCCTTTGCTG CCCCCAAGAG TATACTCCAC CGAGAACCAC
    CAGCCACACC ATTATACCAG AAGGCGGATC CCCCAAGACC ACAGTGAGAG CTTTTTCCCT
    TTGCTAACCA ACGAGCACAC AGAAGATCTC CAGTCACCCC ATAGAGACTC TCTCTATACC
    AGCATGCCGA CACTGGCTGG TGTGGCCGCC ACAGAGAGTG TTACCACCAG CACCCAGACC
    GAACCCCCAC CGGCCAAATG TGGTGATGCC GAAGATGTTT ACTACAAAAG CATGCCAAAC
    CTAGGCTCCA GAAACCACGT CCATCAGCTG CATACTTACT ACCAGCTAGG TCGCGGCAGC
    AGTGATGGAT TTATAGTTCC TCCAAACAAA GATGGGACCC CTCCCGAGGG AAGTTCAAAA
    GGACCGGCTC ATTTGGTCAC TAGTCTATAG

    The stop codons will be deleted if pcDNA3.1+/C-(K)DYK vector is selected.

    CloneID OHu19603
    Clone ID Related Accession (Same CDS sequence) XM_011531792.1 , NM_015236.5 , NM_015236.4 , NM_015236.6
    Accession Version NM_015236.4 Documents for ORF clone product in default vector
    Sequence Information ORF Nucleotide Sequence (Length: 4410bp)
    Protein sequence
    SNP
    Vector pcDNA3.1-C-(k)DYK or customized vector User Manual
    Clone information Clone Map MSDS
    Tag on pcDNA3.1+/C-(K)DYK C terminal DYKDDDDK tags
    ORF Insert Method CloneEZ™ Seamless cloning technology
    Insert Structure linear
    Update Date 2015-07-02
    Organism Homo sapiens(Human)
    Product latrophilin-3 precursor
    Comment

    1
    61
    121
    181
    241
    301
    361
    421
    481
    541
    601
    661
    721
    781
    841
    901
    961
    1021
    1081
    1141
    1201
    1261
    1321
    1381
    1441
    1501
    1561
    1621
    1681
    1741
    1801
    1861
    1921
    1981
    2041
    2101
    2161
    2221
    2281
    2341
    2401
    2461
    2521
    2581
    2641
    2701
    2761
    2821
    2881
    2941
    3001
    3061
    3121
    3181
    3241
    3301
    3361
    3421
    3481
    3541
    3601
    3661
    3721
    3781
    3841
    3901
    3961
    4021
    4081
    4141
    4201
    4261
    4321
    4381
    ATGTGGCCAT CGCAGCTACT AATTTTCATG ATGCTCTTAG CTCCAATAAT TCATGCTTTC 
    AGCCGTGCCC CAATTCCAAT GGCTGTGGTC CGCAGAGAGC TATCCTGTGA GAGCTATCCT
    ATAGAGCTTC GCTGTCCAGG AACAGACGTC ATCATGATAG AAAGTGCCAA CTATGGCAGG
    ACTGATGACA AAATTTGTGA CTCTGACCCT GCTCAGATGG AGAATATCCG ATGTTATCTG
    CCAGATGCCT ATAAGATTAT GTCTCAAAGA TGCAATAACA GAACCCAGTG TGCAGTGGTG
    GCAGGTCCTG ATGTTTTTCC AGACCCGTGT CCAGGAACCT ATAAATACCT TGAAGTGCAG
    TATGAATGTG TCCCTTACAA AGTGGAACAA AAAGTTTTTC TTTGTCCTGG ACTACTAAAA
    GGAGTATACC AGAGTGAACA TTTGTTTGAG TCCGACCACC AATCTGGGGC GTGGTGCAAA
    GACCCTCTGC AGGCATCTGA CAAGATTTAT TATATGCCCT GGACTCCCTA CAGAACTGAT
    ACCCTGACTG AGTATTCATC CAAGGATGAC TTCATTGCTG GAAGACCAAC TACAACCTAC
    AAGCTCCCTC ACAGGGTGGA TGGCACAGGA TTTGTAGTGT ATGATGGAGC TTTGTTCTTC
    AACAAAGAGC GCACCAGGAA CATAGTAAAG TTTGATTTGC GGACTAGGAT AAAGAGTGGA
    GAGGCTATCA TAGCAAATGC CAATTACCAT GATACCTCCC CTTACCGATG GGGAGGCAAA
    TCTGACATAG ACCTGGCAGT AGATGAGAAT GGGCTATGGG TAATCTATGC AACAGAACAA
    AACAATGGTA AAATTGTCAT TAGTCAATTG AACCCTTACA CCCTACGGAT CGAAGGAACA
    TGGGATACTG CATATGATAA AAGGTCAGCT TCCAATGCCT TTATGATTTG TGGAATTCTG
    TATGTGGTCA AATCTGTATA TGAGGATGAT GACAATGAGG CTACTGGAAA TAAGATTGAC
    TACATTTACA ACACTGACCA AAGCAAGGAT AGTTTGGTGG ATGTACCCTT TCCTAATTCA
    TACCAGTACA TTGCAGCTGT GGATTACAAC CCCAGGGACA ACCTACTTTA TGTATGGAAT
    AACTATCACG TCGTGAAATA TTCTTTGGAT TTTGGACCTC TGGATAGTAG ATCAGGGCAG
    GCACATCATG GACAAGTTTC ATACATTTCT CCGCCAATTC ACCTTGACTC TGAGCTAGAA
    AGACCCTCTG TTAAAGATAT CTCTACCACA GGACCTCTTG GCATGGGAAG CACTACCACC
    AGTACCACCC TTCGGACCAC AACTTTGAGC CCAGGAAGGA GTACCACCCC GTCAGTGTCA
    GGAAGAAGAA ACCGGAGTAC TAGTACCCCA TCTCCAGCTG TCGAGGTACT TGATGACATG
    ACCACACACC TTCCATCAGC ATCGTCCCAA ATCCCAGCTC TCGAAGAGAG CTGTGAGGCT
    GTGGAAGCCC GAGAAATCAT GTGGTTTAAG ACTCGTCAAG GACAGATAGC AAAGCAGCCA
    TGCCCTGCAG GAACTATAGG TGTATCAACT TATCTATGCC TTGCTCCTGA TGGAATTTGG
    GATCCCCAAG GTCCAGATCT CAGCAACTGT TCTTCTCCTT GGGTCAATCA TATAACACAG
    AAGTTGAAAT CTGGTGAAAC AGCTGCCAAC ATTGCTAGAG AGCTGGCTGA ACAGACAAGA
    AATCACTTGA ATGCTGGGGA CATCACCTAC TCTGTCCGGG CCATGGACCA GCTGGTAGGC
    CTCCTAGATG TACAGCTTCG GAACTTGACC CCAGGTGGAA AAGATAGTGC TGCCCGGAGT
    TTGAACAAGC TTCAGAAAAG AGAGCGCTCT TGCAGAGCCT ATGTCCAGGC AATGGTCGAG
    ACAGTTAACA ACCTCCTTCA GCCACAAGCT TTGAATGCAT GGAGAGACCT GACTACGAGT
    GATCAGCTGC GTGCGGCCAC CATGTTGCTT CATACTGTGG AGGAAAGTGC TTTTGTGCTG
    GCTGATAACC TTTTGAAGAC TGACATTGTC AGGGAGAATA CAGACAATAT TAAATTGGAA
    GTTGCAAGAC TGAGCACAGA AGGAAACTTA GAAGACCTAA AATTTCCAGA AAACATGGGC
    CATGGAAGCA CTATCCAGCT GTCTGCAAAT ACCTTAAAGC AAAATGGCCG AAATGGAGAG
    ATCAGAGTGG CCTTTGTCCT GTATAACAAC TTGGGTCCTT ATTTATCCAC GGAGAATGCC
    AGTATGAAGT TGGGAACGGA AGCTTTGTCC ACAAATCATT CTGTTATTGT CAATTCCCCT
    GTTATTACGG CAGCAATAAA CAAAGAGTTC AGTAACAAGG TTTATTTGGC TGATCCTGTG
    GTATTTACTG TTAAACATAT CAAGCAGTCA GAGGAAAATT TCAACCCTAA CTGTTCATTT
    TGGAGCTACT CCAAGCGTAC AATGACAGGT TATTGGTCAA CACAAGGCTG TCGGCTCCTG
    ACAACAAATA AGACACATAC TACATGCTCT TGTAACCACC TAACAAATTT TGCAGTACTG
    ATGGCACATG TGGAAGTTAA GCACAGTGAT GCGGTCCATG ACCTCCTTCT GGATGTGATC
    ACGTGGGTTG GAATTTTGCT GTCCCTTGTT TGTCTCCTGA TTTGCATCTT CACATTTTGC
    TTTTTCCGGG GGCTCCAGAG TGACCGTAAC ACCATCCACA AGAACCTCTG CATCAGTCTC
    TTTGTAGCAG AGCTGCTCTT CCTGATTGGG ATCAACCGAA CTGACCAACC AATTGCCTGT
    GCTGTTTTCG CTGCCCTGTT ACATTTCTTC TTCTTGGCTG CCTTCACCTG GATGTTCCTG
    GAGGGGGTGC AGCTTTATAT CATGCTGGTG GAGGTTTTTG AGAGTGAACA TTCACGTAGG
    AAATACTTTT ATCTGGTCGG CTATGGGATG CCTGCACTCA TTGTGGCTGT GTCAGCTGCA
    GTAGACTACA GGAGTTATGG AACAGATAAA GTATGTTGGC TCCGACTTGA CACCTACTTC
    ATTTGGAGTT TTATAGGACC AGCAACTTTG ATAATTATGC TTAATGTAAT CTTCCTTGGG
    ATTGCTTTAT ATAAAATGTT TCATCATACT GCTATACTGA AACCTGAATC AGGCTGTCTT
    GATAACATCA ACTATGAGGA TAACAGACCC TTCATCAAGT CATGGGTTAT AGGTGCAATA
    GCTCTTCTCT GCCTATTAGG ATTGACCTGG GCCTTTGGAC TCATGTATAT TAATGAAAGC
    ACAGTCATCA TGGCCTATCT CTTCACCATT TTCAATTCTC TACAGGGAAT GTTTATATTT
    ATTTTCCATT GTGTCCTACA GAAGAAGGTA CGAAAAGAGT ATGGGAAATG CCTGCGAACA
    CATTGCTGTA GTGGCAAAAG TACAGAGAGT TCCATTGGTT CAGGGAAAAC ATCTGGTTCT
    CGAACTCCTG GACGCTACTC CACAGGCTCA CAGAGCCGAA TCCGTAGAAT GTGGAATGAC
    ACGGTTCGAA AGCAGTCAGA GTCTTCCTTT ATTACTGGAG ACATAAACAG TTCAGCGTCA
    CTCAACAGAG AGGGGCTTCT GAACAATGCC AGGGATACAA GTGTCATGGA TACTCTACCA
    CTGAATGGTA ACCATGGCAA TAGTTACAGC ATTGCCAGCG GCGAATACCT GAGCAACTGT
    GTGCAAATCA TAGACCGTGG CTATAACCAT AACGAGACCG CCCTAGAGAA AAAGATTCTG
    AAGGAACTCA CTTCCAACTA TATCCCTTCT TACCTGAACA ACCATGAGCG CTCCAGTGAA
    CAGAACAGGA ATCTGATGAA CAAGCTGGTG AATAACCTTG GCAGTGGAAG GGAAGATGAT
    GCCATTGTCC TGGATGATGC CACCTCGTTT AACCACGAGG AGAGTTTGGG CCTGGAACTC
    ATTCATGAGG AATCTGATGC TCCTTTGCTG CCCCCAAGAG TATACTCCAC CGAGAACCAC
    CAGCCACACC ATTATACCAG AAGGCGGATC CCCCAAGACC ACAGTGAGAG CTTTTTCCCT
    TTGCTAACCA ACGAGCACAC AGAAGATCTC CAGTCACCCC ATAGAGACTC TCTCTATACC
    AGCATGCCGA CACTGGCTGG TGTGGCCGCC ACAGAGAGTG TTACCACCAG CACCCAGACC
    GAACCCCCAC CGGCCAAATG TGGTGATGCC GAAGATGTTT ACTACAAAAG CATGCCAAAC
    CTAGGCTCCA GAAACCACGT CCATCAGCTG CATACTTACT ACCAGCTAGG TCGCGGCAGC
    AGTGATGGAT TTATAGTTCC TCCAAACAAA GATGGGACCC CTCCCGAGGG AAGTTCAAAA
    GGACCGGCTC ATTTGGTCAC TAGTCTATAG

    The stop codons will be deleted if pcDNA3.1+/C-(K)DYK vector is selected.

    RefSeq NP_056051.2
    Translation

    Target ORF information:

    RefSeq Version NM_015236.4
    Organism Homo sapiens(Human)
    Definition Homo sapiens adhesion G protein-coupled receptor L3 (ADGRL3), mRNA.

    Target ORF information:

    Epitope DYKDDDDK
    Bacterial selection AMPR
    Mammalian selection NeoR
    Vector pcDNA3.1+/C-(K)DYK
    NM_015236.4

    ORF Insert Sequence:

    1
    61
    121
    181
    241
    301
    361
    421
    481
    541
    601
    661
    721
    781
    841
    901
    961
    1021
    1081
    1141
    1201
    1261
    1321
    1381
    1441
    1501
    1561
    1621
    1681
    1741
    1801
    1861
    1921
    1981
    2041
    2101
    2161
    2221
    2281
    2341
    2401
    2461
    2521
    2581
    2641
    2701
    2761
    2821
    2881
    2941
    3001
    3061
    3121
    3181
    3241
    3301
    3361
    3421
    3481
    3541
    3601
    3661
    3721
    3781
    3841
    3901
    3961
    4021
    4081
    4141
    4201
    4261
    4321
    4381
    ATGTGGCCAT CGCAGCTACT AATTTTCATG ATGCTCTTAG CTCCAATAAT TCATGCTTTC 
    AGCCGTGCCC CAATTCCAAT GGCTGTGGTC CGCAGAGAGC TATCCTGTGA GAGCTATCCT
    ATAGAGCTTC GCTGTCCAGG AACAGACGTC ATCATGATAG AAAGTGCCAA CTATGGCAGG
    ACTGATGACA AAATTTGTGA CTCTGACCCT GCTCAGATGG AGAATATCCG ATGTTATCTG
    CCAGATGCCT ATAAGATTAT GTCTCAAAGA TGCAATAACA GAACCCAGTG TGCAGTGGTG
    GCAGGTCCTG ATGTTTTTCC AGACCCGTGT CCAGGAACCT ATAAATACCT TGAAGTGCAG
    TATGAATGTG TCCCTTACAA AGTGGAACAA AAAGTTTTTC TTTGTCCTGG ACTACTAAAA
    GGAGTATACC AGAGTGAACA TTTGTTTGAG TCCGACCACC AATCTGGGGC GTGGTGCAAA
    GACCCTCTGC AGGCATCTGA CAAGATTTAT TATATGCCCT GGACTCCCTA CAGAACTGAT
    ACCCTGACTG AGTATTCATC CAAGGATGAC TTCATTGCTG GAAGACCAAC TACAACCTAC
    AAGCTCCCTC ACAGGGTGGA TGGCACAGGA TTTGTAGTGT ATGATGGAGC TTTGTTCTTC
    AACAAAGAGC GCACCAGGAA CATAGTAAAG TTTGATTTGC GGACTAGGAT AAAGAGTGGA
    GAGGCTATCA TAGCAAATGC CAATTACCAT GATACCTCCC CTTACCGATG GGGAGGCAAA
    TCTGACATAG ACCTGGCAGT AGATGAGAAT GGGCTATGGG TAATCTATGC AACAGAACAA
    AACAATGGTA AAATTGTCAT TAGTCAATTG AACCCTTACA CCCTACGGAT CGAAGGAACA
    TGGGATACTG CATATGATAA AAGGTCAGCT TCCAATGCCT TTATGATTTG TGGAATTCTG
    TATGTGGTCA AATCTGTATA TGAGGATGAT GACAATGAGG CTACTGGAAA TAAGATTGAC
    TACATTTACA ACACTGACCA AAGCAAGGAT AGTTTGGTGG ATGTACCCTT TCCTAATTCA
    TACCAGTACA TTGCAGCTGT GGATTACAAC CCCAGGGACA ACCTACTTTA TGTATGGAAT
    AACTATCACG TCGTGAAATA TTCTTTGGAT TTTGGACCTC TGGATAGTAG ATCAGGGCAG
    GCACATCATG GACAAGTTTC ATACATTTCT CCGCCAATTC ACCTTGACTC TGAGCTAGAA
    AGACCCTCTG TTAAAGATAT CTCTACCACA GGACCTCTTG GCATGGGAAG CACTACCACC
    AGTACCACCC TTCGGACCAC AACTTTGAGC CCAGGAAGGA GTACCACCCC GTCAGTGTCA
    GGAAGAAGAA ACCGGAGTAC TAGTACCCCA TCTCCAGCTG TCGAGGTACT TGATGACATG
    ACCACACACC TTCCATCAGC ATCGTCCCAA ATCCCAGCTC TCGAAGAGAG CTGTGAGGCT
    GTGGAAGCCC GAGAAATCAT GTGGTTTAAG ACTCGTCAAG GACAGATAGC AAAGCAGCCA
    TGCCCTGCAG GAACTATAGG TGTATCAACT TATCTATGCC TTGCTCCTGA TGGAATTTGG
    GATCCCCAAG GTCCAGATCT CAGCAACTGT TCTTCTCCTT GGGTCAATCA TATAACACAG
    AAGTTGAAAT CTGGTGAAAC AGCTGCCAAC ATTGCTAGAG AGCTGGCTGA ACAGACAAGA
    AATCACTTGA ATGCTGGGGA CATCACCTAC TCTGTCCGGG CCATGGACCA GCTGGTAGGC
    CTCCTAGATG TACAGCTTCG GAACTTGACC CCAGGTGGAA AAGATAGTGC TGCCCGGAGT
    TTGAACAAGC TTCAGAAAAG AGAGCGCTCT TGCAGAGCCT ATGTCCAGGC AATGGTCGAG
    ACAGTTAACA ACCTCCTTCA GCCACAAGCT TTGAATGCAT GGAGAGACCT GACTACGAGT
    GATCAGCTGC GTGCGGCCAC CATGTTGCTT CATACTGTGG AGGAAAGTGC TTTTGTGCTG
    GCTGATAACC TTTTGAAGAC TGACATTGTC AGGGAGAATA CAGACAATAT TAAATTGGAA
    GTTGCAAGAC TGAGCACAGA AGGAAACTTA GAAGACCTAA AATTTCCAGA AAACATGGGC
    CATGGAAGCA CTATCCAGCT GTCTGCAAAT ACCTTAAAGC AAAATGGCCG AAATGGAGAG
    ATCAGAGTGG CCTTTGTCCT GTATAACAAC TTGGGTCCTT ATTTATCCAC GGAGAATGCC
    AGTATGAAGT TGGGAACGGA AGCTTTGTCC ACAAATCATT CTGTTATTGT CAATTCCCCT
    GTTATTACGG CAGCAATAAA CAAAGAGTTC AGTAACAAGG TTTATTTGGC TGATCCTGTG
    GTATTTACTG TTAAACATAT CAAGCAGTCA GAGGAAAATT TCAACCCTAA CTGTTCATTT
    TGGAGCTACT CCAAGCGTAC AATGACAGGT TATTGGTCAA CACAAGGCTG TCGGCTCCTG
    ACAACAAATA AGACACATAC TACATGCTCT TGTAACCACC TAACAAATTT TGCAGTACTG
    ATGGCACATG TGGAAGTTAA GCACAGTGAT GCGGTCCATG ACCTCCTTCT GGATGTGATC
    ACGTGGGTTG GAATTTTGCT GTCCCTTGTT TGTCTCCTGA TTTGCATCTT CACATTTTGC
    TTTTTCCGGG GGCTCCAGAG TGACCGTAAC ACCATCCACA AGAACCTCTG CATCAGTCTC
    TTTGTAGCAG AGCTGCTCTT CCTGATTGGG ATCAACCGAA CTGACCAACC AATTGCCTGT
    GCTGTTTTCG CTGCCCTGTT ACATTTCTTC TTCTTGGCTG CCTTCACCTG GATGTTCCTG
    GAGGGGGTGC AGCTTTATAT CATGCTGGTG GAGGTTTTTG AGAGTGAACA TTCACGTAGG
    AAATACTTTT ATCTGGTCGG CTATGGGATG CCTGCACTCA TTGTGGCTGT GTCAGCTGCA
    GTAGACTACA GGAGTTATGG AACAGATAAA GTATGTTGGC TCCGACTTGA CACCTACTTC
    ATTTGGAGTT TTATAGGACC AGCAACTTTG ATAATTATGC TTAATGTAAT CTTCCTTGGG
    ATTGCTTTAT ATAAAATGTT TCATCATACT GCTATACTGA AACCTGAATC AGGCTGTCTT
    GATAACATCA ACTATGAGGA TAACAGACCC TTCATCAAGT CATGGGTTAT AGGTGCAATA
    GCTCTTCTCT GCCTATTAGG ATTGACCTGG GCCTTTGGAC TCATGTATAT TAATGAAAGC
    ACAGTCATCA TGGCCTATCT CTTCACCATT TTCAATTCTC TACAGGGAAT GTTTATATTT
    ATTTTCCATT GTGTCCTACA GAAGAAGGTA CGAAAAGAGT ATGGGAAATG CCTGCGAACA
    CATTGCTGTA GTGGCAAAAG TACAGAGAGT TCCATTGGTT CAGGGAAAAC ATCTGGTTCT
    CGAACTCCTG GACGCTACTC CACAGGCTCA CAGAGCCGAA TCCGTAGAAT GTGGAATGAC
    ACGGTTCGAA AGCAGTCAGA GTCTTCCTTT ATTACTGGAG ACATAAACAG TTCAGCGTCA
    CTCAACAGAG AGGGGCTTCT GAACAATGCC AGGGATACAA GTGTCATGGA TACTCTACCA
    CTGAATGGTA ACCATGGCAA TAGTTACAGC ATTGCCAGCG GCGAATACCT GAGCAACTGT
    GTGCAAATCA TAGACCGTGG CTATAACCAT AACGAGACCG CCCTAGAGAA AAAGATTCTG
    AAGGAACTCA CTTCCAACTA TATCCCTTCT TACCTGAACA ACCATGAGCG CTCCAGTGAA
    CAGAACAGGA ATCTGATGAA CAAGCTGGTG AATAACCTTG GCAGTGGAAG GGAAGATGAT
    GCCATTGTCC TGGATGATGC CACCTCGTTT AACCACGAGG AGAGTTTGGG CCTGGAACTC
    ATTCATGAGG AATCTGATGC TCCTTTGCTG CCCCCAAGAG TATACTCCAC CGAGAACCAC
    CAGCCACACC ATTATACCAG AAGGCGGATC CCCCAAGACC ACAGTGAGAG CTTTTTCCCT
    TTGCTAACCA ACGAGCACAC AGAAGATCTC CAGTCACCCC ATAGAGACTC TCTCTATACC
    AGCATGCCGA CACTGGCTGG TGTGGCCGCC ACAGAGAGTG TTACCACCAG CACCCAGACC
    GAACCCCCAC CGGCCAAATG TGGTGATGCC GAAGATGTTT ACTACAAAAG CATGCCAAAC
    CTAGGCTCCA GAAACCACGT CCATCAGCTG CATACTTACT ACCAGCTAGG TCGCGGCAGC
    AGTGATGGAT TTATAGTTCC TCCAAACAAA GATGGGACCC CTCCCGAGGG AAGTTCAAAA
    GGACCGGCTC ATTTGGTCAC TAGTCTATAG

    The stop codons will be deleted if pcDNA3.1+/C-(K)DYK vector is selected.

    CloneID OHu19603
    Clone ID Related Accession (Same CDS sequence) XM_011531792.1 , NM_015236.5 , NM_015236.4 , NM_015236.6
    Accession Version NM_015236.6 Latest version! Documents for ORF clone product in default vector
    Sequence Information ORF Nucleotide Sequence (Length: 4410bp)
    Protein sequence
    SNP
    Vector pcDNA3.1-C-(k)DYK or customized vector User Manual
    Clone information Clone Map MSDS
    Tag on pcDNA3.1+/C-(K)DYK C terminal DYKDDDDK tags
    ORF Insert Method CloneEZ™ Seamless cloning technology
    Insert Structure linear
    Update Date 2019-08-21
    Organism Homo sapiens(human)
    Product adhesion G protein-coupled receptor L3 isoform 2 precursor
    Comment Comment: REVIEWED REFSEQ: This record has been curated by NCBI staff. The reference sequence was derived from AC092643.2, AK309793.1, AF307080.1, AC108161.4, AC092663.2, AB018311.1, AC007511.8 and BF511741.1. This sequence is a reference standard in the RefSeqGene project. On Jun 2, 2019 this sequence version replaced NM_015236.5. Transcript Variant: This variant (2) lacks an in-frame coding exon in the 5' region compared to variant 1. The resulting isoform (2) is shorter missing an internal protein segment compared to isoform 1. Sequence Note: This RefSeq record was created from transcript and genomic sequence data to make the sequence consistent with the reference genome assembly. The genomic coordinates used for the transcript record were based on transcript alignments. Publication Note: This RefSeq record includes a subset of the publications that are available for this gene. Please see the Gene record to access additional publications. ##Evidence-Data-START## Transcript exon combination :: SRR1803613.228925.1 [ECO:0000332] RNAseq introns :: single sample supports all introns SAMEA2145743, SAMEA2148093 [ECO:0000348] ##Evidence-Data-END## COMPLETENESS: complete on the 3' end.

    1
    61
    121
    181
    241
    301
    361
    421
    481
    541
    601
    661
    721
    781
    841
    901
    961
    1021
    1081
    1141
    1201
    1261
    1321
    1381
    1441
    1501
    1561
    1621
    1681
    1741
    1801
    1861
    1921
    1981
    2041
    2101
    2161
    2221
    2281
    2341
    2401
    2461
    2521
    2581
    2641
    2701
    2761
    2821
    2881
    2941
    3001
    3061
    3121
    3181
    3241
    3301
    3361
    3421
    3481
    3541
    3601
    3661
    3721
    3781
    3841
    3901
    3961
    4021
    4081
    4141
    4201
    4261
    4321
    4381
    ATGTGGCCAT CGCAGCTACT AATTTTCATG ATGCTCTTAG CTCCAATAAT TCATGCTTTC 
    AGCCGTGCCC CAATTCCAAT GGCTGTGGTC CGCAGAGAGC TATCCTGTGA GAGCTATCCT
    ATAGAGCTTC GCTGTCCAGG AACAGACGTC ATCATGATAG AAAGTGCCAA CTATGGCAGG
    ACTGATGACA AAATTTGTGA CTCTGACCCT GCTCAGATGG AGAATATCCG ATGTTATCTG
    CCAGATGCCT ATAAGATTAT GTCTCAAAGA TGCAATAACA GAACCCAGTG TGCAGTGGTG
    GCAGGTCCTG ATGTTTTTCC AGACCCGTGT CCAGGAACCT ATAAATACCT TGAAGTGCAG
    TATGAATGTG TCCCTTACAA AGTGGAACAA AAAGTTTTTC TTTGTCCTGG ACTACTAAAA
    GGAGTATACC AGAGTGAACA TTTGTTTGAG TCCGACCACC AATCTGGGGC GTGGTGCAAA
    GACCCTCTGC AGGCATCTGA CAAGATTTAT TATATGCCCT GGACTCCCTA CAGAACTGAT
    ACCCTGACTG AGTATTCATC CAAGGATGAC TTCATTGCTG GAAGACCAAC TACAACCTAC
    AAGCTCCCTC ACAGGGTGGA TGGCACAGGA TTTGTAGTGT ATGATGGAGC TTTGTTCTTC
    AACAAAGAGC GCACCAGGAA CATAGTAAAG TTTGATTTGC GGACTAGGAT AAAGAGTGGA
    GAGGCTATCA TAGCAAATGC CAATTACCAT GATACCTCCC CTTACCGATG GGGAGGCAAA
    TCTGACATAG ACCTGGCAGT AGATGAGAAT GGGCTATGGG TAATCTATGC AACAGAACAA
    AACAATGGTA AAATTGTCAT TAGTCAATTG AACCCTTACA CCCTACGGAT CGAAGGAACA
    TGGGATACTG CATATGATAA AAGGTCAGCT TCCAATGCCT TTATGATTTG TGGAATTCTG
    TATGTGGTCA AATCTGTATA TGAGGATGAT GACAATGAGG CTACTGGAAA TAAGATTGAC
    TACATTTACA ACACTGACCA AAGCAAGGAT AGTTTGGTGG ATGTACCCTT TCCTAATTCA
    TACCAGTACA TTGCAGCTGT GGATTACAAC CCCAGGGACA ACCTACTTTA TGTATGGAAT
    AACTATCACG TCGTGAAATA TTCTTTGGAT TTTGGACCTC TGGATAGTAG ATCAGGGCAG
    GCACATCATG GACAAGTTTC ATACATTTCT CCGCCAATTC ACCTTGACTC TGAGCTAGAA
    AGACCCTCTG TTAAAGATAT CTCTACCACA GGACCTCTTG GCATGGGAAG CACTACCACC
    AGTACCACCC TTCGGACCAC AACTTTGAGC CCAGGAAGGA GTACCACCCC GTCAGTGTCA
    GGAAGAAGAA ACCGGAGTAC TAGTACCCCA TCTCCAGCTG TCGAGGTACT TGATGACATG
    ACCACACACC TTCCATCAGC ATCGTCCCAA ATCCCAGCTC TCGAAGAGAG CTGTGAGGCT
    GTGGAAGCCC GAGAAATCAT GTGGTTTAAG ACTCGTCAAG GACAGATAGC AAAGCAGCCA
    TGCCCTGCAG GAACTATAGG TGTATCAACT TATCTATGCC TTGCTCCTGA TGGAATTTGG
    GATCCCCAAG GTCCAGATCT CAGCAACTGT TCTTCTCCTT GGGTCAATCA TATAACACAG
    AAGTTGAAAT CTGGTGAAAC AGCTGCCAAC ATTGCTAGAG AGCTGGCTGA ACAGACAAGA
    AATCACTTGA ATGCTGGGGA CATCACCTAC TCTGTCCGGG CCATGGACCA GCTGGTAGGC
    CTCCTAGATG TACAGCTTCG GAACTTGACC CCAGGTGGAA AAGATAGTGC TGCCCGGAGT
    TTGAACAAGC TTCAGAAAAG AGAGCGCTCT TGCAGAGCCT ATGTCCAGGC AATGGTCGAG
    ACAGTTAACA ACCTCCTTCA GCCACAAGCT TTGAATGCAT GGAGAGACCT GACTACGAGT
    GATCAGCTGC GTGCGGCCAC CATGTTGCTT CATACTGTGG AGGAAAGTGC TTTTGTGCTG
    GCTGATAACC TTTTGAAGAC TGACATTGTC AGGGAGAATA CAGACAATAT TAAATTGGAA
    GTTGCAAGAC TGAGCACAGA AGGAAACTTA GAAGACCTAA AATTTCCAGA AAACATGGGC
    CATGGAAGCA CTATCCAGCT GTCTGCAAAT ACCTTAAAGC AAAATGGCCG AAATGGAGAG
    ATCAGAGTGG CCTTTGTCCT GTATAACAAC TTGGGTCCTT ATTTATCCAC GGAGAATGCC
    AGTATGAAGT TGGGAACGGA AGCTTTGTCC ACAAATCATT CTGTTATTGT CAATTCCCCT
    GTTATTACGG CAGCAATAAA CAAAGAGTTC AGTAACAAGG TTTATTTGGC TGATCCTGTG
    GTATTTACTG TTAAACATAT CAAGCAGTCA GAGGAAAATT TCAACCCTAA CTGTTCATTT
    TGGAGCTACT CCAAGCGTAC AATGACAGGT TATTGGTCAA CACAAGGCTG TCGGCTCCTG
    ACAACAAATA AGACACATAC TACATGCTCT TGTAACCACC TAACAAATTT TGCAGTACTG
    ATGGCACATG TGGAAGTTAA GCACAGTGAT GCGGTCCATG ACCTCCTTCT GGATGTGATC
    ACGTGGGTTG GAATTTTGCT GTCCCTTGTT TGTCTCCTGA TTTGCATCTT CACATTTTGC
    TTTTTCCGGG GGCTCCAGAG TGACCGTAAC ACCATCCACA AGAACCTCTG CATCAGTCTC
    TTTGTAGCAG AGCTGCTCTT CCTGATTGGG ATCAACCGAA CTGACCAACC AATTGCCTGT
    GCTGTTTTCG CTGCCCTGTT ACATTTCTTC TTCTTGGCTG CCTTCACCTG GATGTTCCTG
    GAGGGGGTGC AGCTTTATAT CATGCTGGTG GAGGTTTTTG AGAGTGAACA TTCACGTAGG
    AAATACTTTT ATCTGGTCGG CTATGGGATG CCTGCACTCA TTGTGGCTGT GTCAGCTGCA
    GTAGACTACA GGAGTTATGG AACAGATAAA GTATGTTGGC TCCGACTTGA CACCTACTTC
    ATTTGGAGTT TTATAGGACC AGCAACTTTG ATAATTATGC TTAATGTAAT CTTCCTTGGG
    ATTGCTTTAT ATAAAATGTT TCATCATACT GCTATACTGA AACCTGAATC AGGCTGTCTT
    GATAACATCA ACTATGAGGA TAACAGACCC TTCATCAAGT CATGGGTTAT AGGTGCAATA
    GCTCTTCTCT GCCTATTAGG ATTGACCTGG GCCTTTGGAC TCATGTATAT TAATGAAAGC
    ACAGTCATCA TGGCCTATCT CTTCACCATT TTCAATTCTC TACAGGGAAT GTTTATATTT
    ATTTTCCATT GTGTCCTACA GAAGAAGGTA CGAAAAGAGT ATGGGAAATG CCTGCGAACA
    CATTGCTGTA GTGGCAAAAG TACAGAGAGT TCCATTGGTT CAGGGAAAAC ATCTGGTTCT
    CGAACTCCTG GACGCTACTC CACAGGCTCA CAGAGCCGAA TCCGTAGAAT GTGGAATGAC
    ACGGTTCGAA AGCAGTCAGA GTCTTCCTTT ATTACTGGAG ACATAAACAG TTCAGCGTCA
    CTCAACAGAG AGGGGCTTCT GAACAATGCC AGGGATACAA GTGTCATGGA TACTCTACCA
    CTGAATGGTA ACCATGGCAA TAGTTACAGC ATTGCCAGCG GCGAATACCT GAGCAACTGT
    GTGCAAATCA TAGACCGTGG CTATAACCAT AACGAGACCG CCCTAGAGAA AAAGATTCTG
    AAGGAACTCA CTTCCAACTA TATCCCTTCT TACCTGAACA ACCATGAGCG CTCCAGTGAA
    CAGAACAGGA ATCTGATGAA CAAGCTGGTG AATAACCTTG GCAGTGGAAG GGAAGATGAT
    GCCATTGTCC TGGATGATGC CACCTCGTTT AACCACGAGG AGAGTTTGGG CCTGGAACTC
    ATTCATGAGG AATCTGATGC TCCTTTGCTG CCCCCAAGAG TATACTCCAC CGAGAACCAC
    CAGCCACACC ATTATACCAG AAGGCGGATC CCCCAAGACC ACAGTGAGAG CTTTTTCCCT
    TTGCTAACCA ACGAGCACAC AGAAGATCTC CAGTCACCCC ATAGAGACTC TCTCTATACC
    AGCATGCCGA CACTGGCTGG TGTGGCCGCC ACAGAGAGTG TTACCACCAG CACCCAGACC
    GAACCCCCAC CGGCCAAATG TGGTGATGCC GAAGATGTTT ACTACAAAAG CATGCCAAAC
    CTAGGCTCCA GAAACCACGT CCATCAGCTG CATACTTACT ACCAGCTAGG TCGCGGCAGC
    AGTGATGGAT TTATAGTTCC TCCAAACAAA GATGGGACCC CTCCCGAGGG AAGTTCAAAA
    GGACCGGCTC ATTTGGTCAC TAGTCTATAG

    The stop codons will be deleted if pcDNA3.1+/C-(K)DYK vector is selected.

    RefSeq NP_056051.2
    CDS776..5185
    Translation

    Target ORF information:

    RefSeq Version NM_015236.6
    Organism Homo sapiens(human)
    Definition Homo sapiens adhesion G protein-coupled receptor L3 (ADGRL3), transcript variant 2, mRNA.

    Target ORF information:

    Epitope DYKDDDDK
    Bacterial selection AMPR
    Mammalian selection NeoR
    Vector pcDNA3.1+/C-(K)DYK
    NM_015236.6

    ORF Insert Sequence:

    1
    61
    121
    181
    241
    301
    361
    421
    481
    541
    601
    661
    721
    781
    841
    901
    961
    1021
    1081
    1141
    1201
    1261
    1321
    1381
    1441
    1501
    1561
    1621
    1681
    1741
    1801
    1861
    1921
    1981
    2041
    2101
    2161
    2221
    2281
    2341
    2401
    2461
    2521
    2581
    2641
    2701
    2761
    2821
    2881
    2941
    3001
    3061
    3121
    3181
    3241
    3301
    3361
    3421
    3481
    3541
    3601
    3661
    3721
    3781
    3841
    3901
    3961
    4021
    4081
    4141
    4201
    4261
    4321
    4381
    ATGTGGCCAT CGCAGCTACT AATTTTCATG ATGCTCTTAG CTCCAATAAT TCATGCTTTC 
    AGCCGTGCCC CAATTCCAAT GGCTGTGGTC CGCAGAGAGC TATCCTGTGA GAGCTATCCT
    ATAGAGCTTC GCTGTCCAGG AACAGACGTC ATCATGATAG AAAGTGCCAA CTATGGCAGG
    ACTGATGACA AAATTTGTGA CTCTGACCCT GCTCAGATGG AGAATATCCG ATGTTATCTG
    CCAGATGCCT ATAAGATTAT GTCTCAAAGA TGCAATAACA GAACCCAGTG TGCAGTGGTG
    GCAGGTCCTG ATGTTTTTCC AGACCCGTGT CCAGGAACCT ATAAATACCT TGAAGTGCAG
    TATGAATGTG TCCCTTACAA AGTGGAACAA AAAGTTTTTC TTTGTCCTGG ACTACTAAAA
    GGAGTATACC AGAGTGAACA TTTGTTTGAG TCCGACCACC AATCTGGGGC GTGGTGCAAA
    GACCCTCTGC AGGCATCTGA CAAGATTTAT TATATGCCCT GGACTCCCTA CAGAACTGAT
    ACCCTGACTG AGTATTCATC CAAGGATGAC TTCATTGCTG GAAGACCAAC TACAACCTAC
    AAGCTCCCTC ACAGGGTGGA TGGCACAGGA TTTGTAGTGT ATGATGGAGC TTTGTTCTTC
    AACAAAGAGC GCACCAGGAA CATAGTAAAG TTTGATTTGC GGACTAGGAT AAAGAGTGGA
    GAGGCTATCA TAGCAAATGC CAATTACCAT GATACCTCCC CTTACCGATG GGGAGGCAAA
    TCTGACATAG ACCTGGCAGT AGATGAGAAT GGGCTATGGG TAATCTATGC AACAGAACAA
    AACAATGGTA AAATTGTCAT TAGTCAATTG AACCCTTACA CCCTACGGAT CGAAGGAACA
    TGGGATACTG CATATGATAA AAGGTCAGCT TCCAATGCCT TTATGATTTG TGGAATTCTG
    TATGTGGTCA AATCTGTATA TGAGGATGAT GACAATGAGG CTACTGGAAA TAAGATTGAC
    TACATTTACA ACACTGACCA AAGCAAGGAT AGTTTGGTGG ATGTACCCTT TCCTAATTCA
    TACCAGTACA TTGCAGCTGT GGATTACAAC CCCAGGGACA ACCTACTTTA TGTATGGAAT
    AACTATCACG TCGTGAAATA TTCTTTGGAT TTTGGACCTC TGGATAGTAG ATCAGGGCAG
    GCACATCATG GACAAGTTTC ATACATTTCT CCGCCAATTC ACCTTGACTC TGAGCTAGAA
    AGACCCTCTG TTAAAGATAT CTCTACCACA GGACCTCTTG GCATGGGAAG CACTACCACC
    AGTACCACCC TTCGGACCAC AACTTTGAGC CCAGGAAGGA GTACCACCCC GTCAGTGTCA
    GGAAGAAGAA ACCGGAGTAC TAGTACCCCA TCTCCAGCTG TCGAGGTACT TGATGACATG
    ACCACACACC TTCCATCAGC ATCGTCCCAA ATCCCAGCTC TCGAAGAGAG CTGTGAGGCT
    GTGGAAGCCC GAGAAATCAT GTGGTTTAAG ACTCGTCAAG GACAGATAGC AAAGCAGCCA
    TGCCCTGCAG GAACTATAGG TGTATCAACT TATCTATGCC TTGCTCCTGA TGGAATTTGG
    GATCCCCAAG GTCCAGATCT CAGCAACTGT TCTTCTCCTT GGGTCAATCA TATAACACAG
    AAGTTGAAAT CTGGTGAAAC AGCTGCCAAC ATTGCTAGAG AGCTGGCTGA ACAGACAAGA
    AATCACTTGA ATGCTGGGGA CATCACCTAC TCTGTCCGGG CCATGGACCA GCTGGTAGGC
    CTCCTAGATG TACAGCTTCG GAACTTGACC CCAGGTGGAA AAGATAGTGC TGCCCGGAGT
    TTGAACAAGC TTCAGAAAAG AGAGCGCTCT TGCAGAGCCT ATGTCCAGGC AATGGTCGAG
    ACAGTTAACA ACCTCCTTCA GCCACAAGCT TTGAATGCAT GGAGAGACCT GACTACGAGT
    GATCAGCTGC GTGCGGCCAC CATGTTGCTT CATACTGTGG AGGAAAGTGC TTTTGTGCTG
    GCTGATAACC TTTTGAAGAC TGACATTGTC AGGGAGAATA CAGACAATAT TAAATTGGAA
    GTTGCAAGAC TGAGCACAGA AGGAAACTTA GAAGACCTAA AATTTCCAGA AAACATGGGC
    CATGGAAGCA CTATCCAGCT GTCTGCAAAT ACCTTAAAGC AAAATGGCCG AAATGGAGAG
    ATCAGAGTGG CCTTTGTCCT GTATAACAAC TTGGGTCCTT ATTTATCCAC GGAGAATGCC
    AGTATGAAGT TGGGAACGGA AGCTTTGTCC ACAAATCATT CTGTTATTGT CAATTCCCCT
    GTTATTACGG CAGCAATAAA CAAAGAGTTC AGTAACAAGG TTTATTTGGC TGATCCTGTG
    GTATTTACTG TTAAACATAT CAAGCAGTCA GAGGAAAATT TCAACCCTAA CTGTTCATTT
    TGGAGCTACT CCAAGCGTAC AATGACAGGT TATTGGTCAA CACAAGGCTG TCGGCTCCTG
    ACAACAAATA AGACACATAC TACATGCTCT TGTAACCACC TAACAAATTT TGCAGTACTG
    ATGGCACATG TGGAAGTTAA GCACAGTGAT GCGGTCCATG ACCTCCTTCT GGATGTGATC
    ACGTGGGTTG GAATTTTGCT GTCCCTTGTT TGTCTCCTGA TTTGCATCTT CACATTTTGC
    TTTTTCCGGG GGCTCCAGAG TGACCGTAAC ACCATCCACA AGAACCTCTG CATCAGTCTC
    TTTGTAGCAG AGCTGCTCTT CCTGATTGGG ATCAACCGAA CTGACCAACC AATTGCCTGT
    GCTGTTTTCG CTGCCCTGTT ACATTTCTTC TTCTTGGCTG CCTTCACCTG GATGTTCCTG
    GAGGGGGTGC AGCTTTATAT CATGCTGGTG GAGGTTTTTG AGAGTGAACA TTCACGTAGG
    AAATACTTTT ATCTGGTCGG CTATGGGATG CCTGCACTCA TTGTGGCTGT GTCAGCTGCA
    GTAGACTACA GGAGTTATGG AACAGATAAA GTATGTTGGC TCCGACTTGA CACCTACTTC
    ATTTGGAGTT TTATAGGACC AGCAACTTTG ATAATTATGC TTAATGTAAT CTTCCTTGGG
    ATTGCTTTAT ATAAAATGTT TCATCATACT GCTATACTGA AACCTGAATC AGGCTGTCTT
    GATAACATCA ACTATGAGGA TAACAGACCC TTCATCAAGT CATGGGTTAT AGGTGCAATA
    GCTCTTCTCT GCCTATTAGG ATTGACCTGG GCCTTTGGAC TCATGTATAT TAATGAAAGC
    ACAGTCATCA TGGCCTATCT CTTCACCATT TTCAATTCTC TACAGGGAAT GTTTATATTT
    ATTTTCCATT GTGTCCTACA GAAGAAGGTA CGAAAAGAGT ATGGGAAATG CCTGCGAACA
    CATTGCTGTA GTGGCAAAAG TACAGAGAGT TCCATTGGTT CAGGGAAAAC ATCTGGTTCT
    CGAACTCCTG GACGCTACTC CACAGGCTCA CAGAGCCGAA TCCGTAGAAT GTGGAATGAC
    ACGGTTCGAA AGCAGTCAGA GTCTTCCTTT ATTACTGGAG ACATAAACAG TTCAGCGTCA
    CTCAACAGAG AGGGGCTTCT GAACAATGCC AGGGATACAA GTGTCATGGA TACTCTACCA
    CTGAATGGTA ACCATGGCAA TAGTTACAGC ATTGCCAGCG GCGAATACCT GAGCAACTGT
    GTGCAAATCA TAGACCGTGG CTATAACCAT AACGAGACCG CCCTAGAGAA AAAGATTCTG
    AAGGAACTCA CTTCCAACTA TATCCCTTCT TACCTGAACA ACCATGAGCG CTCCAGTGAA
    CAGAACAGGA ATCTGATGAA CAAGCTGGTG AATAACCTTG GCAGTGGAAG GGAAGATGAT
    GCCATTGTCC TGGATGATGC CACCTCGTTT AACCACGAGG AGAGTTTGGG CCTGGAACTC
    ATTCATGAGG AATCTGATGC TCCTTTGCTG CCCCCAAGAG TATACTCCAC CGAGAACCAC
    CAGCCACACC ATTATACCAG AAGGCGGATC CCCCAAGACC ACAGTGAGAG CTTTTTCCCT
    TTGCTAACCA ACGAGCACAC AGAAGATCTC CAGTCACCCC ATAGAGACTC TCTCTATACC
    AGCATGCCGA CACTGGCTGG TGTGGCCGCC ACAGAGAGTG TTACCACCAG CACCCAGACC
    GAACCCCCAC CGGCCAAATG TGGTGATGCC GAAGATGTTT ACTACAAAAG CATGCCAAAC
    CTAGGCTCCA GAAACCACGT CCATCAGCTG CATACTTACT ACCAGCTAGG TCGCGGCAGC
    AGTGATGGAT TTATAGTTCC TCCAAACAAA GATGGGACCC CTCCCGAGGG AAGTTCAAAA
    GGACCGGCTC ATTTGGTCAC TAGTCTATAG

    The stop codons will be deleted if pcDNA3.1+/C-(K)DYK vector is selected.

    CloneID OHu65885
    Clone ID Related Accession (Same CDS sequence) NM_001322402.2 , NM_001322402.1 , XM_017007932.1
    Accession Version NM_001322402.1 Documents for ORF clone product in default vector
    Sequence Information ORF Nucleotide Sequence (Length: 4614bp)
    Protein sequence
    SNP
    Vector pcDNA3.1-C-(k)DYK or customized vector User Manual
    Clone information Clone Map MSDS
    Tag on pcDNA3.1+/C-(K)DYK C terminal DYKDDDDK tags
    ORF Insert Method CloneEZ™ Seamless cloning technology
    Insert Structure linear
    Update Date 2018-06-30
    Organism Homo sapiens(human)
    Product adhesion G protein-coupled receptor L3 isoform 1 precursor
    Comment Comment: REVIEWED REFSEQ: This record has been curated by NCBI staff. The reference sequence was derived from AK309793.1, AC092643.2, AF307080.1, DA808156.1, AK294689.1, AC007511.8 and BF511741.1. On Apr 11, 2016 this sequence version replaced XM_011531789.1. Transcript Variant: This variant (1) represents the longest transcript and encodes the longest isoform (1). Sequence Note: This RefSeq record was created from transcript and genomic sequence data to make the sequence consistent with the reference genome assembly. The genomic coordinates used for the transcript record were based on transcript alignments. Publication Note: This RefSeq record includes a subset of the publications that are available for this gene. Please see the Gene record to access additional publications. ##Evidence-Data-START## RNAseq introns :: single sample supports all introns SAMEA2145743, SAMEA2148093 [ECO:0000348] ##Evidence-Data-END## COMPLETENESS: complete on the 3' end.

    1
    61
    121
    181
    241
    301
    361
    421
    481
    541
    601
    661
    721
    781
    841
    901
    961
    1021
    1081
    1141
    1201
    1261
    1321
    1381
    1441
    1501
    1561
    1621
    1681
    1741
    1801
    1861
    1921
    1981
    2041
    2101
    2161
    2221
    2281
    2341
    2401
    2461
    2521
    2581
    2641
    2701
    2761
    2821
    2881
    2941
    3001
    3061
    3121
    3181
    3241
    3301
    3361
    3421
    3481
    3541
    3601
    3661
    3721
    3781
    3841
    3901
    3961
    4021
    4081
    4141
    4201
    4261
    4321
    4381
    4441
    4501
    4561
    ATGTGGCCAT CGCAGCTACT AATTTTCATG ATGCTCTTAG CTCCAATAAT TCATGGTGGC 
    AAGCACAGTG AACGACATCC TGCCCTTGCT GCTCCATTGC GACACGCTGA GCGCAGCCCA
    GGAGGCGCTC TTCCACCCAG ACATCTGCTT CAGCAGCCAG CTGCAGAGCG CACCGCTGCT
    CATCGTGGAC AAGGGCCCCG TGGAGCTACC AGAGGAGTTC GCGGTCCAGG TGCCCAAGGA
    GCACAGATTG CAGCGCAAGC TTTCAGCCGT GCCCCAATTC CAATGGCTGT GGTCCGCAGA
    GAGCTATCCT GTGAGAGCTA TCCTATAGAG CTTCGCTGTC CAGGAACAGA CGTCATCATG
    ATAGAAAGTG CCAACTATGG CAGGACTGAT GACAAAATTT GTGACTCTGA CCCTGCTCAG
    ATGGAGAATA TCCGATGTTA TCTGCCAGAT GCCTATAAGA TTATGTCTCA AAGATGCAAT
    AACAGAACCC AGTGTGCAGT GGTGGCAGGT CCTGATGTTT TTCCAGACCC GTGTCCAGGA
    ACCTATAAAT ACCTTGAAGT GCAGTATGAA TGTGTCCCTT ACAAAGTGGA ACAAAAAGTT
    TTTCTTTGTC CTGGACTACT AAAAGGAGTA TACCAGAGTG AACATTTGTT TGAGTCCGAC
    CACCAATCTG GGGCGTGGTG CAAAGACCCT CTGCAGGCAT CTGACAAGAT TTATTATATG
    CCCTGGACTC CCTACAGAAC TGATACCCTG ACTGAGTATT CATCCAAGGA TGACTTCATT
    GCTGGAAGAC CAACTACAAC CTACAAGCTC CCTCACAGGG TGGATGGCAC AGGATTTGTA
    GTGTATGATG GAGCTTTGTT CTTCAACAAA GAGCGCACCA GGAACATAGT AAAGTTTGAT
    TTGCGGACTA GGATAAAGAG TGGAGAGGCT ATCATAGCAA ATGCCAATTA CCATGATACC
    TCCCCTTACC GATGGGGAGG CAAATCTGAC ATAGACCTGG CAGTAGATGA GAATGGGCTA
    TGGGTAATCT ATGCAACAGA ACAAAACAAT GGTAAAATTG TCATTAGTCA ATTGAACCCT
    TACACCCTAC GGATCGAAGG AACATGGGAT ACTGCATATG ATAAAAGGTC AGCTTCCAAT
    GCCTTTATGA TTTGTGGAAT TCTGTATGTG GTCAAATCTG TATATGAGGA TGATGACAAT
    GAGGCTACTG GAAATAAGAT TGACTACATT TACAACACTG ACCAAAGCAA GGATAGTTTG
    GTGGATGTAC CCTTTCCTAA TTCATACCAG TACATTGCAG CTGTGGATTA CAACCCCAGG
    GACAACCTAC TTTATGTATG GAATAACTAT CACGTCGTGA AATATTCTTT GGATTTTGGA
    CCTCTGGATA GTAGATCAGG GCAGGCACAT CATGGACAAG TTTCATACAT TTCTCCGCCA
    ATTCACCTTG ACTCTGAGCT AGAAAGACCC TCTGTTAAAG ATATCTCTAC CACAGGACCT
    CTTGGCATGG GAAGCACTAC CACCAGTACC ACCCTTCGGA CCACAACTTT GAGCCCAGGA
    AGGAGTACCA CCCCGTCAGT GTCAGGAAGA AGAAACCGGA GTACTAGTAC CCCATCTCCA
    GCTGTCGAGG TACTTGATGA CATGACCACA CACCTTCCAT CAGCATCGTC CCAAATCCCA
    GCTCTCGAAG AGAGCTGTGA GGCTGTGGAA GCCCGAGAAA TCATGTGGTT TAAGACTCGT
    CAAGGACAGA TAGCAAAGCA GCCATGCCCT GCAGGAACTA TAGGTGTATC AACTTATCTA
    TGCCTTGCTC CTGATGGAAT TTGGGATCCC CAAGGTCCAG ATCTCAGCAA CTGTTCTTCT
    CCTTGGGTCA ATCATATAAC ACAGAAGTTG AAATCTGGTG AAACAGCTGC CAACATTGCT
    AGAGAGCTGG CTGAACAGAC AAGAAATCAC TTGAATGCTG GGGACATCAC CTACTCTGTC
    CGGGCCATGG ACCAGCTGGT AGGCCTCCTA GATGTACAGC TTCGGAACTT GACCCCAGGT
    GGAAAAGATA GTGCTGCCCG GAGTTTGAAC AAGCTTCAGA AAAGAGAGCG CTCTTGCAGA
    GCCTATGTCC AGGCAATGGT CGAGACAGTT AACAACCTCC TTCAGCCACA AGCTTTGAAT
    GCATGGAGAG ACCTGACTAC GAGTGATCAG CTGCGTGCGG CCACCATGTT GCTTCATACT
    GTGGAGGAAA GTGCTTTTGT GCTGGCTGAT AACCTTTTGA AGACTGACAT TGTCAGGGAG
    AATACAGACA ATATTAAATT GGAAGTTGCA AGACTGAGCA CAGAAGGAAA CTTAGAAGAC
    CTAAAATTTC CAGAAAACAT GGGCCATGGA AGCACTATCC AGCTGTCTGC AAATACCTTA
    AAGCAAAATG GCCGAAATGG AGAGATCAGA GTGGCCTTTG TCCTGTATAA CAACTTGGGT
    CCTTATTTAT CCACGGAGAA TGCCAGTATG AAGTTGGGAA CGGAAGCTTT GTCCACAAAT
    CATTCTGTTA TTGTCAATTC CCCTGTTATT ACGGCAGCAA TAAACAAAGA GTTCAGTAAC
    AAGGTTTATT TGGCTGATCC TGTGGTATTT ACTGTTAAAC ATATCAAGCA GTCAGAGGAA
    AATTTCAACC CTAACTGTTC ATTTTGGAGC TACTCCAAGC GTACAATGAC AGGTTATTGG
    TCAACACAAG GCTGTCGGCT CCTGACAACA AATAAGACAC ATACTACATG CTCTTGTAAC
    CACCTAACAA ATTTTGCAGT ACTGATGGCA CATGTGGAAG TTAAGCACAG TGATGCGGTC
    CATGACCTCC TTCTGGATGT GATCACGTGG GTTGGAATTT TGCTGTCCCT TGTTTGTCTC
    CTGATTTGCA TCTTCACATT TTGCTTTTTC CGGGGGCTCC AGAGTGACCG TAACACCATC
    CACAAGAACC TCTGCATCAG TCTCTTTGTA GCAGAGCTGC TCTTCCTGAT TGGGATCAAC
    CGAACTGACC AACCAATTGC CTGTGCTGTT TTCGCTGCCC TGTTACATTT CTTCTTCTTG
    GCTGCCTTCA CCTGGATGTT CCTGGAGGGG GTGCAGCTTT ATATCATGCT GGTGGAGGTT
    TTTGAGAGTG AACATTCACG TAGGAAATAC TTTTATCTGG TCGGCTATGG GATGCCTGCA
    CTCATTGTGG CTGTGTCAGC TGCAGTAGAC TACAGGAGTT ATGGAACAGA TAAAGTATGT
    TGGCTCCGAC TTGACACCTA CTTCATTTGG AGTTTTATAG GACCAGCAAC TTTGATAATT
    ATGCTTAATG TAATCTTCCT TGGGATTGCT TTATATAAAA TGTTTCATCA TACTGCTATA
    CTGAAACCTG AATCAGGCTG TCTTGATAAC ATCAACTATG AGGATAACAG ACCCTTCATC
    AAGTCATGGG TTATAGGTGC AATAGCTCTT CTCTGCCTAT TAGGATTGAC CTGGGCCTTT
    GGACTCATGT ATATTAATGA AAGCACAGTC ATCATGGCCT ATCTCTTCAC CATTTTCAAT
    TCTCTACAGG GAATGTTTAT ATTTATTTTC CATTGTGTCC TACAGAAGAA GGTACGAAAA
    GAGTATGGGA AATGCCTGCG AACACATTGC TGTAGTGGCA AAAGTACAGA GAGTTCCATT
    GGTTCAGGGA AAACATCTGG TTCTCGAACT CCTGGACGCT ACTCCACAGG CTCACAGAGC
    CGAATCCGTA GAATGTGGAA TGACACGGTT CGAAAGCAGT CAGAGTCTTC CTTTATTACT
    GGAGACATAA ACAGTTCAGC GTCACTCAAC AGAGAGGGGC TTCTGAACAA TGCCAGGGAT
    ACAAGTGTCA TGGATACTCT ACCACTGAAT GGTAACCATG GCAATAGTTA CAGCATTGCC
    AGCGGCGAAT ACCTGAGCAA CTGTGTGCAA ATCATAGACC GTGGCTATAA CCATAACGAG
    ACCGCCCTAG AGAAAAAGAT TCTGAAGGAA CTCACTTCCA ACTATATCCC TTCTTACCTG
    AACAACCATG AGCGCTCCAG TGAACAGAAC AGGAATCTGA TGAACAAGCT GGTGAATAAC
    CTTGGCAGTG GAAGGGAAGA TGATGCCATT GTCCTGGATG ATGCCACCTC GTTTAACCAC
    GAGGAGAGTT TGGGCCTGGA ACTCATTCAT GAGGAATCTG ATGCTCCTTT GCTGCCCCCA
    AGAGTATACT CCACCGAGAA CCACCAGCCA CACCATTATA CCAGAAGGCG GATCCCCCAA
    GACCACAGTG AGAGCTTTTT CCCTTTGCTA ACCAACGAGC ACACAGAAGA TCTCCAGTCA
    CCCCATAGAG ACTCTCTCTA TACCAGCATG CCGACACTGG CTGGTGTGGC CGCCACAGAG
    AGTGTTACCA CCAGCACCCA GACCGAACCC CCACCGGCCA AATGTGGTGA TGCCGAAGAT
    GTTTACTACA AAAGCATGCC AAACCTAGGC TCCAGAAACC ACGTCCATCA GCTGCATACT
    TACTACCAGC TAGGTCGCGG CAGCAGTGAT GGATTTATAG TTCCTCCAAA CAAAGATGGG
    ACCCCTCCCG AGGGAAGTTC AAAAGGACCG GCTCATTTGG TCACTAGTCT ATAG

    The stop codons will be deleted if pcDNA3.1+/C-(K)DYK vector is selected.

    RefSeq NP_001309331.1
    CDS750..5363
    Translation

    Target ORF information:

    RefSeq Version NM_001322402.1
    Organism Homo sapiens(human)
    Definition Homo sapiens adhesion G protein-coupled receptor L3 (ADGRL3), transcript variant 1, mRNA.

    Target ORF information:

    Epitope DYKDDDDK
    Bacterial selection AMPR
    Mammalian selection NeoR
    Vector pcDNA3.1+/C-(K)DYK
    NM_001322402.1

    ORF Insert Sequence:

    1
    61
    121
    181
    241
    301
    361
    421
    481
    541
    601
    661
    721
    781
    841
    901
    961
    1021
    1081
    1141
    1201
    1261
    1321
    1381
    1441
    1501
    1561
    1621
    1681
    1741
    1801
    1861
    1921
    1981
    2041
    2101
    2161
    2221
    2281
    2341
    2401
    2461
    2521
    2581
    2641
    2701
    2761
    2821
    2881
    2941
    3001
    3061
    3121
    3181
    3241
    3301
    3361
    3421
    3481
    3541
    3601
    3661
    3721
    3781
    3841
    3901
    3961
    4021
    4081
    4141
    4201
    4261
    4321
    4381
    4441
    4501
    4561
    ATGTGGCCAT CGCAGCTACT AATTTTCATG ATGCTCTTAG CTCCAATAAT TCATGGTGGC 
    AAGCACAGTG AACGACATCC TGCCCTTGCT GCTCCATTGC GACACGCTGA GCGCAGCCCA
    GGAGGCGCTC TTCCACCCAG ACATCTGCTT CAGCAGCCAG CTGCAGAGCG CACCGCTGCT
    CATCGTGGAC AAGGGCCCCG TGGAGCTACC AGAGGAGTTC GCGGTCCAGG TGCCCAAGGA
    GCACAGATTG CAGCGCAAGC TTTCAGCCGT GCCCCAATTC CAATGGCTGT GGTCCGCAGA
    GAGCTATCCT GTGAGAGCTA TCCTATAGAG CTTCGCTGTC CAGGAACAGA CGTCATCATG
    ATAGAAAGTG CCAACTATGG CAGGACTGAT GACAAAATTT GTGACTCTGA CCCTGCTCAG
    ATGGAGAATA TCCGATGTTA TCTGCCAGAT GCCTATAAGA TTATGTCTCA AAGATGCAAT
    AACAGAACCC AGTGTGCAGT GGTGGCAGGT CCTGATGTTT TTCCAGACCC GTGTCCAGGA
    ACCTATAAAT ACCTTGAAGT GCAGTATGAA TGTGTCCCTT ACAAAGTGGA ACAAAAAGTT
    TTTCTTTGTC CTGGACTACT AAAAGGAGTA TACCAGAGTG AACATTTGTT TGAGTCCGAC
    CACCAATCTG GGGCGTGGTG CAAAGACCCT CTGCAGGCAT CTGACAAGAT TTATTATATG
    CCCTGGACTC CCTACAGAAC TGATACCCTG ACTGAGTATT CATCCAAGGA TGACTTCATT
    GCTGGAAGAC CAACTACAAC CTACAAGCTC CCTCACAGGG TGGATGGCAC AGGATTTGTA
    GTGTATGATG GAGCTTTGTT CTTCAACAAA GAGCGCACCA GGAACATAGT AAAGTTTGAT
    TTGCGGACTA GGATAAAGAG TGGAGAGGCT ATCATAGCAA ATGCCAATTA CCATGATACC
    TCCCCTTACC GATGGGGAGG CAAATCTGAC ATAGACCTGG CAGTAGATGA GAATGGGCTA
    TGGGTAATCT ATGCAACAGA ACAAAACAAT GGTAAAATTG TCATTAGTCA ATTGAACCCT
    TACACCCTAC GGATCGAAGG AACATGGGAT ACTGCATATG ATAAAAGGTC AGCTTCCAAT
    GCCTTTATGA TTTGTGGAAT TCTGTATGTG GTCAAATCTG TATATGAGGA TGATGACAAT
    GAGGCTACTG GAAATAAGAT TGACTACATT TACAACACTG ACCAAAGCAA GGATAGTTTG
    GTGGATGTAC CCTTTCCTAA TTCATACCAG TACATTGCAG CTGTGGATTA CAACCCCAGG
    GACAACCTAC TTTATGTATG GAATAACTAT CACGTCGTGA AATATTCTTT GGATTTTGGA
    CCTCTGGATA GTAGATCAGG GCAGGCACAT CATGGACAAG TTTCATACAT TTCTCCGCCA
    ATTCACCTTG ACTCTGAGCT AGAAAGACCC TCTGTTAAAG ATATCTCTAC CACAGGACCT
    CTTGGCATGG GAAGCACTAC CACCAGTACC ACCCTTCGGA CCACAACTTT GAGCCCAGGA
    AGGAGTACCA CCCCGTCAGT GTCAGGAAGA AGAAACCGGA GTACTAGTAC CCCATCTCCA
    GCTGTCGAGG TACTTGATGA CATGACCACA CACCTTCCAT CAGCATCGTC CCAAATCCCA
    GCTCTCGAAG AGAGCTGTGA GGCTGTGGAA GCCCGAGAAA TCATGTGGTT TAAGACTCGT
    CAAGGACAGA TAGCAAAGCA GCCATGCCCT GCAGGAACTA TAGGTGTATC AACTTATCTA
    TGCCTTGCTC CTGATGGAAT TTGGGATCCC CAAGGTCCAG ATCTCAGCAA CTGTTCTTCT
    CCTTGGGTCA ATCATATAAC ACAGAAGTTG AAATCTGGTG AAACAGCTGC CAACATTGCT
    AGAGAGCTGG CTGAACAGAC AAGAAATCAC TTGAATGCTG GGGACATCAC CTACTCTGTC
    CGGGCCATGG ACCAGCTGGT AGGCCTCCTA GATGTACAGC TTCGGAACTT GACCCCAGGT
    GGAAAAGATA GTGCTGCCCG GAGTTTGAAC AAGCTTCAGA AAAGAGAGCG CTCTTGCAGA
    GCCTATGTCC AGGCAATGGT CGAGACAGTT AACAACCTCC TTCAGCCACA AGCTTTGAAT
    GCATGGAGAG ACCTGACTAC GAGTGATCAG CTGCGTGCGG CCACCATGTT GCTTCATACT
    GTGGAGGAAA GTGCTTTTGT GCTGGCTGAT AACCTTTTGA AGACTGACAT TGTCAGGGAG
    AATACAGACA ATATTAAATT GGAAGTTGCA AGACTGAGCA CAGAAGGAAA CTTAGAAGAC
    CTAAAATTTC CAGAAAACAT GGGCCATGGA AGCACTATCC AGCTGTCTGC AAATACCTTA
    AAGCAAAATG GCCGAAATGG AGAGATCAGA GTGGCCTTTG TCCTGTATAA CAACTTGGGT
    CCTTATTTAT CCACGGAGAA TGCCAGTATG AAGTTGGGAA CGGAAGCTTT GTCCACAAAT
    CATTCTGTTA TTGTCAATTC CCCTGTTATT ACGGCAGCAA TAAACAAAGA GTTCAGTAAC
    AAGGTTTATT TGGCTGATCC TGTGGTATTT ACTGTTAAAC ATATCAAGCA GTCAGAGGAA
    AATTTCAACC CTAACTGTTC ATTTTGGAGC TACTCCAAGC GTACAATGAC AGGTTATTGG
    TCAACACAAG GCTGTCGGCT CCTGACAACA AATAAGACAC ATACTACATG CTCTTGTAAC
    CACCTAACAA ATTTTGCAGT ACTGATGGCA CATGTGGAAG TTAAGCACAG TGATGCGGTC
    CATGACCTCC TTCTGGATGT GATCACGTGG GTTGGAATTT TGCTGTCCCT TGTTTGTCTC
    CTGATTTGCA TCTTCACATT TTGCTTTTTC CGGGGGCTCC AGAGTGACCG TAACACCATC
    CACAAGAACC TCTGCATCAG TCTCTTTGTA GCAGAGCTGC TCTTCCTGAT TGGGATCAAC
    CGAACTGACC AACCAATTGC CTGTGCTGTT TTCGCTGCCC TGTTACATTT CTTCTTCTTG
    GCTGCCTTCA CCTGGATGTT CCTGGAGGGG GTGCAGCTTT ATATCATGCT GGTGGAGGTT
    TTTGAGAGTG AACATTCACG TAGGAAATAC TTTTATCTGG TCGGCTATGG GATGCCTGCA
    CTCATTGTGG CTGTGTCAGC TGCAGTAGAC TACAGGAGTT ATGGAACAGA TAAAGTATGT
    TGGCTCCGAC TTGACACCTA CTTCATTTGG AGTTTTATAG GACCAGCAAC TTTGATAATT
    ATGCTTAATG TAATCTTCCT TGGGATTGCT TTATATAAAA TGTTTCATCA TACTGCTATA
    CTGAAACCTG AATCAGGCTG TCTTGATAAC ATCAACTATG AGGATAACAG ACCCTTCATC
    AAGTCATGGG TTATAGGTGC AATAGCTCTT CTCTGCCTAT TAGGATTGAC CTGGGCCTTT
    GGACTCATGT ATATTAATGA AAGCACAGTC ATCATGGCCT ATCTCTTCAC CATTTTCAAT
    TCTCTACAGG GAATGTTTAT ATTTATTTTC CATTGTGTCC TACAGAAGAA GGTACGAAAA
    GAGTATGGGA AATGCCTGCG AACACATTGC TGTAGTGGCA AAAGTACAGA GAGTTCCATT
    GGTTCAGGGA AAACATCTGG TTCTCGAACT CCTGGACGCT ACTCCACAGG CTCACAGAGC
    CGAATCCGTA GAATGTGGAA TGACACGGTT CGAAAGCAGT CAGAGTCTTC CTTTATTACT
    GGAGACATAA ACAGTTCAGC GTCACTCAAC AGAGAGGGGC TTCTGAACAA TGCCAGGGAT
    ACAAGTGTCA TGGATACTCT ACCACTGAAT GGTAACCATG GCAATAGTTA CAGCATTGCC
    AGCGGCGAAT ACCTGAGCAA CTGTGTGCAA ATCATAGACC GTGGCTATAA CCATAACGAG
    ACCGCCCTAG AGAAAAAGAT TCTGAAGGAA CTCACTTCCA ACTATATCCC TTCTTACCTG
    AACAACCATG AGCGCTCCAG TGAACAGAAC AGGAATCTGA TGAACAAGCT GGTGAATAAC
    CTTGGCAGTG GAAGGGAAGA TGATGCCATT GTCCTGGATG ATGCCACCTC GTTTAACCAC
    GAGGAGAGTT TGGGCCTGGA ACTCATTCAT GAGGAATCTG ATGCTCCTTT GCTGCCCCCA
    AGAGTATACT CCACCGAGAA CCACCAGCCA CACCATTATA CCAGAAGGCG GATCCCCCAA
    GACCACAGTG AGAGCTTTTT CCCTTTGCTA ACCAACGAGC ACACAGAAGA TCTCCAGTCA
    CCCCATAGAG ACTCTCTCTA TACCAGCATG CCGACACTGG CTGGTGTGGC CGCCACAGAG
    AGTGTTACCA CCAGCACCCA GACCGAACCC CCACCGGCCA AATGTGGTGA TGCCGAAGAT
    GTTTACTACA AAAGCATGCC AAACCTAGGC TCCAGAAACC ACGTCCATCA GCTGCATACT
    TACTACCAGC TAGGTCGCGG CAGCAGTGAT GGATTTATAG TTCCTCCAAA CAAAGATGGG
    ACCCCTCCCG AGGGAAGTTC AAAAGGACCG GCTCATTTGG TCACTAGTCT ATAG

    The stop codons will be deleted if pcDNA3.1+/C-(K)DYK vector is selected.

    CloneID OHu19603
    Clone ID Related Accession (Same CDS sequence) XM_011531792.1 , NM_015236.5 , NM_015236.4 , NM_015236.6
    Accession Version XM_011531792.1 Latest version! Documents for ORF clone product in default vector
    Sequence Information ORF Nucleotide Sequence (Length: 4410bp)
    Protein sequence
    SNP
    Vector pcDNA3.1-C-(k)DYK or customized vector User Manual
    Clone information Clone Map MSDS
    Tag on pcDNA3.1+/C-(K)DYK C terminal DYKDDDDK tags
    ORF Insert Method CloneEZ™ Seamless cloning technology
    Insert Structure linear
    Update Date 2015-03-11
    Organism Homo sapiens(Human)
    Product latrophilin-3 isoform X1
    Comment

    1
    61
    121
    181
    241
    301
    361
    421
    481
    541
    601
    661
    721
    781
    841
    901
    961
    1021
    1081
    1141
    1201
    1261
    1321
    1381
    1441
    1501
    1561
    1621
    1681
    1741
    1801
    1861
    1921
    1981
    2041
    2101
    2161
    2221
    2281
    2341
    2401
    2461
    2521
    2581
    2641
    2701
    2761
    2821
    2881
    2941
    3001
    3061
    3121
    3181
    3241
    3301
    3361
    3421
    3481
    3541
    3601
    3661
    3721
    3781
    3841
    3901
    3961
    4021
    4081
    4141
    4201
    4261
    4321
    4381
    ATGTGGCCAT CGCAGCTACT AATTTTCATG ATGCTCTTAG CTCCAATAAT TCATGCTTTC 
    AGCCGTGCCC CAATTCCAAT GGCTGTGGTC CGCAGAGAGC TATCCTGTGA GAGCTATCCT
    ATAGAGCTTC GCTGTCCAGG AACAGACGTC ATCATGATAG AAAGTGCCAA CTATGGCAGG
    ACTGATGACA AAATTTGTGA CTCTGACCCT GCTCAGATGG AGAATATCCG ATGTTATCTG
    CCAGATGCCT ATAAGATTAT GTCTCAAAGA TGCAATAACA GAACCCAGTG TGCAGTGGTG
    GCAGGTCCTG ATGTTTTTCC AGACCCGTGT CCAGGAACCT ATAAATACCT TGAAGTGCAG
    TATGAATGTG TCCCTTACAA AGTGGAACAA AAAGTTTTTC TTTGTCCTGG ACTACTAAAA
    GGAGTATACC AGAGTGAACA TTTGTTTGAG TCCGACCACC AATCTGGGGC GTGGTGCAAA
    GACCCTCTGC AGGCATCTGA CAAGATTTAT TATATGCCCT GGACTCCCTA CAGAACTGAT
    ACCCTGACTG AGTATTCATC CAAGGATGAC TTCATTGCTG GAAGACCAAC TACAACCTAC
    AAGCTCCCTC ACAGGGTGGA TGGCACAGGA TTTGTAGTGT ATGATGGAGC TTTGTTCTTC
    AACAAAGAGC GCACCAGGAA CATAGTAAAG TTTGATTTGC GGACTAGGAT AAAGAGTGGA
    GAGGCTATCA TAGCAAATGC CAATTACCAT GATACCTCCC CTTACCGATG GGGAGGCAAA
    TCTGACATAG ACCTGGCAGT AGATGAGAAT GGGCTATGGG TAATCTATGC AACAGAACAA
    AACAATGGTA AAATTGTCAT TAGTCAATTG AACCCTTACA CCCTACGGAT CGAAGGAACA
    TGGGATACTG CATATGATAA AAGGTCAGCT TCCAATGCCT TTATGATTTG TGGAATTCTG
    TATGTGGTCA AATCTGTATA TGAGGATGAT GACAATGAGG CTACTGGAAA TAAGATTGAC
    TACATTTACA ACACTGACCA AAGCAAGGAT AGTTTGGTGG ATGTACCCTT TCCTAATTCA
    TACCAGTACA TTGCAGCTGT GGATTACAAC CCCAGGGACA ACCTACTTTA TGTATGGAAT
    AACTATCACG TCGTGAAATA TTCTTTGGAT TTTGGACCTC TGGATAGTAG ATCAGGGCAG
    GCACATCATG GACAAGTTTC ATACATTTCT CCGCCAATTC ACCTTGACTC TGAGCTAGAA
    AGACCCTCTG TTAAAGATAT CTCTACCACA GGACCTCTTG GCATGGGAAG CACTACCACC
    AGTACCACCC TTCGGACCAC AACTTTGAGC CCAGGAAGGA GTACCACCCC GTCAGTGTCA
    GGAAGAAGAA ACCGGAGTAC TAGTACCCCA TCTCCAGCTG TCGAGGTACT TGATGACATG
    ACCACACACC TTCCATCAGC ATCGTCCCAA ATCCCAGCTC TCGAAGAGAG CTGTGAGGCT
    GTGGAAGCCC GAGAAATCAT GTGGTTTAAG ACTCGTCAAG GACAGATAGC AAAGCAGCCA
    TGCCCTGCAG GAACTATAGG TGTATCAACT TATCTATGCC TTGCTCCTGA TGGAATTTGG
    GATCCCCAAG GTCCAGATCT CAGCAACTGT TCTTCTCCTT GGGTCAATCA TATAACACAG
    AAGTTGAAAT CTGGTGAAAC AGCTGCCAAC ATTGCTAGAG AGCTGGCTGA ACAGACAAGA
    AATCACTTGA ATGCTGGGGA CATCACCTAC TCTGTCCGGG CCATGGACCA GCTGGTAGGC
    CTCCTAGATG TACAGCTTCG GAACTTGACC CCAGGTGGAA AAGATAGTGC TGCCCGGAGT
    TTGAACAAGC TTCAGAAAAG AGAGCGCTCT TGCAGAGCCT ATGTCCAGGC AATGGTCGAG
    ACAGTTAACA ACCTCCTTCA GCCACAAGCT TTGAATGCAT GGAGAGACCT GACTACGAGT
    GATCAGCTGC GTGCGGCCAC CATGTTGCTT CATACTGTGG AGGAAAGTGC TTTTGTGCTG
    GCTGATAACC TTTTGAAGAC TGACATTGTC AGGGAGAATA CAGACAATAT TAAATTGGAA
    GTTGCAAGAC TGAGCACAGA AGGAAACTTA GAAGACCTAA AATTTCCAGA AAACATGGGC
    CATGGAAGCA CTATCCAGCT GTCTGCAAAT ACCTTAAAGC AAAATGGCCG AAATGGAGAG
    ATCAGAGTGG CCTTTGTCCT GTATAACAAC TTGGGTCCTT ATTTATCCAC GGAGAATGCC
    AGTATGAAGT TGGGAACGGA AGCTTTGTCC ACAAATCATT CTGTTATTGT CAATTCCCCT
    GTTATTACGG CAGCAATAAA CAAAGAGTTC AGTAACAAGG TTTATTTGGC TGATCCTGTG
    GTATTTACTG TTAAACATAT CAAGCAGTCA GAGGAAAATT TCAACCCTAA CTGTTCATTT
    TGGAGCTACT CCAAGCGTAC AATGACAGGT TATTGGTCAA CACAAGGCTG TCGGCTCCTG
    ACAACAAATA AGACACATAC TACATGCTCT TGTAACCACC TAACAAATTT TGCAGTACTG
    ATGGCACATG TGGAAGTTAA GCACAGTGAT GCGGTCCATG ACCTCCTTCT GGATGTGATC
    ACGTGGGTTG GAATTTTGCT GTCCCTTGTT TGTCTCCTGA TTTGCATCTT CACATTTTGC
    TTTTTCCGGG GGCTCCAGAG TGACCGTAAC ACCATCCACA AGAACCTCTG CATCAGTCTC
    TTTGTAGCAG AGCTGCTCTT CCTGATTGGG ATCAACCGAA CTGACCAACC AATTGCCTGT
    GCTGTTTTCG CTGCCCTGTT ACATTTCTTC TTCTTGGCTG CCTTCACCTG GATGTTCCTG
    GAGGGGGTGC AGCTTTATAT CATGCTGGTG GAGGTTTTTG AGAGTGAACA TTCACGTAGG
    AAATACTTTT ATCTGGTCGG CTATGGGATG CCTGCACTCA TTGTGGCTGT GTCAGCTGCA
    GTAGACTACA GGAGTTATGG AACAGATAAA GTATGTTGGC TCCGACTTGA CACCTACTTC
    ATTTGGAGTT TTATAGGACC AGCAACTTTG ATAATTATGC TTAATGTAAT CTTCCTTGGG
    ATTGCTTTAT ATAAAATGTT TCATCATACT GCTATACTGA AACCTGAATC AGGCTGTCTT
    GATAACATCA ACTATGAGGA TAACAGACCC TTCATCAAGT CATGGGTTAT AGGTGCAATA
    GCTCTTCTCT GCCTATTAGG ATTGACCTGG GCCTTTGGAC TCATGTATAT TAATGAAAGC
    ACAGTCATCA TGGCCTATCT CTTCACCATT TTCAATTCTC TACAGGGAAT GTTTATATTT
    ATTTTCCATT GTGTCCTACA GAAGAAGGTA CGAAAAGAGT ATGGGAAATG CCTGCGAACA
    CATTGCTGTA GTGGCAAAAG TACAGAGAGT TCCATTGGTT CAGGGAAAAC ATCTGGTTCT
    CGAACTCCTG GACGCTACTC CACAGGCTCA CAGAGCCGAA TCCGTAGAAT GTGGAATGAC
    ACGGTTCGAA AGCAGTCAGA GTCTTCCTTT ATTACTGGAG ACATAAACAG TTCAGCGTCA
    CTCAACAGAG AGGGGCTTCT GAACAATGCC AGGGATACAA GTGTCATGGA TACTCTACCA
    CTGAATGGTA ACCATGGCAA TAGTTACAGC ATTGCCAGCG GCGAATACCT GAGCAACTGT
    GTGCAAATCA TAGACCGTGG CTATAACCAT AACGAGACCG CCCTAGAGAA AAAGATTCTG
    AAGGAACTCA CTTCCAACTA TATCCCTTCT TACCTGAACA ACCATGAGCG CTCCAGTGAA
    CAGAACAGGA ATCTGATGAA CAAGCTGGTG AATAACCTTG GCAGTGGAAG GGAAGATGAT
    GCCATTGTCC TGGATGATGC CACCTCGTTT AACCACGAGG AGAGTTTGGG CCTGGAACTC
    ATTCATGAGG AATCTGATGC TCCTTTGCTG CCCCCAAGAG TATACTCCAC CGAGAACCAC
    CAGCCACACC ATTATACCAG AAGGCGGATC CCCCAAGACC ACAGTGAGAG CTTTTTCCCT
    TTGCTAACCA ACGAGCACAC AGAAGATCTC CAGTCACCCC ATAGAGACTC TCTCTATACC
    AGCATGCCGA CACTGGCTGG TGTGGCCGCC ACAGAGAGTG TTACCACCAG CACCCAGACC
    GAACCCCCAC CGGCCAAATG TGGTGATGCC GAAGATGTTT ACTACAAAAG CATGCCAAAC
    CTAGGCTCCA GAAACCACGT CCATCAGCTG CATACTTACT ACCAGCTAGG TCGCGGCAGC
    AGTGATGGAT TTATAGTTCC TCCAAACAAA GATGGGACCC CTCCCGAGGG AAGTTCAAAA
    GGACCGGCTC ATTTGGTCAC TAGTCTATAG

    The stop codons will be deleted if pcDNA3.1+/C-(K)DYK vector is selected.

    RefSeq XP_011530094.1
    Translation

    Target ORF information:

    RefSeq Version XM_011531792.1
    Organism Homo sapiens(Human)
    Definition Homo sapiens adhesion G protein-coupled receptor L3 (ADGRL3), transcript variant X9, mRNA.

    Target ORF information:

    Epitope DYKDDDDK
    Bacterial selection AMPR
    Mammalian selection NeoR
    Vector pcDNA3.1+/C-(K)DYK
    XM_011531792.1

    ORF Insert Sequence:

    1
    61
    121
    181
    241
    301
    361
    421
    481
    541
    601
    661
    721
    781
    841
    901
    961
    1021
    1081
    1141
    1201
    1261
    1321
    1381
    1441
    1501
    1561
    1621
    1681
    1741
    1801
    1861
    1921
    1981
    2041
    2101
    2161
    2221
    2281
    2341
    2401
    2461
    2521
    2581
    2641
    2701
    2761
    2821
    2881
    2941
    3001
    3061
    3121
    3181
    3241
    3301
    3361
    3421
    3481
    3541
    3601
    3661
    3721
    3781
    3841
    3901
    3961
    4021
    4081
    4141
    4201
    4261
    4321
    4381
    ATGTGGCCAT CGCAGCTACT AATTTTCATG ATGCTCTTAG CTCCAATAAT TCATGCTTTC 
    AGCCGTGCCC CAATTCCAAT GGCTGTGGTC CGCAGAGAGC TATCCTGTGA GAGCTATCCT
    ATAGAGCTTC GCTGTCCAGG AACAGACGTC ATCATGATAG AAAGTGCCAA CTATGGCAGG
    ACTGATGACA AAATTTGTGA CTCTGACCCT GCTCAGATGG AGAATATCCG ATGTTATCTG
    CCAGATGCCT ATAAGATTAT GTCTCAAAGA TGCAATAACA GAACCCAGTG TGCAGTGGTG
    GCAGGTCCTG ATGTTTTTCC AGACCCGTGT CCAGGAACCT ATAAATACCT TGAAGTGCAG
    TATGAATGTG TCCCTTACAA AGTGGAACAA AAAGTTTTTC TTTGTCCTGG ACTACTAAAA
    GGAGTATACC AGAGTGAACA TTTGTTTGAG TCCGACCACC AATCTGGGGC GTGGTGCAAA
    GACCCTCTGC AGGCATCTGA CAAGATTTAT TATATGCCCT GGACTCCCTA CAGAACTGAT
    ACCCTGACTG AGTATTCATC CAAGGATGAC TTCATTGCTG GAAGACCAAC TACAACCTAC
    AAGCTCCCTC ACAGGGTGGA TGGCACAGGA TTTGTAGTGT ATGATGGAGC TTTGTTCTTC
    AACAAAGAGC GCACCAGGAA CATAGTAAAG TTTGATTTGC GGACTAGGAT AAAGAGTGGA
    GAGGCTATCA TAGCAAATGC CAATTACCAT GATACCTCCC CTTACCGATG GGGAGGCAAA
    TCTGACATAG ACCTGGCAGT AGATGAGAAT GGGCTATGGG TAATCTATGC AACAGAACAA
    AACAATGGTA AAATTGTCAT TAGTCAATTG AACCCTTACA CCCTACGGAT CGAAGGAACA
    TGGGATACTG CATATGATAA AAGGTCAGCT TCCAATGCCT TTATGATTTG TGGAATTCTG
    TATGTGGTCA AATCTGTATA TGAGGATGAT GACAATGAGG CTACTGGAAA TAAGATTGAC
    TACATTTACA ACACTGACCA AAGCAAGGAT AGTTTGGTGG ATGTACCCTT TCCTAATTCA
    TACCAGTACA TTGCAGCTGT GGATTACAAC CCCAGGGACA ACCTACTTTA TGTATGGAAT
    AACTATCACG TCGTGAAATA TTCTTTGGAT TTTGGACCTC TGGATAGTAG ATCAGGGCAG
    GCACATCATG GACAAGTTTC ATACATTTCT CCGCCAATTC ACCTTGACTC TGAGCTAGAA
    AGACCCTCTG TTAAAGATAT CTCTACCACA GGACCTCTTG GCATGGGAAG CACTACCACC
    AGTACCACCC TTCGGACCAC AACTTTGAGC CCAGGAAGGA GTACCACCCC GTCAGTGTCA
    GGAAGAAGAA ACCGGAGTAC TAGTACCCCA TCTCCAGCTG TCGAGGTACT TGATGACATG
    ACCACACACC TTCCATCAGC ATCGTCCCAA ATCCCAGCTC TCGAAGAGAG CTGTGAGGCT
    GTGGAAGCCC GAGAAATCAT GTGGTTTAAG ACTCGTCAAG GACAGATAGC AAAGCAGCCA
    TGCCCTGCAG GAACTATAGG TGTATCAACT TATCTATGCC TTGCTCCTGA TGGAATTTGG
    GATCCCCAAG GTCCAGATCT CAGCAACTGT TCTTCTCCTT GGGTCAATCA TATAACACAG
    AAGTTGAAAT CTGGTGAAAC AGCTGCCAAC ATTGCTAGAG AGCTGGCTGA ACAGACAAGA
    AATCACTTGA ATGCTGGGGA CATCACCTAC TCTGTCCGGG CCATGGACCA GCTGGTAGGC
    CTCCTAGATG TACAGCTTCG GAACTTGACC CCAGGTGGAA AAGATAGTGC TGCCCGGAGT
    TTGAACAAGC TTCAGAAAAG AGAGCGCTCT TGCAGAGCCT ATGTCCAGGC AATGGTCGAG
    ACAGTTAACA ACCTCCTTCA GCCACAAGCT TTGAATGCAT GGAGAGACCT GACTACGAGT
    GATCAGCTGC GTGCGGCCAC CATGTTGCTT CATACTGTGG AGGAAAGTGC TTTTGTGCTG
    GCTGATAACC TTTTGAAGAC TGACATTGTC AGGGAGAATA CAGACAATAT TAAATTGGAA
    GTTGCAAGAC TGAGCACAGA AGGAAACTTA GAAGACCTAA AATTTCCAGA AAACATGGGC
    CATGGAAGCA CTATCCAGCT GTCTGCAAAT ACCTTAAAGC AAAATGGCCG AAATGGAGAG
    ATCAGAGTGG CCTTTGTCCT GTATAACAAC TTGGGTCCTT ATTTATCCAC GGAGAATGCC
    AGTATGAAGT TGGGAACGGA AGCTTTGTCC ACAAATCATT CTGTTATTGT CAATTCCCCT
    GTTATTACGG CAGCAATAAA CAAAGAGTTC AGTAACAAGG TTTATTTGGC TGATCCTGTG
    GTATTTACTG TTAAACATAT CAAGCAGTCA GAGGAAAATT TCAACCCTAA CTGTTCATTT
    TGGAGCTACT CCAAGCGTAC AATGACAGGT TATTGGTCAA CACAAGGCTG TCGGCTCCTG
    ACAACAAATA AGACACATAC TACATGCTCT TGTAACCACC TAACAAATTT TGCAGTACTG
    ATGGCACATG TGGAAGTTAA GCACAGTGAT GCGGTCCATG ACCTCCTTCT GGATGTGATC
    ACGTGGGTTG GAATTTTGCT GTCCCTTGTT TGTCTCCTGA TTTGCATCTT CACATTTTGC
    TTTTTCCGGG GGCTCCAGAG TGACCGTAAC ACCATCCACA AGAACCTCTG CATCAGTCTC
    TTTGTAGCAG AGCTGCTCTT CCTGATTGGG ATCAACCGAA CTGACCAACC AATTGCCTGT
    GCTGTTTTCG CTGCCCTGTT ACATTTCTTC TTCTTGGCTG CCTTCACCTG GATGTTCCTG
    GAGGGGGTGC AGCTTTATAT CATGCTGGTG GAGGTTTTTG AGAGTGAACA TTCACGTAGG
    AAATACTTTT ATCTGGTCGG CTATGGGATG CCTGCACTCA TTGTGGCTGT GTCAGCTGCA
    GTAGACTACA GGAGTTATGG AACAGATAAA GTATGTTGGC TCCGACTTGA CACCTACTTC
    ATTTGGAGTT TTATAGGACC AGCAACTTTG ATAATTATGC TTAATGTAAT CTTCCTTGGG
    ATTGCTTTAT ATAAAATGTT TCATCATACT GCTATACTGA AACCTGAATC AGGCTGTCTT
    GATAACATCA ACTATGAGGA TAACAGACCC TTCATCAAGT CATGGGTTAT AGGTGCAATA
    GCTCTTCTCT GCCTATTAGG ATTGACCTGG GCCTTTGGAC TCATGTATAT TAATGAAAGC
    ACAGTCATCA TGGCCTATCT CTTCACCATT TTCAATTCTC TACAGGGAAT GTTTATATTT
    ATTTTCCATT GTGTCCTACA GAAGAAGGTA CGAAAAGAGT ATGGGAAATG CCTGCGAACA
    CATTGCTGTA GTGGCAAAAG TACAGAGAGT TCCATTGGTT CAGGGAAAAC ATCTGGTTCT
    CGAACTCCTG GACGCTACTC CACAGGCTCA CAGAGCCGAA TCCGTAGAAT GTGGAATGAC
    ACGGTTCGAA AGCAGTCAGA GTCTTCCTTT ATTACTGGAG ACATAAACAG TTCAGCGTCA
    CTCAACAGAG AGGGGCTTCT GAACAATGCC AGGGATACAA GTGTCATGGA TACTCTACCA
    CTGAATGGTA ACCATGGCAA TAGTTACAGC ATTGCCAGCG GCGAATACCT GAGCAACTGT
    GTGCAAATCA TAGACCGTGG CTATAACCAT AACGAGACCG CCCTAGAGAA AAAGATTCTG
    AAGGAACTCA CTTCCAACTA TATCCCTTCT TACCTGAACA ACCATGAGCG CTCCAGTGAA
    CAGAACAGGA ATCTGATGAA CAAGCTGGTG AATAACCTTG GCAGTGGAAG GGAAGATGAT
    GCCATTGTCC TGGATGATGC CACCTCGTTT AACCACGAGG AGAGTTTGGG CCTGGAACTC
    ATTCATGAGG AATCTGATGC TCCTTTGCTG CCCCCAAGAG TATACTCCAC CGAGAACCAC
    CAGCCACACC ATTATACCAG AAGGCGGATC CCCCAAGACC ACAGTGAGAG CTTTTTCCCT
    TTGCTAACCA ACGAGCACAC AGAAGATCTC CAGTCACCCC ATAGAGACTC TCTCTATACC
    AGCATGCCGA CACTGGCTGG TGTGGCCGCC ACAGAGAGTG TTACCACCAG CACCCAGACC
    GAACCCCCAC CGGCCAAATG TGGTGATGCC GAAGATGTTT ACTACAAAAG CATGCCAAAC
    CTAGGCTCCA GAAACCACGT CCATCAGCTG CATACTTACT ACCAGCTAGG TCGCGGCAGC
    AGTGATGGAT TTATAGTTCC TCCAAACAAA GATGGGACCC CTCCCGAGGG AAGTTCAAAA
    GGACCGGCTC ATTTGGTCAC TAGTCTATAG

    The stop codons will be deleted if pcDNA3.1+/C-(K)DYK vector is selected.

    CloneID OHu65884
    Clone ID Related Accession (Same CDS sequence) XM_011531788.2
    Accession Version XM_011531788.2 Latest version! Documents for ORF clone product in default vector
    Sequence Information ORF Nucleotide Sequence (Length: 4632bp)
    Protein sequence
    SNP
    Vector pcDNA3.1-C-(k)DYK or customized vector User Manual
    Clone information Clone Map MSDS
    Tag on pcDNA3.1+/C-(K)DYK C terminal DYKDDDDK tags
    ORF Insert Method CloneEZ™ Seamless cloning technology
    Insert Structure linear
    Update Date 2019-12-05
    Organism Homo sapiens(human)
    Product adhesion G protein-coupled receptor L3 isoform X3
    Comment Comment: MODEL REFSEQ: This record is predicted by automated computational analysis. This record is derived from a genomic sequence (NC_000004.12) annotated using gene prediction method: Gnomon, supported by mRNA and EST evidence. Also see: Documentation of NCBI's Annotation Process On Jun 6, 2016 this sequence version replaced XM_011531788.1. ##Genome-Annotation-Data-START## Annotation Provider :: NCBI Annotation Status :: Updated annotation Annotation Name :: Homo sapiens Updated Annotation Release 109.20191205 Annotation Version :: 109.20191205 Annotation Pipeline :: NCBI eukaryotic genome annotation pipeline Annotation Software Version :: 8.3 Annotation Method :: Best-placed RefSeq; propagated RefSeq model Features Annotated :: Gene; mRNA; CDS; ncRNA ##Genome-Annotation-Data-END##

    1
    61
    121
    181
    241
    301
    361
    421
    481
    541
    601
    661
    721
    781
    841
    901
    961
    1021
    1081
    1141
    1201
    1261
    1321
    1381
    1441
    1501
    1561
    1621
    1681
    1741
    1801
    1861
    1921
    1981
    2041
    2101
    2161
    2221
    2281
    2341
    2401
    2461
    2521
    2581
    2641
    2701
    2761
    2821
    2881
    2941
    3001
    3061
    3121
    3181
    3241
    3301
    3361
    3421
    3481
    3541
    3601
    3661
    3721
    3781
    3841
    3901
    3961
    4021
    4081
    4141
    4201
    4261
    4321
    4381
    4441
    4501
    4561
    4621
    ATGTGGCCAT CGCAGCTACT AATTTTCATG ATGCTCTTAG CTCCAATAAT TCATGGTGGC 
    AAGCACAGTG AACGACATCC TGCCCTTGCT GCTCCATTGC GACACGCTGA GCGCAGCCCA
    GGAGGCGCTC TTCCACCCAG ACATCTGCTT CAGCAGCCAG CTGCAGAGCG CACCGCTGCT
    CATCGTGGAC AAGGGCCCCG TGGAGCTACC AGAGGAGTTC GCGGTCCAGG TGCCCAAGGA
    GCACAGATTG CAGCGCAAGC TTTCAGCCGT GCCCCAATTC CAATGGCTGT GGTCCGCAGA
    GAGCTATCCT GTGAGAGCTA TCCTATAGAG CTTCGCTGTC CAGGAACAGA CGTCATCATG
    ATAGAAAGTG CCAACTATGG CAGGACTGAT GACAAAATTT GTGACTCTGA CCCTGCTCAG
    ATGGAGAATA TCCGATGTTA TCTGCCAGAT GCCTATAAGA TTATGTCTCA AAGATGCAAT
    AACAGAACCC AGTGTGCAGT GGTGGCAGGT CCTGATGTTT TTCCAGACCC GTGTCCAGGA
    ACCTATAAAT ACCTTGAAGT GCAGTATGAA TGTGTCCCTT ACAAAGTGGA ACAAAAAGTT
    TTTCTTTGTC CTGGACTACT AAAAGGAGTA TACCAGAGTG AACATTTGTT TGAGTCCGAC
    CACCAATCTG GGGCGTGGTG CAAAGACCCT CTGCAGGCAT CTGACAAGAT TTATTATATG
    CCCTGGACTC CCTACAGAAC TGATACCCTG ACTGAGTATT CATCCAAGGA TGACTTCATT
    GCTGGAAGAC CAACTACAAC CTACAAGCTC CCTCACAGGG TGGATGGCAC AGGATTTGTA
    GTGTATGATG GAGCTTTGTT CTTCAACAAA GAGCGCACCA GGAACATAGT AAAGTTTGAT
    TTGCGGACTA GGATAAAGAG TGGAGAGGCT ATCATAGCAA ATGCCAATTA CCATGATACC
    TCCCCTTACC GATGGGGAGG CAAATCTGAC ATAGACCTGG CAGTAGATGA GAATGGGCTA
    TGGGTAATCT ATGCAACAGA ACAAAACAAT GGTAAAATTG TCATTAGTCA ATTGAACCCT
    TACACCCTAC GGATCGAAGG AACATGGGAT ACTGCATATG ATAAAAGGTC AGCTTCCAAT
    GCCTTTATGA TTTGTGGAAT TCTGTATGTG GTCAAATCTG TATATGAGGA TGATGACAAT
    GAGGCTACTG GAAATAAGAT TGACTACATT TACAACACTG ACCAAAGCAA GGATAGTTTG
    GTGGATGTAC CCTTTCCTAA TTCATACCAG TACATTGCAG CTGTGGATTA CAACCCCAGG
    GACAACCTAC TTTATGTATG GAATAACTAT CACGTCGTGA AATATTCTTT GGATTTTGGA
    CCTCTGGATA GTAGATCAGG GCAGGCACAT CATGGACAAG TTTCATACAT TTCTCCGCCA
    ATTCACCTTG ACTCTGAGCT AGAAAGACCC TCTGTTAAAG ATATCTCTAC CACAGGACCT
    CTTGGCATGG GAAGCACTAC CACCAGTACC ACCCTTCGGA CCACAACTTT GAGCCCAGGA
    AGGAGTACCA CCCCGTCAGT GTCAGGAAGA AGAAACCGGA GTACTAGTAC CCCATCTCCA
    GCTGTCGAGG TACTTGATGA CATGACCACA CACCTTCCAT CAGCATCGTC CCAAATCCCA
    GCTCTCGAAG AGAGCTGTGA GGCTGTGGAA GCCCGAGAAA TCATGTGGTT TAAGACTCGT
    CAAGGACAGA TAGCAAAGCA GCCATGCCCT GCAGGAACTA TAGGTGTATC AACTTATCTA
    TGCCTTGCTC CTGATGGAAT TTGGGATCCC CAAGGTCCAG ATCTCAGCAA CTGTTCTTCT
    CCTTGGGTCA ATCATATAAC ACAGAAGTTG AAATCTGGTG AAACAGCTGC CAACATTGCT
    AGAGAGCTGG CTGAACAGAC AAGAAATCAC TTGAATGCTG GGGACATCAC CTACTCTGTC
    CGGGCCATGG ACCAGCTGGT AGGCCTCCTA GATGTACAGC TTCGGAACTT GACCCCAGGT
    GGAAAAGATA GTGCTGCCCG GAGTTTGAAC AAGCTTCAGA AAAGAGAGCG CTCTTGCAGA
    GCCTATGTCC AGGCAATGGT CGAGACAGTT AACAACCTCC TTCAGCCACA AGCTTTGAAT
    GCATGGAGAG ACCTGACTAC GAGTGATCAG CTGCGTGCGG CCACCATGTT GCTTCATACT
    GTGGAGGAAA GTGCTTTTGT GCTGGCTGAT AACCTTTTGA AGACTGACAT TGTCAGGGAG
    AATACAGACA ATATTAAATT GGAAGTTGCA AGACTGAGCA CAGAAGGAAA CTTAGAAGAC
    CTAAAATTTC CAGAAAACAT GGGCCATGGA AGCACTATCC AGCTGTCTGC AAATACCTTA
    AAGCAAAATG GCCGAAATGG AGAGATCAGA GTGGCCTTTG TCCTGTATAA CAACTTGGGT
    CCTTATTTAT CCACGGAGAA TGCCAGTATG AAGTTGGGAA CGGAAGCTTT GTCCACAAAT
    CATTCTGTTA TTGTCAATTC CCCTGTTATT ACGGCAGCAA TAAACAAAGA GTTCAGTAAC
    AAGGTTTATT TGGCTGATCC TGTGGTATTT ACTGTTAAAC ATATCAAGCA GTCAGAGGAA
    AATTTCAACC CTAACTGTTC ATTTTGGAGC TACTCCAAGC GTACAATGAC AGGTTATTGG
    TCAACACAAG GCTGTCGGCT CCTGACAACA AATAAGACAC ATACTACATG CTCTTGTAAC
    CACCTAACAA ATTTTGCAGT ACTGATGGCA CATGTGGAAG TTAAGCACAG TGATGCGGTC
    CATGACCTCC TTCTGGATGT GATCACGTGG GTTGGAATTT TGCTGTCCCT TGTTTGTCTC
    CTGATTTGCA TCTTCACATT TTGCTTTTTC CGGGGGCTCC AGAGTGACCG TAACACCATC
    CACAAGAACC TCTGCATCAG TCTCTTTGTA GCAGAGCTGC TCTTCCTGAT TGGGATCAAC
    CGAACTGACC AACCAATTGC CTGTGCTGTT TTCGCTGCCC TGTTACATTT CTTCTTCTTG
    GCTGCCTTCA CCTGGATGTT CCTGGAGGGG GTGCAGCTTT ATATCATGCT GGTGGAGGTT
    TTTGAGAGTG AACATTCACG TAGGAAATAC TTTTATCTGG TCGGCTATGG GATGCCTGCA
    CTCATTGTGG CTGTGTCAGC TGCAGTAGAC TACAGGAGTT ATGGAACAGA TAAAGTATGT
    TGGCTCCGAC TTGACACCTA CTTCATTTGG AGTTTTATAG GACCAGCAAC TTTGATAATT
    ATGCTTAATG TAATCTTCCT TGGGATTGCT TTATATAAAA TGTTTCATCA TACTGCTATA
    CTGAAACCTG AATCAGGCTG TCTTGATAAC ATCAACTATG AGGATAACAG ACCCTTCATC
    AAGTCATGGG TTATAGGTGC AATAGCTCTT CTCTGCCTAT TAGGATTGAC CTGGGCCTTT
    GGACTCATGT ATATTAATGA AAGCACAGTC ATCATGGCCT ATCTCTTCAC CATTTTCAAT
    TCTCTACAGG GAATGTTTAT ATTTATTTTC CATTGTGTCC TACAGAAGAA GGTACGAAAA
    GAGTATGGGA AATGCCTGCG AACACATTGC TGTAGTGGCA AAAGTACAGA GAGTTCCATT
    GGTTCAGGGA AAACATCTGG TTCTCGAACT CCTGGACGCT ACTCCACAGG CTCACAGAGC
    CGAATCCGTA GAATGTGGAA TGACACGGTT CGAAAGCAGT CAGAGTCTTC CTTTATTACT
    GGAGACATAA ACAGTTCAGC GTCACTCAAC AGAGAGCCCT ACAGAGAGAC AAAGGGGCTT
    CTGAACAATG CCAGGGATAC AAGTGTCATG GATACTCTAC CACTGAATGG TAACCATGGC
    AATAGTTACA GCATTGCCAG CGGCGAATAC CTGAGCAACT GTGTGCAAAT CATAGACCGT
    GGCTATAACC ATAACGAGAC CGCCCTAGAG AAAAAGATTC TGAAGGAACT CACTTCCAAC
    TATATCCCTT CTTACCTGAA CAACCATGAG CGCTCCAGTG AACAGAACAG GAATCTGATG
    AACAAGCTGG TGAATAACCT TGGCAGTGGA AGGGAAGATG ATGCCATTGT CCTGGATGAT
    GCCACCTCGT TTAACCACGA GGAGAGTTTG GGCCTGGAAC TCATTCATGA GGAATCTGAT
    GCTCCTTTGC TGCCCCCAAG AGTATACTCC ACCGAGAACC ACCAGCCACA CCATTATACC
    AGAAGGCGGA TCCCCCAAGA CCACAGTGAG AGCTTTTTCC CTTTGCTAAC CAACGAGCAC
    ACAGAAGATC TCCAGTCACC CCATAGAGAC TCTCTCTATA CCAGCATGCC GACACTGGCT
    GGTGTGGCCG CCACAGAGAG TGTTACCACC AGCACCCAGA CCGAACCCCC ACCGGCCAAA
    TGTGGTGATG CCGAAGATGT TTACTACAAA AGCATGCCAA ACCTAGGCTC CAGAAACCAC
    GTCCATCAGC TGCATACTTA CTACCAGCTA GGTCGCGGCA GCAGTGATGG ATTTATAGTT
    CCTCCAAACA AAGATGGGAC CCCTCCCGAG GGAAGTTCAA AAGGACCGGC TCATTTGGTC
    ACTAGTCTAT AG

    The stop codons will be deleted if pcDNA3.1+/C-(K)DYK vector is selected.

    RefSeq XP_011530090.1
    CDS288..4919
    Translation

    Target ORF information:

    RefSeq Version XM_011531788.2
    Organism Homo sapiens(human)
    Definition Homo sapiens adhesion G protein-coupled receptor L3 (ADGRL3), transcript variant X4, mRNA.

    Target ORF information:

    Epitope DYKDDDDK
    Bacterial selection AMPR
    Mammalian selection NeoR
    Vector pcDNA3.1+/C-(K)DYK
    XM_011531788.2

    ORF Insert Sequence:

    1
    61
    121
    181
    241
    301
    361
    421
    481
    541
    601
    661
    721
    781
    841
    901
    961
    1021
    1081
    1141
    1201
    1261
    1321
    1381
    1441
    1501
    1561
    1621
    1681
    1741
    1801
    1861
    1921
    1981
    2041
    2101
    2161
    2221
    2281
    2341
    2401
    2461
    2521
    2581
    2641
    2701
    2761
    2821
    2881
    2941
    3001
    3061
    3121
    3181
    3241
    3301
    3361
    3421
    3481
    3541
    3601
    3661
    3721
    3781
    3841
    3901
    3961
    4021
    4081
    4141
    4201
    4261
    4321
    4381
    4441
    4501
    4561
    4621
    ATGTGGCCAT CGCAGCTACT AATTTTCATG ATGCTCTTAG CTCCAATAAT TCATGGTGGC 
    AAGCACAGTG AACGACATCC TGCCCTTGCT GCTCCATTGC GACACGCTGA GCGCAGCCCA
    GGAGGCGCTC TTCCACCCAG ACATCTGCTT CAGCAGCCAG CTGCAGAGCG CACCGCTGCT
    CATCGTGGAC AAGGGCCCCG TGGAGCTACC AGAGGAGTTC GCGGTCCAGG TGCCCAAGGA
    GCACAGATTG CAGCGCAAGC TTTCAGCCGT GCCCCAATTC CAATGGCTGT GGTCCGCAGA
    GAGCTATCCT GTGAGAGCTA TCCTATAGAG CTTCGCTGTC CAGGAACAGA CGTCATCATG
    ATAGAAAGTG CCAACTATGG CAGGACTGAT GACAAAATTT GTGACTCTGA CCCTGCTCAG
    ATGGAGAATA TCCGATGTTA TCTGCCAGAT GCCTATAAGA TTATGTCTCA AAGATGCAAT
    AACAGAACCC AGTGTGCAGT GGTGGCAGGT CCTGATGTTT TTCCAGACCC GTGTCCAGGA
    ACCTATAAAT ACCTTGAAGT GCAGTATGAA TGTGTCCCTT ACAAAGTGGA ACAAAAAGTT
    TTTCTTTGTC CTGGACTACT AAAAGGAGTA TACCAGAGTG AACATTTGTT TGAGTCCGAC
    CACCAATCTG GGGCGTGGTG CAAAGACCCT CTGCAGGCAT CTGACAAGAT TTATTATATG
    CCCTGGACTC CCTACAGAAC TGATACCCTG ACTGAGTATT CATCCAAGGA TGACTTCATT
    GCTGGAAGAC CAACTACAAC CTACAAGCTC CCTCACAGGG TGGATGGCAC AGGATTTGTA
    GTGTATGATG GAGCTTTGTT CTTCAACAAA GAGCGCACCA GGAACATAGT AAAGTTTGAT
    TTGCGGACTA GGATAAAGAG TGGAGAGGCT ATCATAGCAA ATGCCAATTA CCATGATACC
    TCCCCTTACC GATGGGGAGG CAAATCTGAC ATAGACCTGG CAGTAGATGA GAATGGGCTA
    TGGGTAATCT ATGCAACAGA ACAAAACAAT GGTAAAATTG TCATTAGTCA ATTGAACCCT
    TACACCCTAC GGATCGAAGG AACATGGGAT ACTGCATATG ATAAAAGGTC AGCTTCCAAT
    GCCTTTATGA TTTGTGGAAT TCTGTATGTG GTCAAATCTG TATATGAGGA TGATGACAAT
    GAGGCTACTG GAAATAAGAT TGACTACATT TACAACACTG ACCAAAGCAA GGATAGTTTG
    GTGGATGTAC CCTTTCCTAA TTCATACCAG TACATTGCAG CTGTGGATTA CAACCCCAGG
    GACAACCTAC TTTATGTATG GAATAACTAT CACGTCGTGA AATATTCTTT GGATTTTGGA
    CCTCTGGATA GTAGATCAGG GCAGGCACAT CATGGACAAG TTTCATACAT TTCTCCGCCA
    ATTCACCTTG ACTCTGAGCT AGAAAGACCC TCTGTTAAAG ATATCTCTAC CACAGGACCT
    CTTGGCATGG GAAGCACTAC CACCAGTACC ACCCTTCGGA CCACAACTTT GAGCCCAGGA
    AGGAGTACCA CCCCGTCAGT GTCAGGAAGA AGAAACCGGA GTACTAGTAC CCCATCTCCA
    GCTGTCGAGG TACTTGATGA CATGACCACA CACCTTCCAT CAGCATCGTC CCAAATCCCA
    GCTCTCGAAG AGAGCTGTGA GGCTGTGGAA GCCCGAGAAA TCATGTGGTT TAAGACTCGT
    CAAGGACAGA TAGCAAAGCA GCCATGCCCT GCAGGAACTA TAGGTGTATC AACTTATCTA
    TGCCTTGCTC CTGATGGAAT TTGGGATCCC CAAGGTCCAG ATCTCAGCAA CTGTTCTTCT
    CCTTGGGTCA ATCATATAAC ACAGAAGTTG AAATCTGGTG AAACAGCTGC CAACATTGCT
    AGAGAGCTGG CTGAACAGAC AAGAAATCAC TTGAATGCTG GGGACATCAC CTACTCTGTC
    CGGGCCATGG ACCAGCTGGT AGGCCTCCTA GATGTACAGC TTCGGAACTT GACCCCAGGT
    GGAAAAGATA GTGCTGCCCG GAGTTTGAAC AAGCTTCAGA AAAGAGAGCG CTCTTGCAGA
    GCCTATGTCC AGGCAATGGT CGAGACAGTT AACAACCTCC TTCAGCCACA AGCTTTGAAT
    GCATGGAGAG ACCTGACTAC GAGTGATCAG CTGCGTGCGG CCACCATGTT GCTTCATACT
    GTGGAGGAAA GTGCTTTTGT GCTGGCTGAT AACCTTTTGA AGACTGACAT TGTCAGGGAG
    AATACAGACA ATATTAAATT GGAAGTTGCA AGACTGAGCA CAGAAGGAAA CTTAGAAGAC
    CTAAAATTTC CAGAAAACAT GGGCCATGGA AGCACTATCC AGCTGTCTGC AAATACCTTA
    AAGCAAAATG GCCGAAATGG AGAGATCAGA GTGGCCTTTG TCCTGTATAA CAACTTGGGT
    CCTTATTTAT CCACGGAGAA TGCCAGTATG AAGTTGGGAA CGGAAGCTTT GTCCACAAAT
    CATTCTGTTA TTGTCAATTC CCCTGTTATT ACGGCAGCAA TAAACAAAGA GTTCAGTAAC
    AAGGTTTATT TGGCTGATCC TGTGGTATTT ACTGTTAAAC ATATCAAGCA GTCAGAGGAA
    AATTTCAACC CTAACTGTTC ATTTTGGAGC TACTCCAAGC GTACAATGAC AGGTTATTGG
    TCAACACAAG GCTGTCGGCT CCTGACAACA AATAAGACAC ATACTACATG CTCTTGTAAC
    CACCTAACAA ATTTTGCAGT ACTGATGGCA CATGTGGAAG TTAAGCACAG TGATGCGGTC
    CATGACCTCC TTCTGGATGT GATCACGTGG GTTGGAATTT TGCTGTCCCT TGTTTGTCTC
    CTGATTTGCA TCTTCACATT TTGCTTTTTC CGGGGGCTCC AGAGTGACCG TAACACCATC
    CACAAGAACC TCTGCATCAG TCTCTTTGTA GCAGAGCTGC TCTTCCTGAT TGGGATCAAC
    CGAACTGACC AACCAATTGC CTGTGCTGTT TTCGCTGCCC TGTTACATTT CTTCTTCTTG
    GCTGCCTTCA CCTGGATGTT CCTGGAGGGG GTGCAGCTTT ATATCATGCT GGTGGAGGTT
    TTTGAGAGTG AACATTCACG TAGGAAATAC TTTTATCTGG TCGGCTATGG GATGCCTGCA
    CTCATTGTGG CTGTGTCAGC TGCAGTAGAC TACAGGAGTT ATGGAACAGA TAAAGTATGT
    TGGCTCCGAC TTGACACCTA CTTCATTTGG AGTTTTATAG GACCAGCAAC TTTGATAATT
    ATGCTTAATG TAATCTTCCT TGGGATTGCT TTATATAAAA TGTTTCATCA TACTGCTATA
    CTGAAACCTG AATCAGGCTG TCTTGATAAC ATCAACTATG AGGATAACAG ACCCTTCATC
    AAGTCATGGG TTATAGGTGC AATAGCTCTT CTCTGCCTAT TAGGATTGAC CTGGGCCTTT
    GGACTCATGT ATATTAATGA AAGCACAGTC ATCATGGCCT ATCTCTTCAC CATTTTCAAT
    TCTCTACAGG GAATGTTTAT ATTTATTTTC CATTGTGTCC TACAGAAGAA GGTACGAAAA
    GAGTATGGGA AATGCCTGCG AACACATTGC TGTAGTGGCA AAAGTACAGA GAGTTCCATT
    GGTTCAGGGA AAACATCTGG TTCTCGAACT CCTGGACGCT ACTCCACAGG CTCACAGAGC
    CGAATCCGTA GAATGTGGAA TGACACGGTT CGAAAGCAGT CAGAGTCTTC CTTTATTACT
    GGAGACATAA ACAGTTCAGC GTCACTCAAC AGAGAGCCCT ACAGAGAGAC AAAGGGGCTT
    CTGAACAATG CCAGGGATAC AAGTGTCATG GATACTCTAC CACTGAATGG TAACCATGGC
    AATAGTTACA GCATTGCCAG CGGCGAATAC CTGAGCAACT GTGTGCAAAT CATAGACCGT
    GGCTATAACC ATAACGAGAC CGCCCTAGAG AAAAAGATTC TGAAGGAACT CACTTCCAAC
    TATATCCCTT CTTACCTGAA CAACCATGAG CGCTCCAGTG AACAGAACAG GAATCTGATG
    AACAAGCTGG TGAATAACCT TGGCAGTGGA AGGGAAGATG ATGCCATTGT CCTGGATGAT
    GCCACCTCGT TTAACCACGA GGAGAGTTTG GGCCTGGAAC TCATTCATGA GGAATCTGAT
    GCTCCTTTGC TGCCCCCAAG AGTATACTCC ACCGAGAACC ACCAGCCACA CCATTATACC
    AGAAGGCGGA TCCCCCAAGA CCACAGTGAG AGCTTTTTCC CTTTGCTAAC CAACGAGCAC
    ACAGAAGATC TCCAGTCACC CCATAGAGAC TCTCTCTATA CCAGCATGCC GACACTGGCT
    GGTGTGGCCG CCACAGAGAG TGTTACCACC AGCACCCAGA CCGAACCCCC ACCGGCCAAA
    TGTGGTGATG CCGAAGATGT TTACTACAAA AGCATGCCAA ACCTAGGCTC CAGAAACCAC
    GTCCATCAGC TGCATACTTA CTACCAGCTA GGTCGCGGCA GCAGTGATGG ATTTATAGTT
    CCTCCAAACA AAGATGGGAC CCCTCCCGAG GGAAGTTCAA AAGGACCGGC TCATTTGGTC
    ACTAGTCTAT AG

    The stop codons will be deleted if pcDNA3.1+/C-(K)DYK vector is selected.

    CloneID OHu65886
    Clone ID Related Accession (Same CDS sequence) XM_017007935.1 , NM_001371344.1
    Accession Version XM_017007935.1 Latest version! Documents for ORF clone product in default vector
    Sequence Information ORF Nucleotide Sequence (Length: 4587bp)
    Protein sequence
    SNP
    Vector pcDNA3.1-C-(k)DYK or customized vector User Manual
    Clone information Clone Map MSDS
    Tag on pcDNA3.1+/C-(K)DYK C terminal DYKDDDDK tags
    ORF Insert Method CloneEZ™ Seamless cloning technology
    Insert Structure linear
    Update Date 2019-12-05
    Organism Homo sapiens(human)
    Product adhesion G protein-coupled receptor L3 isoform X7
    Comment Comment: MODEL REFSEQ: This record is predicted by automated computational analysis. This record is derived from a genomic sequence (NC_000004.12) annotated using gene prediction method: Gnomon, supported by mRNA and EST evidence. Also see: Documentation of NCBI's Annotation Process ##Genome-Annotation-Data-START## Annotation Provider :: NCBI Annotation Status :: Updated annotation Annotation Name :: Homo sapiens Updated Annotation Release 109.20191205 Annotation Version :: 109.20191205 Annotation Pipeline :: NCBI eukaryotic genome annotation pipeline Annotation Software Version :: 8.3 Annotation Method :: Best-placed RefSeq; propagated RefSeq model Features Annotated :: Gene; mRNA; CDS; ncRNA ##Genome-Annotation-Data-END##

    1
    61
    121
    181
    241
    301
    361
    421
    481
    541
    601
    661
    721
    781
    841
    901
    961
    1021
    1081
    1141
    1201
    1261
    1321
    1381
    1441
    1501
    1561
    1621
    1681
    1741
    1801
    1861
    1921
    1981
    2041
    2101
    2161
    2221
    2281
    2341
    2401
    2461
    2521
    2581
    2641
    2701
    2761
    2821
    2881
    2941
    3001
    3061
    3121
    3181
    3241
    3301
    3361
    3421
    3481
    3541
    3601
    3661
    3721
    3781
    3841
    3901
    3961
    4021
    4081
    4141
    4201
    4261
    4321
    4381
    4441
    4501
    4561
    ATGTGGCCAT CGCAGCTACT AATTTTCATG ATGCTCTTAG CTCCAATAAT TCATGGTGGC 
    AAGCACAGTG AACGACATCC TGCCCTTGCT GCTCCATTGC GACACGCTGA GCGCAGCCCA
    GGAGGCGCTC TTCCACCCAG ACATCTGCTT CAGCAGCCAG CTGCAGAGCG CACCGCTGCT
    CATCGTGGAC AAGGGCCCCG TGGAGCTACC AGAGGAGTTC GCGGTCCAGG TGCCCAAGGA
    GCACAGATTG CAGCGCAAGC TTTCAGCCGT GCCCCAATTC CAATGGCTGT GGTCCGCAGA
    GAGCTATCCT GTGAGAGCTA TCCTATAGAG CTTCGCTGTC CAGGAACAGA CGTCATCATG
    ATAGAAAGTG CCAACTATGG CAGGACTGAT GACAAAATTT GTGACTCTGA CCCTGCTCAG
    ATGGAGAATA TCCGATGTTA TCTGCCAGAT GCCTATAAGA TTATGTCTCA AAGATGCAAT
    AACAGAACCC AGTGTGCAGT GGTGGCAGGT CCTGATGTTT TTCCAGACCC GTGTCCAGGA
    ACCTATAAAT ACCTTGAAGT GCAGTATGAA TGTGTCCCTT ACAAAGTGGA ACAAAAAGTT
    TTTCTTTGTC CTGGACTACT AAAAGGAGTA TACCAGAGTG AACATTTGTT TGAGTCCGAC
    CACCAATCTG GGGCGTGGTG CAAAGACCCT CTGCAGGCAT CTGACAAGAT TTATTATATG
    CCCTGGACTC CCTACAGAAC TGATACCCTG ACTGAGTATT CATCCAAGGA TGACTTCATT
    GCTGGAAGAC CAACTACAAC CTACAAGCTC CCTCACAGGG TGGATGGCAC AGGATTTGTA
    GTGTATGATG GAGCTTTGTT CTTCAACAAA GAGCGCACCA GGAACATAGT AAAGTTTGAT
    TTGCGGACTA GGATAAAGAG TGGAGAGGCT ATCATAGCAA ATGCCAATTA CCATGATACC
    TCCCCTTACC GATGGGGAGG CAAATCTGAC ATAGACCTGG CAGTAGATGA GAATGGGCTA
    TGGGTAATCT ATGCAACAGA ACAAAACAAT GGTAAAATTG TCATTAGTCA ATTGAACCCT
    TACACCCTAC GGATCGAAGG AACATGGGAT ACTGCATATG ATAAAAGGTC AGCTTCCAAT
    GCCTTTATGA TTTGTGGAAT TCTGTATGTG GTCAAATCTG TATATGAGGA TGATGACAAT
    GAGGCTACTG GAAATAAGAT TGACTACATT TACAACACTG ACCAAAGCAA GGATAGTTTG
    GTGGATGTAC CCTTTCCTAA TTCATACCAG TACATTGCAG CTGTGGATTA CAACCCCAGG
    GACAACCTAC TTTATGTATG GAATAACTAT CACGTCGTGA AATATTCTTT GGATTTTGGA
    CCTCTGGATA GTAGATCAGG GCAGGCACAT CATGGACAAG TTTCATACAT TTCTCCGCCA
    ATTCACCTTG ACTCTGAGCT AGAAAGACCC TCTGTTAAAG ATATCTCTAC CACAGGACCT
    CTTGGCATGG GAAGCACTAC CACCAGTACC ACCCTTCGGA CCACAACTTT GAGCCCAGGA
    AGGAGTACCA CCCCGTCAGT GTCAGGAAGA AGAAACCGGA GTACTAGTAC CCCATCTCCA
    GCTGTCGAGG TACTTGATGA CATGACCACA CACCTTCCAT CAGCATCGTC CCAAATCCCA
    GCTCTCGAAG AGAGCTGTGA GGCTGTGGAA GCCCGAGAAA TCATGTGGTT TAAGACTCGT
    CAAGGACAGA TAGCAAAGCA GCCATGCCCT GCAGGAACTA TAGGTGTATC AACTTATCTA
    TGCCTTGCTC CTGATGGAAT TTGGGATCCC CAAGGTCCAG ATCTCAGCAA CTGTTCTTCT
    CCTTGGGTCA ATCATATAAC ACAGAAGTTG AAATCTGGTG AAACAGCTGC CAACATTGCT
    AGAGAGCTGG CTGAACAGAC AAGAAATCAC TTGAATGCTG GGGACATCAC CTACTCTGTC
    CGGGCCATGG ACCAGCTGGT AGGCCTCCTA GATGTACAGC TTCGGAACTT GACCCCAGGT
    GGAAAAGATA GTGCTGCCCG GAGTTTGAAC AAGCTTCAGA AAAGAGAGCG CTCTTGCAGA
    GCCTATGTCC AGGCAATGGT CGAGACAGTT AACAACCTCC TTCAGCCACA AGCTTTGAAT
    GCATGGAGAG ACCTGACTAC GAGTGATCAG CTGCGTGCGG CCACCATGTT GCTTCATACT
    GTGGAGGAAA GTGCTTTTGT GCTGGCTGAT AACCTTTTGA AGACTGACAT TGTCAGGGAG
    AATACAGACA ATATTAAATT GGAAGTTGCA AGACTGAGCA CAGAAGGAAA CTTAGAAGAC
    CTAAAATTTC CAGAAAACAT GGGCCATGGA AGCACTATCC AGCTGTCTGC AAATACCTTA
    AAGCAAAATG GCCGAAATGG AGAGATCAGA GTGGCCTTTG TCCTGTATAA CAACTTGGGT
    CCTTATTTAT CCACGGAGAA TGCCAGTATG AAGTTGGGAA CGGAAGCTTT GTCCACAAAT
    CATTCTGTTA TTGTCAATTC CCCTGTTATT ACGGCAGCAA TAAACAAAGA GTTCAGTAAC
    AAGGTTTATT TGGCTGATCC TGTGGTATTT ACTGTTAAAC ATATCAAGCA GTCAGAGGAA
    AATTTCAACC CTAACTGTTC ATTTTGGAGC TACTCCAAGC GTACAATGAC AGGTTATTGG
    TCAACACAAG GCTGTCGGCT CCTGACAACA AATAAGACAC ATACTACATG CTCTTGTAAC
    CACCTAACAA ATTTTGCAGT ACTGATGGCA CATGTGGAAG TTAAGCACAG TGATGCGGTC
    CATGACCTCC TTCTGGATGT GATCACGTGG GTTGGAATTT TGCTGTCCCT TGTTTGTCTC
    CTGATTTGCA TCTTCACATT TTGCTTTTTC CGGGGGCTCC AGAGTGACCG TAACACCATC
    CACAAGAACC TCTGCATCAG TCTCTTTGTA GCAGAGCTGC TCTTCCTGAT TGGGATCAAC
    CGAACTGACC AACCAATTGC CTGTGCTGTT TTCGCTGCCC TGTTACATTT CTTCTTCTTG
    GCTGCCTTCA CCTGGATGTT CCTGGAGGGG GTGCAGCTTT ATATCATGCT GGTGGAGGTT
    TTTGAGAGTG AACATTCACG TAGGAAATAC TTTTATCTGG TCGGCTATGG GATGCCTGCA
    CTCATTGTGG CTGTGTCAGC TGCAGTAGAC TACAGGAGTT ATGGAACAGA TAAAGTATGT
    TGGCTCCGAC TTGACACCTA CTTCATTTGG AGTTTTATAG GACCAGCAAC TTTGATAATT
    ATGCTTAATG TAATCTTCCT TGGGATTGCT TTATATAAAA TGTTTCATCA TACTGCTATA
    CTGAAACCTG AATCAGGCTG TCTTGATAAC ATCAAGTCAT GGGTTATAGG TGCAATAGCT
    CTTCTCTGCC TATTAGGATT GACCTGGGCC TTTGGACTCA TGTATATTAA TGAAAGCACA
    GTCATCATGG CCTATCTCTT CACCATTTTC AATTCTCTAC AGGGAATGTT TATATTTATT
    TTCCATTGTG TCCTACAGAA GAAGGTACGA AAAGAGTATG GGAAATGCCT GCGAACACAT
    TGCTGTAGTG GCAAAAGTAC AGAGAGTTCC ATTGGTTCAG GGAAAACATC TGGTTCTCGA
    ACTCCTGGAC GCTACTCCAC AGGCTCACAG AGCCGAATCC GTAGAATGTG GAATGACACG
    GTTCGAAAGC AGTCAGAGTC TTCCTTTATT ACTGGAGACA TAAACAGTTC AGCGTCACTC
    AACAGAGAGG GGCTTCTGAA CAATGCCAGG GATACAAGTG TCATGGATAC TCTACCACTG
    AATGGTAACC ATGGCAATAG TTACAGCATT GCCAGCGGCG AATACCTGAG CAACTGTGTG
    CAAATCATAG ACCGTGGCTA TAACCATAAC GAGACCGCCC TAGAGAAAAA GATTCTGAAG
    GAACTCACTT CCAACTATAT CCCTTCTTAC CTGAACAACC ATGAGCGCTC CAGTGAACAG
    AACAGGAATC TGATGAACAA GCTGGTGAAT AACCTTGGCA GTGGAAGGGA AGATGATGCC
    ATTGTCCTGG ATGATGCCAC CTCGTTTAAC CACGAGGAGA GTTTGGGCCT GGAACTCATT
    CATGAGGAAT CTGATGCTCC TTTGCTGCCC CCAAGAGTAT ACTCCACCGA GAACCACCAG
    CCACACCATT ATACCAGAAG GCGGATCCCC CAAGACCACA GTGAGAGCTT TTTCCCTTTG
    CTAACCAACG AGCACACAGA AGATCTCCAG TCACCCCATA GAGACTCTCT CTATACCAGC
    ATGCCGACAC TGGCTGGTGT GGCCGCCACA GAGAGTGTTA CCACCAGCAC CCAGACCGAA
    CCCCCACCGG CCAAATGTGG TGATGCCGAA GATGTTTACT ACAAAAGCAT GCCAAACCTA
    GGCTCCAGAA ACCACGTCCA TCAGCTGCAT ACTTACTACC AGCTAGGTCG CGGCAGCAGT
    GATGGATTTA TAGTTCCTCC AAACAAAGAT GGGACCCCTC CCGAGGGAAG TTCAAAAGGA
    CCGGCTCATT TGGTCACTAG TCTATAG

    The stop codons will be deleted if pcDNA3.1+/C-(K)DYK vector is selected.

    RefSeq XP_016863424.1
    CDS288..4874
    Translation

    Target ORF information:

    RefSeq Version XM_017007935.1
    Organism Homo sapiens(human)
    Definition Homo sapiens adhesion G protein-coupled receptor L3 (ADGRL3), transcript variant X8, mRNA.

    Target ORF information:

    Epitope DYKDDDDK
    Bacterial selection AMPR
    Mammalian selection NeoR
    Vector pcDNA3.1+/C-(K)DYK
    XM_017007935.1

    ORF Insert Sequence:

    1
    61
    121
    181
    241
    301
    361
    421
    481
    541
    601
    661
    721
    781
    841
    901
    961
    1021
    1081
    1141
    1201
    1261
    1321
    1381
    1441
    1501
    1561
    1621
    1681
    1741
    1801
    1861
    1921
    1981
    2041
    2101
    2161
    2221
    2281
    2341
    2401
    2461
    2521
    2581
    2641
    2701
    2761
    2821
    2881
    2941
    3001
    3061
    3121
    3181
    3241
    3301
    3361
    3421
    3481
    3541
    3601
    3661
    3721
    3781
    3841
    3901
    3961
    4021
    4081
    4141
    4201
    4261
    4321
    4381
    4441
    4501
    4561
    ATGTGGCCAT CGCAGCTACT AATTTTCATG ATGCTCTTAG CTCCAATAAT TCATGGTGGC 
    AAGCACAGTG AACGACATCC TGCCCTTGCT GCTCCATTGC GACACGCTGA GCGCAGCCCA
    GGAGGCGCTC TTCCACCCAG ACATCTGCTT CAGCAGCCAG CTGCAGAGCG CACCGCTGCT
    CATCGTGGAC AAGGGCCCCG TGGAGCTACC AGAGGAGTTC GCGGTCCAGG TGCCCAAGGA
    GCACAGATTG CAGCGCAAGC TTTCAGCCGT GCCCCAATTC CAATGGCTGT GGTCCGCAGA
    GAGCTATCCT GTGAGAGCTA TCCTATAGAG CTTCGCTGTC CAGGAACAGA CGTCATCATG
    ATAGAAAGTG CCAACTATGG CAGGACTGAT GACAAAATTT GTGACTCTGA CCCTGCTCAG
    ATGGAGAATA TCCGATGTTA TCTGCCAGAT GCCTATAAGA TTATGTCTCA AAGATGCAAT
    AACAGAACCC AGTGTGCAGT GGTGGCAGGT CCTGATGTTT TTCCAGACCC GTGTCCAGGA
    ACCTATAAAT ACCTTGAAGT GCAGTATGAA TGTGTCCCTT ACAAAGTGGA ACAAAAAGTT
    TTTCTTTGTC CTGGACTACT AAAAGGAGTA TACCAGAGTG AACATTTGTT TGAGTCCGAC
    CACCAATCTG GGGCGTGGTG CAAAGACCCT CTGCAGGCAT CTGACAAGAT TTATTATATG
    CCCTGGACTC CCTACAGAAC TGATACCCTG ACTGAGTATT CATCCAAGGA TGACTTCATT
    GCTGGAAGAC CAACTACAAC CTACAAGCTC CCTCACAGGG TGGATGGCAC AGGATTTGTA
    GTGTATGATG GAGCTTTGTT CTTCAACAAA GAGCGCACCA GGAACATAGT AAAGTTTGAT
    TTGCGGACTA GGATAAAGAG TGGAGAGGCT ATCATAGCAA ATGCCAATTA CCATGATACC
    TCCCCTTACC GATGGGGAGG CAAATCTGAC ATAGACCTGG CAGTAGATGA GAATGGGCTA
    TGGGTAATCT ATGCAACAGA ACAAAACAAT GGTAAAATTG TCATTAGTCA ATTGAACCCT
    TACACCCTAC GGATCGAAGG AACATGGGAT ACTGCATATG ATAAAAGGTC AGCTTCCAAT
    GCCTTTATGA TTTGTGGAAT TCTGTATGTG GTCAAATCTG TATATGAGGA TGATGACAAT
    GAGGCTACTG GAAATAAGAT TGACTACATT TACAACACTG ACCAAAGCAA GGATAGTTTG
    GTGGATGTAC CCTTTCCTAA TTCATACCAG TACATTGCAG CTGTGGATTA CAACCCCAGG
    GACAACCTAC TTTATGTATG GAATAACTAT CACGTCGTGA AATATTCTTT GGATTTTGGA
    CCTCTGGATA GTAGATCAGG GCAGGCACAT CATGGACAAG TTTCATACAT TTCTCCGCCA
    ATTCACCTTG ACTCTGAGCT AGAAAGACCC TCTGTTAAAG ATATCTCTAC CACAGGACCT
    CTTGGCATGG GAAGCACTAC CACCAGTACC ACCCTTCGGA CCACAACTTT GAGCCCAGGA
    AGGAGTACCA CCCCGTCAGT GTCAGGAAGA AGAAACCGGA GTACTAGTAC CCCATCTCCA
    GCTGTCGAGG TACTTGATGA CATGACCACA CACCTTCCAT CAGCATCGTC CCAAATCCCA
    GCTCTCGAAG AGAGCTGTGA GGCTGTGGAA GCCCGAGAAA TCATGTGGTT TAAGACTCGT
    CAAGGACAGA TAGCAAAGCA GCCATGCCCT GCAGGAACTA TAGGTGTATC AACTTATCTA
    TGCCTTGCTC CTGATGGAAT TTGGGATCCC CAAGGTCCAG ATCTCAGCAA CTGTTCTTCT
    CCTTGGGTCA ATCATATAAC ACAGAAGTTG AAATCTGGTG AAACAGCTGC CAACATTGCT
    AGAGAGCTGG CTGAACAGAC AAGAAATCAC TTGAATGCTG GGGACATCAC CTACTCTGTC
    CGGGCCATGG ACCAGCTGGT AGGCCTCCTA GATGTACAGC TTCGGAACTT GACCCCAGGT
    GGAAAAGATA GTGCTGCCCG GAGTTTGAAC AAGCTTCAGA AAAGAGAGCG CTCTTGCAGA
    GCCTATGTCC AGGCAATGGT CGAGACAGTT AACAACCTCC TTCAGCCACA AGCTTTGAAT
    GCATGGAGAG ACCTGACTAC GAGTGATCAG CTGCGTGCGG CCACCATGTT GCTTCATACT
    GTGGAGGAAA GTGCTTTTGT GCTGGCTGAT AACCTTTTGA AGACTGACAT TGTCAGGGAG
    AATACAGACA ATATTAAATT GGAAGTTGCA AGACTGAGCA CAGAAGGAAA CTTAGAAGAC
    CTAAAATTTC CAGAAAACAT GGGCCATGGA AGCACTATCC AGCTGTCTGC AAATACCTTA
    AAGCAAAATG GCCGAAATGG AGAGATCAGA GTGGCCTTTG TCCTGTATAA CAACTTGGGT
    CCTTATTTAT CCACGGAGAA TGCCAGTATG AAGTTGGGAA CGGAAGCTTT GTCCACAAAT
    CATTCTGTTA TTGTCAATTC CCCTGTTATT ACGGCAGCAA TAAACAAAGA GTTCAGTAAC
    AAGGTTTATT TGGCTGATCC TGTGGTATTT ACTGTTAAAC ATATCAAGCA GTCAGAGGAA
    AATTTCAACC CTAACTGTTC ATTTTGGAGC TACTCCAAGC GTACAATGAC AGGTTATTGG
    TCAACACAAG GCTGTCGGCT CCTGACAACA AATAAGACAC ATACTACATG CTCTTGTAAC
    CACCTAACAA ATTTTGCAGT ACTGATGGCA CATGTGGAAG TTAAGCACAG TGATGCGGTC
    CATGACCTCC TTCTGGATGT GATCACGTGG GTTGGAATTT TGCTGTCCCT TGTTTGTCTC
    CTGATTTGCA TCTTCACATT TTGCTTTTTC CGGGGGCTCC AGAGTGACCG TAACACCATC
    CACAAGAACC TCTGCATCAG TCTCTTTGTA GCAGAGCTGC TCTTCCTGAT TGGGATCAAC
    CGAACTGACC AACCAATTGC CTGTGCTGTT TTCGCTGCCC TGTTACATTT CTTCTTCTTG
    GCTGCCTTCA CCTGGATGTT CCTGGAGGGG GTGCAGCTTT ATATCATGCT GGTGGAGGTT
    TTTGAGAGTG AACATTCACG TAGGAAATAC TTTTATCTGG TCGGCTATGG GATGCCTGCA
    CTCATTGTGG CTGTGTCAGC TGCAGTAGAC TACAGGAGTT ATGGAACAGA TAAAGTATGT
    TGGCTCCGAC TTGACACCTA CTTCATTTGG AGTTTTATAG GACCAGCAAC TTTGATAATT
    ATGCTTAATG TAATCTTCCT TGGGATTGCT TTATATAAAA TGTTTCATCA TACTGCTATA
    CTGAAACCTG AATCAGGCTG TCTTGATAAC ATCAAGTCAT GGGTTATAGG TGCAATAGCT
    CTTCTCTGCC TATTAGGATT GACCTGGGCC TTTGGACTCA TGTATATTAA TGAAAGCACA
    GTCATCATGG CCTATCTCTT CACCATTTTC AATTCTCTAC AGGGAATGTT TATATTTATT
    TTCCATTGTG TCCTACAGAA GAAGGTACGA AAAGAGTATG GGAAATGCCT GCGAACACAT
    TGCTGTAGTG GCAAAAGTAC AGAGAGTTCC ATTGGTTCAG GGAAAACATC TGGTTCTCGA
    ACTCCTGGAC GCTACTCCAC AGGCTCACAG AGCCGAATCC GTAGAATGTG GAATGACACG
    GTTCGAAAGC AGTCAGAGTC TTCCTTTATT ACTGGAGACA TAAACAGTTC AGCGTCACTC
    AACAGAGAGG GGCTTCTGAA CAATGCCAGG GATACAAGTG TCATGGATAC TCTACCACTG
    AATGGTAACC ATGGCAATAG TTACAGCATT GCCAGCGGCG AATACCTGAG CAACTGTGTG
    CAAATCATAG ACCGTGGCTA TAACCATAAC GAGACCGCCC TAGAGAAAAA GATTCTGAAG
    GAACTCACTT CCAACTATAT CCCTTCTTAC CTGAACAACC ATGAGCGCTC CAGTGAACAG
    AACAGGAATC TGATGAACAA GCTGGTGAAT AACCTTGGCA GTGGAAGGGA AGATGATGCC
    ATTGTCCTGG ATGATGCCAC CTCGTTTAAC CACGAGGAGA GTTTGGGCCT GGAACTCATT
    CATGAGGAAT CTGATGCTCC TTTGCTGCCC CCAAGAGTAT ACTCCACCGA GAACCACCAG
    CCACACCATT ATACCAGAAG GCGGATCCCC CAAGACCACA GTGAGAGCTT TTTCCCTTTG
    CTAACCAACG AGCACACAGA AGATCTCCAG TCACCCCATA GAGACTCTCT CTATACCAGC
    ATGCCGACAC TGGCTGGTGT GGCCGCCACA GAGAGTGTTA CCACCAGCAC CCAGACCGAA
    CCCCCACCGG CCAAATGTGG TGATGCCGAA GATGTTTACT ACAAAAGCAT GCCAAACCTA
    GGCTCCAGAA ACCACGTCCA TCAGCTGCAT ACTTACTACC AGCTAGGTCG CGGCAGCAGT
    GATGGATTTA TAGTTCCTCC AAACAAAGAT GGGACCCCTC CCGAGGGAAG TTCAAAAGGA
    CCGGCTCATT TGGTCACTAG TCTATAG

    The stop codons will be deleted if pcDNA3.1+/C-(K)DYK vector is selected.

    CloneID OHu65887
    Clone ID Related Accession (Same CDS sequence) NM_001371345.1 , XM_011531791.2
    Accession Version XM_011531791.2 Latest version! Documents for ORF clone product in default vector
    Sequence Information ORF Nucleotide Sequence (Length: 4548bp)
    Protein sequence
    SNP
    Vector pcDNA3.1-C-(k)DYK or customized vector User Manual
    Clone information Clone Map MSDS
    Tag on pcDNA3.1+/C-(K)DYK C terminal DYKDDDDK tags
    ORF Insert Method CloneEZ™ Seamless cloning technology
    Insert Structure linear
    Update Date 2019-12-05
    Organism Homo sapiens(human)
    Product adhesion G protein-coupled receptor L3 isoform X10
    Comment Comment: MODEL REFSEQ: This record is predicted by automated computational analysis. This record is derived from a genomic sequence (NC_000004.12) annotated using gene prediction method: Gnomon, supported by mRNA and EST evidence. Also see: Documentation of NCBI's Annotation Process On Jun 6, 2016 this sequence version replaced XM_011531791.1. ##Genome-Annotation-Data-START## Annotation Provider :: NCBI Annotation Status :: Updated annotation Annotation Name :: Homo sapiens Updated Annotation Release 109.20191205 Annotation Version :: 109.20191205 Annotation Pipeline :: NCBI eukaryotic genome annotation pipeline Annotation Software Version :: 8.3 Annotation Method :: Best-placed RefSeq; propagated RefSeq model Features Annotated :: Gene; mRNA; CDS; ncRNA ##Genome-Annotation-Data-END##

    1
    61
    121
    181
    241
    301
    361
    421
    481
    541
    601
    661
    721
    781
    841
    901
    961
    1021
    1081
    1141
    1201
    1261
    1321
    1381
    1441
    1501
    1561
    1621
    1681
    1741
    1801
    1861
    1921
    1981
    2041
    2101
    2161
    2221
    2281
    2341
    2401
    2461
    2521
    2581
    2641
    2701
    2761
    2821
    2881
    2941
    3001
    3061
    3121
    3181
    3241
    3301
    3361
    3421
    3481
    3541
    3601
    3661
    3721
    3781
    3841
    3901
    3961
    4021
    4081
    4141
    4201
    4261
    4321
    4381
    4441
    4501
    ATGTGGCCAT CGCAGCTACT AATTTTCATG ATGCTCTTAG CTCCAATAAT TCATGGTGGC 
    AAGCACAGTG AACGACATCC TGCCCTTGCT GCTCCATTGC GACACGCTGA GCGCAGCCCA
    GGAGGCGCTC TTCCACCCAG ACATCTGCTT CAGCAGCCAG CTGCAGAGCG CACCGCTGCT
    CATCGTGGAC AAGGGCCCCG TGGAGCTACC AGAGGAGTTC GCGGTCCAGG TGCCCAAGGA
    GCACAGATTG CAGCGCAAGC TTTCAGCCGT GCCCCAATTC CAATGGCTGT GGTCCGCAGA
    GAGCTATCCT GTGAGAGCTA TCCTATAGAG CTTCGCTGTC CAGGAACAGA CGTCATCATG
    ATAGAAAGTG CCAACTATGG CAGGACTGAT GACAAAATTT GTGACTCTGA CCCTGCTCAG
    ATGGAGAATA TCCGATGTTA TCTGCCAGAT GCCTATAAGA TTATGTCTCA AAGATGCAAT
    AACAGAACCC AGTGTGCAGT GGTGGCAGGT CCTGATGTTT TTCCAGACCC GTGTCCAGGA
    ACCTATAAAT ACCTTGAAGT GCAGTATGAA TGTGTCCCTT ACAAAGTGGA ACAAAAAGTT
    TTTCTTTGTC CTGGACTACT AAAAGGAGTA TACCAGAGTG AACATTTGTT TGAGTCCGAC
    CACCAATCTG GGGCGTGGTG CAAAGACCCT CTGCAGGCAT CTGACAAGAT TTATTATATG
    CCCTGGACTC CCTACAGAAC TGATACCCTG ACTGAGTATT CATCCAAGGA TGACTTCATT
    GCTGGAAGAC CAACTACAAC CTACAAGCTC CCTCACAGGG TGGATGGCAC AGGATTTGTA
    GTGTATGATG GAGCTTTGTT CTTCAACAAA GAGCGCACCA GGAACATAGT AAAGTTTGAT
    TTGCGGACTA GGATAAAGAG TGGAGAGGCT ATCATAGCAA ATGCCAATTA CCATGATACC
    TCCCCTTACC GATGGGGAGG CAAATCTGAC ATAGACCTGG CAGTAGATGA GAATGGGCTA
    TGGGTAATCT ATGCAACAGA ACAAAACAAT GGTAAAATTG TCATTAGTCA ATTGAACCCT
    TACACCCTAC GGATCGAAGG AACATGGGAT ACTGCATATG ATAAAAGGTC AGCTTCCAAT
    GCCTTTATGA TTTGTGGAAT TCTGTATGTG GTCAAATCTG TATATGAGGA TGATGACAAT
    GAGGCTACTG GAAATAAGAT TGACTACATT TACAACACTG ACCAAAGCAA GGATAGTTTG
    GTGGATGTAC CCTTTCCTAA TTCATACCAG TACATTGCAG CTGTGGATTA CAACCCCAGG
    GACAACCTAC TTTATGTATG GAATAACTAT CACGTCGTGA AATATTCTTT GGATTTTGGA
    CCTCTGGATA GTAGATCAGG GCAGGCACAT CATGGACAAG TTTCATACAT TTCTCCGCCA
    ATTCACCTTG ACTCTGAGCT AGAAAGACCC TCTGTTAAAG ATATCTCTAC CACAGGACCT
    CTTGGCATGG GAAGCACTAC CACCAGTACC ACCCTTCGGA CCACAACTTT GAGCCCAGGA
    AGGAGTACCA CCCCGTCAGT GTCAGGAAGA AGAAACCGGA GTACTAGTAC CCCATCTCCA
    GCTGTCGAGG TACTTGATGA CATGACCACA CACCTTCCAT CAGCATCGTC CCAAATCCCA
    GCTCTCGAAG AGAGCTGTGA GGCTGTGGAA GCCCGAGAAA TCATGTGGTT TAAGACTCGT
    CAAGGACAGA TAGCAAAGCA GCCATGCCCT GCAGGAACTA TAGGTGTATC AACTTATCTA
    TGCCTTGCTC CTGATGGAAT TTGGGATCCC CAAGGTCCAG ATCTCAGCAA CTGTTCTTCT
    CCTTGGGTCA ATCATATAAC ACAGAAGTTG AAATCTGGTG AAACAGCTGC CAACATTGCT
    AGAGAGCTGG CTGAACAGAC AAGAAATCAC TTGAATGCTG GGGACATCAC CTACTCTGTC
    CGGGCCATGG ACCAGCTGGT AGGCCTCCTA GATGTACAGC TTCGGAACTT GACCCCAGGT
    GGAAAAGATA GTGCTGCCCG GAGTTTGAAC AAGGCAATGG TCGAGACAGT TAACAACCTC
    CTTCAGCCAC AAGCTTTGAA TGCATGGAGA GACCTGACTA CGAGTGATCA GCTGCGTGCG
    GCCACCATGT TGCTTCATAC TGTGGAGGAA AGTGCTTTTG TGCTGGCTGA TAACCTTTTG
    AAGACTGACA TTGTCAGGGA GAATACAGAC AATATTAAAT TGGAAGTTGC AAGACTGAGC
    ACAGAAGGAA ACTTAGAAGA CCTAAAATTT CCAGAAAACA TGGGCCATGG AAGCACTATC
    CAGCTGTCTG CAAATACCTT AAAGCAAAAT GGCCGAAATG GAGAGATCAG AGTGGCCTTT
    GTCCTGTATA ACAACTTGGG TCCTTATTTA TCCACGGAGA ATGCCAGTAT GAAGTTGGGA
    ACGGAAGCTT TGTCCACAAA TCATTCTGTT ATTGTCAATT CCCCTGTTAT TACGGCAGCA
    ATAAACAAAG AGTTCAGTAA CAAGGTTTAT TTGGCTGATC CTGTGGTATT TACTGTTAAA
    CATATCAAGC AGTCAGAGGA AAATTTCAAC CCTAACTGTT CATTTTGGAG CTACTCCAAG
    CGTACAATGA CAGGTTATTG GTCAACACAA GGCTGTCGGC TCCTGACAAC AAATAAGACA
    CATACTACAT GCTCTTGTAA CCACCTAACA AATTTTGCAG TACTGATGGC ACATGTGGAA
    GTTAAGCACA GTGATGCGGT CCATGACCTC CTTCTGGATG TGATCACGTG GGTTGGAATT
    TTGCTGTCCC TTGTTTGTCT CCTGATTTGC ATCTTCACAT TTTGCTTTTT CCGGGGGCTC
    CAGAGTGACC GTAACACCAT CCACAAGAAC CTCTGCATCA GTCTCTTTGT AGCAGAGCTG
    CTCTTCCTGA TTGGGATCAA CCGAACTGAC CAACCAATTG CCTGTGCTGT TTTCGCTGCC
    CTGTTACATT TCTTCTTCTT GGCTGCCTTC ACCTGGATGT TCCTGGAGGG GGTGCAGCTT
    TATATCATGC TGGTGGAGGT TTTTGAGAGT GAACATTCAC GTAGGAAATA CTTTTATCTG
    GTCGGCTATG GGATGCCTGC ACTCATTGTG GCTGTGTCAG CTGCAGTAGA CTACAGGAGT
    TATGGAACAG ATAAAGTATG TTGGCTCCGA CTTGACACCT ACTTCATTTG GAGTTTTATA
    GGACCAGCAA CTTTGATAAT TATGCTTAAT GTAATCTTCC TTGGGATTGC TTTATATAAA
    ATGTTTCATC ATACTGCTAT ACTGAAACCT GAATCAGGCT GTCTTGATAA CATCAAGTCA
    TGGGTTATAG GTGCAATAGC TCTTCTCTGC CTATTAGGAT TGACCTGGGC CTTTGGACTC
    ATGTATATTA ATGAAAGCAC AGTCATCATG GCCTATCTCT TCACCATTTT CAATTCTCTA
    CAGGGAATGT TTATATTTAT TTTCCATTGT GTCCTACAGA AGAAGGTACG AAAAGAGTAT
    GGGAAATGCC TGCGAACACA TTGCTGTAGT GGCAAAAGTA CAGAGAGTTC CATTGGTTCA
    GGGAAAACAT CTGGTTCTCG AACTCCTGGA CGCTACTCCA CAGGCTCACA GAGCCGAATC
    CGTAGAATGT GGAATGACAC GGTTCGAAAG CAGTCAGAGT CTTCCTTTAT TACTGGAGAC
    ATAAACAGTT CAGCGTCACT CAACAGAGAG GGGCTTCTGA ACAATGCCAG GGATACAAGT
    GTCATGGATA CTCTACCACT GAATGGTAAC CATGGCAATA GTTACAGCAT TGCCAGCGGC
    GAATACCTGA GCAACTGTGT GCAAATCATA GACCGTGGCT ATAACCATAA CGAGACCGCC
    CTAGAGAAAA AGATTCTGAA GGAACTCACT TCCAACTATA TCCCTTCTTA CCTGAACAAC
    CATGAGCGCT CCAGTGAACA GAACAGGAAT CTGATGAACA AGCTGGTGAA TAACCTTGGC
    AGTGGAAGGG AAGATGATGC CATTGTCCTG GATGATGCCA CCTCGTTTAA CCACGAGGAG
    AGTTTGGGCC TGGAACTCAT TCATGAGGAA TCTGATGCTC CTTTGCTGCC CCCAAGAGTA
    TACTCCACCG AGAACCACCA GCCACACCAT TATACCAGAA GGCGGATCCC CCAAGACCAC
    AGTGAGAGCT TTTTCCCTTT GCTAACCAAC GAGCACACAG AAGATCTCCA GTCACCCCAT
    AGAGACTCTC TCTATACCAG CATGCCGACA CTGGCTGGTG TGGCCGCCAC AGAGAGTGTT
    ACCACCAGCA CCCAGACCGA ACCCCCACCG GCCAAATGTG GTGATGCCGA AGATGTTTAC
    TACAAAAGCA TGCCAAACCT AGGCTCCAGA AACCACGTCC ATCAGCTGCA TACTTACTAC
    CAGCTAGGTC GCGGCAGCAG TGATGGATTT ATAGTTCCTC CAAACAAAGA TGGGACCCCT
    CCCGAGGGAA GTTCAAAAGG ACCGGCTCAT TTGGTCACTA GTCTATAG

    The stop codons will be deleted if pcDNA3.1+/C-(K)DYK vector is selected.

    RefSeq XP_011530093.1
    CDS288..4835
    Translation

    Target ORF information:

    RefSeq Version XM_011531791.2
    Organism Homo sapiens(human)
    Definition Homo sapiens adhesion G protein-coupled receptor L3 (ADGRL3), transcript variant X11, mRNA.

    Target ORF information:

    Epitope DYKDDDDK
    Bacterial selection AMPR
    Mammalian selection NeoR
    Vector pcDNA3.1+/C-(K)DYK
    XM_011531791.2

    ORF Insert Sequence:

    1
    61
    121
    181
    241
    301
    361
    421
    481
    541
    601
    661
    721
    781
    841
    901
    961
    1021
    1081
    1141
    1201
    1261
    1321
    1381
    1441
    1501
    1561
    1621
    1681
    1741
    1801
    1861
    1921
    1981
    2041
    2101
    2161
    2221
    2281
    2341
    2401
    2461
    2521
    2581
    2641
    2701
    2761
    2821
    2881
    2941
    3001
    3061
    3121
    3181
    3241
    3301
    3361
    3421
    3481
    3541
    3601
    3661
    3721
    3781
    3841
    3901
    3961
    4021
    4081
    4141
    4201
    4261
    4321
    4381
    4441
    4501
    ATGTGGCCAT CGCAGCTACT AATTTTCATG ATGCTCTTAG CTCCAATAAT TCATGGTGGC 
    AAGCACAGTG AACGACATCC TGCCCTTGCT GCTCCATTGC GACACGCTGA GCGCAGCCCA
    GGAGGCGCTC TTCCACCCAG ACATCTGCTT CAGCAGCCAG CTGCAGAGCG CACCGCTGCT
    CATCGTGGAC AAGGGCCCCG TGGAGCTACC AGAGGAGTTC GCGGTCCAGG TGCCCAAGGA
    GCACAGATTG CAGCGCAAGC TTTCAGCCGT GCCCCAATTC CAATGGCTGT GGTCCGCAGA
    GAGCTATCCT GTGAGAGCTA TCCTATAGAG CTTCGCTGTC CAGGAACAGA CGTCATCATG
    ATAGAAAGTG CCAACTATGG CAGGACTGAT GACAAAATTT GTGACTCTGA CCCTGCTCAG
    ATGGAGAATA TCCGATGTTA TCTGCCAGAT GCCTATAAGA TTATGTCTCA AAGATGCAAT
    AACAGAACCC AGTGTGCAGT GGTGGCAGGT CCTGATGTTT TTCCAGACCC GTGTCCAGGA
    ACCTATAAAT ACCTTGAAGT GCAGTATGAA TGTGTCCCTT ACAAAGTGGA ACAAAAAGTT
    TTTCTTTGTC CTGGACTACT AAAAGGAGTA TACCAGAGTG AACATTTGTT TGAGTCCGAC
    CACCAATCTG GGGCGTGGTG CAAAGACCCT CTGCAGGCAT CTGACAAGAT TTATTATATG
    CCCTGGACTC CCTACAGAAC TGATACCCTG ACTGAGTATT CATCCAAGGA TGACTTCATT
    GCTGGAAGAC CAACTACAAC CTACAAGCTC CCTCACAGGG TGGATGGCAC AGGATTTGTA
    GTGTATGATG GAGCTTTGTT CTTCAACAAA GAGCGCACCA GGAACATAGT AAAGTTTGAT
    TTGCGGACTA GGATAAAGAG TGGAGAGGCT ATCATAGCAA ATGCCAATTA CCATGATACC
    TCCCCTTACC GATGGGGAGG CAAATCTGAC ATAGACCTGG CAGTAGATGA GAATGGGCTA
    TGGGTAATCT ATGCAACAGA ACAAAACAAT GGTAAAATTG TCATTAGTCA ATTGAACCCT
    TACACCCTAC GGATCGAAGG AACATGGGAT ACTGCATATG ATAAAAGGTC AGCTTCCAAT
    GCCTTTATGA TTTGTGGAAT TCTGTATGTG GTCAAATCTG TATATGAGGA TGATGACAAT
    GAGGCTACTG GAAATAAGAT TGACTACATT TACAACACTG ACCAAAGCAA GGATAGTTTG
    GTGGATGTAC CCTTTCCTAA TTCATACCAG TACATTGCAG CTGTGGATTA CAACCCCAGG
    GACAACCTAC TTTATGTATG GAATAACTAT CACGTCGTGA AATATTCTTT GGATTTTGGA
    CCTCTGGATA GTAGATCAGG GCAGGCACAT CATGGACAAG TTTCATACAT TTCTCCGCCA
    ATTCACCTTG ACTCTGAGCT AGAAAGACCC TCTGTTAAAG ATATCTCTAC CACAGGACCT
    CTTGGCATGG GAAGCACTAC CACCAGTACC ACCCTTCGGA CCACAACTTT GAGCCCAGGA
    AGGAGTACCA CCCCGTCAGT GTCAGGAAGA AGAAACCGGA GTACTAGTAC CCCATCTCCA
    GCTGTCGAGG TACTTGATGA CATGACCACA CACCTTCCAT CAGCATCGTC CCAAATCCCA
    GCTCTCGAAG AGAGCTGTGA GGCTGTGGAA GCCCGAGAAA TCATGTGGTT TAAGACTCGT
    CAAGGACAGA TAGCAAAGCA GCCATGCCCT GCAGGAACTA TAGGTGTATC AACTTATCTA
    TGCCTTGCTC CTGATGGAAT TTGGGATCCC CAAGGTCCAG ATCTCAGCAA CTGTTCTTCT
    CCTTGGGTCA ATCATATAAC ACAGAAGTTG AAATCTGGTG AAACAGCTGC CAACATTGCT
    AGAGAGCTGG CTGAACAGAC AAGAAATCAC TTGAATGCTG GGGACATCAC CTACTCTGTC
    CGGGCCATGG ACCAGCTGGT AGGCCTCCTA GATGTACAGC TTCGGAACTT GACCCCAGGT
    GGAAAAGATA GTGCTGCCCG GAGTTTGAAC AAGGCAATGG TCGAGACAGT TAACAACCTC
    CTTCAGCCAC AAGCTTTGAA TGCATGGAGA GACCTGACTA CGAGTGATCA GCTGCGTGCG
    GCCACCATGT TGCTTCATAC TGTGGAGGAA AGTGCTTTTG TGCTGGCTGA TAACCTTTTG
    AAGACTGACA TTGTCAGGGA GAATACAGAC AATATTAAAT TGGAAGTTGC AAGACTGAGC
    ACAGAAGGAA ACTTAGAAGA CCTAAAATTT CCAGAAAACA TGGGCCATGG AAGCACTATC
    CAGCTGTCTG CAAATACCTT AAAGCAAAAT GGCCGAAATG GAGAGATCAG AGTGGCCTTT
    GTCCTGTATA ACAACTTGGG TCCTTATTTA TCCACGGAGA ATGCCAGTAT GAAGTTGGGA
    ACGGAAGCTT TGTCCACAAA TCATTCTGTT ATTGTCAATT CCCCTGTTAT TACGGCAGCA
    ATAAACAAAG AGTTCAGTAA CAAGGTTTAT TTGGCTGATC CTGTGGTATT TACTGTTAAA
    CATATCAAGC AGTCAGAGGA AAATTTCAAC CCTAACTGTT CATTTTGGAG CTACTCCAAG
    CGTACAATGA CAGGTTATTG GTCAACACAA GGCTGTCGGC TCCTGACAAC AAATAAGACA
    CATACTACAT GCTCTTGTAA CCACCTAACA AATTTTGCAG TACTGATGGC ACATGTGGAA
    GTTAAGCACA GTGATGCGGT CCATGACCTC CTTCTGGATG TGATCACGTG GGTTGGAATT
    TTGCTGTCCC TTGTTTGTCT CCTGATTTGC ATCTTCACAT TTTGCTTTTT CCGGGGGCTC
    CAGAGTGACC GTAACACCAT CCACAAGAAC CTCTGCATCA GTCTCTTTGT AGCAGAGCTG
    CTCTTCCTGA TTGGGATCAA CCGAACTGAC CAACCAATTG CCTGTGCTGT TTTCGCTGCC
    CTGTTACATT TCTTCTTCTT GGCTGCCTTC ACCTGGATGT TCCTGGAGGG GGTGCAGCTT
    TATATCATGC TGGTGGAGGT TTTTGAGAGT GAACATTCAC GTAGGAAATA CTTTTATCTG
    GTCGGCTATG GGATGCCTGC ACTCATTGTG GCTGTGTCAG CTGCAGTAGA CTACAGGAGT
    TATGGAACAG ATAAAGTATG TTGGCTCCGA CTTGACACCT ACTTCATTTG GAGTTTTATA
    GGACCAGCAA CTTTGATAAT TATGCTTAAT GTAATCTTCC TTGGGATTGC TTTATATAAA
    ATGTTTCATC ATACTGCTAT ACTGAAACCT GAATCAGGCT GTCTTGATAA CATCAAGTCA
    TGGGTTATAG GTGCAATAGC TCTTCTCTGC CTATTAGGAT TGACCTGGGC CTTTGGACTC
    ATGTATATTA ATGAAAGCAC AGTCATCATG GCCTATCTCT TCACCATTTT CAATTCTCTA
    CAGGGAATGT TTATATTTAT TTTCCATTGT GTCCTACAGA AGAAGGTACG AAAAGAGTAT
    GGGAAATGCC TGCGAACACA TTGCTGTAGT GGCAAAAGTA CAGAGAGTTC CATTGGTTCA
    GGGAAAACAT CTGGTTCTCG AACTCCTGGA CGCTACTCCA CAGGCTCACA GAGCCGAATC
    CGTAGAATGT GGAATGACAC GGTTCGAAAG CAGTCAGAGT CTTCCTTTAT TACTGGAGAC
    ATAAACAGTT CAGCGTCACT CAACAGAGAG GGGCTTCTGA ACAATGCCAG GGATACAAGT
    GTCATGGATA CTCTACCACT GAATGGTAAC CATGGCAATA GTTACAGCAT TGCCAGCGGC
    GAATACCTGA GCAACTGTGT GCAAATCATA GACCGTGGCT ATAACCATAA CGAGACCGCC
    CTAGAGAAAA AGATTCTGAA GGAACTCACT TCCAACTATA TCCCTTCTTA CCTGAACAAC
    CATGAGCGCT CCAGTGAACA GAACAGGAAT CTGATGAACA AGCTGGTGAA TAACCTTGGC
    AGTGGAAGGG AAGATGATGC CATTGTCCTG GATGATGCCA CCTCGTTTAA CCACGAGGAG
    AGTTTGGGCC TGGAACTCAT TCATGAGGAA TCTGATGCTC CTTTGCTGCC CCCAAGAGTA
    TACTCCACCG AGAACCACCA GCCACACCAT TATACCAGAA GGCGGATCCC CCAAGACCAC
    AGTGAGAGCT TTTTCCCTTT GCTAACCAAC GAGCACACAG AAGATCTCCA GTCACCCCAT
    AGAGACTCTC TCTATACCAG CATGCCGACA CTGGCTGGTG TGGCCGCCAC AGAGAGTGTT
    ACCACCAGCA CCCAGACCGA ACCCCCACCG GCCAAATGTG GTGATGCCGA AGATGTTTAC
    TACAAAAGCA TGCCAAACCT AGGCTCCAGA AACCACGTCC ATCAGCTGCA TACTTACTAC
    CAGCTAGGTC GCGGCAGCAG TGATGGATTT ATAGTTCCTC CAAACAAAGA TGGGACCCCT
    CCCGAGGGAA GTTCAAAAGG ACCGGCTCAT TTGGTCACTA GTCTATAG

    The stop codons will be deleted if pcDNA3.1+/C-(K)DYK vector is selected.