LRRC37A2 cDNA ORF clone, Homo sapiens(human)

The following LRRC37A2 gene cDNA ORF clone sequences were retrieved from the NCBI Reference Sequence Database (RefSeq). These sequences represent the protein coding region of the LRRC37A2 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
OHu03750 NM_001006607.2
Latest version!
Homo sapiens leucine rich repeat containing 37 member A2 (LRRC37A2), mRNA. pcDNA3.1-C-(k)DYK or customized vector
in pcDNA3.1-C-(k)DYK
$659.50-$923.30
$1319.00
OHu104408 XM_024450774.1
Latest version!
Homo sapiens leucine rich repeat containing 37 member A2 (LRRC37A2), transcript variant X10, mRNA. pcDNA3.1-C-(k)DYK or customized vector 14-16 $475.30
$679.00
OHu104409 XM_024450775.1
Latest version!
Homo sapiens leucine rich repeat containing 37 member A2 (LRRC37A2), transcript variant X11, mRNA. pcDNA3.1-C-(k)DYK or customized vector 14-16 $475.30
$679.00
OHu104407 XM_024450773.1
Latest version!
Homo sapiens leucine rich repeat containing 37 member A2 (LRRC37A2), transcript variant X6, mRNA. pcDNA3.1-C-(k)DYK or customized vector 24-26 $811.30
$1159.00
OHu80378 XM_011524841.3
Latest version!
Homo sapiens leucine rich repeat containing 37 member A2 (LRRC37A2), transcript variant X1, mRNA. pcDNA3.1-C-(k)DYK or customized vector TBD $951.30
$1359.00
OHu80379 XM_011524842.3
Latest version!
Homo sapiens leucine rich repeat containing 37 member A2 (LRRC37A2), transcript variant X2, mRNA. pcDNA3.1-C-(k)DYK or customized vector TBD $811.30
$1159.00
OHu80380 XM_011524843.3
Latest version!
Homo sapiens leucine rich repeat containing 37 member A2 (LRRC37A2), transcript variant X3, mRNA. pcDNA3.1-C-(k)DYK or customized vector TBD $811.30
$1159.00
OHu80381 XM_011524844.3
Latest version!
Homo sapiens leucine rich repeat containing 37 member A2 (LRRC37A2), transcript variant X4, mRNA. pcDNA3.1-C-(k)DYK or customized vector TBD $811.30
$1159.00
OHu80383 XM_011524846.3
Latest version!
Homo sapiens leucine rich repeat containing 37 member A2 (LRRC37A2), transcript variant X5, mRNA. pcDNA3.1-C-(k)DYK or customized vector TBD $811.30
$1159.00
OHu80385 XM_011524848.3
Latest version!
Homo sapiens leucine rich repeat containing 37 member A2 (LRRC37A2), transcript variant X7, mRNA. pcDNA3.1-C-(k)DYK or customized vector TBD $811.30
$1159.00
OHu80386 XM_011524849.2
Latest version!
Homo sapiens leucine rich repeat containing 37 member A2 (LRRC37A2), transcript variant X8, mRNA. pcDNA3.1-C-(k)DYK or customized vector TBD $559.30
$799.00
OHu80387 XM_011524850.3
Latest version!
Homo sapiens leucine rich repeat containing 37 member A2 (LRRC37A2), transcript variant X9, mRNA. pcDNA3.1-C-(k)DYK or customized vector TBD $475.30
$679.00
View Old Accession Versions >>
OHu80381 XM_011524844.2 Homo sapiens leucine-rich repeat containing 37 member A2 (LRRC37A2), transcript variant X4, mRNA. pcDNA3.1-C-(k)DYK or customized vector TBD $811.30
$1159.00
OHu80386 XM_011524849.1 Homo sapiens leucine-rich repeat containing 37 member A2 (LRRC37A2), transcript variant X7, mRNA. pcDNA3.1-C-(k)DYK or customized vector TBD $559.30
$799.00
OHu80380 XM_011524843.2 Homo sapiens leucine-rich repeat containing 37 member A2 (LRRC37A2), transcript variant X3, mRNA. pcDNA3.1-C-(k)DYK or customized vector TBD $811.30
$1159.00
OHu80387 XM_011524850.2 Homo sapiens leucine-rich repeat containing 37 member A2 (LRRC37A2), transcript variant X8, mRNA. pcDNA3.1-C-(k)DYK or customized vector TBD $475.30
$679.00
OHu80385 XM_011524848.2 Homo sapiens leucine-rich repeat containing 37 member A2 (LRRC37A2), transcript variant X6, mRNA. pcDNA3.1-C-(k)DYK or customized vector TBD $811.30
$1159.00
OHu80378 XM_011524841.2 Homo sapiens leucine-rich repeat containing 37 member A2 (LRRC37A2), transcript variant X1, mRNA. pcDNA3.1-C-(k)DYK or customized vector TBD $951.30
$1359.00
OHu80379 XM_011524842.2 Homo sapiens leucine-rich repeat containing 37 member A2 (LRRC37A2), transcript variant X2, mRNA. pcDNA3.1-C-(k)DYK or customized vector TBD $811.30
$1159.00
OHu80383 XM_011524846.2 Homo sapiens leucine-rich repeat containing 37 member A2 (LRRC37A2), transcript variant X5, mRNA. pcDNA3.1-C-(k)DYK or customized vector TBD $811.30
$1159.00
Hide Old Accession Versions >>

ORF Online Only Promotion

Next-day Shipping ORF Clones ( in default vector with tag)
1 Clone 30% OFF
2-4 Clone 40% OFF
5 or more Clone 50% OFF
All Other ORF Clones
30% OFF

*Business Day

** 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 OHu03750
    Clone ID Related Accession (Same CDS sequence) NM_001006607.2
    Accession Version NM_001006607.2 Latest version! Documents for ORF clone product in default vector
    Sequence Information ORF Nucleotide Sequence (Length: 5103bp)
    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 2019-09-21
    Organism Homo sapiens(human)
    Product leucine-rich repeat-containing protein 37A2 precursor
    Comment Comment: VALIDATED REFSEQ: This record has undergone validation or preliminary review. The reference sequence was derived from AC138645.3, AK126994.1, AY386262.1, BQ649697.1 and AW149940.1. On Oct 21, 2006 this sequence version replaced NM_001006607.1. ##Evidence-Data-START## Transcript exon combination :: AY386262.1 [ECO:0000332] RNAseq introns :: single sample supports all introns SAMEA1965299, SAMEA1966682 [ECO:0000348] ##Evidence-Data-END## ##RefSeq-Attributes-START## RefSeq Select criteria :: based on conservation, expression, longest protein ##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
    4621
    4681
    4741
    4801
    4861
    4921
    4981
    5041
    5101
    ATGTCTTCTG CTCAGTGCCC GGCACTAGTG TGTGTCATGT CCCGGCTGCG TTTCTGGGGC 
    CCATGGCCCC TCCTTATGTG GCAACTATTG TGGCTACTAG TTAAGGAGGC TCAGCCTCTG
    GAGTGGGTCA AGGACCCGCT CCAGCTCACC TCTAATCCCC TGGGGCCGCC TGACTCCTGG
    TCTTCCCACT CCTCCCATTT CCCACGGGAA TCTCCCCATG CGCCTACTCT CCCAGCAGAC
    CCGTGGGACT TTGATCACCT GGGGCCCTCT GCTTCCTCAG AGATGCCAGC CCCACCCCAG
    GAATCGACTG AAAATTTGGT TCCATTCCTG GACACCTGGG ATTCAGCTGG AGAGCAGCCC
    CTGGAGCCAG AGCAGTTCTT GGCTTCACAG CAGGATTTAA AGGACAAGCT GAGTCCACAG
    GAAAGACTCC CTGTTTCGCC CAAGAAGCTG AAGAAAGATC CAGCTCAGCG TTGGAGCCTT
    GCTGAGATTA TTGGAATTAC ACGCCAATTA TCCACACCTC AGAGTCAGAA ACAGACTTTG
    CAGAATGAAT ATTCCAGTAC AGATACACCG TATCCCGGTA GCCTGCCTCC AGAACTCCGG
    GTGAAGTCAG ATGAGCCTCC AGGGCCCTCT GAGCAAGTTG GACCTTCTCA ATTCCATCTA
    GAGCCCGAAA CTCAAAATCC AGAGACCCTT GAAGACATCC AGTCCTCTTC ACTCCAGCAA
    GAAGCCCCAG CACAGCTTCC ACAGCTCCTT GAGGAAGAAC CTTCTTCAAT GCAGCAGGAG
    GCCCCAGCTC TGCCTCCAGA GTCCTCTATG GAGAGTCTAA CTCTACCGAA TCATGAGGTG
    TCAGTTCAAC CTCCAGGTGA GGATCAAGCT TATTATCACT TGCCCAACAT TACAGTTAAA
    CCTGCAGATG TGGAGGTTAC CATAACTTCA GAGCCTACCA ATGAGACAGA ATCTTCCCAA
    GCCCAGCAGG AGACCCCAAT TCAGTTTCCA GAGGAGGTGG AACCTTCTGC AACCCAACAG
    GAGGCCCCAA TTGAGCCTCC AGTTCCTCCT ATGGAGCATG AACTTTCCAT CAGTGAGCAG
    CAGCAGCCAG TTCAGCCTTC TGAGTCTCCT AGGGAGGTCG AATCTTCTCC GACCCAGCAG
    GAGACCCCAG GTCAGCCTCC AGAACATCAT GAAGTCACAG TTTCACCTCC AGGTCACCAT
    CAAACTCATC ATTTAGCTTC ACCCAGTGTC TCTGTGAAGC CTCCAGACGT GCAGCTCACC
    ATAGCAGCAG AGCCTAGTGC AGAGGTGGGA ACTTCTCTAG TCCACCAGGA GGCTACAACT
    CGGCTCTCAG GGTCAGGTAA TGATGTAGAA CCTCCCGCCA TCCAGCACGG GGGCCCACCT
    CTGCTTCCAG AGTCATCAGA AGAAGCTGGA CCTTTAGCAG TTCAACAGGA GACTTCATTT
    CAATCTCCGG AACCTATTAA TAATGAGAAC CCCTCTCCAA CCCAGCAGGA GGCTGCAGCT
    GAGCATCCAC AGACCGCTGA GGAGGGTGAG TCTTCCCTAA CCCATCAGGA GGCCCCAGCT
    CAGACTCCAG AGTTCCCTAA TGTAGTTGTA GCTCAACCTC CAGAGCATTC ACACCTGACT
    CAAGCCACAG TTCAACCTTT GGATCTGGGG TTTACCATCA CTCCAGAATC CAAGACAGAG
    GTTGAACTTT CTCCAACCAT GAAGGAGACC CCAACTCAGC CTCCTAAGAA AGTTGTACCC
    CAACTTCGAG TATATCAAGG GGTAACAAAT CCAACACCAG GTCAGGATCA AGCTCAGCAT
    CCAGTGTCAC CCAGCGTTAC AGTTCAACTT TTGGACCTGG GACTTACCAT CACTCCAGAA
    CCTACTACGG AGGTTGGACA TTCTACACCC CCGAAGAGGA CTATAGTTTC TCCAAAGCAT
    CCTGAGGTGA CACTTCCACA TCCAGACCAG GTTCAGACTC AGCATTCACA CCTGACTCGA
    GCCACAGTTC AACCTTTGGA CCTGGGGTTT ACCATCACTC CAAAATCCAT GACAGAGGTT
    GAACCTTCTA CAGCCCTGAT GACTACAGCT CCTCCTCCAG GACACCCTGA GGTGACACTT
    CCACCTTCAG ACAAGGGTCA GGCTCAGCAT TCACACCTGA CTCAAGCCAC CGTTCAACCT
    CTGGACCTGG AGCTTACCAT AACTACAAAA CCTACTACAG AGGTTAAACC ATCTCCAACC
    ACGGAGGAGA CCTCAACTCA GCCTCCAGAC CTGGGACTTG CCATCATTCC AGAACCCACT
    ACAGAGACTA GACATTCTAC AGCCCTGGAG AAGACTACAG CTCCTCGTCC AGACCGGGTT
    CAGACTCTGC ATCGAAGCCT GACTGAAGTC ACAGGTCCAC CTACTGAACT AGAACCTGCT
    CAGGATTCAC TGGTGCAGTC TGAAAGTTAC ACCCAAAATA AGGCTTTAAC TGCACCAGAG
    GAACACAAGG CCTCCACAAG CACCAACATA TGTGAGCTCT GTACCTGCGG AGATGAGATG
    TTGTCATGTA TTGATCTCAA CCCAGAGCAG AGGCTCCGCC AAGTGCCTGT GCCAGAGCCC
    AACACCCACA ATGGCACCTT CACCATCTTA AATTTCCAAG GAAACTATAT TTCTTACATT
    GATGGAAATG TATGGAAAGC ATACAGTTGG ACCGAGAAAC TAATTCTCAG AGAAAATAAC
    TTGACTGAAT TACACAAGGA TTCATTTGAA GGCCTGCTAT CCCTCCAGTA TTTAGATTTA
    TCCTGCAATA AAATACAGTC TATTGAAAGA CATACATTTG AACCACTACC ATTTTTGAAG
    TTTATAAATC TTAGTTGCAA TGTAATTACA GAACTCAGCT TTGGAACATT TCAGGCCTGG
    CACGGAATGC AGTTTTTACA TAAGTTAATT CTCAATCACA ATCCTCTGAC AACTGTTGAA
    GATCCGTATC TCTTTAAATT GCCAGCATTA AAATATCTAG ACATGGGAAC AACGCTAGTC
    CCACTTACAA CACTTAAGAA CATTCTCATG ATGACTGTTG AACTGGAAAA ACTGATCTTA
    CCTAGCCATA TGGCCTGCTG CCTCTGCCAA TTTAAAAACA GCATTGAGGC TGTCTGCAAG
    ACAGTCAAGC TGCATTGCAA CAGTGCATGT CTGACAAACA CCACACATTG TCCTGAAGAA
    GCATCGGTAG GGAATCCAGA AGGAGCGTTC ATGAAGGTGT TACAAGCCCG GAAGAACTAC
    ACAAGCACTG AGCTGATTGT TGAGCCAGAG GAGCCCTCAG ACAGCAGTGG CATCAACTTG
    TCAGGCTTTG GGAGTGAGCA GCTAGACACC AATGACGAGA GTGATTTTAT CAGTACACTA
    AGTTACATCT TGCCTTATTT CTCAGCGGTA AACCTAGATG TGAAATCACT GTTACTACCG
    TTCATTAAAC TGCCAACCAC AGGAAACAGC CTGGCAAAGA TTCAAACTGT AGGCCAAAAC
    CGGCAGAGAG TGAAGAGAGT CCTCATGGGC CCAAGGAGCA TCCAGAAAAG GCACTTCAAA
    GAGGTAGGAA GGCAGAGCAT CAGGAGGGAA CAGGGTGCCC AGGCATCTGT GGAGAACGCT
    GCCGAAGAAA AAAGGCTCGG GAGTCCAGCC CCAAGGGAGG TGGAACAGCC CCACACACAG
    CAGGGGCCTG AGAAGTTAGC GGGAAACGCC GTCTACACCA AGCCTTCCTT CACCCAAGAG
    CATAAGGCAG CAGTCTCTGT GCTGAAACCC TTCTCCAAGG GCGCGCCTTC TACCTCCAGC
    CCTGCAAAAG CCCTACCACA GGTGAGAGAC AGATGGAAAG ACTTAACCCA CGCTATTTCC
    ATTTTAGAAA GTGCAAAGGC TAGAGTTACA AATACGAAGA CGTCTAAACC AATCGTACAT
    GCCAGAAAAA AATACCGCTT TCACAAAACT CGCTCCCACG TGACCCACAG AACACCCAAA
    GTCAAAAAGA GTCCAAAGGT CAGAAAGAAA AGTTATCTGA GTAGACTGAT GCTCGCAAAC
    AGGCTTCCAT TCTCTGCAGC GAAGAGCCTC ATAAATTCCC CTTCACAAGG GGCTTTTTCA
    TCCTTAGGAG ACCTGAGTCC TCAAGAAAAC CCTTTTCTGG AAGTATCTGC TCCTTCAGAA
    CATTTTATAG AAAACAATAA TACAAAACAC ACAACTGCAA GAAATGCCTT TGAAGAAAAT
    GATTTTATGG AAAACACTAA CATGCCAGAA GGAACCATCT CTGAAAACAC AAACTACAAT
    CATCCTCATG AGGCAGATTC CGCTGGGACT GCATTCAACT TAGGGCCAAC TGTTAAACAA
    ACTGAGACAA AATGGGAATA CAACAACGTG GGCACTGACC TGTCCCCCGA GCCCAAAAGC
    TTCAATTACC CATTGCTCTC GTCCCCAGGT GATCAGTTTG AAATTCAGCT AACCCAGCAG
    CTACAGTCCC TTATCCCCAA CAACAATGTG AGAAGGCTCA TTGCTCATGT TATCCGGACC
    TTGAAGATGG ACTGCTCTGG GGCCCATGTG CAAGTGACCT GTGCCAAGCT CATCTCCAGG
    ACAGGCCACC TGATGAAGCT TCTCAGTGGG CAGCAGGAAG TAAAGGCATC CAAGATAGAA
    TGGGATACGG ACCAATGGAA GATTGAGAAC TACATTAATG AGAGCACAGA AGCCCAGAGT
    GAACAGAAAG AGAAGTCGCT TGAGCTCAAA AAAGAAGTTC CAGGATATGG CTATACTGAC
    AAACTCATCT TGGCATTAAT TGTTACTGGA ATACTAACGA TTTTGATTAT ACTTTTCTGC
    CTCATTGTGA TATGTTGTCA CCGAAGGTCA TTACAAGAAG ATGAAGAAGG ATTCTCAAGG
    GGCATTTTCA GATTTCTGCC ATGGAGGGGA TGCTCTTCGC GAAGGGAGAG TCAGGATGGA
    CTTTCCTCAT TTGGACAGCC GCTCTGGTTT AAAGATATGT ACAAACCTCT CAGTGCCACA
    AGAATAAATA ATCATGCATG GAAGCTGCAC AAGAAGTCAT CTAATGAGGA CAAGATCCTC
    AACAGGGACC CTGGGGACAG CGAAGCCCCA ACGGAGGAGG AGGAGAGTGA AGCCCTGCCA
    TAG

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

    RefSeq NP_001006608.2
    CDS4..5106
    Translation

    Target ORF information:

    RefSeq Version NM_001006607.2
    Organism Homo sapiens(human)
    Definition Homo sapiens leucine rich repeat containing 37 member A2 (LRRC37A2), mRNA.

    Target ORF information:

    Epitope DYKDDDDK
    Bacterial selection AMPR
    Mammalian selection NeoR
    Vector pcDNA3.1+/C-(K)DYK
    NM_001006607.2

    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
    4681
    4741
    4801
    4861
    4921
    4981
    5041
    5101
    ATGTCTTCTG CTCAGTGCCC GGCACTAGTG TGTGTCATGT CCCGGCTGCG TTTCTGGGGC 
    CCATGGCCCC TCCTTATGTG GCAACTATTG TGGCTACTAG TTAAGGAGGC TCAGCCTCTG
    GAGTGGGTCA AGGACCCGCT CCAGCTCACC TCTAATCCCC TGGGGCCGCC TGACTCCTGG
    TCTTCCCACT CCTCCCATTT CCCACGGGAA TCTCCCCATG CGCCTACTCT CCCAGCAGAC
    CCGTGGGACT TTGATCACCT GGGGCCCTCT GCTTCCTCAG AGATGCCAGC CCCACCCCAG
    GAATCGACTG AAAATTTGGT TCCATTCCTG GACACCTGGG ATTCAGCTGG AGAGCAGCCC
    CTGGAGCCAG AGCAGTTCTT GGCTTCACAG CAGGATTTAA AGGACAAGCT GAGTCCACAG
    GAAAGACTCC CTGTTTCGCC CAAGAAGCTG AAGAAAGATC CAGCTCAGCG TTGGAGCCTT
    GCTGAGATTA TTGGAATTAC ACGCCAATTA TCCACACCTC AGAGTCAGAA ACAGACTTTG
    CAGAATGAAT ATTCCAGTAC AGATACACCG TATCCCGGTA GCCTGCCTCC AGAACTCCGG
    GTGAAGTCAG ATGAGCCTCC AGGGCCCTCT GAGCAAGTTG GACCTTCTCA ATTCCATCTA
    GAGCCCGAAA CTCAAAATCC AGAGACCCTT GAAGACATCC AGTCCTCTTC ACTCCAGCAA
    GAAGCCCCAG CACAGCTTCC ACAGCTCCTT GAGGAAGAAC CTTCTTCAAT GCAGCAGGAG
    GCCCCAGCTC TGCCTCCAGA GTCCTCTATG GAGAGTCTAA CTCTACCGAA TCATGAGGTG
    TCAGTTCAAC CTCCAGGTGA GGATCAAGCT TATTATCACT TGCCCAACAT TACAGTTAAA
    CCTGCAGATG TGGAGGTTAC CATAACTTCA GAGCCTACCA ATGAGACAGA ATCTTCCCAA
    GCCCAGCAGG AGACCCCAAT TCAGTTTCCA GAGGAGGTGG AACCTTCTGC AACCCAACAG
    GAGGCCCCAA TTGAGCCTCC AGTTCCTCCT ATGGAGCATG AACTTTCCAT CAGTGAGCAG
    CAGCAGCCAG TTCAGCCTTC TGAGTCTCCT AGGGAGGTCG AATCTTCTCC GACCCAGCAG
    GAGACCCCAG GTCAGCCTCC AGAACATCAT GAAGTCACAG TTTCACCTCC AGGTCACCAT
    CAAACTCATC ATTTAGCTTC ACCCAGTGTC TCTGTGAAGC CTCCAGACGT GCAGCTCACC
    ATAGCAGCAG AGCCTAGTGC AGAGGTGGGA ACTTCTCTAG TCCACCAGGA GGCTACAACT
    CGGCTCTCAG GGTCAGGTAA TGATGTAGAA CCTCCCGCCA TCCAGCACGG GGGCCCACCT
    CTGCTTCCAG AGTCATCAGA AGAAGCTGGA CCTTTAGCAG TTCAACAGGA GACTTCATTT
    CAATCTCCGG AACCTATTAA TAATGAGAAC CCCTCTCCAA CCCAGCAGGA GGCTGCAGCT
    GAGCATCCAC AGACCGCTGA GGAGGGTGAG TCTTCCCTAA CCCATCAGGA GGCCCCAGCT
    CAGACTCCAG AGTTCCCTAA TGTAGTTGTA GCTCAACCTC CAGAGCATTC ACACCTGACT
    CAAGCCACAG TTCAACCTTT GGATCTGGGG TTTACCATCA CTCCAGAATC CAAGACAGAG
    GTTGAACTTT CTCCAACCAT GAAGGAGACC CCAACTCAGC CTCCTAAGAA AGTTGTACCC
    CAACTTCGAG TATATCAAGG GGTAACAAAT CCAACACCAG GTCAGGATCA AGCTCAGCAT
    CCAGTGTCAC CCAGCGTTAC AGTTCAACTT TTGGACCTGG GACTTACCAT CACTCCAGAA
    CCTACTACGG AGGTTGGACA TTCTACACCC CCGAAGAGGA CTATAGTTTC TCCAAAGCAT
    CCTGAGGTGA CACTTCCACA TCCAGACCAG GTTCAGACTC AGCATTCACA CCTGACTCGA
    GCCACAGTTC AACCTTTGGA CCTGGGGTTT ACCATCACTC CAAAATCCAT GACAGAGGTT
    GAACCTTCTA CAGCCCTGAT GACTACAGCT CCTCCTCCAG GACACCCTGA GGTGACACTT
    CCACCTTCAG ACAAGGGTCA GGCTCAGCAT TCACACCTGA CTCAAGCCAC CGTTCAACCT
    CTGGACCTGG AGCTTACCAT AACTACAAAA CCTACTACAG AGGTTAAACC ATCTCCAACC
    ACGGAGGAGA CCTCAACTCA GCCTCCAGAC CTGGGACTTG CCATCATTCC AGAACCCACT
    ACAGAGACTA GACATTCTAC AGCCCTGGAG AAGACTACAG CTCCTCGTCC AGACCGGGTT
    CAGACTCTGC ATCGAAGCCT GACTGAAGTC ACAGGTCCAC CTACTGAACT AGAACCTGCT
    CAGGATTCAC TGGTGCAGTC TGAAAGTTAC ACCCAAAATA AGGCTTTAAC TGCACCAGAG
    GAACACAAGG CCTCCACAAG CACCAACATA TGTGAGCTCT GTACCTGCGG AGATGAGATG
    TTGTCATGTA TTGATCTCAA CCCAGAGCAG AGGCTCCGCC AAGTGCCTGT GCCAGAGCCC
    AACACCCACA ATGGCACCTT CACCATCTTA AATTTCCAAG GAAACTATAT TTCTTACATT
    GATGGAAATG TATGGAAAGC ATACAGTTGG ACCGAGAAAC TAATTCTCAG AGAAAATAAC
    TTGACTGAAT TACACAAGGA TTCATTTGAA GGCCTGCTAT CCCTCCAGTA TTTAGATTTA
    TCCTGCAATA AAATACAGTC TATTGAAAGA CATACATTTG AACCACTACC ATTTTTGAAG
    TTTATAAATC TTAGTTGCAA TGTAATTACA GAACTCAGCT TTGGAACATT TCAGGCCTGG
    CACGGAATGC AGTTTTTACA TAAGTTAATT CTCAATCACA ATCCTCTGAC AACTGTTGAA
    GATCCGTATC TCTTTAAATT GCCAGCATTA AAATATCTAG ACATGGGAAC AACGCTAGTC
    CCACTTACAA CACTTAAGAA CATTCTCATG ATGACTGTTG AACTGGAAAA ACTGATCTTA
    CCTAGCCATA TGGCCTGCTG CCTCTGCCAA TTTAAAAACA GCATTGAGGC TGTCTGCAAG
    ACAGTCAAGC TGCATTGCAA CAGTGCATGT CTGACAAACA CCACACATTG TCCTGAAGAA
    GCATCGGTAG GGAATCCAGA AGGAGCGTTC ATGAAGGTGT TACAAGCCCG GAAGAACTAC
    ACAAGCACTG AGCTGATTGT TGAGCCAGAG GAGCCCTCAG ACAGCAGTGG CATCAACTTG
    TCAGGCTTTG GGAGTGAGCA GCTAGACACC AATGACGAGA GTGATTTTAT CAGTACACTA
    AGTTACATCT TGCCTTATTT CTCAGCGGTA AACCTAGATG TGAAATCACT GTTACTACCG
    TTCATTAAAC TGCCAACCAC AGGAAACAGC CTGGCAAAGA TTCAAACTGT AGGCCAAAAC
    CGGCAGAGAG TGAAGAGAGT CCTCATGGGC CCAAGGAGCA TCCAGAAAAG GCACTTCAAA
    GAGGTAGGAA GGCAGAGCAT CAGGAGGGAA CAGGGTGCCC AGGCATCTGT GGAGAACGCT
    GCCGAAGAAA AAAGGCTCGG GAGTCCAGCC CCAAGGGAGG TGGAACAGCC CCACACACAG
    CAGGGGCCTG AGAAGTTAGC GGGAAACGCC GTCTACACCA AGCCTTCCTT CACCCAAGAG
    CATAAGGCAG CAGTCTCTGT GCTGAAACCC TTCTCCAAGG GCGCGCCTTC TACCTCCAGC
    CCTGCAAAAG CCCTACCACA GGTGAGAGAC AGATGGAAAG ACTTAACCCA CGCTATTTCC
    ATTTTAGAAA GTGCAAAGGC TAGAGTTACA AATACGAAGA CGTCTAAACC AATCGTACAT
    GCCAGAAAAA AATACCGCTT TCACAAAACT CGCTCCCACG TGACCCACAG AACACCCAAA
    GTCAAAAAGA GTCCAAAGGT CAGAAAGAAA AGTTATCTGA GTAGACTGAT GCTCGCAAAC
    AGGCTTCCAT TCTCTGCAGC GAAGAGCCTC ATAAATTCCC CTTCACAAGG GGCTTTTTCA
    TCCTTAGGAG ACCTGAGTCC TCAAGAAAAC CCTTTTCTGG AAGTATCTGC TCCTTCAGAA
    CATTTTATAG AAAACAATAA TACAAAACAC ACAACTGCAA GAAATGCCTT TGAAGAAAAT
    GATTTTATGG AAAACACTAA CATGCCAGAA GGAACCATCT CTGAAAACAC AAACTACAAT
    CATCCTCATG AGGCAGATTC CGCTGGGACT GCATTCAACT TAGGGCCAAC TGTTAAACAA
    ACTGAGACAA AATGGGAATA CAACAACGTG GGCACTGACC TGTCCCCCGA GCCCAAAAGC
    TTCAATTACC CATTGCTCTC GTCCCCAGGT GATCAGTTTG AAATTCAGCT AACCCAGCAG
    CTACAGTCCC TTATCCCCAA CAACAATGTG AGAAGGCTCA TTGCTCATGT TATCCGGACC
    TTGAAGATGG ACTGCTCTGG GGCCCATGTG CAAGTGACCT GTGCCAAGCT CATCTCCAGG
    ACAGGCCACC TGATGAAGCT TCTCAGTGGG CAGCAGGAAG TAAAGGCATC CAAGATAGAA
    TGGGATACGG ACCAATGGAA GATTGAGAAC TACATTAATG AGAGCACAGA AGCCCAGAGT
    GAACAGAAAG AGAAGTCGCT TGAGCTCAAA AAAGAAGTTC CAGGATATGG CTATACTGAC
    AAACTCATCT TGGCATTAAT TGTTACTGGA ATACTAACGA TTTTGATTAT ACTTTTCTGC
    CTCATTGTGA TATGTTGTCA CCGAAGGTCA TTACAAGAAG ATGAAGAAGG ATTCTCAAGG
    GGCATTTTCA GATTTCTGCC ATGGAGGGGA TGCTCTTCGC GAAGGGAGAG TCAGGATGGA
    CTTTCCTCAT TTGGACAGCC GCTCTGGTTT AAAGATATGT ACAAACCTCT CAGTGCCACA
    AGAATAAATA ATCATGCATG GAAGCTGCAC AAGAAGTCAT CTAATGAGGA CAAGATCCTC
    AACAGGGACC CTGGGGACAG CGAAGCCCCA ACGGAGGAGG AGGAGAGTGA AGCCCTGCCA
    TAG

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

    CloneID OHu104408
    Clone ID Related Accession (Same CDS sequence) XM_024450774.1
    Accession Version XM_024450774.1 Latest version! Documents for ORF clone product in default vector
    Sequence Information ORF Nucleotide Sequence (Length: 2904bp)
    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 leucine-rich repeat-containing protein 37A2 isoform X10
    Comment Comment: MODEL REFSEQ: This record is predicted by automated computational analysis. This record is derived from a genomic sequence (NC_000017.11) 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
    ATGTCTTCTG CTCAGTGCCC GGCACTAGTG TGTGTCATGT CCCGGCTGCG TTTCTGGGGC 
    CCATGGCCCC TCCTTATGTG GCAACTATTG TGGCTACTAG TTAAGGAGGC TCAGCCTCTG
    GAGTGGGTCA AGGACCCGCT CCAGCTCACC TCTAATCCCC TGGGGCCGCC TGACTCCTGG
    TCTTCCCACT CCTCCCATTT CCCACGGGAA TCTCCCCATG CGCCTACTCT CCCAGCAGAC
    CCGTGGGACT TTGATCACCT GGGGCCCTCT GCTTCCTCAG AGATGCCAGC CCCACCCCAG
    GAATCGACTG AAAATTTGGT TCCATTCCTG GACACCTGGG ATTCAGCTGG AGAGCAGCCC
    CTGGAGCCAG AGCAGTTCTT GGCTTCACAG CAGGATTTAA AGGACAAGCT GAGTCCACAG
    GAAAGACTCC CTGTTTCGCC CAAGAAGCTG AAGAAAGATC CAGCTCAGCG TTGGAGCCTT
    GCTGAGATTA TTGGAATTAC ACGCCAATTA TCCACACCTC AGAGTCAGAA ACAGACTTTG
    CAGAATGAAT ATTCCAGTAC AGATACACCG TATCCCGGTA GCCTGCCTCC AGAACTCCGG
    GTGAAGTCAG ATGAGCCTCC AGGGCCCTCT GAGCAAGTTG GACCTTCTCA ATTCCATCTA
    GAGCCCGAAA CTCAAAATCC AGAGACCCTT GAAGACATCC AGTCCTCTTC ACTCCAGCAA
    GAAGCCCCAG CACAGCTTCC ACAGCTCCTT GAGGAAGAAC CTTCTTCAAT GCAGCAGGAG
    GCCCCAGCTC TGCCTCCAGA GTCCTCTATG GAGAGTCTAA CTCTACCGAA TCATGAGGTG
    TCAGTTCAAC CTCCAGGTGA GGATCAAGCT TATTATCACT TGCCCAACAT TACAGTTAAA
    CCTGCAGATG TGGAGGTTAC CATAACTTCA GAGCCTACCA ATGAGACAGA ATCTTCCCAA
    GCCCAGCAGG AGACCCCAAT TCAGTTTCCA GAGGAGGTGG AACCTTCTGC AACCCAACAG
    GAGGCCCCAA TTGAGCCTCC AGTTCCTCCT ATGGAGCATG AACTTTCCAT CAGTGAGCAG
    CAGCAGCCAG TTCAGCCTTC TGAGTCTCCT AGGGAGGTCG AATCTTCTCC GACCCAGCAG
    GAGACCCCAG GTCAGCCTCC AGAACATCAT GAAGTCACAG TTTCACCTCC AGGTCACCAT
    CAAACTCATC ATTTAGCTTC ACCCAGTGTC TCTGTGAAGC CTCCAGACGT GCAGCTCACC
    ATAGCAGCAG AGCCTAGTGC AGAGGTGGGA ACTTCTCTAG TCCACCAGGA GGCTACAACT
    CGGCTCTCAG GGTCAGGTAA TGATGTAGAA CCTCCCGCCA TCCAGCACGG GGGCCCACCT
    CTGCTTCCAG AGTCATCAGA AGAAGCTGGA CCTTTAGCAG TTCAACAGGA GACTTCATTT
    CAATCTCCGG AACCTATTAA TAATGAGAAC CCCTCTCCAA CCCAGCAGGA GGCTGCAGCT
    GAGCATCCAC AGACCGCTGA GGAGGGTGAG TCTTCCCTAA CCCATCAGGA GGCCCCAGCT
    CAGACTCCAG AGTTCCCTAA TGTAGTTGTA GCTCAACCTC CAGAGCATTC ACACCTGACT
    CAAGCCACAG TTCAACCTTT GGATCTGGGG TTTACCATCA CTCCAGAATC CAAGACAGAG
    GTTGAACTTT CTCCAACCAT GAAGGAGACC CCAACTCAGC CTCCTAAGAA AGTTGTACCC
    CAACTTCGAG TATATCAAGG GGTAACAAAT CCAACACCAG GTCAGGATCA AGCTCAGCAT
    CCAGTGTCAC CCAGCGTTAC AGTTCAACTT TTGGACCTGG GACTTACCAT CACTCCAGAA
    CCTACTACGG AGGTTGGACA TTCTACACCC CCGAAGAGGA CTATAGTTTC TCCAAAGCAT
    CCTGAGGTGA CACTTCCACA TCCAGACCAG GTTCAGACTC AGCATTCACA CCTGACTCGA
    GCCACAGTTC AACCTTTGGA CCTGGGGTTT ACCATCACTC CAAAATCCAT GACAGAGGTT
    GAACCTTCTA CAGCCCTGAT GACTACAGCT CCTCCTCCAG GACACCCTGA GGTGACACTT
    CCACCTTCAG ACAAGGGTCA GGCTCAGCAT TCACACCTGA CTCAAGCCAC CGTTCAACCT
    CTGGACCTGG AGCTTACCAT AACTACAAAA CCTACTACAG AGGTTAAACC ATCTCCAACC
    ACGGAGGAGA CCTCAACTCA GCCTCCAGAC CTGGGACTTG CCATCATTCC AGAACCCACT
    ACAGAGACTA GACATTCTAC AGCCCTGGAG AAGACTACAG CTCCTCGTCC AGACCGGGTT
    CAGACTCTGC ATCGAAGCCT GACTGAAGTC ACAGGTCCAC CTACTGAACT AGAACCTGCT
    CAGGATTCAC TGGTGCAGTC TGAAAGTTAC ACCCAAAATA AGGCTTTAAC TGCACCAGAG
    GAACACAAGG CCTCCACAAG CACCAACATA TGTGAGCTCT GTACCTGCGG AGATGAGATG
    TTGTCATGTA TTGATCTCAA CCCAGAGCAG AGGCTCCGCC AAGTGCCTGT GCCAGAGCCC
    AACACCCACA ATGGCACCTT CACCATCTTA AATTTCCAAG GAAACTATAT TTCTTACATT
    GATGGAAATG TATGGAAAGC ATACAGTTGG ACCGAGAAAC TAATTCTCAG AGAAAATAAC
    TTGACTGAAT TACACAAGGA TTCATTTGAA GGCCTGCTAT CCCTCCAGTA TTTAATTCTC
    AATCACAATC CTCTGACAAC TGTTGAAGAT CCGTATCTCT TTAAATTGCC AGCATTAAAA
    TATCTAGACA TGGGAACAAC GCTAGTCCCA CTTACAACAC TTAAGAACAT TCTCATGATG
    ACTGTTGAAC TGGAAAAACT CTGA

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

    RefSeq XP_024306542.1
    CDS4..2907
    Translation

    Target ORF information:

    RefSeq Version XM_024450774.1
    Organism Homo sapiens(human)
    Definition Homo sapiens leucine rich repeat containing 37 member A2 (LRRC37A2), transcript variant X10, mRNA.

    Target ORF information:

    Epitope DYKDDDDK
    Bacterial selection AMPR
    Mammalian selection NeoR
    Vector pcDNA3.1+/C-(K)DYK
    XM_024450774.1

    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
    ATGTCTTCTG CTCAGTGCCC GGCACTAGTG TGTGTCATGT CCCGGCTGCG TTTCTGGGGC 
    CCATGGCCCC TCCTTATGTG GCAACTATTG TGGCTACTAG TTAAGGAGGC TCAGCCTCTG
    GAGTGGGTCA AGGACCCGCT CCAGCTCACC TCTAATCCCC TGGGGCCGCC TGACTCCTGG
    TCTTCCCACT CCTCCCATTT CCCACGGGAA TCTCCCCATG CGCCTACTCT CCCAGCAGAC
    CCGTGGGACT TTGATCACCT GGGGCCCTCT GCTTCCTCAG AGATGCCAGC CCCACCCCAG
    GAATCGACTG AAAATTTGGT TCCATTCCTG GACACCTGGG ATTCAGCTGG AGAGCAGCCC
    CTGGAGCCAG AGCAGTTCTT GGCTTCACAG CAGGATTTAA AGGACAAGCT GAGTCCACAG
    GAAAGACTCC CTGTTTCGCC CAAGAAGCTG AAGAAAGATC CAGCTCAGCG TTGGAGCCTT
    GCTGAGATTA TTGGAATTAC ACGCCAATTA TCCACACCTC AGAGTCAGAA ACAGACTTTG
    CAGAATGAAT ATTCCAGTAC AGATACACCG TATCCCGGTA GCCTGCCTCC AGAACTCCGG
    GTGAAGTCAG ATGAGCCTCC AGGGCCCTCT GAGCAAGTTG GACCTTCTCA ATTCCATCTA
    GAGCCCGAAA CTCAAAATCC AGAGACCCTT GAAGACATCC AGTCCTCTTC ACTCCAGCAA
    GAAGCCCCAG CACAGCTTCC ACAGCTCCTT GAGGAAGAAC CTTCTTCAAT GCAGCAGGAG
    GCCCCAGCTC TGCCTCCAGA GTCCTCTATG GAGAGTCTAA CTCTACCGAA TCATGAGGTG
    TCAGTTCAAC CTCCAGGTGA GGATCAAGCT TATTATCACT TGCCCAACAT TACAGTTAAA
    CCTGCAGATG TGGAGGTTAC CATAACTTCA GAGCCTACCA ATGAGACAGA ATCTTCCCAA
    GCCCAGCAGG AGACCCCAAT TCAGTTTCCA GAGGAGGTGG AACCTTCTGC AACCCAACAG
    GAGGCCCCAA TTGAGCCTCC AGTTCCTCCT ATGGAGCATG AACTTTCCAT CAGTGAGCAG
    CAGCAGCCAG TTCAGCCTTC TGAGTCTCCT AGGGAGGTCG AATCTTCTCC GACCCAGCAG
    GAGACCCCAG GTCAGCCTCC AGAACATCAT GAAGTCACAG TTTCACCTCC AGGTCACCAT
    CAAACTCATC ATTTAGCTTC ACCCAGTGTC TCTGTGAAGC CTCCAGACGT GCAGCTCACC
    ATAGCAGCAG AGCCTAGTGC AGAGGTGGGA ACTTCTCTAG TCCACCAGGA GGCTACAACT
    CGGCTCTCAG GGTCAGGTAA TGATGTAGAA CCTCCCGCCA TCCAGCACGG GGGCCCACCT
    CTGCTTCCAG AGTCATCAGA AGAAGCTGGA CCTTTAGCAG TTCAACAGGA GACTTCATTT
    CAATCTCCGG AACCTATTAA TAATGAGAAC CCCTCTCCAA CCCAGCAGGA GGCTGCAGCT
    GAGCATCCAC AGACCGCTGA GGAGGGTGAG TCTTCCCTAA CCCATCAGGA GGCCCCAGCT
    CAGACTCCAG AGTTCCCTAA TGTAGTTGTA GCTCAACCTC CAGAGCATTC ACACCTGACT
    CAAGCCACAG TTCAACCTTT GGATCTGGGG TTTACCATCA CTCCAGAATC CAAGACAGAG
    GTTGAACTTT CTCCAACCAT GAAGGAGACC CCAACTCAGC CTCCTAAGAA AGTTGTACCC
    CAACTTCGAG TATATCAAGG GGTAACAAAT CCAACACCAG GTCAGGATCA AGCTCAGCAT
    CCAGTGTCAC CCAGCGTTAC AGTTCAACTT TTGGACCTGG GACTTACCAT CACTCCAGAA
    CCTACTACGG AGGTTGGACA TTCTACACCC CCGAAGAGGA CTATAGTTTC TCCAAAGCAT
    CCTGAGGTGA CACTTCCACA TCCAGACCAG GTTCAGACTC AGCATTCACA CCTGACTCGA
    GCCACAGTTC AACCTTTGGA CCTGGGGTTT ACCATCACTC CAAAATCCAT GACAGAGGTT
    GAACCTTCTA CAGCCCTGAT GACTACAGCT CCTCCTCCAG GACACCCTGA GGTGACACTT
    CCACCTTCAG ACAAGGGTCA GGCTCAGCAT TCACACCTGA CTCAAGCCAC CGTTCAACCT
    CTGGACCTGG AGCTTACCAT AACTACAAAA CCTACTACAG AGGTTAAACC ATCTCCAACC
    ACGGAGGAGA CCTCAACTCA GCCTCCAGAC CTGGGACTTG CCATCATTCC AGAACCCACT
    ACAGAGACTA GACATTCTAC AGCCCTGGAG AAGACTACAG CTCCTCGTCC AGACCGGGTT
    CAGACTCTGC ATCGAAGCCT GACTGAAGTC ACAGGTCCAC CTACTGAACT AGAACCTGCT
    CAGGATTCAC TGGTGCAGTC TGAAAGTTAC ACCCAAAATA AGGCTTTAAC TGCACCAGAG
    GAACACAAGG CCTCCACAAG CACCAACATA TGTGAGCTCT GTACCTGCGG AGATGAGATG
    TTGTCATGTA TTGATCTCAA CCCAGAGCAG AGGCTCCGCC AAGTGCCTGT GCCAGAGCCC
    AACACCCACA ATGGCACCTT CACCATCTTA AATTTCCAAG GAAACTATAT TTCTTACATT
    GATGGAAATG TATGGAAAGC ATACAGTTGG ACCGAGAAAC TAATTCTCAG AGAAAATAAC
    TTGACTGAAT TACACAAGGA TTCATTTGAA GGCCTGCTAT CCCTCCAGTA TTTAATTCTC
    AATCACAATC CTCTGACAAC TGTTGAAGAT CCGTATCTCT TTAAATTGCC AGCATTAAAA
    TATCTAGACA TGGGAACAAC GCTAGTCCCA CTTACAACAC TTAAGAACAT TCTCATGATG
    ACTGTTGAAC TGGAAAAACT CTGA

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

    CloneID OHu104409
    Clone ID Related Accession (Same CDS sequence) XM_024450775.1
    Accession Version XM_024450775.1 Latest version! Documents for ORF clone product in default vector
    Sequence Information ORF Nucleotide Sequence (Length: 2832bp)
    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 leucine-rich repeat-containing protein 37A2 isoform X11
    Comment Comment: MODEL REFSEQ: This record is predicted by automated computational analysis. This record is derived from a genomic sequence (NC_000017.11) 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
    ATGTCTTCTG CTCAGTGCCC GGCACTAGTG TGTGTCATGT CCCGGCTGCG TTTCTGGGGC 
    CCATGGCCCC TCCTTATGTG GCAACTATTG TGGCTACTAG TTAAGGAGGC TCAGCCTCTG
    GAGTGGGTCA AGGACCCGCT CCAGCTCACC TCTAATCCCC TGGGGCCGCC TGACTCCTGG
    TCTTCCCACT CCTCCCATTT CCCACGGGAA TCTCCCCATG CGCCTACTCT CCCAGCAGAC
    CCGTGGGACT TTGATCACCT GGGGCCCTCT GCTTCCTCAG AGATGCCAGC CCCACCCCAG
    GAATCGACTG AAAATTTGGT TCCATTCCTG GACACCTGGG ATTCAGCTGG AGAGCAGCCC
    CTGGAGCCAG AGCAGTTCTT GGCTTCACAG CAGGATTTAA AGGACAAGCT GAGTCCACAG
    GAAAGACTCC CTGTTTCGCC CAAGAAGCTG AAGAAAGATC CAGCTCAGCG TTGGAGCCTT
    GCTGAGATTA TTGGAATTAC ACGCCAATTA TCCACACCTC AGAGTCAGAA ACAGACTTTG
    CAGAATGAAT ATTCCAGTAC AGATACACCG TATCCCGGTA GCCTGCCTCC AGAACTCCGG
    GTGAAGTCAG ATGAGCCTCC AGGGCCCTCT GAGCAAGTTG GACCTTCTCA ATTCCATCTA
    GAGCCCGAAA CTCAAAATCC AGAGACCCTT GAAGACATCC AGTCCTCTTC ACTCCAGCAA
    GAAGCCCCAG CACAGCTTCC ACAGCTCCTT GAGGAAGAAC CTTCTTCAAT GCAGCAGGAG
    GCCCCAGCTC TGCCTCCAGA GTCCTCTATG GAGAGTCTAA CTCTACCGAA TCATGAGGTG
    TCAGTTCAAC CTCCAGGTGA GGATCAAGCT TATTATCACT TGCCCAACAT TACAGTTAAA
    CCTGCAGATG TGGAGGTTAC CATAACTTCA GAGCCTACCA ATGAGACAGA ATCTTCCCAA
    GCCCAGCAGG AGACCCCAAT TCAGTTTCCA GAGGAGGTGG AACCTTCTGC AACCCAACAG
    GAGGCCCCAA TTGAGCCTCC AGTTCCTCCT ATGGAGCATG AACTTTCCAT CAGTGAGCAG
    CAGCAGCCAG TTCAGCCTTC TGAGTCTCCT AGGGAGGTCG AATCTTCTCC GACCCAGCAG
    GAGACCCCAG GTCAGCCTCC AGAACATCAT GAAGTCACAG TTTCACCTCC AGGTCACCAT
    CAAACTCATC ATTTAGCTTC ACCCAGTGTC TCTGTGAAGC CTCCAGACGT GCAGCTCACC
    ATAGCAGCAG AGCCTAGTGC AGAGGTGGGA ACTTCTCTAG TCCACCAGGA GGCTACAACT
    CGGCTCTCAG GGTCAGGTAA TGATGTAGAA CCTCCCGCCA TCCAGCACGG GGGCCCACCT
    CTGCTTCCAG AGTCATCAGA AGAAGCTGGA CCTTTAGCAG TTCAACAGGA GACTTCATTT
    CAATCTCCGG AACCTATTAA TAATGAGAAC CCCTCTCCAA CCCAGCAGGA GGCTGCAGCT
    GAGCATCCAC AGACCGCTGA GGAGGGTGAG TCTTCCCTAA CCCATCAGGA GGCCCCAGCT
    CAGACTCCAG AGTTCCCTAA TGTAGTTGTA GCTCAACCTC CAGAGCATTC ACACCTGACT
    CAAGCCACAG TTCAACCTTT GGATCTGGGG TTTACCATCA CTCCAGAATC CAAGACAGAG
    GTTGAACTTT CTCCAACCAT GAAGGAGACC CCAACTCAGC CTCCTAAGAA AGTTGTACCC
    CAACTTCGAG TATATCAAGG GGTAACAAAT CCAACACCAG GTCAGGATCA AGCTCAGCAT
    CCAGTGTCAC CCAGCGTTAC AGTTCAACTT TTGGACCTGG GACTTACCAT CACTCCAGAA
    CCTACTACGG AGGTTGGACA TTCTACACCC CCGAAGAGGA CTATAGTTTC TCCAAAGCAT
    CCTGAGGTGA CACTTCCACA TCCAGACCAG GTTCAGACTC AGCATTCACA CCTGACTCGA
    GCCACAGTTC AACCTTTGGA CCTGGGGTTT ACCATCACTC CAAAATCCAT GACAGAGGTT
    GAACCTTCTA CAGCCCTGAT GACTACAGCT CCTCCTCCAG GACACCCTGA GGTGACACTT
    CCACCTTCAG ACAAGGGTCA GGCTCAGCAT TCACACCTGA CTCAAGCCAC CGTTCAACCT
    CTGGACCTGG AGCTTACCAT AACTACAAAA CCTACTACAG AGGTTAAACC ATCTCCAACC
    ACGGAGGAGA CCTCAACTCA GCCTCCAGAC CTGGGACTTG CCATCATTCC AGAACCCACT
    ACAGAGACTA GACATTCTAC AGCCCTGGAG AAGACTACAG CTCCTCGTCC AGACCGGGTT
    CAGACTCTGC ATCGAAGCCT GACTGAAGTC ACAGGTCCAC CTACTGAACT AGAACCTGCT
    CAGGATTCAC TGGTGCAGTC TGAAAGTTAC ACCCAAAATA AGGCTTTAAC TGCACCAGAG
    GAACACAAGG CCTCCACAAG CACCAACATA TGTGAGCTCT GTACCTGCGG AGATGAGATG
    TTGTCATGTA TTGATCTCAA CCCAGAGCAG AGGCTCCGCC AAGTGCCTGT GCCAGAGCCC
    AACACCCACA ATGGCACCTT CACCATCTTA AATTTCCAAG GAAACTATAT TTCTTACATT
    GATGGAAATG TATGGAAAGC ATACAGTTGG ACCGAGAAAC TAATTCTCAA TCACAATCCT
    CTGACAACTG TTGAAGATCC GTATCTCTTT AAATTGCCAG CATTAAAATA TCTAGACATG
    GGAACAACGC TAGTCCCACT TACAACACTT AAGAACATTC TCATGATGAC TGTTGAACTG
    GAAAAACTCT GA

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

    RefSeq XP_024306543.1
    CDS4..2835
    Translation

    Target ORF information:

    RefSeq Version XM_024450775.1
    Organism Homo sapiens(human)
    Definition Homo sapiens leucine rich repeat containing 37 member A2 (LRRC37A2), transcript variant X11, mRNA.

    Target ORF information:

    Epitope DYKDDDDK
    Bacterial selection AMPR
    Mammalian selection NeoR
    Vector pcDNA3.1+/C-(K)DYK
    XM_024450775.1

    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
    ATGTCTTCTG CTCAGTGCCC GGCACTAGTG TGTGTCATGT CCCGGCTGCG TTTCTGGGGC 
    CCATGGCCCC TCCTTATGTG GCAACTATTG TGGCTACTAG TTAAGGAGGC TCAGCCTCTG
    GAGTGGGTCA AGGACCCGCT CCAGCTCACC TCTAATCCCC TGGGGCCGCC TGACTCCTGG
    TCTTCCCACT CCTCCCATTT CCCACGGGAA TCTCCCCATG CGCCTACTCT CCCAGCAGAC
    CCGTGGGACT TTGATCACCT GGGGCCCTCT GCTTCCTCAG AGATGCCAGC CCCACCCCAG
    GAATCGACTG AAAATTTGGT TCCATTCCTG GACACCTGGG ATTCAGCTGG AGAGCAGCCC
    CTGGAGCCAG AGCAGTTCTT GGCTTCACAG CAGGATTTAA AGGACAAGCT GAGTCCACAG
    GAAAGACTCC CTGTTTCGCC CAAGAAGCTG AAGAAAGATC CAGCTCAGCG TTGGAGCCTT
    GCTGAGATTA TTGGAATTAC ACGCCAATTA TCCACACCTC AGAGTCAGAA ACAGACTTTG
    CAGAATGAAT ATTCCAGTAC AGATACACCG TATCCCGGTA GCCTGCCTCC AGAACTCCGG
    GTGAAGTCAG ATGAGCCTCC AGGGCCCTCT GAGCAAGTTG GACCTTCTCA ATTCCATCTA
    GAGCCCGAAA CTCAAAATCC AGAGACCCTT GAAGACATCC AGTCCTCTTC ACTCCAGCAA
    GAAGCCCCAG CACAGCTTCC ACAGCTCCTT GAGGAAGAAC CTTCTTCAAT GCAGCAGGAG
    GCCCCAGCTC TGCCTCCAGA GTCCTCTATG GAGAGTCTAA CTCTACCGAA TCATGAGGTG
    TCAGTTCAAC CTCCAGGTGA GGATCAAGCT TATTATCACT TGCCCAACAT TACAGTTAAA
    CCTGCAGATG TGGAGGTTAC CATAACTTCA GAGCCTACCA ATGAGACAGA ATCTTCCCAA
    GCCCAGCAGG AGACCCCAAT TCAGTTTCCA GAGGAGGTGG AACCTTCTGC AACCCAACAG
    GAGGCCCCAA TTGAGCCTCC AGTTCCTCCT ATGGAGCATG AACTTTCCAT CAGTGAGCAG
    CAGCAGCCAG TTCAGCCTTC TGAGTCTCCT AGGGAGGTCG AATCTTCTCC GACCCAGCAG
    GAGACCCCAG GTCAGCCTCC AGAACATCAT GAAGTCACAG TTTCACCTCC AGGTCACCAT
    CAAACTCATC ATTTAGCTTC ACCCAGTGTC TCTGTGAAGC CTCCAGACGT GCAGCTCACC
    ATAGCAGCAG AGCCTAGTGC AGAGGTGGGA ACTTCTCTAG TCCACCAGGA GGCTACAACT
    CGGCTCTCAG GGTCAGGTAA TGATGTAGAA CCTCCCGCCA TCCAGCACGG GGGCCCACCT
    CTGCTTCCAG AGTCATCAGA AGAAGCTGGA CCTTTAGCAG TTCAACAGGA GACTTCATTT
    CAATCTCCGG AACCTATTAA TAATGAGAAC CCCTCTCCAA CCCAGCAGGA GGCTGCAGCT
    GAGCATCCAC AGACCGCTGA GGAGGGTGAG TCTTCCCTAA CCCATCAGGA GGCCCCAGCT
    CAGACTCCAG AGTTCCCTAA TGTAGTTGTA GCTCAACCTC CAGAGCATTC ACACCTGACT
    CAAGCCACAG TTCAACCTTT GGATCTGGGG TTTACCATCA CTCCAGAATC CAAGACAGAG
    GTTGAACTTT CTCCAACCAT GAAGGAGACC CCAACTCAGC CTCCTAAGAA AGTTGTACCC
    CAACTTCGAG TATATCAAGG GGTAACAAAT CCAACACCAG GTCAGGATCA AGCTCAGCAT
    CCAGTGTCAC CCAGCGTTAC AGTTCAACTT TTGGACCTGG GACTTACCAT CACTCCAGAA
    CCTACTACGG AGGTTGGACA TTCTACACCC CCGAAGAGGA CTATAGTTTC TCCAAAGCAT
    CCTGAGGTGA CACTTCCACA TCCAGACCAG GTTCAGACTC AGCATTCACA CCTGACTCGA
    GCCACAGTTC AACCTTTGGA CCTGGGGTTT ACCATCACTC CAAAATCCAT GACAGAGGTT
    GAACCTTCTA CAGCCCTGAT GACTACAGCT CCTCCTCCAG GACACCCTGA GGTGACACTT
    CCACCTTCAG ACAAGGGTCA GGCTCAGCAT TCACACCTGA CTCAAGCCAC CGTTCAACCT
    CTGGACCTGG AGCTTACCAT AACTACAAAA CCTACTACAG AGGTTAAACC ATCTCCAACC
    ACGGAGGAGA CCTCAACTCA GCCTCCAGAC CTGGGACTTG CCATCATTCC AGAACCCACT
    ACAGAGACTA GACATTCTAC AGCCCTGGAG AAGACTACAG CTCCTCGTCC AGACCGGGTT
    CAGACTCTGC ATCGAAGCCT GACTGAAGTC ACAGGTCCAC CTACTGAACT AGAACCTGCT
    CAGGATTCAC TGGTGCAGTC TGAAAGTTAC ACCCAAAATA AGGCTTTAAC TGCACCAGAG
    GAACACAAGG CCTCCACAAG CACCAACATA TGTGAGCTCT GTACCTGCGG AGATGAGATG
    TTGTCATGTA TTGATCTCAA CCCAGAGCAG AGGCTCCGCC AAGTGCCTGT GCCAGAGCCC
    AACACCCACA ATGGCACCTT CACCATCTTA AATTTCCAAG GAAACTATAT TTCTTACATT
    GATGGAAATG TATGGAAAGC ATACAGTTGG ACCGAGAAAC TAATTCTCAA TCACAATCCT
    CTGACAACTG TTGAAGATCC GTATCTCTTT AAATTGCCAG CATTAAAATA TCTAGACATG
    GGAACAACGC TAGTCCCACT TACAACACTT AAGAACATTC TCATGATGAC TGTTGAACTG
    GAAAAACTCT GA

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

    CloneID OHu104407
    Clone ID Related Accession (Same CDS sequence) XM_024450773.1
    Accession Version XM_024450773.1 Latest version! Documents for ORF clone product in default vector
    Sequence Information ORF Nucleotide Sequence (Length: 4815bp)
    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 leucine-rich repeat-containing protein 37A2 isoform X6
    Comment Comment: MODEL REFSEQ: This record is predicted by automated computational analysis. This record is derived from a genomic sequence (NC_000017.11) 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
    4801
    ATGTCTTCTG CTCAGTGCCC GGCACTAGTG TGTGTCATGT CCCGGCTGCG TTTCTGGGGC 
    CCATGGCCCC TCCTTATGTG GCAACTATTG TGGCTACTAG TTAAGGAGGC TCAGCCTCTG
    GAGTGGGTCA AGGACCCGCT CCAGCTCACC TCTAATCCCC TGGGGCCGCC TGACTCCTGG
    TCTTCCCACT CCTCCCATTT CCCACGGGAA TCTCCCCATG CGCCTACTCT CCCAGCAGAC
    CCGTGGGACT TTGATCACCT GGGGCCCTCT GCTTCCTCAG AGATGCCAGC CCCACCCCAG
    GAATCGACTG AAAATTTGGT TCCATTCCTG GACACCTGGG ATTCAGCTGG AGAGCAGCCC
    CTGGAGCCAG AGCAGTTCTT GGCTTCACAG CAGGATTTAA AGGACAAGCT GAGTCCACAG
    GAAAGACTCC CTGTTTCGCC CAAGAAGCTG AAGAAAGATC CAGCTCAGCG TTGGAGCCTT
    GCTGAGATTA TTGGAATTAC ACGCCAATTA TCCACACCTC AGAGTCAGAA ACAGACTTTG
    CAGAATGAAT ATTCCAGTAC AGATACACCG TATCCCGGTA GCCTGCCTCC AGAACTCCGG
    GTGAAGTCAG ATGAGCCTCC AGGGCCCTCT GAGCAAGTTG GACCTTCTCA ATTCCATCTA
    GAGCCCGAAA CTCAAAATCC AGAGACCCTT GAAGACATCC AGTCCTCTTC ACTCCAGCAA
    GAAGCCCCAG CACAGCTTCC ACAGCTCCTT GAGGAAGAAC CTTCTTCAAT GCAGCAGGAG
    GCCCCAGCTC TGCCTCCAGA GTCCTCTATG GAGAGTCTAA CTCTACCGAA TCATGAGGTG
    TCAGTTCAAC CTCCAGGTGA GGATCAAGCT TATTATCACT TGCCCAACAT TACAGTTAAA
    CCTGCAGATG TGGAGGTTAC CATAACTTCA GAGCCTACCA ATGAGACAGA ATCTTCCCAA
    GCCCAGCAGG AGACCCCAAT TCAGTTTCCA GAGGAGGTGG AACCTTCTGC AACCCAACAG
    GAGGCCCCAA TTGAGCCTCC AGTTCCTCCT ATGGAGCATG AACTTTCCAT CAGTGAGCAG
    CAGCAGCCAG TTCAGCCTTC TGAGTCTCCT AGGGAGGTCG AATCTTCTCC GACCCAGCAG
    GAGACCCCAG GTCAGCCTCC AGAACATCAT GAAGTCACAG TTTCACCTCC AGGTCACCAT
    CAAACTCATC ATTTAGCTTC ACCCAGTGTC TCTGTGAAGC CTCCAGACGT GCAGCTCACC
    ATAGCAGCAG AGCCTAGTGC AGAGGTGGGA ACTTCTCTAG TCCACCAGGA GGCTACAACT
    CGGCTCTCAG GGTCAGGTAA TGATGTAGAA CCTCCCGCCA TCCAGCACGG GGGCCCACCT
    CTGCTTCCAG AGTCATCAGA AGAAGCTGGA CCTTTAGCAG TTCAACAGGA GACTTCATTT
    CAATCTCCGG AACCTATTAA TAATGAGAAC CCCTCTCCAA CCCAGCAGGA GGCTGCAGCT
    GAGCATCCAC AGACCGCTGA GGAGGGTGAG TCTTCCCTAA CCCATCAGGA GGCCCCAGCT
    CAGACTCCAG AGTTCCCTAA TGTAGTTGTA GCTCAACCTC CAGAGCATTC ACACCTGACT
    CAAGCCACAG TTCAACCTTT GGATCTGGGG TTTACCATCA CTCCAGAATC CAAGACAGAG
    GTTGAACTTT CTCCAACCAT GAAGGAGACC CCAACTCAGC CTCCTAAGAA AGTTGTACCC
    CAACTTCGAG TATATCAAGG GGTAACAAAT CCAACACCAG GTCAGGATCA AGCTCAGCAT
    CCAGTGTCAC CCAGCGTTAC AGTTCAACTT TTGGACCTGG GACTTACCAT CACTCCAGAA
    CCTACTACGG AGGTTGGACA TTCTACACCC CCGAAGAGGA CTATAGTTTC TCCAAAGCAT
    CCTGAGGTGA CACTTCCACA TCCAGACCAG GTTCAGACTC AGCATTCACA CCTGACTCGA
    GCCACAGTTC AACCTTTGGA CCTGGGGTTT ACCATCACTC CAAAATCCAT GACAGAGGTT
    GAACCTTCTA CAGCCCTGAT GACTACAGCT CCTCCTCCAG GACACCCTGA GGTGACACTT
    CCACCTTCAG ACAAGGGTCA GGCTCAGCAT TCACACCTGA CTCAAGCCAC CGTTCAACCT
    CTGGACCTGG AGCTTACCAT AACTACAAAA CCTACTACAG AGGTTAAACC ATCTCCAACC
    ACGGAGGAGA CCTCAACTCA GCCTCCAGAC CTGGGACTTG CCATCATTCC AGAACCCACT
    ACAGAGACTA GACATTCTAC AGCCCTGGAG AAGACTACAG CTCCTCGTCC AGACCGGGTT
    CAGACTCTGC ATCGAAGCCT GACTGAAGTC ACAGGTCCAC CTACTGAACT AGAACCTGCT
    CAGGATTCAC TGGTGCAGTC TGAAAGTTAC ACCCAAAATA AGGCTTTAAC TGCACCAGAG
    GAACACAAGG CCTCCACAAG CACCAACATA TGTGAGCTCT GTACCTGCGG AGATGAGATG
    TTGTCATGTA TTGATCTCAA CCCAGAGCAG AGGCTCCGCC AAGTGCCTGT GCCAGAGCCC
    AACACCCACA ATGGCACCTT CACCATCTTA AATTTCCAAG GAAACTATAT TTCTTACATT
    GATGGAAATG TATGGAAAGC ATACAGTTGG ACCGAGAAAC TAATTCTCAG AGAAAATAAC
    TTGACTGAAT TACACAAGGA TTCATTTGAA GGCCTGCTAT CCCTCCAGTA TTTAGATTTA
    TCCTGCAATA AAATACAGTC TATTGAAAGA CATACATTTG AACCACTACC ATTTTTGAAG
    TTTATAAATC TTAGTTGCAA TGTAATTACA GAACTCAGCT TTGGAACATT TCAGGCCTGG
    CACGGAATGC AGTTTTTACA TAAGTTAATT CTCAATCACA ATCCTCTGAC AACTGTTGAA
    GATCCGTATC TCTTTAAATT GCCAGCATTA AAATATCTAG ACATGGGAAC AACGCTAGTC
    CCACTTACAA CACTTAAGAA CATTCTCATG ATGACTGTTG AACTGGAAAA ACTGATCTTA
    CCTAGCCATA TGGCCTGCTG CCTCTGCCAA TTTAAAAACA GCATTGAGGC TGTCTGCAAG
    ACAGTCAAGC TGCATTGCAA CAGTGCATGT CTGACAAACA CCACACATTG TCCTGAAGAA
    GCATCGGTAG GGAATCCAGA AGGAGCGTTC ATGAAGGTGT TACAAGCCCG GAAGAACTAC
    ACAAGCACTG AGCTGATTGT TGAGCCAGAG GAGCCCTCAG ACAGCAGTGG CATCAACTTG
    TCAGGCTTTG GGAGTGAGCA GCTAGACACC AATGACGAGA GTGATTTTAT CAGTACACTA
    AGTTACATCT TGCCTTATTT CTCAGCGGTA AACCTAGATG TGAAATCACT GTTACTACCG
    TTCATTAAAC TGCCAACCAC AGGAAACAGC CTGGCAAAGA TTCAAACTGT AGGCCAAAAC
    CGGCAGAGAG TGAAGAGAGT CCTCATGGGC CCAAGGAGCA TCCAGAAAAG GCACTTCAAA
    GAGGTAGGAA GGCAGAGCAT CAGGAGGGAA CAGGGTGCCC AGGCATCTGT GGAGAACGCT
    GCCGAAGAAA AAAGGCTCGG GAGTCCAGCC CCAAGGGAGG TGGAACAGCC CCACACACAG
    CAGGGGCCTG AGAAGTTAGC GGGAAACGCC GTCTACACCA AGCCTTCCTT CACCCAAGAG
    CATAAGGCAG CAGTCTCTGT GCTGAAACCC TTCTCCAAGG GCGCGCCTTC TACCTCCAGC
    CCTGCAAAAG CCCTACCACA GGTGAGAGAC AGATGGAAAG ACTTAACCCA CGCTATTTCC
    ATTTTAGAAA GTGCAAAGGC TAGAGTTACA AATACGAAGA CGTCTAAACC AATCGTACAT
    GCCAGAAAAA AATACCGCTT TCACAAAACT CGCTCCCACG TGACCCACAG AACACCCAAA
    GTCAAAAAGA GTCCAAAGGT CAGAAAGAAA AGTTATCTGA GTAGACTGAT GCTCGCAAAC
    AGGCTTCCAT TCTCTGCAGC GAAGAGCCTC ATAAATTCCC CTTCACAAGG GGCTTTTTCA
    TCCTTAGGAG ACCTGAGTCC TCAAGAAAAC CCTTTTCTGG AAGTATCTGC TCCTTCAGAA
    CATTTTATAG AAAACAATAA TACAAAACAC ACAACTGCAA GAAATGCCTT TGAAGAAAAT
    GATTTTATGG AAAACACTAA CATGCCAGAA GGAACCATCT CTGAAAACAC AAACTACAAT
    CATCCTCATG AGGCAGATTC CGCTGGGACT GCATTCAACT TAGGGCCAAC TGTTAAACAA
    ACTGAGACAA AATGGGAATA CAACAACGTG GGCACTGACC TGTCCCCCGA GCCCAAAAGC
    TTCAATTACC CATTGCTCTC GTCCCCAGGT GATCAGTTTG AAATTCAGCT AACCCAGCAG
    CTACAGTCCC TTATCCCCAA CAACAATGTG AGAAGGCTCA TTGCTCATGT TATCCGGACC
    TTGAAGATGG ACTGCTCTGG GGCCCATGTG CAAGTGACCT GTGCCAAGCT CATCTCCAGG
    ACAGGCCACC TGATGAAGCT TCTCAGTGGG CAGCAGGAAG TAAAGGCATC CAAGATAGAA
    TGGGATACGG ACCAATGGAA GATTGAGAAC TACATTAATG AGAGCACAGA AGCCCAGAGT
    GAACAGAAAG AGAAGTCGCT TGAGCTCAAA AAAGAAGTTC CAGGATATGG CTATACTGAC
    AAACTCATCT TGGCATTAAT TGTTACTGGA ATACTAACGA TTTTGATTAT ACTTTTCTGC
    CTCATTGTGG TTTAG

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

    RefSeq XP_024306541.1
    CDS4..4818
    Translation

    Target ORF information:

    RefSeq Version XM_024450773.1
    Organism Homo sapiens(human)
    Definition Homo sapiens leucine rich repeat containing 37 member A2 (LRRC37A2), transcript variant X6, mRNA.

    Target ORF information:

    Epitope DYKDDDDK
    Bacterial selection AMPR
    Mammalian selection NeoR
    Vector pcDNA3.1+/C-(K)DYK
    XM_024450773.1

    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
    4801
    ATGTCTTCTG CTCAGTGCCC GGCACTAGTG TGTGTCATGT CCCGGCTGCG TTTCTGGGGC 
    CCATGGCCCC TCCTTATGTG GCAACTATTG TGGCTACTAG TTAAGGAGGC TCAGCCTCTG
    GAGTGGGTCA AGGACCCGCT CCAGCTCACC TCTAATCCCC TGGGGCCGCC TGACTCCTGG
    TCTTCCCACT CCTCCCATTT CCCACGGGAA TCTCCCCATG CGCCTACTCT CCCAGCAGAC
    CCGTGGGACT TTGATCACCT GGGGCCCTCT GCTTCCTCAG AGATGCCAGC CCCACCCCAG
    GAATCGACTG AAAATTTGGT TCCATTCCTG GACACCTGGG ATTCAGCTGG AGAGCAGCCC
    CTGGAGCCAG AGCAGTTCTT GGCTTCACAG CAGGATTTAA AGGACAAGCT GAGTCCACAG
    GAAAGACTCC CTGTTTCGCC CAAGAAGCTG AAGAAAGATC CAGCTCAGCG TTGGAGCCTT
    GCTGAGATTA TTGGAATTAC ACGCCAATTA TCCACACCTC AGAGTCAGAA ACAGACTTTG
    CAGAATGAAT ATTCCAGTAC AGATACACCG TATCCCGGTA GCCTGCCTCC AGAACTCCGG
    GTGAAGTCAG ATGAGCCTCC AGGGCCCTCT GAGCAAGTTG GACCTTCTCA ATTCCATCTA
    GAGCCCGAAA CTCAAAATCC AGAGACCCTT GAAGACATCC AGTCCTCTTC ACTCCAGCAA
    GAAGCCCCAG CACAGCTTCC ACAGCTCCTT GAGGAAGAAC CTTCTTCAAT GCAGCAGGAG
    GCCCCAGCTC TGCCTCCAGA GTCCTCTATG GAGAGTCTAA CTCTACCGAA TCATGAGGTG
    TCAGTTCAAC CTCCAGGTGA GGATCAAGCT TATTATCACT TGCCCAACAT TACAGTTAAA
    CCTGCAGATG TGGAGGTTAC CATAACTTCA GAGCCTACCA ATGAGACAGA ATCTTCCCAA
    GCCCAGCAGG AGACCCCAAT TCAGTTTCCA GAGGAGGTGG AACCTTCTGC AACCCAACAG
    GAGGCCCCAA TTGAGCCTCC AGTTCCTCCT ATGGAGCATG AACTTTCCAT CAGTGAGCAG
    CAGCAGCCAG TTCAGCCTTC TGAGTCTCCT AGGGAGGTCG AATCTTCTCC GACCCAGCAG
    GAGACCCCAG GTCAGCCTCC AGAACATCAT GAAGTCACAG TTTCACCTCC AGGTCACCAT
    CAAACTCATC ATTTAGCTTC ACCCAGTGTC TCTGTGAAGC CTCCAGACGT GCAGCTCACC
    ATAGCAGCAG AGCCTAGTGC AGAGGTGGGA ACTTCTCTAG TCCACCAGGA GGCTACAACT
    CGGCTCTCAG GGTCAGGTAA TGATGTAGAA CCTCCCGCCA TCCAGCACGG GGGCCCACCT
    CTGCTTCCAG AGTCATCAGA AGAAGCTGGA CCTTTAGCAG TTCAACAGGA GACTTCATTT
    CAATCTCCGG AACCTATTAA TAATGAGAAC CCCTCTCCAA CCCAGCAGGA GGCTGCAGCT
    GAGCATCCAC AGACCGCTGA GGAGGGTGAG TCTTCCCTAA CCCATCAGGA GGCCCCAGCT
    CAGACTCCAG AGTTCCCTAA TGTAGTTGTA GCTCAACCTC CAGAGCATTC ACACCTGACT
    CAAGCCACAG TTCAACCTTT GGATCTGGGG TTTACCATCA CTCCAGAATC CAAGACAGAG
    GTTGAACTTT CTCCAACCAT GAAGGAGACC CCAACTCAGC CTCCTAAGAA AGTTGTACCC
    CAACTTCGAG TATATCAAGG GGTAACAAAT CCAACACCAG GTCAGGATCA AGCTCAGCAT
    CCAGTGTCAC CCAGCGTTAC AGTTCAACTT TTGGACCTGG GACTTACCAT CACTCCAGAA
    CCTACTACGG AGGTTGGACA TTCTACACCC CCGAAGAGGA CTATAGTTTC TCCAAAGCAT
    CCTGAGGTGA CACTTCCACA TCCAGACCAG GTTCAGACTC AGCATTCACA CCTGACTCGA
    GCCACAGTTC AACCTTTGGA CCTGGGGTTT ACCATCACTC CAAAATCCAT GACAGAGGTT
    GAACCTTCTA CAGCCCTGAT GACTACAGCT CCTCCTCCAG GACACCCTGA GGTGACACTT
    CCACCTTCAG ACAAGGGTCA GGCTCAGCAT TCACACCTGA CTCAAGCCAC CGTTCAACCT
    CTGGACCTGG AGCTTACCAT AACTACAAAA CCTACTACAG AGGTTAAACC ATCTCCAACC
    ACGGAGGAGA CCTCAACTCA GCCTCCAGAC CTGGGACTTG CCATCATTCC AGAACCCACT
    ACAGAGACTA GACATTCTAC AGCCCTGGAG AAGACTACAG CTCCTCGTCC AGACCGGGTT
    CAGACTCTGC ATCGAAGCCT GACTGAAGTC ACAGGTCCAC CTACTGAACT AGAACCTGCT
    CAGGATTCAC TGGTGCAGTC TGAAAGTTAC ACCCAAAATA AGGCTTTAAC TGCACCAGAG
    GAACACAAGG CCTCCACAAG CACCAACATA TGTGAGCTCT GTACCTGCGG AGATGAGATG
    TTGTCATGTA TTGATCTCAA CCCAGAGCAG AGGCTCCGCC AAGTGCCTGT GCCAGAGCCC
    AACACCCACA ATGGCACCTT CACCATCTTA AATTTCCAAG GAAACTATAT TTCTTACATT
    GATGGAAATG TATGGAAAGC ATACAGTTGG ACCGAGAAAC TAATTCTCAG AGAAAATAAC
    TTGACTGAAT TACACAAGGA TTCATTTGAA GGCCTGCTAT CCCTCCAGTA TTTAGATTTA
    TCCTGCAATA AAATACAGTC TATTGAAAGA CATACATTTG AACCACTACC ATTTTTGAAG
    TTTATAAATC TTAGTTGCAA TGTAATTACA GAACTCAGCT TTGGAACATT TCAGGCCTGG
    CACGGAATGC AGTTTTTACA TAAGTTAATT CTCAATCACA ATCCTCTGAC AACTGTTGAA
    GATCCGTATC TCTTTAAATT GCCAGCATTA AAATATCTAG ACATGGGAAC AACGCTAGTC
    CCACTTACAA CACTTAAGAA CATTCTCATG ATGACTGTTG AACTGGAAAA ACTGATCTTA
    CCTAGCCATA TGGCCTGCTG CCTCTGCCAA TTTAAAAACA GCATTGAGGC TGTCTGCAAG
    ACAGTCAAGC TGCATTGCAA CAGTGCATGT CTGACAAACA CCACACATTG TCCTGAAGAA
    GCATCGGTAG GGAATCCAGA AGGAGCGTTC ATGAAGGTGT TACAAGCCCG GAAGAACTAC
    ACAAGCACTG AGCTGATTGT TGAGCCAGAG GAGCCCTCAG ACAGCAGTGG CATCAACTTG
    TCAGGCTTTG GGAGTGAGCA GCTAGACACC AATGACGAGA GTGATTTTAT CAGTACACTA
    AGTTACATCT TGCCTTATTT CTCAGCGGTA AACCTAGATG TGAAATCACT GTTACTACCG
    TTCATTAAAC TGCCAACCAC AGGAAACAGC CTGGCAAAGA TTCAAACTGT AGGCCAAAAC
    CGGCAGAGAG TGAAGAGAGT CCTCATGGGC CCAAGGAGCA TCCAGAAAAG GCACTTCAAA
    GAGGTAGGAA GGCAGAGCAT CAGGAGGGAA CAGGGTGCCC AGGCATCTGT GGAGAACGCT
    GCCGAAGAAA AAAGGCTCGG GAGTCCAGCC CCAAGGGAGG TGGAACAGCC CCACACACAG
    CAGGGGCCTG AGAAGTTAGC GGGAAACGCC GTCTACACCA AGCCTTCCTT CACCCAAGAG
    CATAAGGCAG CAGTCTCTGT GCTGAAACCC TTCTCCAAGG GCGCGCCTTC TACCTCCAGC
    CCTGCAAAAG CCCTACCACA GGTGAGAGAC AGATGGAAAG ACTTAACCCA CGCTATTTCC
    ATTTTAGAAA GTGCAAAGGC TAGAGTTACA AATACGAAGA CGTCTAAACC AATCGTACAT
    GCCAGAAAAA AATACCGCTT TCACAAAACT CGCTCCCACG TGACCCACAG AACACCCAAA
    GTCAAAAAGA GTCCAAAGGT CAGAAAGAAA AGTTATCTGA GTAGACTGAT GCTCGCAAAC
    AGGCTTCCAT TCTCTGCAGC GAAGAGCCTC ATAAATTCCC CTTCACAAGG GGCTTTTTCA
    TCCTTAGGAG ACCTGAGTCC TCAAGAAAAC CCTTTTCTGG AAGTATCTGC TCCTTCAGAA
    CATTTTATAG AAAACAATAA TACAAAACAC ACAACTGCAA GAAATGCCTT TGAAGAAAAT
    GATTTTATGG AAAACACTAA CATGCCAGAA GGAACCATCT CTGAAAACAC AAACTACAAT
    CATCCTCATG AGGCAGATTC CGCTGGGACT GCATTCAACT TAGGGCCAAC TGTTAAACAA
    ACTGAGACAA AATGGGAATA CAACAACGTG GGCACTGACC TGTCCCCCGA GCCCAAAAGC
    TTCAATTACC CATTGCTCTC GTCCCCAGGT GATCAGTTTG AAATTCAGCT AACCCAGCAG
    CTACAGTCCC TTATCCCCAA CAACAATGTG AGAAGGCTCA TTGCTCATGT TATCCGGACC
    TTGAAGATGG ACTGCTCTGG GGCCCATGTG CAAGTGACCT GTGCCAAGCT CATCTCCAGG
    ACAGGCCACC TGATGAAGCT TCTCAGTGGG CAGCAGGAAG TAAAGGCATC CAAGATAGAA
    TGGGATACGG ACCAATGGAA GATTGAGAAC TACATTAATG AGAGCACAGA AGCCCAGAGT
    GAACAGAAAG AGAAGTCGCT TGAGCTCAAA AAAGAAGTTC CAGGATATGG CTATACTGAC
    AAACTCATCT TGGCATTAAT TGTTACTGGA ATACTAACGA TTTTGATTAT ACTTTTCTGC
    CTCATTGTGG TTTAG

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

    CloneID OHu80378
    Clone ID Related Accession (Same CDS sequence) XM_011524841.3 , XM_011524841.2
    Accession Version XM_011524841.3 Latest version! Documents for ORF clone product in default vector
    Sequence Information ORF Nucleotide Sequence (Length: 5031bp)
    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 leucine-rich repeat-containing protein 37A2 isoform X1
    Comment Comment: MODEL REFSEQ: This record is predicted by automated computational analysis. This record is derived from a genomic sequence (NC_000017.11) annotated using gene prediction method: Gnomon, supported by mRNA and EST evidence. Also see: Documentation of NCBI's Annotation Process On Mar 26, 2018 this sequence version replaced XM_011524841.2. ##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
    4801
    4861
    4921
    4981
    ATGTCTTCTG CTCAGTGCCC GGCACTAGTG TGTGTCATGT CCCGGCTGCG TTTCTGGGGC 
    CCATGGCCCC TCCTTATGTG GCAACTATTG TGGCTACTAG TTAAGGAGGC TCAGCCTCTG
    GAGTGGGTCA AGGACCCGCT CCAGCTCACC TCTAATCCCC TGGGGCCGCC TGACTCCTGG
    TCTTCCCACT CCTCCCATTT CCCACGGGAA TCTCCCCATG CGCCTACTCT CCCAGCAGAC
    CCGTGGGACT TTGATCACCT GGGGCCCTCT GCTTCCTCAG AGATGCCAGC CCCACCCCAG
    GAATCGACTG AAAATTTGGT TCCATTCCTG GACACCTGGG ATTCAGCTGG AGAGCAGCCC
    CTGGAGCCAG AGCAGTTCTT GGCTTCACAG CAGGATTTAA AGGACAAGCT GAGTCCACAG
    GAAAGACTCC CTGTTTCGCC CAAGAAGCTG AAGAAAGATC CAGCTCAGCG TTGGAGCCTT
    GCTGAGATTA TTGGAATTAC ACGCCAATTA TCCACACCTC AGAGTCAGAA ACAGACTTTG
    CAGAATGAAT ATTCCAGTAC AGATACACCG TATCCCGGTA GCCTGCCTCC AGAACTCCGG
    GTGAAGTCAG ATGAGCCTCC AGGGCCCTCT GAGCAAGTTG GACCTTCTCA ATTCCATCTA
    GAGCCCGAAA CTCAAAATCC AGAGACCCTT GAAGACATCC AGTCCTCTTC ACTCCAGCAA
    GAAGCCCCAG CACAGCTTCC ACAGCTCCTT GAGGAAGAAC CTTCTTCAAT GCAGCAGGAG
    GCCCCAGCTC TGCCTCCAGA GTCCTCTATG GAGAGTCTAA CTCTACCGAA TCATGAGGTG
    TCAGTTCAAC CTCCAGGTGA GGATCAAGCT TATTATCACT TGCCCAACAT TACAGTTAAA
    CCTGCAGATG TGGAGGTTAC CATAACTTCA GAGCCTACCA ATGAGACAGA ATCTTCCCAA
    GCCCAGCAGG AGACCCCAAT TCAGTTTCCA GAGGAGGTGG AACCTTCTGC AACCCAACAG
    GAGGCCCCAA TTGAGCCTCC AGTTCCTCCT ATGGAGCATG AACTTTCCAT CAGTGAGCAG
    CAGCAGCCAG TTCAGCCTTC TGAGTCTCCT AGGGAGGTCG AATCTTCTCC GACCCAGCAG
    GAGACCCCAG GTCAGCCTCC AGAACATCAT GAAGTCACAG TTTCACCTCC AGGTCACCAT
    CAAACTCATC ATTTAGCTTC ACCCAGTGTC TCTGTGAAGC CTCCAGACGT GCAGCTCACC
    ATAGCAGCAG AGCCTAGTGC AGAGGTGGGA ACTTCTCTAG TCCACCAGGA GGCTACAACT
    CGGCTCTCAG GGTCAGGTAA TGATGTAGAA CCTCCCGCCA TCCAGCACGG GGGCCCACCT
    CTGCTTCCAG AGTCATCAGA AGAAGCTGGA CCTTTAGCAG TTCAACAGGA GACTTCATTT
    CAATCTCCGG AACCTATTAA TAATGAGAAC CCCTCTCCAA CCCAGCAGGA GGCTGCAGCT
    GAGCATCCAC AGACCGCTGA GGAGGGTGAG TCTTCCCTAA CCCATCAGGA GGCCCCAGCT
    CAGACTCCAG AGTTCCCTAA TGTAGTTGTA GCTCAACCTC CAGAGCATTC ACACCTGACT
    CAAGCCACAG TTCAACCTTT GGATCTGGGG TTTACCATCA CTCCAGAATC CAAGACAGAG
    GTTGAACTTT CTCCAACCAT GAAGGAGACC CCAACTCAGC CTCCTAAGAA AGTTGTACCC
    CAACTTCGAG TATATCAAGG GGTAACAAAT CCAACACCAG GTCAGGATCA AGCTCAGCAT
    CCAGTGTCAC CCAGCGTTAC AGTTCAACTT TTGGACCTGG GACTTACCAT CACTCCAGAA
    CCTACTACGG AGGTTGGACA TTCTACACCC CCGAAGAGGA CTATAGTTTC TCCAAAGCAT
    CCTGAGGTGA CACTTCCACA TCCAGACCAG GTTCAGACTC AGCATTCACA CCTGACTCGA
    GCCACAGTTC AACCTTTGGA CCTGGGGTTT ACCATCACTC CAAAATCCAT GACAGAGGTT
    GAACCTTCTA CAGCCCTGAT GACTACAGCT CCTCCTCCAG GACACCCTGA GGTGACACTT
    CCACCTTCAG ACAAGGGTCA GGCTCAGCAT TCACACCTGA CTCAAGCCAC CGTTCAACCT
    CTGGACCTGG AGCTTACCAT AACTACAAAA CCTACTACAG AGGTTAAACC ATCTCCAACC
    ACGGAGGAGA CCTCAACTCA GCCTCCAGAC CTGGGACTTG CCATCATTCC AGAACCCACT
    ACAGAGACTA GACATTCTAC AGCCCTGGAG AAGACTACAG CTCCTCGTCC AGACCGGGTT
    CAGACTCTGC ATCGAAGCCT GACTGAAGTC ACAGGTCCAC CTACTGAACT AGAACCTGCT
    CAGGATTCAC TGGTGCAGTC TGAAAGTTAC ACCCAAAATA AGGCTTTAAC TGCACCAGAG
    GAACACAAGG CCTCCACAAG CACCAACATA TGTGAGCTCT GTACCTGCGG AGATGAGATG
    TTGTCATGTA TTGATCTCAA CCCAGAGCAG AGGCTCCGCC AAGTGCCTGT GCCAGAGCCC
    AACACCCACA ATGGCACCTT CACCATCTTA AATTTCCAAG GAAACTATAT TTCTTACATT
    GATGGAAATG TATGGAAAGC ATACAGTTGG ACCGAGAAAC TAATTCTCAG AGAAAATAAC
    TTGACTGAAT TACACAAGGA TTCATTTGAA GGCCTGCTAT CCCTCCAGTA TTTAAATCTT
    AGTTGCAATG TAATTACAGA ACTCAGCTTT GGAACATTTC AGGCCTGGCA CGGAATGCAG
    TTTTTACATA AGTTAATTCT CAATCACAAT CCTCTGACAA CTGTTGAAGA TCCGTATCTC
    TTTAAATTGC CAGCATTAAA ATATCTAGAC ATGGGAACAA CGCTAGTCCC ACTTACAACA
    CTTAAGAACA TTCTCATGAT GACTGTTGAA CTGGAAAAAC TGATCTTACC TAGCCATATG
    GCCTGCTGCC TCTGCCAATT TAAAAACAGC ATTGAGGCTG TCTGCAAGAC AGTCAAGCTG
    CATTGCAACA GTGCATGTCT GACAAACACC ACACATTGTC CTGAAGAAGC ATCGGTAGGG
    AATCCAGAAG GAGCGTTCAT GAAGGTGTTA CAAGCCCGGA AGAACTACAC AAGCACTGAG
    CTGATTGTTG AGCCAGAGGA GCCCTCAGAC AGCAGTGGCA TCAACTTGTC AGGCTTTGGG
    AGTGAGCAGC TAGACACCAA TGACGAGAGT GATTTTATCA GTACACTAAG TTACATCTTG
    CCTTATTTCT CAGCGGTAAA CCTAGATGTG AAATCACTGT TACTACCGTT CATTAAACTG
    CCAACCACAG GAAACAGCCT GGCAAAGATT CAAACTGTAG GCCAAAACCG GCAGAGAGTG
    AAGAGAGTCC TCATGGGCCC AAGGAGCATC CAGAAAAGGC ACTTCAAAGA GGTAGGAAGG
    CAGAGCATCA GGAGGGAACA GGGTGCCCAG GCATCTGTGG AGAACGCTGC CGAAGAAAAA
    AGGCTCGGGA GTCCAGCCCC AAGGGAGGTG GAACAGCCCC ACACACAGCA GGGGCCTGAG
    AAGTTAGCGG GAAACGCCGT CTACACCAAG CCTTCCTTCA CCCAAGAGCA TAAGGCAGCA
    GTCTCTGTGC TGAAACCCTT CTCCAAGGGC GCGCCTTCTA CCTCCAGCCC TGCAAAAGCC
    CTACCACAGG TGAGAGACAG ATGGAAAGAC TTAACCCACG CTATTTCCAT TTTAGAAAGT
    GCAAAGGCTA GAGTTACAAA TACGAAGACG TCTAAACCAA TCGTACATGC CAGAAAAAAA
    TACCGCTTTC ACAAAACTCG CTCCCACGTG ACCCACAGAA CACCCAAAGT CAAAAAGAGT
    CCAAAGGTCA GAAAGAAAAG TTATCTGAGT AGACTGATGC TCGCAAACAG GCTTCCATTC
    TCTGCAGCGA AGAGCCTCAT AAATTCCCCT TCACAAGGGG CTTTTTCATC CTTAGGAGAC
    CTGAGTCCTC AAGAAAACCC TTTTCTGGAA GTATCTGCTC CTTCAGAACA TTTTATAGAA
    AACAATAATA CAAAACACAC AACTGCAAGA AATGCCTTTG AAGAAAATGA TTTTATGGAA
    AACACTAACA TGCCAGAAGG AACCATCTCT GAAAACACAA ACTACAATCA TCCTCATGAG
    GCAGATTCCG CTGGGACTGC ATTCAACTTA GGGCCAACTG TTAAACAAAC TGAGACAAAA
    TGGGAATACA ACAACGTGGG CACTGACCTG TCCCCCGAGC CCAAAAGCTT CAATTACCCA
    TTGCTCTCGT CCCCAGGTGA TCAGTTTGAA ATTCAGCTAA CCCAGCAGCT ACAGTCCCTT
    ATCCCCAACA ACAATGTGAG AAGGCTCATT GCTCATGTTA TCCGGACCTT GAAGATGGAC
    TGCTCTGGGG CCCATGTGCA AGTGACCTGT GCCAAGCTCA TCTCCAGGAC AGGCCACCTG
    ATGAAGCTTC TCAGTGGGCA GCAGGAAGTA AAGGCATCCA AGATAGAATG GGATACGGAC
    CAATGGAAGA TTGAGAACTA CATTAATGAG AGCACAGAAG CCCAGAGTGA ACAGAAAGAG
    AAGTCGCTTG AGCTCAAAAA AGAAGTTCCA GGATATGGCT ATACTGACAA ACTCATCTTG
    GCATTAATTG TTACTGGAAT ACTAACGATT TTGATTATAC TTTTCTGCCT CATTGTGATA
    TGTTGTCACC GAAGGTCATT ACAAGAAGAT GAAGAAGGAT TCTCAAGGGG CATTTTCAGA
    TTTCTGCCAT GGAGGGGATG CTCTTCGCGA AGGGAGAGTC AGGATGGACT TTCCTCATTT
    GGACAGCCGC TCTGGTTTAA AGATATGTAC AAACCTCTCA GTGCCACAAG AATAAATAAT
    CATGCATGGA AGCTGCACAA GAAGTCATCT AATGAGGACA AGATCCTCAA CAGGGACCCT
    GGGGACAGCG AAGCCCCAAC GGAGGAGGAG GAGAGTGAAG CCCTGCCATA G

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

    RefSeq XP_011523143.1
    CDS4..5034
    Translation

    Target ORF information:

    RefSeq Version XM_011524841.3
    Organism Homo sapiens(human)
    Definition Homo sapiens leucine rich repeat containing 37 member A2 (LRRC37A2), transcript variant X1, mRNA.

    Target ORF information:

    Epitope DYKDDDDK
    Bacterial selection AMPR
    Mammalian selection NeoR
    Vector pcDNA3.1+/C-(K)DYK
    XM_011524841.3

    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
    4801
    4861
    4921
    4981
    ATGTCTTCTG CTCAGTGCCC GGCACTAGTG TGTGTCATGT CCCGGCTGCG TTTCTGGGGC 
    CCATGGCCCC TCCTTATGTG GCAACTATTG TGGCTACTAG TTAAGGAGGC TCAGCCTCTG
    GAGTGGGTCA AGGACCCGCT CCAGCTCACC TCTAATCCCC TGGGGCCGCC TGACTCCTGG
    TCTTCCCACT CCTCCCATTT CCCACGGGAA TCTCCCCATG CGCCTACTCT CCCAGCAGAC
    CCGTGGGACT TTGATCACCT GGGGCCCTCT GCTTCCTCAG AGATGCCAGC CCCACCCCAG
    GAATCGACTG AAAATTTGGT TCCATTCCTG GACACCTGGG ATTCAGCTGG AGAGCAGCCC
    CTGGAGCCAG AGCAGTTCTT GGCTTCACAG CAGGATTTAA AGGACAAGCT GAGTCCACAG
    GAAAGACTCC CTGTTTCGCC CAAGAAGCTG AAGAAAGATC CAGCTCAGCG TTGGAGCCTT
    GCTGAGATTA TTGGAATTAC ACGCCAATTA TCCACACCTC AGAGTCAGAA ACAGACTTTG
    CAGAATGAAT ATTCCAGTAC AGATACACCG TATCCCGGTA GCCTGCCTCC AGAACTCCGG
    GTGAAGTCAG ATGAGCCTCC AGGGCCCTCT GAGCAAGTTG GACCTTCTCA ATTCCATCTA
    GAGCCCGAAA CTCAAAATCC AGAGACCCTT GAAGACATCC AGTCCTCTTC ACTCCAGCAA
    GAAGCCCCAG CACAGCTTCC ACAGCTCCTT GAGGAAGAAC CTTCTTCAAT GCAGCAGGAG
    GCCCCAGCTC TGCCTCCAGA GTCCTCTATG GAGAGTCTAA CTCTACCGAA TCATGAGGTG
    TCAGTTCAAC CTCCAGGTGA GGATCAAGCT TATTATCACT TGCCCAACAT TACAGTTAAA
    CCTGCAGATG TGGAGGTTAC CATAACTTCA GAGCCTACCA ATGAGACAGA ATCTTCCCAA
    GCCCAGCAGG AGACCCCAAT TCAGTTTCCA GAGGAGGTGG AACCTTCTGC AACCCAACAG
    GAGGCCCCAA TTGAGCCTCC AGTTCCTCCT ATGGAGCATG AACTTTCCAT CAGTGAGCAG
    CAGCAGCCAG TTCAGCCTTC TGAGTCTCCT AGGGAGGTCG AATCTTCTCC GACCCAGCAG
    GAGACCCCAG GTCAGCCTCC AGAACATCAT GAAGTCACAG TTTCACCTCC AGGTCACCAT
    CAAACTCATC ATTTAGCTTC ACCCAGTGTC TCTGTGAAGC CTCCAGACGT GCAGCTCACC
    ATAGCAGCAG AGCCTAGTGC AGAGGTGGGA ACTTCTCTAG TCCACCAGGA GGCTACAACT
    CGGCTCTCAG GGTCAGGTAA TGATGTAGAA CCTCCCGCCA TCCAGCACGG GGGCCCACCT
    CTGCTTCCAG AGTCATCAGA AGAAGCTGGA CCTTTAGCAG TTCAACAGGA GACTTCATTT
    CAATCTCCGG AACCTATTAA TAATGAGAAC CCCTCTCCAA CCCAGCAGGA GGCTGCAGCT
    GAGCATCCAC AGACCGCTGA GGAGGGTGAG TCTTCCCTAA CCCATCAGGA GGCCCCAGCT
    CAGACTCCAG AGTTCCCTAA TGTAGTTGTA GCTCAACCTC CAGAGCATTC ACACCTGACT
    CAAGCCACAG TTCAACCTTT GGATCTGGGG TTTACCATCA CTCCAGAATC CAAGACAGAG
    GTTGAACTTT CTCCAACCAT GAAGGAGACC CCAACTCAGC CTCCTAAGAA AGTTGTACCC
    CAACTTCGAG TATATCAAGG GGTAACAAAT CCAACACCAG GTCAGGATCA AGCTCAGCAT
    CCAGTGTCAC CCAGCGTTAC AGTTCAACTT TTGGACCTGG GACTTACCAT CACTCCAGAA
    CCTACTACGG AGGTTGGACA TTCTACACCC CCGAAGAGGA CTATAGTTTC TCCAAAGCAT
    CCTGAGGTGA CACTTCCACA TCCAGACCAG GTTCAGACTC AGCATTCACA CCTGACTCGA
    GCCACAGTTC AACCTTTGGA CCTGGGGTTT ACCATCACTC CAAAATCCAT GACAGAGGTT
    GAACCTTCTA CAGCCCTGAT GACTACAGCT CCTCCTCCAG GACACCCTGA GGTGACACTT
    CCACCTTCAG ACAAGGGTCA GGCTCAGCAT TCACACCTGA CTCAAGCCAC CGTTCAACCT
    CTGGACCTGG AGCTTACCAT AACTACAAAA CCTACTACAG AGGTTAAACC ATCTCCAACC
    ACGGAGGAGA CCTCAACTCA GCCTCCAGAC CTGGGACTTG CCATCATTCC AGAACCCACT
    ACAGAGACTA GACATTCTAC AGCCCTGGAG AAGACTACAG CTCCTCGTCC AGACCGGGTT
    CAGACTCTGC ATCGAAGCCT GACTGAAGTC ACAGGTCCAC CTACTGAACT AGAACCTGCT
    CAGGATTCAC TGGTGCAGTC TGAAAGTTAC ACCCAAAATA AGGCTTTAAC TGCACCAGAG
    GAACACAAGG CCTCCACAAG CACCAACATA TGTGAGCTCT GTACCTGCGG AGATGAGATG
    TTGTCATGTA TTGATCTCAA CCCAGAGCAG AGGCTCCGCC AAGTGCCTGT GCCAGAGCCC
    AACACCCACA ATGGCACCTT CACCATCTTA AATTTCCAAG GAAACTATAT TTCTTACATT
    GATGGAAATG TATGGAAAGC ATACAGTTGG ACCGAGAAAC TAATTCTCAG AGAAAATAAC
    TTGACTGAAT TACACAAGGA TTCATTTGAA GGCCTGCTAT CCCTCCAGTA TTTAAATCTT
    AGTTGCAATG TAATTACAGA ACTCAGCTTT GGAACATTTC AGGCCTGGCA CGGAATGCAG
    TTTTTACATA AGTTAATTCT CAATCACAAT CCTCTGACAA CTGTTGAAGA TCCGTATCTC
    TTTAAATTGC CAGCATTAAA ATATCTAGAC ATGGGAACAA CGCTAGTCCC ACTTACAACA
    CTTAAGAACA TTCTCATGAT GACTGTTGAA CTGGAAAAAC TGATCTTACC TAGCCATATG
    GCCTGCTGCC TCTGCCAATT TAAAAACAGC ATTGAGGCTG TCTGCAAGAC AGTCAAGCTG
    CATTGCAACA GTGCATGTCT GACAAACACC ACACATTGTC CTGAAGAAGC ATCGGTAGGG
    AATCCAGAAG GAGCGTTCAT GAAGGTGTTA CAAGCCCGGA AGAACTACAC AAGCACTGAG
    CTGATTGTTG AGCCAGAGGA GCCCTCAGAC AGCAGTGGCA TCAACTTGTC AGGCTTTGGG
    AGTGAGCAGC TAGACACCAA TGACGAGAGT GATTTTATCA GTACACTAAG TTACATCTTG
    CCTTATTTCT CAGCGGTAAA CCTAGATGTG AAATCACTGT TACTACCGTT CATTAAACTG
    CCAACCACAG GAAACAGCCT GGCAAAGATT CAAACTGTAG GCCAAAACCG GCAGAGAGTG
    AAGAGAGTCC TCATGGGCCC AAGGAGCATC CAGAAAAGGC ACTTCAAAGA GGTAGGAAGG
    CAGAGCATCA GGAGGGAACA GGGTGCCCAG GCATCTGTGG AGAACGCTGC CGAAGAAAAA
    AGGCTCGGGA GTCCAGCCCC AAGGGAGGTG GAACAGCCCC ACACACAGCA GGGGCCTGAG
    AAGTTAGCGG GAAACGCCGT CTACACCAAG CCTTCCTTCA CCCAAGAGCA TAAGGCAGCA
    GTCTCTGTGC TGAAACCCTT CTCCAAGGGC GCGCCTTCTA CCTCCAGCCC TGCAAAAGCC
    CTACCACAGG TGAGAGACAG ATGGAAAGAC TTAACCCACG CTATTTCCAT TTTAGAAAGT
    GCAAAGGCTA GAGTTACAAA TACGAAGACG TCTAAACCAA TCGTACATGC CAGAAAAAAA
    TACCGCTTTC ACAAAACTCG CTCCCACGTG ACCCACAGAA CACCCAAAGT CAAAAAGAGT
    CCAAAGGTCA GAAAGAAAAG TTATCTGAGT AGACTGATGC TCGCAAACAG GCTTCCATTC
    TCTGCAGCGA AGAGCCTCAT AAATTCCCCT TCACAAGGGG CTTTTTCATC CTTAGGAGAC
    CTGAGTCCTC AAGAAAACCC TTTTCTGGAA GTATCTGCTC CTTCAGAACA TTTTATAGAA
    AACAATAATA CAAAACACAC AACTGCAAGA AATGCCTTTG AAGAAAATGA TTTTATGGAA
    AACACTAACA TGCCAGAAGG AACCATCTCT GAAAACACAA ACTACAATCA TCCTCATGAG
    GCAGATTCCG CTGGGACTGC ATTCAACTTA GGGCCAACTG TTAAACAAAC TGAGACAAAA
    TGGGAATACA ACAACGTGGG CACTGACCTG TCCCCCGAGC CCAAAAGCTT CAATTACCCA
    TTGCTCTCGT CCCCAGGTGA TCAGTTTGAA ATTCAGCTAA CCCAGCAGCT ACAGTCCCTT
    ATCCCCAACA ACAATGTGAG AAGGCTCATT GCTCATGTTA TCCGGACCTT GAAGATGGAC
    TGCTCTGGGG CCCATGTGCA AGTGACCTGT GCCAAGCTCA TCTCCAGGAC AGGCCACCTG
    ATGAAGCTTC TCAGTGGGCA GCAGGAAGTA AAGGCATCCA AGATAGAATG GGATACGGAC
    CAATGGAAGA TTGAGAACTA CATTAATGAG AGCACAGAAG CCCAGAGTGA ACAGAAAGAG
    AAGTCGCTTG AGCTCAAAAA AGAAGTTCCA GGATATGGCT ATACTGACAA ACTCATCTTG
    GCATTAATTG TTACTGGAAT ACTAACGATT TTGATTATAC TTTTCTGCCT CATTGTGATA
    TGTTGTCACC GAAGGTCATT ACAAGAAGAT GAAGAAGGAT TCTCAAGGGG CATTTTCAGA
    TTTCTGCCAT GGAGGGGATG CTCTTCGCGA AGGGAGAGTC AGGATGGACT TTCCTCATTT
    GGACAGCCGC TCTGGTTTAA AGATATGTAC AAACCTCTCA GTGCCACAAG AATAAATAAT
    CATGCATGGA AGCTGCACAA GAAGTCATCT AATGAGGACA AGATCCTCAA CAGGGACCCT
    GGGGACAGCG AAGCCCCAAC GGAGGAGGAG GAGAGTGAAG CCCTGCCATA G

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

    CloneID OHu80378
    Clone ID Related Accession (Same CDS sequence) XM_011524841.3 , XM_011524841.2
    Accession Version XM_011524841.2 Documents for ORF clone product in default vector
    Sequence Information ORF Nucleotide Sequence (Length: 5031bp)
    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 2016-06-05
    Organism Homo sapiens(human)
    Product leucine-rich repeat-containing protein 37A2 isoform X1
    Comment Comment: MODEL REFSEQ: This record is predicted by automated computational analysis. This record is derived from a genomic sequence (NC_000017.11) annotated using gene prediction method: Gnomon, supported by EST evidence. Also see: Documentation of NCBI's Annotation Process On Jun 6, 2016 this sequence version replaced XM_011524841.1. ##Genome-Annotation-Data-START## Annotation Provider :: NCBI Annotation Status :: Full annotation Annotation Version :: Homo sapiens Annotation Release 108 Annotation Pipeline :: NCBI eukaryotic genome annotation pipeline Annotation Software Version :: 7.0 Annotation Method :: Best-placed RefSeq; Gnomon 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
    4801
    4861
    4921
    4981
    ATGTCTTCTG CTCAGTGCCC GGCACTAGTG TGTGTCATGT CCCGGCTGCG TTTCTGGGGC 
    CCATGGCCCC TCCTTATGTG GCAACTATTG TGGCTACTAG TTAAGGAGGC TCAGCCTCTG
    GAGTGGGTCA AGGACCCGCT CCAGCTCACC TCTAATCCCC TGGGGCCGCC TGACTCCTGG
    TCTTCCCACT CCTCCCATTT CCCACGGGAA TCTCCCCATG CGCCTACTCT CCCAGCAGAC
    CCGTGGGACT TTGATCACCT GGGGCCCTCT GCTTCCTCAG AGATGCCAGC CCCACCCCAG
    GAATCGACTG AAAATTTGGT TCCATTCCTG GACACCTGGG ATTCAGCTGG AGAGCAGCCC
    CTGGAGCCAG AGCAGTTCTT GGCTTCACAG CAGGATTTAA AGGACAAGCT GAGTCCACAG
    GAAAGACTCC CTGTTTCGCC CAAGAAGCTG AAGAAAGATC CAGCTCAGCG TTGGAGCCTT
    GCTGAGATTA TTGGAATTAC ACGCCAATTA TCCACACCTC AGAGTCAGAA ACAGACTTTG
    CAGAATGAAT ATTCCAGTAC AGATACACCG TATCCCGGTA GCCTGCCTCC AGAACTCCGG
    GTGAAGTCAG ATGAGCCTCC AGGGCCCTCT GAGCAAGTTG GACCTTCTCA ATTCCATCTA
    GAGCCCGAAA CTCAAAATCC AGAGACCCTT GAAGACATCC AGTCCTCTTC ACTCCAGCAA
    GAAGCCCCAG CACAGCTTCC ACAGCTCCTT GAGGAAGAAC CTTCTTCAAT GCAGCAGGAG
    GCCCCAGCTC TGCCTCCAGA GTCCTCTATG GAGAGTCTAA CTCTACCGAA TCATGAGGTG
    TCAGTTCAAC CTCCAGGTGA GGATCAAGCT TATTATCACT TGCCCAACAT TACAGTTAAA
    CCTGCAGATG TGGAGGTTAC CATAACTTCA GAGCCTACCA ATGAGACAGA ATCTTCCCAA
    GCCCAGCAGG AGACCCCAAT TCAGTTTCCA GAGGAGGTGG AACCTTCTGC AACCCAACAG
    GAGGCCCCAA TTGAGCCTCC AGTTCCTCCT ATGGAGCATG AACTTTCCAT CAGTGAGCAG
    CAGCAGCCAG TTCAGCCTTC TGAGTCTCCT AGGGAGGTCG AATCTTCTCC GACCCAGCAG
    GAGACCCCAG GTCAGCCTCC AGAACATCAT GAAGTCACAG TTTCACCTCC AGGTCACCAT
    CAAACTCATC ATTTAGCTTC ACCCAGTGTC TCTGTGAAGC CTCCAGACGT GCAGCTCACC
    ATAGCAGCAG AGCCTAGTGC AGAGGTGGGA ACTTCTCTAG TCCACCAGGA GGCTACAACT
    CGGCTCTCAG GGTCAGGTAA TGATGTAGAA CCTCCCGCCA TCCAGCACGG GGGCCCACCT
    CTGCTTCCAG AGTCATCAGA AGAAGCTGGA CCTTTAGCAG TTCAACAGGA GACTTCATTT
    CAATCTCCGG AACCTATTAA TAATGAGAAC CCCTCTCCAA CCCAGCAGGA GGCTGCAGCT
    GAGCATCCAC AGACCGCTGA GGAGGGTGAG TCTTCCCTAA CCCATCAGGA GGCCCCAGCT
    CAGACTCCAG AGTTCCCTAA TGTAGTTGTA GCTCAACCTC CAGAGCATTC ACACCTGACT
    CAAGCCACAG TTCAACCTTT GGATCTGGGG TTTACCATCA CTCCAGAATC CAAGACAGAG
    GTTGAACTTT CTCCAACCAT GAAGGAGACC CCAACTCAGC CTCCTAAGAA AGTTGTACCC
    CAACTTCGAG TATATCAAGG GGTAACAAAT CCAACACCAG GTCAGGATCA AGCTCAGCAT
    CCAGTGTCAC CCAGCGTTAC AGTTCAACTT TTGGACCTGG GACTTACCAT CACTCCAGAA
    CCTACTACGG AGGTTGGACA TTCTACACCC CCGAAGAGGA CTATAGTTTC TCCAAAGCAT
    CCTGAGGTGA CACTTCCACA TCCAGACCAG GTTCAGACTC AGCATTCACA CCTGACTCGA
    GCCACAGTTC AACCTTTGGA CCTGGGGTTT ACCATCACTC CAAAATCCAT GACAGAGGTT
    GAACCTTCTA CAGCCCTGAT GACTACAGCT CCTCCTCCAG GACACCCTGA GGTGACACTT
    CCACCTTCAG ACAAGGGTCA GGCTCAGCAT TCACACCTGA CTCAAGCCAC CGTTCAACCT
    CTGGACCTGG AGCTTACCAT AACTACAAAA CCTACTACAG AGGTTAAACC ATCTCCAACC
    ACGGAGGAGA CCTCAACTCA GCCTCCAGAC CTGGGACTTG CCATCATTCC AGAACCCACT
    ACAGAGACTA GACATTCTAC AGCCCTGGAG AAGACTACAG CTCCTCGTCC AGACCGGGTT
    CAGACTCTGC ATCGAAGCCT GACTGAAGTC ACAGGTCCAC CTACTGAACT AGAACCTGCT
    CAGGATTCAC TGGTGCAGTC TGAAAGTTAC ACCCAAAATA AGGCTTTAAC TGCACCAGAG
    GAACACAAGG CCTCCACAAG CACCAACATA TGTGAGCTCT GTACCTGCGG AGATGAGATG
    TTGTCATGTA TTGATCTCAA CCCAGAGCAG AGGCTCCGCC AAGTGCCTGT GCCAGAGCCC
    AACACCCACA ATGGCACCTT CACCATCTTA AATTTCCAAG GAAACTATAT TTCTTACATT
    GATGGAAATG TATGGAAAGC ATACAGTTGG ACCGAGAAAC TAATTCTCAG AGAAAATAAC
    TTGACTGAAT TACACAAGGA TTCATTTGAA GGCCTGCTAT CCCTCCAGTA TTTAAATCTT
    AGTTGCAATG TAATTACAGA ACTCAGCTTT GGAACATTTC AGGCCTGGCA CGGAATGCAG
    TTTTTACATA AGTTAATTCT CAATCACAAT CCTCTGACAA CTGTTGAAGA TCCGTATCTC
    TTTAAATTGC CAGCATTAAA ATATCTAGAC ATGGGAACAA CGCTAGTCCC ACTTACAACA
    CTTAAGAACA TTCTCATGAT GACTGTTGAA CTGGAAAAAC TGATCTTACC TAGCCATATG
    GCCTGCTGCC TCTGCCAATT TAAAAACAGC ATTGAGGCTG TCTGCAAGAC AGTCAAGCTG
    CATTGCAACA GTGCATGTCT GACAAACACC ACACATTGTC CTGAAGAAGC ATCGGTAGGG
    AATCCAGAAG GAGCGTTCAT GAAGGTGTTA CAAGCCCGGA AGAACTACAC AAGCACTGAG
    CTGATTGTTG AGCCAGAGGA GCCCTCAGAC AGCAGTGGCA TCAACTTGTC AGGCTTTGGG
    AGTGAGCAGC TAGACACCAA TGACGAGAGT GATTTTATCA GTACACTAAG TTACATCTTG
    CCTTATTTCT CAGCGGTAAA CCTAGATGTG AAATCACTGT TACTACCGTT CATTAAACTG
    CCAACCACAG GAAACAGCCT GGCAAAGATT CAAACTGTAG GCCAAAACCG GCAGAGAGTG
    AAGAGAGTCC TCATGGGCCC AAGGAGCATC CAGAAAAGGC ACTTCAAAGA GGTAGGAAGG
    CAGAGCATCA GGAGGGAACA GGGTGCCCAG GCATCTGTGG AGAACGCTGC CGAAGAAAAA
    AGGCTCGGGA GTCCAGCCCC AAGGGAGGTG GAACAGCCCC ACACACAGCA GGGGCCTGAG
    AAGTTAGCGG GAAACGCCGT CTACACCAAG CCTTCCTTCA CCCAAGAGCA TAAGGCAGCA
    GTCTCTGTGC TGAAACCCTT CTCCAAGGGC GCGCCTTCTA CCTCCAGCCC TGCAAAAGCC
    CTACCACAGG TGAGAGACAG ATGGAAAGAC TTAACCCACG CTATTTCCAT TTTAGAAAGT
    GCAAAGGCTA GAGTTACAAA TACGAAGACG TCTAAACCAA TCGTACATGC CAGAAAAAAA
    TACCGCTTTC ACAAAACTCG CTCCCACGTG ACCCACAGAA CACCCAAAGT CAAAAAGAGT
    CCAAAGGTCA GAAAGAAAAG TTATCTGAGT AGACTGATGC TCGCAAACAG GCTTCCATTC
    TCTGCAGCGA AGAGCCTCAT AAATTCCCCT TCACAAGGGG CTTTTTCATC CTTAGGAGAC
    CTGAGTCCTC AAGAAAACCC TTTTCTGGAA GTATCTGCTC CTTCAGAACA TTTTATAGAA
    AACAATAATA CAAAACACAC AACTGCAAGA AATGCCTTTG AAGAAAATGA TTTTATGGAA
    AACACTAACA TGCCAGAAGG AACCATCTCT GAAAACACAA ACTACAATCA TCCTCATGAG
    GCAGATTCCG CTGGGACTGC ATTCAACTTA GGGCCAACTG TTAAACAAAC TGAGACAAAA
    TGGGAATACA ACAACGTGGG CACTGACCTG TCCCCCGAGC CCAAAAGCTT CAATTACCCA
    TTGCTCTCGT CCCCAGGTGA TCAGTTTGAA ATTCAGCTAA CCCAGCAGCT ACAGTCCCTT
    ATCCCCAACA ACAATGTGAG AAGGCTCATT GCTCATGTTA TCCGGACCTT GAAGATGGAC
    TGCTCTGGGG CCCATGTGCA AGTGACCTGT GCCAAGCTCA TCTCCAGGAC AGGCCACCTG
    ATGAAGCTTC TCAGTGGGCA GCAGGAAGTA AAGGCATCCA AGATAGAATG GGATACGGAC
    CAATGGAAGA TTGAGAACTA CATTAATGAG AGCACAGAAG CCCAGAGTGA ACAGAAAGAG
    AAGTCGCTTG AGCTCAAAAA AGAAGTTCCA GGATATGGCT ATACTGACAA ACTCATCTTG
    GCATTAATTG TTACTGGAAT ACTAACGATT TTGATTATAC TTTTCTGCCT CATTGTGATA
    TGTTGTCACC GAAGGTCATT ACAAGAAGAT GAAGAAGGAT TCTCAAGGGG CATTTTCAGA
    TTTCTGCCAT GGAGGGGATG CTCTTCGCGA AGGGAGAGTC AGGATGGACT TTCCTCATTT
    GGACAGCCGC TCTGGTTTAA AGATATGTAC AAACCTCTCA GTGCCACAAG AATAAATAAT
    CATGCATGGA AGCTGCACAA GAAGTCATCT AATGAGGACA AGATCCTCAA CAGGGACCCT
    GGGGACAGCG AAGCCCCAAC GGAGGAGGAG GAGAGTGAAG CCCTGCCATA G

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

    RefSeq XP_011523143.1
    CDS57..5087
    Translation

    Target ORF information:

    RefSeq Version XM_011524841.2
    Organism Homo sapiens(human)
    Definition Homo sapiens leucine-rich repeat containing 37 member A2 (LRRC37A2), transcript variant X1, mRNA.

    Target ORF information:

    Epitope DYKDDDDK
    Bacterial selection AMPR
    Mammalian selection NeoR
    Vector pcDNA3.1+/C-(K)DYK
    XM_011524841.2

    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
    4681
    4741
    4801
    4861
    4921
    4981
    ATGTCTTCTG CTCAGTGCCC GGCACTAGTG TGTGTCATGT CCCGGCTGCG TTTCTGGGGC 
    CCATGGCCCC TCCTTATGTG GCAACTATTG TGGCTACTAG TTAAGGAGGC TCAGCCTCTG
    GAGTGGGTCA AGGACCCGCT CCAGCTCACC TCTAATCCCC TGGGGCCGCC TGACTCCTGG
    TCTTCCCACT CCTCCCATTT CCCACGGGAA TCTCCCCATG CGCCTACTCT CCCAGCAGAC
    CCGTGGGACT TTGATCACCT GGGGCCCTCT GCTTCCTCAG AGATGCCAGC CCCACCCCAG
    GAATCGACTG AAAATTTGGT TCCATTCCTG GACACCTGGG ATTCAGCTGG AGAGCAGCCC
    CTGGAGCCAG AGCAGTTCTT GGCTTCACAG CAGGATTTAA AGGACAAGCT GAGTCCACAG
    GAAAGACTCC CTGTTTCGCC CAAGAAGCTG AAGAAAGATC CAGCTCAGCG TTGGAGCCTT
    GCTGAGATTA TTGGAATTAC ACGCCAATTA TCCACACCTC AGAGTCAGAA ACAGACTTTG
    CAGAATGAAT ATTCCAGTAC AGATACACCG TATCCCGGTA GCCTGCCTCC AGAACTCCGG
    GTGAAGTCAG ATGAGCCTCC AGGGCCCTCT GAGCAAGTTG GACCTTCTCA ATTCCATCTA
    GAGCCCGAAA CTCAAAATCC AGAGACCCTT GAAGACATCC AGTCCTCTTC ACTCCAGCAA
    GAAGCCCCAG CACAGCTTCC ACAGCTCCTT GAGGAAGAAC CTTCTTCAAT GCAGCAGGAG
    GCCCCAGCTC TGCCTCCAGA GTCCTCTATG GAGAGTCTAA CTCTACCGAA TCATGAGGTG
    TCAGTTCAAC CTCCAGGTGA GGATCAAGCT TATTATCACT TGCCCAACAT TACAGTTAAA
    CCTGCAGATG TGGAGGTTAC CATAACTTCA GAGCCTACCA ATGAGACAGA ATCTTCCCAA
    GCCCAGCAGG AGACCCCAAT TCAGTTTCCA GAGGAGGTGG AACCTTCTGC AACCCAACAG
    GAGGCCCCAA TTGAGCCTCC AGTTCCTCCT ATGGAGCATG AACTTTCCAT CAGTGAGCAG
    CAGCAGCCAG TTCAGCCTTC TGAGTCTCCT AGGGAGGTCG AATCTTCTCC GACCCAGCAG
    GAGACCCCAG GTCAGCCTCC AGAACATCAT GAAGTCACAG TTTCACCTCC AGGTCACCAT
    CAAACTCATC ATTTAGCTTC ACCCAGTGTC TCTGTGAAGC CTCCAGACGT GCAGCTCACC
    ATAGCAGCAG AGCCTAGTGC AGAGGTGGGA ACTTCTCTAG TCCACCAGGA GGCTACAACT
    CGGCTCTCAG GGTCAGGTAA TGATGTAGAA CCTCCCGCCA TCCAGCACGG GGGCCCACCT
    CTGCTTCCAG AGTCATCAGA AGAAGCTGGA CCTTTAGCAG TTCAACAGGA GACTTCATTT
    CAATCTCCGG AACCTATTAA TAATGAGAAC CCCTCTCCAA CCCAGCAGGA GGCTGCAGCT
    GAGCATCCAC AGACCGCTGA GGAGGGTGAG TCTTCCCTAA CCCATCAGGA GGCCCCAGCT
    CAGACTCCAG AGTTCCCTAA TGTAGTTGTA GCTCAACCTC CAGAGCATTC ACACCTGACT
    CAAGCCACAG TTCAACCTTT GGATCTGGGG TTTACCATCA CTCCAGAATC CAAGACAGAG
    GTTGAACTTT CTCCAACCAT GAAGGAGACC CCAACTCAGC CTCCTAAGAA AGTTGTACCC
    CAACTTCGAG TATATCAAGG GGTAACAAAT CCAACACCAG GTCAGGATCA AGCTCAGCAT
    CCAGTGTCAC CCAGCGTTAC AGTTCAACTT TTGGACCTGG GACTTACCAT CACTCCAGAA
    CCTACTACGG AGGTTGGACA TTCTACACCC CCGAAGAGGA CTATAGTTTC TCCAAAGCAT
    CCTGAGGTGA CACTTCCACA TCCAGACCAG GTTCAGACTC AGCATTCACA CCTGACTCGA
    GCCACAGTTC AACCTTTGGA CCTGGGGTTT ACCATCACTC CAAAATCCAT GACAGAGGTT
    GAACCTTCTA CAGCCCTGAT GACTACAGCT CCTCCTCCAG GACACCCTGA GGTGACACTT
    CCACCTTCAG ACAAGGGTCA GGCTCAGCAT TCACACCTGA CTCAAGCCAC CGTTCAACCT
    CTGGACCTGG AGCTTACCAT AACTACAAAA CCTACTACAG AGGTTAAACC ATCTCCAACC
    ACGGAGGAGA CCTCAACTCA GCCTCCAGAC CTGGGACTTG CCATCATTCC AGAACCCACT
    ACAGAGACTA GACATTCTAC AGCCCTGGAG AAGACTACAG CTCCTCGTCC AGACCGGGTT
    CAGACTCTGC ATCGAAGCCT GACTGAAGTC ACAGGTCCAC CTACTGAACT AGAACCTGCT
    CAGGATTCAC TGGTGCAGTC TGAAAGTTAC ACCCAAAATA AGGCTTTAAC TGCACCAGAG
    GAACACAAGG CCTCCACAAG CACCAACATA TGTGAGCTCT GTACCTGCGG AGATGAGATG
    TTGTCATGTA TTGATCTCAA CCCAGAGCAG AGGCTCCGCC AAGTGCCTGT GCCAGAGCCC
    AACACCCACA ATGGCACCTT CACCATCTTA AATTTCCAAG GAAACTATAT TTCTTACATT
    GATGGAAATG TATGGAAAGC ATACAGTTGG ACCGAGAAAC TAATTCTCAG AGAAAATAAC
    TTGACTGAAT TACACAAGGA TTCATTTGAA GGCCTGCTAT CCCTCCAGTA TTTAAATCTT
    AGTTGCAATG TAATTACAGA ACTCAGCTTT GGAACATTTC AGGCCTGGCA CGGAATGCAG
    TTTTTACATA AGTTAATTCT CAATCACAAT CCTCTGACAA CTGTTGAAGA TCCGTATCTC
    TTTAAATTGC CAGCATTAAA ATATCTAGAC ATGGGAACAA CGCTAGTCCC ACTTACAACA
    CTTAAGAACA TTCTCATGAT GACTGTTGAA CTGGAAAAAC TGATCTTACC TAGCCATATG
    GCCTGCTGCC TCTGCCAATT TAAAAACAGC ATTGAGGCTG TCTGCAAGAC AGTCAAGCTG
    CATTGCAACA GTGCATGTCT GACAAACACC ACACATTGTC CTGAAGAAGC ATCGGTAGGG
    AATCCAGAAG GAGCGTTCAT GAAGGTGTTA CAAGCCCGGA AGAACTACAC AAGCACTGAG
    CTGATTGTTG AGCCAGAGGA GCCCTCAGAC AGCAGTGGCA TCAACTTGTC AGGCTTTGGG
    AGTGAGCAGC TAGACACCAA TGACGAGAGT GATTTTATCA GTACACTAAG TTACATCTTG
    CCTTATTTCT CAGCGGTAAA CCTAGATGTG AAATCACTGT TACTACCGTT CATTAAACTG
    CCAACCACAG GAAACAGCCT GGCAAAGATT CAAACTGTAG GCCAAAACCG GCAGAGAGTG
    AAGAGAGTCC TCATGGGCCC AAGGAGCATC CAGAAAAGGC ACTTCAAAGA GGTAGGAAGG
    CAGAGCATCA GGAGGGAACA GGGTGCCCAG GCATCTGTGG AGAACGCTGC CGAAGAAAAA
    AGGCTCGGGA GTCCAGCCCC AAGGGAGGTG GAACAGCCCC ACACACAGCA GGGGCCTGAG
    AAGTTAGCGG GAAACGCCGT CTACACCAAG CCTTCCTTCA CCCAAGAGCA TAAGGCAGCA
    GTCTCTGTGC TGAAACCCTT CTCCAAGGGC GCGCCTTCTA CCTCCAGCCC TGCAAAAGCC
    CTACCACAGG TGAGAGACAG ATGGAAAGAC TTAACCCACG CTATTTCCAT TTTAGAAAGT
    GCAAAGGCTA GAGTTACAAA TACGAAGACG TCTAAACCAA TCGTACATGC CAGAAAAAAA
    TACCGCTTTC ACAAAACTCG CTCCCACGTG ACCCACAGAA CACCCAAAGT CAAAAAGAGT
    CCAAAGGTCA GAAAGAAAAG TTATCTGAGT AGACTGATGC TCGCAAACAG GCTTCCATTC
    TCTGCAGCGA AGAGCCTCAT AAATTCCCCT TCACAAGGGG CTTTTTCATC CTTAGGAGAC
    CTGAGTCCTC AAGAAAACCC TTTTCTGGAA GTATCTGCTC CTTCAGAACA TTTTATAGAA
    AACAATAATA CAAAACACAC AACTGCAAGA AATGCCTTTG AAGAAAATGA TTTTATGGAA
    AACACTAACA TGCCAGAAGG AACCATCTCT GAAAACACAA ACTACAATCA TCCTCATGAG
    GCAGATTCCG CTGGGACTGC ATTCAACTTA GGGCCAACTG TTAAACAAAC TGAGACAAAA
    TGGGAATACA ACAACGTGGG CACTGACCTG TCCCCCGAGC CCAAAAGCTT CAATTACCCA
    TTGCTCTCGT CCCCAGGTGA TCAGTTTGAA ATTCAGCTAA CCCAGCAGCT ACAGTCCCTT
    ATCCCCAACA ACAATGTGAG AAGGCTCATT GCTCATGTTA TCCGGACCTT GAAGATGGAC
    TGCTCTGGGG CCCATGTGCA AGTGACCTGT GCCAAGCTCA TCTCCAGGAC AGGCCACCTG
    ATGAAGCTTC TCAGTGGGCA GCAGGAAGTA AAGGCATCCA AGATAGAATG GGATACGGAC
    CAATGGAAGA TTGAGAACTA CATTAATGAG AGCACAGAAG CCCAGAGTGA ACAGAAAGAG
    AAGTCGCTTG AGCTCAAAAA AGAAGTTCCA GGATATGGCT ATACTGACAA ACTCATCTTG
    GCATTAATTG TTACTGGAAT ACTAACGATT TTGATTATAC TTTTCTGCCT CATTGTGATA
    TGTTGTCACC GAAGGTCATT ACAAGAAGAT GAAGAAGGAT TCTCAAGGGG CATTTTCAGA
    TTTCTGCCAT GGAGGGGATG CTCTTCGCGA AGGGAGAGTC AGGATGGACT TTCCTCATTT
    GGACAGCCGC TCTGGTTTAA AGATATGTAC AAACCTCTCA GTGCCACAAG AATAAATAAT
    CATGCATGGA AGCTGCACAA GAAGTCATCT AATGAGGACA AGATCCTCAA CAGGGACCCT
    GGGGACAGCG AAGCCCCAAC GGAGGAGGAG GAGAGTGAAG CCCTGCCATA G

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

    CloneID OHu80379
    Clone ID Related Accession (Same CDS sequence) XM_011524842.3 , XM_011524842.2
    Accession Version XM_011524842.3 Latest version! Documents for ORF clone product in default vector
    Sequence Information ORF Nucleotide Sequence (Length: 4998bp)
    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 leucine-rich repeat-containing protein 37A2 isoform X2
    Comment Comment: MODEL REFSEQ: This record is predicted by automated computational analysis. This record is derived from a genomic sequence (NC_000017.11) annotated using gene prediction method: Gnomon, supported by mRNA and EST evidence. Also see: Documentation of NCBI's Annotation Process On Mar 26, 2018 this sequence version replaced XM_011524842.2. ##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
    4801
    4861
    4921
    4981
    ATGTCTTCTG CTCAGTGCCC GGCACTAGTG TGTGTCATGT CCCGGCTGCG TTTCTGGGGC 
    CCATGGCCCC TCCTTATGTG GCAACTATTG TGGCTACTAG TTAAGGAGGC TCAGCCTCTG
    GAGTGGGTCA AGGACCCGCT CCAGCTCACC TCTAATCCCC TGGGGCCGCC TGACTCCTGG
    TCTTCCCACT CCTCCCATTT CCCACGGGAA TCTCCCCATG CGCCTACTCT CCCAGCAGAC
    CCGTGGGACT TTGATCACCT GGGGCCCTCT GCTTCCTCAG AGATGCCAGC CCCACCCCAG
    GAATCGACTG AAAATTTGGT TCCATTCCTG GACACCTGGG ATTCAGCTGG AGAGCAGCCC
    CTGGAGCCAG AGCAGTTCTT GGCTTCACAG CAGGATTTAA AGGACAAGCT GAGTCCACAG
    GAAAGACTCC CTGTTTCGCC CAAGAAGCTG AAGAAAGATC CAGCTCAGCG TTGGAGCCTT
    GCTGAGATTA TTGGAATTAC ACGCCAATTA TCCACACCTC AGAGTCAGAA ACAGACTTTG
    CAGAATGAAT ATTCCAGTAC AGATACACCG TATCCCGGTA GCCTGCCTCC AGAACTCCGG
    GTGAAGTCAG ATGAGCCTCC AGGGCCCTCT GAGCAAGTTG GACCTTCTCA ATTCCATCTA
    GAGCCCGAAA CTCAAAATCC AGAGACCCTT GAAGACATCC AGTCCTCTTC ACTCCAGCAA
    GAAGCCCCAG CACAGCTTCC ACAGCTCCTT GAGGAAGAAC CTTCTTCAAT GCAGCAGGAG
    GCCCCAGCTC TGCCTCCAGA GTCCTCTATG GAGAGTCTAA CTCTACCGAA TCATGAGGTG
    TCAGTTCAAC CTCCAGGTGA GGATCAAGCT TATTATCACT TGCCCAACAT TACAGTTAAA
    CCTGCAGATG TGGAGGTTAC CATAACTTCA GAGCCTACCA ATGAGACAGA ATCTTCCCAA
    GCCCAGCAGG AGACCCCAAT TCAGTTTCCA GAGGAGGTGG AACCTTCTGC AACCCAACAG
    GAGGCCCCAA TTGAGCCTCC AGTTCCTCCT ATGGAGCATG AACTTTCCAT CAGTGAGCAG
    CAGCAGCCAG TTCAGCCTTC TGAGTCTCCT AGGGAGGTCG AATCTTCTCC GACCCAGCAG
    GAGACCCCAG GTCAGCCTCC AGAACATCAT GAAGTCACAG TTTCACCTCC AGGTCACCAT
    CAAACTCATC ATTTAGCTTC ACCCAGTGTC TCTGTGAAGC CTCCAGACGT GCAGCTCACC
    ATAGCAGCAG AGCCTAGTGC AGAGGTGGGA ACTTCTCTAG TCCACCAGGA GGCTACAACT
    CGGCTCTCAG GGTCAGGTAA TGATGTAGAA CCTCCCGCCA TCCAGCACGG GGGCCCACCT
    CTGCTTCCAG AGTCATCAGA AGAAGCTGGA CCTTTAGCAG TTCAACAGGA GACTTCATTT
    CAATCTCCGG AACCTATTAA TAATGAGAAC CCCTCTCCAA CCCAGCAGGA GGCTGCAGCT
    GAGCATCCAC AGACCGCTGA GGAGGGTGAG TCTTCCCTAA CCCATCAGGA GGCCCCAGCT
    CAGACTCCAG AGTTCCCTAA TGTAGTTGTA GCTCAACCTC CAGAGCATTC ACACCTGACT
    CAAGCCACAG TTCAACCTTT GGATCTGGGG TTTACCATCA CTCCAGAATC CAAGACAGAG
    GTTGAACTTT CTCCAACCAT GAAGGAGACC CCAACTCAGC CTCCTAAGAA AGTTGTACCC
    CAACTTCGAG TATATCAAGG GGTAACAAAT CCAACACCAG GTCAGGATCA AGCTCAGCAT
    CCAGTGTCAC CCAGCGTTAC AGTTCAACTT TTGGACCTGG GACTTACCAT CACTCCAGAA
    CCTACTACGG AGGTTGGACA TTCTACACCC CCGAAGAGGA CTATAGTTTC TCCAAAGCAT
    CCTGAGGTGA CACTTCCACA TCCAGACCAG GTTCAGACTC AGCATTCACA CCTGACTCGA
    GCCACAGTTC AACCTTTGGA CCTGGGGTTT ACCATCACTC CAAAATCCAT GACAGAGGTT
    GAACCTTCTA CAGCCCTGAT GACTACAGCT CCTCCTCCAG GACACCCTGA GGTGACACTT
    CCACCTTCAG ACAAGGGTCA GGCTCAGCAT TCACACCTGA CTCAAGCCAC CGTTCAACCT
    CTGGACCTGG AGCTTACCAT AACTACAAAA CCTACTACAG AGGTTAAACC ATCTCCAACC
    ACGGAGGAGA CCTCAACTCA GCCTCCAGAC CTGGGACTTG CCATCATTCC AGAACCCACT
    ACAGAGACTA GACATTCTAC AGCCCTGGAG AAGACTACAG CTCCTCGTCC AGACCGGGTT
    CAGACTCTGC ATCGAAGCCT GACTGAAGTC ACAGGTCCAC CTACTGAACT AGAACCTGCT
    CAGGATTCAC TGGTGCAGTC TGAAAGTTAC ACCCAAAATA AGGCTTTAAC TGCACCAGAG
    GAACACAAGG CCTCCACAAG CACCAACATA TGTGAGCTCT GTACCTGCGG AGATGAGATG
    TTGTCATGTA TTGATCTCAA CCCAGAGCAG AGGCTCCGCC AAGTGCCTGT GCCAGAGCCC
    AACACCCACA ATGGCACCTT CACCATCTTA AATTTCCAAG GAAACTATAT TTCTTACATT
    GATGGAAATG TATGGAAAGC ATACAGTTGG ACCGAGAAAC TAATTCTCAG AGAAAATAAC
    TTGACTGAAT TACACAAGGA TTCATTTGAA GGCCTGCTAT CCCTCCAGTA TTTAGATTTA
    TCCTGCAATA AAATACAGTC TATTGAAAGA CATACATTTG AACCACTACC ATTTTTGAAG
    TTTATAAATC TTAGTTGCAA TGTAATTACA GAACTCAGCT TTGGAACATT TCAGGCCTGG
    CACGGAATGC AGTTTTTACA TAAGTTAATT CTCAATCACA ATCCTCTGAC AACTGTTGAA
    GATCCGTATC TCTTTAAATT GCCAGCATTA AAATATCTAG ACATGGGAAC AACGCTAGTC
    CCACTTACAA CACTTAAGAA CATTCTCATG ATGACTGTTG AACTGGAAAA ACTGATCTTA
    CCTAGCCATA TGGCCTGCTG CCTCTGCCAA TTTAAAAACA GCATTGAGGC TGTCTGCAAG
    ACAGTCAAGC TGCATTGCAA CAGTGCATGT CTGACAAACA CCACACATTG TCCTGAAGAA
    GCATCGGTAG GGAATCCAGA AGGAGCGTTC ATGAAGGTGT TACAAGCCCG GAAGAACTAC
    ACAAGCACTG AGCTGATTGT TGAGCCAGAG GAGCCCTCAG ACAGCAGTGG CATCAACTTG
    TCAGGCTTTG GGAGTGAGCA GCTAGACACC AATGACGAGA GTGATTTTAT CAGTACACTA
    AGTTACATCT TGCCTTATTT CTCAGCGGTA AACCTAGATG TGAAATCACT GTTACTACCG
    TTCATTAAAC TGCCAACCAC AGGAAACAGC CTGGCAAAGA TTCAAACTGT AGGCCAAAAC
    CGGCAGAGAG TGAAGAGAGT CCTCATGGGC CCAAGGAGCA TCCAGAAAAG GCACTTCAAA
    GAGGTAGGAA GGCAGAGCAT CAGGAGGGAA CAGGGTGCCC AGGCATCTGT GGAGAACGCT
    GCCGAAGAAA AAAGGCTCGG GAGTCCAGCC CCAAGGGAGG TGGAACAGCC CCACACACAG
    CAGGGGCCTG AGAAGTTAGC GGGAAACGCC GTCTACACCA AGCCTTCCTT CACCCAAGAG
    CATAAGGCAG CAGTCTCTGT GCTGAAACCC TTCTCCAAGG GCGCGCCTTC TACCTCCAGC
    CCTGCAAAAG CCCTACCACA GGTGAGAGAC AGATGGAAAG ACTTAACCCA CGCTATTTCC
    ATTTTAGAAA GTGCAAAGGC TAGAGTTACA AATACGAAGA CGTCTAAACC AATCGTACAT
    GCCAGAAAAA AATACCGCTT TCACAAAACT CGCTCCCACG TGACCCACAG AACACCCAAA
    GTCAAAAAGA GTCCAAAGGT CAGAAAGAAA AGTTATCTGA GTAGACTGAT GCTCGCAAAC
    AGGCTTCCAT TCTCTGCAGC GAAGAGCCTC ATAAATTCCC CTTCACAAGG GGCTTTTTCA
    TCCTTAGGAG ACCTGAGTCC TCAAGAAAAC CCTTTTCTGG AAGTATCTGC TCCTTCAGAA
    CATTTTATAG AAAACAATAA TACAAAACAC ACAACTGCAA GAAATGCCTT TGAAGAAAAT
    GATTTTATGG AAAACACTAA CATGCCAGAA GGAACCATCT CTGAAAACAC AAACTACAAT
    CATCCTCATG AGGCAGATTC CGCTGGGACT GCATTCAACT TAGGGCCAAC TGTTAAACAA
    ACTGAGACAA AATGGGAATA CAACAACGTG GGCACTGACC TGTCCCCCGA GCCCAAAAGC
    TTCAATTACC CATTGCTCTC GTCCCCAGGT GATCAGTTTG AAATTCAGCT AACCCAGCAG
    CTACAGTCCC TTATCCCCAA CAACAATGTG AGAAGGCTCA TTGCTCATGT TATCCGGACC
    TTGAAGATGG ACTGCTCTGG GGCCCATGTG CAAGTGACCT GTGCCAAGCT CATCTCCAGG
    ACAGGCCACC TGATGAAGCT TCTCAGTGGG CAGCAGGAAG TAAAGGCATC CAAGATAGAA
    TGGGATACGG ACCAATGGAA GATTGAGAAC TACATTAATG AGAGCACAGA AGCCCAGAGT
    GAACAGAAAG AGAAGTCGCT TGAGATATGT TGTCACCGAA GGTCATTACA AGAAGATGAA
    GAAGGATTCT CAAGGGGCAT TTTCAGATTT CTGCCATGGA GGGGATGCTC TTCGCGAAGG
    GAGAGTCAGG ATGGACTTTC CTCATTTGGA CAGCCGCTCT GGTTTAAAGA TATGTACAAA
    CCTCTCAGTG CCACAAGAAT AAATAATCAT GCATGGAAGC TGCACAAGAA GTCATCTAAT
    GAGGACAAGA TCCTCAACAG GGACCCTGGG GACAGCGAAG CCCCAACGGA GGAGGAGGAG
    AGTGAAGCCC TGCCATAG

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

    RefSeq XP_011523144.1
    CDS4..5001
    Translation

    Target ORF information:

    RefSeq Version XM_011524842.3
    Organism Homo sapiens(human)
    Definition Homo sapiens leucine rich repeat containing 37 member A2 (LRRC37A2), transcript variant X2, mRNA.

    Target ORF information:

    Epitope DYKDDDDK
    Bacterial selection AMPR
    Mammalian selection NeoR
    Vector pcDNA3.1+/C-(K)DYK
    XM_011524842.3

    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
    4801
    4861
    4921
    4981
    ATGTCTTCTG CTCAGTGCCC GGCACTAGTG TGTGTCATGT CCCGGCTGCG TTTCTGGGGC 
    CCATGGCCCC TCCTTATGTG GCAACTATTG TGGCTACTAG TTAAGGAGGC TCAGCCTCTG
    GAGTGGGTCA AGGACCCGCT CCAGCTCACC TCTAATCCCC TGGGGCCGCC TGACTCCTGG
    TCTTCCCACT CCTCCCATTT CCCACGGGAA TCTCCCCATG CGCCTACTCT CCCAGCAGAC
    CCGTGGGACT TTGATCACCT GGGGCCCTCT GCTTCCTCAG AGATGCCAGC CCCACCCCAG
    GAATCGACTG AAAATTTGGT TCCATTCCTG GACACCTGGG ATTCAGCTGG AGAGCAGCCC
    CTGGAGCCAG AGCAGTTCTT GGCTTCACAG CAGGATTTAA AGGACAAGCT GAGTCCACAG
    GAAAGACTCC CTGTTTCGCC CAAGAAGCTG AAGAAAGATC CAGCTCAGCG TTGGAGCCTT
    GCTGAGATTA TTGGAATTAC ACGCCAATTA TCCACACCTC AGAGTCAGAA ACAGACTTTG
    CAGAATGAAT ATTCCAGTAC AGATACACCG TATCCCGGTA GCCTGCCTCC AGAACTCCGG
    GTGAAGTCAG ATGAGCCTCC AGGGCCCTCT GAGCAAGTTG GACCTTCTCA ATTCCATCTA
    GAGCCCGAAA CTCAAAATCC AGAGACCCTT GAAGACATCC AGTCCTCTTC ACTCCAGCAA
    GAAGCCCCAG CACAGCTTCC ACAGCTCCTT GAGGAAGAAC CTTCTTCAAT GCAGCAGGAG
    GCCCCAGCTC TGCCTCCAGA GTCCTCTATG GAGAGTCTAA CTCTACCGAA TCATGAGGTG
    TCAGTTCAAC CTCCAGGTGA GGATCAAGCT TATTATCACT TGCCCAACAT TACAGTTAAA
    CCTGCAGATG TGGAGGTTAC CATAACTTCA GAGCCTACCA ATGAGACAGA ATCTTCCCAA
    GCCCAGCAGG AGACCCCAAT TCAGTTTCCA GAGGAGGTGG AACCTTCTGC AACCCAACAG
    GAGGCCCCAA TTGAGCCTCC AGTTCCTCCT ATGGAGCATG AACTTTCCAT CAGTGAGCAG
    CAGCAGCCAG TTCAGCCTTC TGAGTCTCCT AGGGAGGTCG AATCTTCTCC GACCCAGCAG
    GAGACCCCAG GTCAGCCTCC AGAACATCAT GAAGTCACAG TTTCACCTCC AGGTCACCAT
    CAAACTCATC ATTTAGCTTC ACCCAGTGTC TCTGTGAAGC CTCCAGACGT GCAGCTCACC
    ATAGCAGCAG AGCCTAGTGC AGAGGTGGGA ACTTCTCTAG TCCACCAGGA GGCTACAACT
    CGGCTCTCAG GGTCAGGTAA TGATGTAGAA CCTCCCGCCA TCCAGCACGG GGGCCCACCT
    CTGCTTCCAG AGTCATCAGA AGAAGCTGGA CCTTTAGCAG TTCAACAGGA GACTTCATTT
    CAATCTCCGG AACCTATTAA TAATGAGAAC CCCTCTCCAA CCCAGCAGGA GGCTGCAGCT
    GAGCATCCAC AGACCGCTGA GGAGGGTGAG TCTTCCCTAA CCCATCAGGA GGCCCCAGCT
    CAGACTCCAG AGTTCCCTAA TGTAGTTGTA GCTCAACCTC CAGAGCATTC ACACCTGACT
    CAAGCCACAG TTCAACCTTT GGATCTGGGG TTTACCATCA CTCCAGAATC CAAGACAGAG
    GTTGAACTTT CTCCAACCAT GAAGGAGACC CCAACTCAGC CTCCTAAGAA AGTTGTACCC
    CAACTTCGAG TATATCAAGG GGTAACAAAT CCAACACCAG GTCAGGATCA AGCTCAGCAT
    CCAGTGTCAC CCAGCGTTAC AGTTCAACTT TTGGACCTGG GACTTACCAT CACTCCAGAA
    CCTACTACGG AGGTTGGACA TTCTACACCC CCGAAGAGGA CTATAGTTTC TCCAAAGCAT
    CCTGAGGTGA CACTTCCACA TCCAGACCAG GTTCAGACTC AGCATTCACA CCTGACTCGA
    GCCACAGTTC AACCTTTGGA CCTGGGGTTT ACCATCACTC CAAAATCCAT GACAGAGGTT
    GAACCTTCTA CAGCCCTGAT GACTACAGCT CCTCCTCCAG GACACCCTGA GGTGACACTT
    CCACCTTCAG ACAAGGGTCA GGCTCAGCAT TCACACCTGA CTCAAGCCAC CGTTCAACCT
    CTGGACCTGG AGCTTACCAT AACTACAAAA CCTACTACAG AGGTTAAACC ATCTCCAACC
    ACGGAGGAGA CCTCAACTCA GCCTCCAGAC CTGGGACTTG CCATCATTCC AGAACCCACT
    ACAGAGACTA GACATTCTAC AGCCCTGGAG AAGACTACAG CTCCTCGTCC AGACCGGGTT
    CAGACTCTGC ATCGAAGCCT GACTGAAGTC ACAGGTCCAC CTACTGAACT AGAACCTGCT
    CAGGATTCAC TGGTGCAGTC TGAAAGTTAC ACCCAAAATA AGGCTTTAAC TGCACCAGAG
    GAACACAAGG CCTCCACAAG CACCAACATA TGTGAGCTCT GTACCTGCGG AGATGAGATG
    TTGTCATGTA TTGATCTCAA CCCAGAGCAG AGGCTCCGCC AAGTGCCTGT GCCAGAGCCC
    AACACCCACA ATGGCACCTT CACCATCTTA AATTTCCAAG GAAACTATAT TTCTTACATT
    GATGGAAATG TATGGAAAGC ATACAGTTGG ACCGAGAAAC TAATTCTCAG AGAAAATAAC
    TTGACTGAAT TACACAAGGA TTCATTTGAA GGCCTGCTAT CCCTCCAGTA TTTAGATTTA
    TCCTGCAATA AAATACAGTC TATTGAAAGA CATACATTTG AACCACTACC ATTTTTGAAG
    TTTATAAATC TTAGTTGCAA TGTAATTACA GAACTCAGCT TTGGAACATT TCAGGCCTGG
    CACGGAATGC AGTTTTTACA TAAGTTAATT CTCAATCACA ATCCTCTGAC AACTGTTGAA
    GATCCGTATC TCTTTAAATT GCCAGCATTA AAATATCTAG ACATGGGAAC AACGCTAGTC
    CCACTTACAA CACTTAAGAA CATTCTCATG ATGACTGTTG AACTGGAAAA ACTGATCTTA
    CCTAGCCATA TGGCCTGCTG CCTCTGCCAA TTTAAAAACA GCATTGAGGC TGTCTGCAAG
    ACAGTCAAGC TGCATTGCAA CAGTGCATGT CTGACAAACA CCACACATTG TCCTGAAGAA
    GCATCGGTAG GGAATCCAGA AGGAGCGTTC ATGAAGGTGT TACAAGCCCG GAAGAACTAC
    ACAAGCACTG AGCTGATTGT TGAGCCAGAG GAGCCCTCAG ACAGCAGTGG CATCAACTTG
    TCAGGCTTTG GGAGTGAGCA GCTAGACACC AATGACGAGA GTGATTTTAT CAGTACACTA
    AGTTACATCT TGCCTTATTT CTCAGCGGTA AACCTAGATG TGAAATCACT GTTACTACCG
    TTCATTAAAC TGCCAACCAC AGGAAACAGC CTGGCAAAGA TTCAAACTGT AGGCCAAAAC
    CGGCAGAGAG TGAAGAGAGT CCTCATGGGC CCAAGGAGCA TCCAGAAAAG GCACTTCAAA
    GAGGTAGGAA GGCAGAGCAT CAGGAGGGAA CAGGGTGCCC AGGCATCTGT GGAGAACGCT
    GCCGAAGAAA AAAGGCTCGG GAGTCCAGCC CCAAGGGAGG TGGAACAGCC CCACACACAG
    CAGGGGCCTG AGAAGTTAGC GGGAAACGCC GTCTACACCA AGCCTTCCTT CACCCAAGAG
    CATAAGGCAG CAGTCTCTGT GCTGAAACCC TTCTCCAAGG GCGCGCCTTC TACCTCCAGC
    CCTGCAAAAG CCCTACCACA GGTGAGAGAC AGATGGAAAG ACTTAACCCA CGCTATTTCC
    ATTTTAGAAA GTGCAAAGGC TAGAGTTACA AATACGAAGA CGTCTAAACC AATCGTACAT
    GCCAGAAAAA AATACCGCTT TCACAAAACT CGCTCCCACG TGACCCACAG AACACCCAAA
    GTCAAAAAGA GTCCAAAGGT CAGAAAGAAA AGTTATCTGA GTAGACTGAT GCTCGCAAAC
    AGGCTTCCAT TCTCTGCAGC GAAGAGCCTC ATAAATTCCC CTTCACAAGG GGCTTTTTCA
    TCCTTAGGAG ACCTGAGTCC TCAAGAAAAC CCTTTTCTGG AAGTATCTGC TCCTTCAGAA
    CATTTTATAG AAAACAATAA TACAAAACAC ACAACTGCAA GAAATGCCTT TGAAGAAAAT
    GATTTTATGG AAAACACTAA CATGCCAGAA GGAACCATCT CTGAAAACAC AAACTACAAT
    CATCCTCATG AGGCAGATTC CGCTGGGACT GCATTCAACT TAGGGCCAAC TGTTAAACAA
    ACTGAGACAA AATGGGAATA CAACAACGTG GGCACTGACC TGTCCCCCGA GCCCAAAAGC
    TTCAATTACC CATTGCTCTC GTCCCCAGGT GATCAGTTTG AAATTCAGCT AACCCAGCAG
    CTACAGTCCC TTATCCCCAA CAACAATGTG AGAAGGCTCA TTGCTCATGT TATCCGGACC
    TTGAAGATGG ACTGCTCTGG GGCCCATGTG CAAGTGACCT GTGCCAAGCT CATCTCCAGG
    ACAGGCCACC TGATGAAGCT TCTCAGTGGG CAGCAGGAAG TAAAGGCATC CAAGATAGAA
    TGGGATACGG ACCAATGGAA GATTGAGAAC TACATTAATG AGAGCACAGA AGCCCAGAGT
    GAACAGAAAG AGAAGTCGCT TGAGATATGT TGTCACCGAA GGTCATTACA AGAAGATGAA
    GAAGGATTCT CAAGGGGCAT TTTCAGATTT CTGCCATGGA GGGGATGCTC TTCGCGAAGG
    GAGAGTCAGG ATGGACTTTC CTCATTTGGA CAGCCGCTCT GGTTTAAAGA TATGTACAAA
    CCTCTCAGTG CCACAAGAAT AAATAATCAT GCATGGAAGC TGCACAAGAA GTCATCTAAT
    GAGGACAAGA TCCTCAACAG GGACCCTGGG GACAGCGAAG CCCCAACGGA GGAGGAGGAG
    AGTGAAGCCC TGCCATAG

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

    CloneID OHu80379
    Clone ID Related Accession (Same CDS sequence) XM_011524842.3 , XM_011524842.2
    Accession Version XM_011524842.2 Documents for ORF clone product in default vector
    Sequence Information ORF Nucleotide Sequence (Length: 4998bp)
    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 2016-06-05
    Organism Homo sapiens(human)
    Product leucine-rich repeat-containing protein 37A2 isoform X2
    Comment Comment: MODEL REFSEQ: This record is predicted by automated computational analysis. This record is derived from a genomic sequence (NC_000017.11) 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_011524842.1. ##Genome-Annotation-Data-START## Annotation Provider :: NCBI Annotation Status :: Full annotation Annotation Version :: Homo sapiens Annotation Release 108 Annotation Pipeline :: NCBI eukaryotic genome annotation pipeline Annotation Software Version :: 7.0 Annotation Method :: Best-placed RefSeq; Gnomon 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
    4801
    4861
    4921
    4981
    ATGTCTTCTG CTCAGTGCCC GGCACTAGTG TGTGTCATGT CCCGGCTGCG TTTCTGGGGC 
    CCATGGCCCC TCCTTATGTG GCAACTATTG TGGCTACTAG TTAAGGAGGC TCAGCCTCTG
    GAGTGGGTCA AGGACCCGCT CCAGCTCACC TCTAATCCCC TGGGGCCGCC TGACTCCTGG
    TCTTCCCACT CCTCCCATTT CCCACGGGAA TCTCCCCATG CGCCTACTCT CCCAGCAGAC
    CCGTGGGACT TTGATCACCT GGGGCCCTCT GCTTCCTCAG AGATGCCAGC CCCACCCCAG
    GAATCGACTG AAAATTTGGT TCCATTCCTG GACACCTGGG ATTCAGCTGG AGAGCAGCCC
    CTGGAGCCAG AGCAGTTCTT GGCTTCACAG CAGGATTTAA AGGACAAGCT GAGTCCACAG
    GAAAGACTCC CTGTTTCGCC CAAGAAGCTG AAGAAAGATC CAGCTCAGCG TTGGAGCCTT
    GCTGAGATTA TTGGAATTAC ACGCCAATTA TCCACACCTC AGAGTCAGAA ACAGACTTTG
    CAGAATGAAT ATTCCAGTAC AGATACACCG TATCCCGGTA GCCTGCCTCC AGAACTCCGG
    GTGAAGTCAG ATGAGCCTCC AGGGCCCTCT GAGCAAGTTG GACCTTCTCA ATTCCATCTA
    GAGCCCGAAA CTCAAAATCC AGAGACCCTT GAAGACATCC AGTCCTCTTC ACTCCAGCAA
    GAAGCCCCAG CACAGCTTCC ACAGCTCCTT GAGGAAGAAC CTTCTTCAAT GCAGCAGGAG
    GCCCCAGCTC TGCCTCCAGA GTCCTCTATG GAGAGTCTAA CTCTACCGAA TCATGAGGTG
    TCAGTTCAAC CTCCAGGTGA GGATCAAGCT TATTATCACT TGCCCAACAT TACAGTTAAA
    CCTGCAGATG TGGAGGTTAC CATAACTTCA GAGCCTACCA ATGAGACAGA ATCTTCCCAA
    GCCCAGCAGG AGACCCCAAT TCAGTTTCCA GAGGAGGTGG AACCTTCTGC AACCCAACAG
    GAGGCCCCAA TTGAGCCTCC AGTTCCTCCT ATGGAGCATG AACTTTCCAT CAGTGAGCAG
    CAGCAGCCAG TTCAGCCTTC TGAGTCTCCT AGGGAGGTCG AATCTTCTCC GACCCAGCAG
    GAGACCCCAG GTCAGCCTCC AGAACATCAT GAAGTCACAG TTTCACCTCC AGGTCACCAT
    CAAACTCATC ATTTAGCTTC ACCCAGTGTC TCTGTGAAGC CTCCAGACGT GCAGCTCACC
    ATAGCAGCAG AGCCTAGTGC AGAGGTGGGA ACTTCTCTAG TCCACCAGGA GGCTACAACT
    CGGCTCTCAG GGTCAGGTAA TGATGTAGAA CCTCCCGCCA TCCAGCACGG GGGCCCACCT
    CTGCTTCCAG AGTCATCAGA AGAAGCTGGA CCTTTAGCAG TTCAACAGGA GACTTCATTT
    CAATCTCCGG AACCTATTAA TAATGAGAAC CCCTCTCCAA CCCAGCAGGA GGCTGCAGCT
    GAGCATCCAC AGACCGCTGA GGAGGGTGAG TCTTCCCTAA CCCATCAGGA GGCCCCAGCT
    CAGACTCCAG AGTTCCCTAA TGTAGTTGTA GCTCAACCTC CAGAGCATTC ACACCTGACT
    CAAGCCACAG TTCAACCTTT GGATCTGGGG TTTACCATCA CTCCAGAATC CAAGACAGAG
    GTTGAACTTT CTCCAACCAT GAAGGAGACC CCAACTCAGC CTCCTAAGAA AGTTGTACCC
    CAACTTCGAG TATATCAAGG GGTAACAAAT CCAACACCAG GTCAGGATCA AGCTCAGCAT
    CCAGTGTCAC CCAGCGTTAC AGTTCAACTT TTGGACCTGG GACTTACCAT CACTCCAGAA
    CCTACTACGG AGGTTGGACA TTCTACACCC CCGAAGAGGA CTATAGTTTC TCCAAAGCAT
    CCTGAGGTGA CACTTCCACA TCCAGACCAG GTTCAGACTC AGCATTCACA CCTGACTCGA
    GCCACAGTTC AACCTTTGGA CCTGGGGTTT ACCATCACTC CAAAATCCAT GACAGAGGTT
    GAACCTTCTA CAGCCCTGAT GACTACAGCT CCTCCTCCAG GACACCCTGA GGTGACACTT
    CCACCTTCAG ACAAGGGTCA GGCTCAGCAT TCACACCTGA CTCAAGCCAC CGTTCAACCT
    CTGGACCTGG AGCTTACCAT AACTACAAAA CCTACTACAG AGGTTAAACC ATCTCCAACC
    ACGGAGGAGA CCTCAACTCA GCCTCCAGAC CTGGGACTTG CCATCATTCC AGAACCCACT
    ACAGAGACTA GACATTCTAC AGCCCTGGAG AAGACTACAG CTCCTCGTCC AGACCGGGTT
    CAGACTCTGC ATCGAAGCCT GACTGAAGTC ACAGGTCCAC CTACTGAACT AGAACCTGCT
    CAGGATTCAC TGGTGCAGTC TGAAAGTTAC ACCCAAAATA AGGCTTTAAC TGCACCAGAG
    GAACACAAGG CCTCCACAAG CACCAACATA TGTGAGCTCT GTACCTGCGG AGATGAGATG
    TTGTCATGTA TTGATCTCAA CCCAGAGCAG AGGCTCCGCC AAGTGCCTGT GCCAGAGCCC
    AACACCCACA ATGGCACCTT CACCATCTTA AATTTCCAAG GAAACTATAT TTCTTACATT
    GATGGAAATG TATGGAAAGC ATACAGTTGG ACCGAGAAAC TAATTCTCAG AGAAAATAAC
    TTGACTGAAT TACACAAGGA TTCATTTGAA GGCCTGCTAT CCCTCCAGTA TTTAGATTTA
    TCCTGCAATA AAATACAGTC TATTGAAAGA CATACATTTG AACCACTACC ATTTTTGAAG
    TTTATAAATC TTAGTTGCAA TGTAATTACA GAACTCAGCT TTGGAACATT TCAGGCCTGG
    CACGGAATGC AGTTTTTACA TAAGTTAATT CTCAATCACA ATCCTCTGAC AACTGTTGAA
    GATCCGTATC TCTTTAAATT GCCAGCATTA AAATATCTAG ACATGGGAAC AACGCTAGTC
    CCACTTACAA CACTTAAGAA CATTCTCATG ATGACTGTTG AACTGGAAAA ACTGATCTTA
    CCTAGCCATA TGGCCTGCTG CCTCTGCCAA TTTAAAAACA GCATTGAGGC TGTCTGCAAG
    ACAGTCAAGC TGCATTGCAA CAGTGCATGT CTGACAAACA CCACACATTG TCCTGAAGAA
    GCATCGGTAG GGAATCCAGA AGGAGCGTTC ATGAAGGTGT TACAAGCCCG GAAGAACTAC
    ACAAGCACTG AGCTGATTGT TGAGCCAGAG GAGCCCTCAG ACAGCAGTGG CATCAACTTG
    TCAGGCTTTG GGAGTGAGCA GCTAGACACC AATGACGAGA GTGATTTTAT CAGTACACTA
    AGTTACATCT TGCCTTATTT CTCAGCGGTA AACCTAGATG TGAAATCACT GTTACTACCG
    TTCATTAAAC TGCCAACCAC AGGAAACAGC CTGGCAAAGA TTCAAACTGT AGGCCAAAAC
    CGGCAGAGAG TGAAGAGAGT CCTCATGGGC CCAAGGAGCA TCCAGAAAAG GCACTTCAAA
    GAGGTAGGAA GGCAGAGCAT CAGGAGGGAA CAGGGTGCCC AGGCATCTGT GGAGAACGCT
    GCCGAAGAAA AAAGGCTCGG GAGTCCAGCC CCAAGGGAGG TGGAACAGCC CCACACACAG
    CAGGGGCCTG AGAAGTTAGC GGGAAACGCC GTCTACACCA AGCCTTCCTT CACCCAAGAG
    CATAAGGCAG CAGTCTCTGT GCTGAAACCC TTCTCCAAGG GCGCGCCTTC TACCTCCAGC
    CCTGCAAAAG CCCTACCACA GGTGAGAGAC AGATGGAAAG ACTTAACCCA CGCTATTTCC
    ATTTTAGAAA GTGCAAAGGC TAGAGTTACA AATACGAAGA CGTCTAAACC AATCGTACAT
    GCCAGAAAAA AATACCGCTT TCACAAAACT CGCTCCCACG TGACCCACAG AACACCCAAA
    GTCAAAAAGA GTCCAAAGGT CAGAAAGAAA AGTTATCTGA GTAGACTGAT GCTCGCAAAC
    AGGCTTCCAT TCTCTGCAGC GAAGAGCCTC ATAAATTCCC CTTCACAAGG GGCTTTTTCA
    TCCTTAGGAG ACCTGAGTCC TCAAGAAAAC CCTTTTCTGG AAGTATCTGC TCCTTCAGAA
    CATTTTATAG AAAACAATAA TACAAAACAC ACAACTGCAA GAAATGCCTT TGAAGAAAAT
    GATTTTATGG AAAACACTAA CATGCCAGAA GGAACCATCT CTGAAAACAC AAACTACAAT
    CATCCTCATG AGGCAGATTC CGCTGGGACT GCATTCAACT TAGGGCCAAC TGTTAAACAA
    ACTGAGACAA AATGGGAATA CAACAACGTG GGCACTGACC TGTCCCCCGA GCCCAAAAGC
    TTCAATTACC CATTGCTCTC GTCCCCAGGT GATCAGTTTG AAATTCAGCT AACCCAGCAG
    CTACAGTCCC TTATCCCCAA CAACAATGTG AGAAGGCTCA TTGCTCATGT TATCCGGACC
    TTGAAGATGG ACTGCTCTGG GGCCCATGTG CAAGTGACCT GTGCCAAGCT CATCTCCAGG
    ACAGGCCACC TGATGAAGCT TCTCAGTGGG CAGCAGGAAG TAAAGGCATC CAAGATAGAA
    TGGGATACGG ACCAATGGAA GATTGAGAAC TACATTAATG AGAGCACAGA AGCCCAGAGT
    GAACAGAAAG AGAAGTCGCT TGAGATATGT TGTCACCGAA GGTCATTACA AGAAGATGAA
    GAAGGATTCT CAAGGGGCAT TTTCAGATTT CTGCCATGGA GGGGATGCTC TTCGCGAAGG
    GAGAGTCAGG ATGGACTTTC CTCATTTGGA CAGCCGCTCT GGTTTAAAGA TATGTACAAA
    CCTCTCAGTG CCACAAGAAT AAATAATCAT GCATGGAAGC TGCACAAGAA GTCATCTAAT
    GAGGACAAGA TCCTCAACAG GGACCCTGGG GACAGCGAAG CCCCAACGGA GGAGGAGGAG
    AGTGAAGCCC TGCCATAG

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

    RefSeq XP_011523144.1
    CDS57..5054
    Translation

    Target ORF information:

    RefSeq Version XM_011524842.2
    Organism Homo sapiens(human)
    Definition Homo sapiens leucine-rich repeat containing 37 member A2 (LRRC37A2), transcript variant X2, mRNA.

    Target ORF information:

    Epitope DYKDDDDK
    Bacterial selection AMPR
    Mammalian selection NeoR
    Vector pcDNA3.1+/C-(K)DYK
    XM_011524842.2

    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
    4681
    4741
    4801
    4861
    4921
    4981
    ATGTCTTCTG CTCAGTGCCC GGCACTAGTG TGTGTCATGT CCCGGCTGCG TTTCTGGGGC 
    CCATGGCCCC TCCTTATGTG GCAACTATTG TGGCTACTAG TTAAGGAGGC TCAGCCTCTG
    GAGTGGGTCA AGGACCCGCT CCAGCTCACC TCTAATCCCC TGGGGCCGCC TGACTCCTGG
    TCTTCCCACT CCTCCCATTT CCCACGGGAA TCTCCCCATG CGCCTACTCT CCCAGCAGAC
    CCGTGGGACT TTGATCACCT GGGGCCCTCT GCTTCCTCAG AGATGCCAGC CCCACCCCAG
    GAATCGACTG AAAATTTGGT TCCATTCCTG GACACCTGGG ATTCAGCTGG AGAGCAGCCC
    CTGGAGCCAG AGCAGTTCTT GGCTTCACAG CAGGATTTAA AGGACAAGCT GAGTCCACAG
    GAAAGACTCC CTGTTTCGCC CAAGAAGCTG AAGAAAGATC CAGCTCAGCG TTGGAGCCTT
    GCTGAGATTA TTGGAATTAC ACGCCAATTA TCCACACCTC AGAGTCAGAA ACAGACTTTG
    CAGAATGAAT ATTCCAGTAC AGATACACCG TATCCCGGTA GCCTGCCTCC AGAACTCCGG
    GTGAAGTCAG ATGAGCCTCC AGGGCCCTCT GAGCAAGTTG GACCTTCTCA ATTCCATCTA
    GAGCCCGAAA CTCAAAATCC AGAGACCCTT GAAGACATCC AGTCCTCTTC ACTCCAGCAA
    GAAGCCCCAG CACAGCTTCC ACAGCTCCTT GAGGAAGAAC CTTCTTCAAT GCAGCAGGAG
    GCCCCAGCTC TGCCTCCAGA GTCCTCTATG GAGAGTCTAA CTCTACCGAA TCATGAGGTG
    TCAGTTCAAC CTCCAGGTGA GGATCAAGCT TATTATCACT TGCCCAACAT TACAGTTAAA
    CCTGCAGATG TGGAGGTTAC CATAACTTCA GAGCCTACCA ATGAGACAGA ATCTTCCCAA
    GCCCAGCAGG AGACCCCAAT TCAGTTTCCA GAGGAGGTGG AACCTTCTGC AACCCAACAG
    GAGGCCCCAA TTGAGCCTCC AGTTCCTCCT ATGGAGCATG AACTTTCCAT CAGTGAGCAG
    CAGCAGCCAG TTCAGCCTTC TGAGTCTCCT AGGGAGGTCG AATCTTCTCC GACCCAGCAG
    GAGACCCCAG GTCAGCCTCC AGAACATCAT GAAGTCACAG TTTCACCTCC AGGTCACCAT
    CAAACTCATC ATTTAGCTTC ACCCAGTGTC TCTGTGAAGC CTCCAGACGT GCAGCTCACC
    ATAGCAGCAG AGCCTAGTGC AGAGGTGGGA ACTTCTCTAG TCCACCAGGA GGCTACAACT
    CGGCTCTCAG GGTCAGGTAA TGATGTAGAA CCTCCCGCCA TCCAGCACGG GGGCCCACCT
    CTGCTTCCAG AGTCATCAGA AGAAGCTGGA CCTTTAGCAG TTCAACAGGA GACTTCATTT
    CAATCTCCGG AACCTATTAA TAATGAGAAC CCCTCTCCAA CCCAGCAGGA GGCTGCAGCT
    GAGCATCCAC AGACCGCTGA GGAGGGTGAG TCTTCCCTAA CCCATCAGGA GGCCCCAGCT
    CAGACTCCAG AGTTCCCTAA TGTAGTTGTA GCTCAACCTC CAGAGCATTC ACACCTGACT
    CAAGCCACAG TTCAACCTTT GGATCTGGGG TTTACCATCA CTCCAGAATC CAAGACAGAG
    GTTGAACTTT CTCCAACCAT GAAGGAGACC CCAACTCAGC CTCCTAAGAA AGTTGTACCC
    CAACTTCGAG TATATCAAGG GGTAACAAAT CCAACACCAG GTCAGGATCA AGCTCAGCAT
    CCAGTGTCAC CCAGCGTTAC AGTTCAACTT TTGGACCTGG GACTTACCAT CACTCCAGAA
    CCTACTACGG AGGTTGGACA TTCTACACCC CCGAAGAGGA CTATAGTTTC TCCAAAGCAT
    CCTGAGGTGA CACTTCCACA TCCAGACCAG GTTCAGACTC AGCATTCACA CCTGACTCGA
    GCCACAGTTC AACCTTTGGA CCTGGGGTTT ACCATCACTC CAAAATCCAT GACAGAGGTT
    GAACCTTCTA CAGCCCTGAT GACTACAGCT CCTCCTCCAG GACACCCTGA GGTGACACTT
    CCACCTTCAG ACAAGGGTCA GGCTCAGCAT TCACACCTGA CTCAAGCCAC CGTTCAACCT
    CTGGACCTGG AGCTTACCAT AACTACAAAA CCTACTACAG AGGTTAAACC ATCTCCAACC
    ACGGAGGAGA CCTCAACTCA GCCTCCAGAC CTGGGACTTG CCATCATTCC AGAACCCACT
    ACAGAGACTA GACATTCTAC AGCCCTGGAG AAGACTACAG CTCCTCGTCC AGACCGGGTT
    CAGACTCTGC ATCGAAGCCT GACTGAAGTC ACAGGTCCAC CTACTGAACT AGAACCTGCT
    CAGGATTCAC TGGTGCAGTC TGAAAGTTAC ACCCAAAATA AGGCTTTAAC TGCACCAGAG
    GAACACAAGG CCTCCACAAG CACCAACATA TGTGAGCTCT GTACCTGCGG AGATGAGATG
    TTGTCATGTA TTGATCTCAA CCCAGAGCAG AGGCTCCGCC AAGTGCCTGT GCCAGAGCCC
    AACACCCACA ATGGCACCTT CACCATCTTA AATTTCCAAG GAAACTATAT TTCTTACATT
    GATGGAAATG TATGGAAAGC ATACAGTTGG ACCGAGAAAC TAATTCTCAG AGAAAATAAC
    TTGACTGAAT TACACAAGGA TTCATTTGAA GGCCTGCTAT CCCTCCAGTA TTTAGATTTA
    TCCTGCAATA AAATACAGTC TATTGAAAGA CATACATTTG AACCACTACC ATTTTTGAAG
    TTTATAAATC TTAGTTGCAA TGTAATTACA GAACTCAGCT TTGGAACATT TCAGGCCTGG
    CACGGAATGC AGTTTTTACA TAAGTTAATT CTCAATCACA ATCCTCTGAC AACTGTTGAA
    GATCCGTATC TCTTTAAATT GCCAGCATTA AAATATCTAG ACATGGGAAC AACGCTAGTC
    CCACTTACAA CACTTAAGAA CATTCTCATG ATGACTGTTG AACTGGAAAA ACTGATCTTA
    CCTAGCCATA TGGCCTGCTG CCTCTGCCAA TTTAAAAACA GCATTGAGGC TGTCTGCAAG
    ACAGTCAAGC TGCATTGCAA CAGTGCATGT CTGACAAACA CCACACATTG TCCTGAAGAA
    GCATCGGTAG GGAATCCAGA AGGAGCGTTC ATGAAGGTGT TACAAGCCCG GAAGAACTAC
    ACAAGCACTG AGCTGATTGT TGAGCCAGAG GAGCCCTCAG ACAGCAGTGG CATCAACTTG
    TCAGGCTTTG GGAGTGAGCA GCTAGACACC AATGACGAGA GTGATTTTAT CAGTACACTA
    AGTTACATCT TGCCTTATTT CTCAGCGGTA AACCTAGATG TGAAATCACT GTTACTACCG
    TTCATTAAAC TGCCAACCAC AGGAAACAGC CTGGCAAAGA TTCAAACTGT AGGCCAAAAC
    CGGCAGAGAG TGAAGAGAGT CCTCATGGGC CCAAGGAGCA TCCAGAAAAG GCACTTCAAA
    GAGGTAGGAA GGCAGAGCAT CAGGAGGGAA CAGGGTGCCC AGGCATCTGT GGAGAACGCT
    GCCGAAGAAA AAAGGCTCGG GAGTCCAGCC CCAAGGGAGG TGGAACAGCC CCACACACAG
    CAGGGGCCTG AGAAGTTAGC GGGAAACGCC GTCTACACCA AGCCTTCCTT CACCCAAGAG
    CATAAGGCAG CAGTCTCTGT GCTGAAACCC TTCTCCAAGG GCGCGCCTTC TACCTCCAGC
    CCTGCAAAAG CCCTACCACA GGTGAGAGAC AGATGGAAAG ACTTAACCCA CGCTATTTCC
    ATTTTAGAAA GTGCAAAGGC TAGAGTTACA AATACGAAGA CGTCTAAACC AATCGTACAT
    GCCAGAAAAA AATACCGCTT TCACAAAACT CGCTCCCACG TGACCCACAG AACACCCAAA
    GTCAAAAAGA GTCCAAAGGT CAGAAAGAAA AGTTATCTGA GTAGACTGAT GCTCGCAAAC
    AGGCTTCCAT TCTCTGCAGC GAAGAGCCTC ATAAATTCCC CTTCACAAGG GGCTTTTTCA
    TCCTTAGGAG ACCTGAGTCC TCAAGAAAAC CCTTTTCTGG AAGTATCTGC TCCTTCAGAA
    CATTTTATAG AAAACAATAA TACAAAACAC ACAACTGCAA GAAATGCCTT TGAAGAAAAT
    GATTTTATGG AAAACACTAA CATGCCAGAA GGAACCATCT CTGAAAACAC AAACTACAAT
    CATCCTCATG AGGCAGATTC CGCTGGGACT GCATTCAACT TAGGGCCAAC TGTTAAACAA
    ACTGAGACAA AATGGGAATA CAACAACGTG GGCACTGACC TGTCCCCCGA GCCCAAAAGC
    TTCAATTACC CATTGCTCTC GTCCCCAGGT GATCAGTTTG AAATTCAGCT AACCCAGCAG
    CTACAGTCCC TTATCCCCAA CAACAATGTG AGAAGGCTCA TTGCTCATGT TATCCGGACC
    TTGAAGATGG ACTGCTCTGG GGCCCATGTG CAAGTGACCT GTGCCAAGCT CATCTCCAGG
    ACAGGCCACC TGATGAAGCT TCTCAGTGGG CAGCAGGAAG TAAAGGCATC CAAGATAGAA
    TGGGATACGG ACCAATGGAA GATTGAGAAC TACATTAATG AGAGCACAGA AGCCCAGAGT
    GAACAGAAAG AGAAGTCGCT TGAGATATGT TGTCACCGAA GGTCATTACA AGAAGATGAA
    GAAGGATTCT CAAGGGGCAT TTTCAGATTT CTGCCATGGA GGGGATGCTC TTCGCGAAGG
    GAGAGTCAGG ATGGACTTTC CTCATTTGGA CAGCCGCTCT GGTTTAAAGA TATGTACAAA
    CCTCTCAGTG CCACAAGAAT AAATAATCAT GCATGGAAGC TGCACAAGAA GTCATCTAAT
    GAGGACAAGA TCCTCAACAG GGACCCTGGG GACAGCGAAG CCCCAACGGA GGAGGAGGAG
    AGTGAAGCCC TGCCATAG

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

    CloneID OHu80380
    Clone ID Related Accession (Same CDS sequence) XM_011524843.2 , XM_011524843.3
    Accession Version XM_011524843.2 Documents for ORF clone product in default vector
    Sequence Information ORF Nucleotide Sequence (Length: 4956bp)
    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 2016-06-05
    Organism Homo sapiens(human)
    Product leucine-rich repeat-containing protein 37A2 isoform X3
    Comment Comment: MODEL REFSEQ: This record is predicted by automated computational analysis. This record is derived from a genomic sequence (NC_000017.11) annotated using gene prediction method: Gnomon, supported by EST evidence. Also see: Documentation of NCBI's Annotation Process On Jun 6, 2016 this sequence version replaced XM_011524843.1. ##Genome-Annotation-Data-START## Annotation Provider :: NCBI Annotation Status :: Full annotation Annotation Version :: Homo sapiens Annotation Release 108 Annotation Pipeline :: NCBI eukaryotic genome annotation pipeline Annotation Software Version :: 7.0 Annotation Method :: Best-placed RefSeq; Gnomon 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
    4801
    4861
    4921
    ATGTCTTCTG CTCAGTGCCC GGCACTAGTG TGTGTCATGT CCCGGCTGCG TTTCTGGGGC 
    CCATGGCCCC TCCTTATGTG GCAACTATTG TGGCTACTAG TTAAGGAGGC TCAGCCTCTG
    GAGTGGGTCA AGGACCCGCT CCAGCTCACC TCTAATCCCC TGGGGCCGCC TGACTCCTGG
    TCTTCCCACT CCTCCCATTT CCCACGGGAA TCTCCCCATG CGCCTACTCT CCCAGCAGAC
    CCGTGGGACT TTGATCACCT GGGGCCCTCT GCTTCCTCAG AGATGCCAGC CCCACCCCAG
    GAATCGACTG AAAATTTGGT TCCATTCCTG GACACCTGGG ATTCAGCTGG AGAGCAGCCC
    CTGGAGCCAG AGCAGTTCTT GGCTTCACAG CAGGATTTAA AGGACAAGCT GAGTCCACAG
    GAAAGACTCC CTGTTTCGCC CAAGAAGCTG AAGAAAGATC CAGCTCAGCG TTGGAGCCTT
    GCTGAGATTA TTGGAATTAC ACGCCAATTA TCCACACCTC AGAGTCAGAA ACAGACTTTG
    CAGAATGAAT ATTCCAGTAC AGATACACCG TATCCCGGTA GCCTGCCTCC AGAACTCCGG
    GTGAAGTCAG ATGAGCCTCC AGGGCCCTCT GAGCAAGTTG GACCTTCTCA ATTCCATCTA
    GAGCCCGAAA CTCAAAATCC AGAGACCCTT GAAGACATCC AGTCCTCTTC ACTCCAGCAA
    GAAGCCCCAG CACAGCTTCC ACAGCTCCTT GAGGAAGAAC CTTCTTCAAT GCAGCAGGAG
    GCCCCAGCTC TGCCTCCAGA GTCCTCTATG GAGAGTCTAA CTCTACCGAA TCATGAGGTG
    TCAGTTCAAC CTCCAGGTGA GGATCAAGCT TATTATCACT TGCCCAACAT TACAGTTAAA
    CCTGCAGATG TGGAGGTTAC CATAACTTCA GAGCCTACCA ATGAGACAGA ATCTTCCCAA
    GCCCAGCAGG AGACCCCAAT TCAGTTTCCA GAGGAGGTGG AACCTTCTGC AACCCAACAG
    GAGGCCCCAA TTGAGCCTCC AGTTCCTCCT ATGGAGCATG AACTTTCCAT CAGTGAGCAG
    CAGCAGCCAG TTCAGCCTTC TGAGTCTCCT AGGGAGGTCG AATCTTCTCC GACCCAGCAG
    GAGACCCCAG GTCAGCCTCC AGAACATCAT GAAGTCACAG TTTCACCTCC AGGTCACCAT
    CAAACTCATC ATTTAGCTTC ACCCAGTGTC TCTGTGAAGC CTCCAGACGT GCAGCTCACC
    ATAGCAGCAG AGCCTAGTGC AGAGGTGGGA ACTTCTCTAG TCCACCAGGA GGCTACAACT
    CGGCTCTCAG GGTCAGGTAA TGATGTAGAA CCTCCCGCCA TCCAGCACGG GGGCCCACCT
    CTGCTTCCAG AGTCATCAGA AGAAGCTGGA CCTTTAGCAG TTCAACAGGA GACTTCATTT
    CAATCTCCGG AACCTATTAA TAATGAGAAC CCCTCTCCAA CCCAGCAGGA GGCTGCAGCT
    GAGCATCCAC AGACCGCTGA GGAGGGTGAG TCTTCCCTAA CCCATCAGGA GGCCCCAGCT
    CAGACTCCAG AGTTCCCTAA TGTAGTTGTA GCTCAACCTC CAGAGCATTC ACACCTGACT
    CAAGCCACAG TTCAACCTTT GGATCTGGGG TTTACCATCA CTCCAGAATC CAAGACAGAG
    GTTGAACTTT CTCCAACCAT GAAGGAGACC CCAACTCAGC CTCCTAAGAA AGTTGTACCC
    CAACTTCGAG TATATCAAGG GGTAACAAAT CCAACACCAG GTCAGGATCA AGCTCAGCAT
    CCAGTGTCAC CCAGCGTTAC AGTTCAACTT TTGGACCTGG GACTTACCAT CACTCCAGAA
    CCTACTACGG AGGTTGGACA TTCTACACCC CCGAAGAGGA CTATAGTTTC TCCAAAGCAT
    CCTGAGGTGA CACTTCCACA TCCAGACCAG GTTCAGACTC AGCATTCACA CCTGACTCGA
    GCCACAGTTC AACCTTTGGA CCTGGGGTTT ACCATCACTC CAAAATCCAT GACAGAGGTT
    GAACCTTCTA CAGCCCTGAT GACTACAGCT CCTCCTCCAG GACACCCTGA GGTGACACTT
    CCACCTTCAG ACAAGGGTCA GGCTCAGCAT TCACACCTGA CTCAAGCCAC CGTTCAACCT
    CTGGACCTGG AGCTTACCAT AACTACAAAA CCTACTACAG AGGTTAAACC ATCTCCAACC
    ACGGAGGAGA CCTCAACTCA GCCTCCAGAC CTGGGACTTG CCATCATTCC AGAACCCACT
    ACAGAGACTA GACATTCTAC AGCCCTGGAG AAGACTACAG CTCCTCGTCC AGACCGGGTT
    CAGACTCTGC ATCGAAGCCT GACTGAAGTC ACAGGTCCAC CTACTGAACT AGAACCTGCT
    CAGGATTCAC TGGTGCAGTC TGAAAGTTAC ACCCAAAATA AGGCTTTAAC TGCACCAGAG
    GAACACAAGG CCTCCACAAG CACCAACATA TGTGAGCTCT GTACCTGCGG AGATGAGATG
    TTGTCATGTA TTGATCTCAA CCCAGAGCAG AGGCTCCGCC AAGTGCCTGT GCCAGAGCCC
    AACACCCACA ATGGCACCTT CACCATCTTA AATTTCCAAG GAAACTATAT TTCTTACATT
    GATGGAAATG TATGGAAAGC ATACAGTTGG ACCGAGAAAC TAATTCTCAG AGAAAATAAC
    TTGACTGAAT TACACAAGGA TTCATTTGAA GGCCTGCTAT CCCTCCAGTA TTTAGATTTA
    TCCTGCAATA AAATACAGTC TATTGAAAGA CATACATTTG AACCACTACC ATTTTTGAAG
    TTTATAAATC TTAGTTGCAA TGTAATTACA GAACTCAGCT TTGGAACATT TCAGGCCTGG
    CACGGAATGC AGTTTTTACA TAAGTTGATC TTACCTAGCC ATATGGCCTG CTGCCTCTGC
    CAATTTAAAA ACAGCATTGA GGCTGTCTGC AAGACAGTCA AGCTGCATTG CAACAGTGCA
    TGTCTGACAA ACACCACACA TTGTCCTGAA GAAGCATCGG TAGGGAATCC AGAAGGAGCG
    TTCATGAAGG TGTTACAAGC CCGGAAGAAC TACACAAGCA CTGAGCTGAT TGTTGAGCCA
    GAGGAGCCCT CAGACAGCAG TGGCATCAAC TTGTCAGGCT TTGGGAGTGA GCAGCTAGAC
    ACCAATGACG AGAGTGATTT TATCAGTACA CTAAGTTACA TCTTGCCTTA TTTCTCAGCG
    GTAAACCTAG ATGTGAAATC ACTGTTACTA CCGTTCATTA AACTGCCAAC CACAGGAAAC
    AGCCTGGCAA AGATTCAAAC TGTAGGCCAA AACCGGCAGA GAGTGAAGAG AGTCCTCATG
    GGCCCAAGGA GCATCCAGAA AAGGCACTTC AAAGAGGTAG GAAGGCAGAG CATCAGGAGG
    GAACAGGGTG CCCAGGCATC TGTGGAGAAC GCTGCCGAAG AAAAAAGGCT CGGGAGTCCA
    GCCCCAAGGG AGGTGGAACA GCCCCACACA CAGCAGGGGC CTGAGAAGTT AGCGGGAAAC
    GCCGTCTACA CCAAGCCTTC CTTCACCCAA GAGCATAAGG CAGCAGTCTC TGTGCTGAAA
    CCCTTCTCCA AGGGCGCGCC TTCTACCTCC AGCCCTGCAA AAGCCCTACC ACAGGTGAGA
    GACAGATGGA AAGACTTAAC CCACGCTATT TCCATTTTAG AAAGTGCAAA GGCTAGAGTT
    ACAAATACGA AGACGTCTAA ACCAATCGTA CATGCCAGAA AAAAATACCG CTTTCACAAA
    ACTCGCTCCC ACGTGACCCA CAGAACACCC AAAGTCAAAA AGAGTCCAAA GGTCAGAAAG
    AAAAGTTATC TGAGTAGACT GATGCTCGCA AACAGGCTTC CATTCTCTGC AGCGAAGAGC
    CTCATAAATT CCCCTTCACA AGGGGCTTTT TCATCCTTAG GAGACCTGAG TCCTCAAGAA
    AACCCTTTTC TGGAAGTATC TGCTCCTTCA GAACATTTTA TAGAAAACAA TAATACAAAA
    CACACAACTG CAAGAAATGC CTTTGAAGAA AATGATTTTA TGGAAAACAC TAACATGCCA
    GAAGGAACCA TCTCTGAAAA CACAAACTAC AATCATCCTC ATGAGGCAGA TTCCGCTGGG
    ACTGCATTCA ACTTAGGGCC AACTGTTAAA CAAACTGAGA CAAAATGGGA ATACAACAAC
    GTGGGCACTG ACCTGTCCCC CGAGCCCAAA AGCTTCAATT ACCCATTGCT CTCGTCCCCA
    GGTGATCAGT TTGAAATTCA GCTAACCCAG CAGCTACAGT CCCTTATCCC CAACAACAAT
    GTGAGAAGGC TCATTGCTCA TGTTATCCGG ACCTTGAAGA TGGACTGCTC TGGGGCCCAT
    GTGCAAGTGA CCTGTGCCAA GCTCATCTCC AGGACAGGCC ACCTGATGAA GCTTCTCAGT
    GGGCAGCAGG AAGTAAAGGC ATCCAAGATA GAATGGGATA CGGACCAATG GAAGATTGAG
    AACTACATTA ATGAGAGCAC AGAAGCCCAG AGTGAACAGA AAGAGAAGTC GCTTGAGCTC
    AAAAAAGAAG TTCCAGGATA TGGCTATACT GACAAACTCA TCTTGGCATT AATTGTTACT
    GGAATACTAA CGATTTTGAT TATACTTTTC TGCCTCATTG TGATATGTTG TCACCGAAGG
    TCATTACAAG AAGATGAAGA AGGATTCTCA AGGGGCATTT TCAGATTTCT GCCATGGAGG
    GGATGCTCTT CGCGAAGGGA GAGTCAGGAT GGACTTTCCT CATTTGGACA GCCGCTCTGG
    TTTAAAGATA TGTACAAACC TCTCAGTGCC ACAAGAATAA ATAATCATGC ATGGAAGCTG
    CACAAGAAGT CATCTAATGA GGACAAGATC CTCAACAGGG ACCCTGGGGA CAGCGAAGCC
    CCAACGGAGG AGGAGGAGAG TGAAGCCCTG CCATAG

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

    RefSeq XP_011523145.1
    CDS57..5012
    Translation

    Target ORF information:

    RefSeq Version XM_011524843.2
    Organism Homo sapiens(human)
    Definition Homo sapiens leucine-rich repeat containing 37 member A2 (LRRC37A2), transcript variant X3, mRNA.

    Target ORF information:

    Epitope DYKDDDDK
    Bacterial selection AMPR
    Mammalian selection NeoR
    Vector pcDNA3.1+/C-(K)DYK
    XM_011524843.2

    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
    4681
    4741
    4801
    4861
    4921
    ATGTCTTCTG CTCAGTGCCC GGCACTAGTG TGTGTCATGT CCCGGCTGCG TTTCTGGGGC 
    CCATGGCCCC TCCTTATGTG GCAACTATTG TGGCTACTAG TTAAGGAGGC TCAGCCTCTG
    GAGTGGGTCA AGGACCCGCT CCAGCTCACC TCTAATCCCC TGGGGCCGCC TGACTCCTGG
    TCTTCCCACT CCTCCCATTT CCCACGGGAA TCTCCCCATG CGCCTACTCT CCCAGCAGAC
    CCGTGGGACT TTGATCACCT GGGGCCCTCT GCTTCCTCAG AGATGCCAGC CCCACCCCAG
    GAATCGACTG AAAATTTGGT TCCATTCCTG GACACCTGGG ATTCAGCTGG AGAGCAGCCC
    CTGGAGCCAG AGCAGTTCTT GGCTTCACAG CAGGATTTAA AGGACAAGCT GAGTCCACAG
    GAAAGACTCC CTGTTTCGCC CAAGAAGCTG AAGAAAGATC CAGCTCAGCG TTGGAGCCTT
    GCTGAGATTA TTGGAATTAC ACGCCAATTA TCCACACCTC AGAGTCAGAA ACAGACTTTG
    CAGAATGAAT ATTCCAGTAC AGATACACCG TATCCCGGTA GCCTGCCTCC AGAACTCCGG
    GTGAAGTCAG ATGAGCCTCC AGGGCCCTCT GAGCAAGTTG GACCTTCTCA ATTCCATCTA
    GAGCCCGAAA CTCAAAATCC AGAGACCCTT GAAGACATCC AGTCCTCTTC ACTCCAGCAA
    GAAGCCCCAG CACAGCTTCC ACAGCTCCTT GAGGAAGAAC CTTCTTCAAT GCAGCAGGAG
    GCCCCAGCTC TGCCTCCAGA GTCCTCTATG GAGAGTCTAA CTCTACCGAA TCATGAGGTG
    TCAGTTCAAC CTCCAGGTGA GGATCAAGCT TATTATCACT TGCCCAACAT TACAGTTAAA
    CCTGCAGATG TGGAGGTTAC CATAACTTCA GAGCCTACCA ATGAGACAGA ATCTTCCCAA
    GCCCAGCAGG AGACCCCAAT TCAGTTTCCA GAGGAGGTGG AACCTTCTGC AACCCAACAG
    GAGGCCCCAA TTGAGCCTCC AGTTCCTCCT ATGGAGCATG AACTTTCCAT CAGTGAGCAG
    CAGCAGCCAG TTCAGCCTTC TGAGTCTCCT AGGGAGGTCG AATCTTCTCC GACCCAGCAG
    GAGACCCCAG GTCAGCCTCC AGAACATCAT GAAGTCACAG TTTCACCTCC AGGTCACCAT
    CAAACTCATC ATTTAGCTTC ACCCAGTGTC TCTGTGAAGC CTCCAGACGT GCAGCTCACC
    ATAGCAGCAG AGCCTAGTGC AGAGGTGGGA ACTTCTCTAG TCCACCAGGA GGCTACAACT
    CGGCTCTCAG GGTCAGGTAA TGATGTAGAA CCTCCCGCCA TCCAGCACGG GGGCCCACCT
    CTGCTTCCAG AGTCATCAGA AGAAGCTGGA CCTTTAGCAG TTCAACAGGA GACTTCATTT
    CAATCTCCGG AACCTATTAA TAATGAGAAC CCCTCTCCAA CCCAGCAGGA GGCTGCAGCT
    GAGCATCCAC AGACCGCTGA GGAGGGTGAG TCTTCCCTAA CCCATCAGGA GGCCCCAGCT
    CAGACTCCAG AGTTCCCTAA TGTAGTTGTA GCTCAACCTC CAGAGCATTC ACACCTGACT
    CAAGCCACAG TTCAACCTTT GGATCTGGGG TTTACCATCA CTCCAGAATC CAAGACAGAG
    GTTGAACTTT CTCCAACCAT GAAGGAGACC CCAACTCAGC CTCCTAAGAA AGTTGTACCC
    CAACTTCGAG TATATCAAGG GGTAACAAAT CCAACACCAG GTCAGGATCA AGCTCAGCAT
    CCAGTGTCAC CCAGCGTTAC AGTTCAACTT TTGGACCTGG GACTTACCAT CACTCCAGAA
    CCTACTACGG AGGTTGGACA TTCTACACCC CCGAAGAGGA CTATAGTTTC TCCAAAGCAT
    CCTGAGGTGA CACTTCCACA TCCAGACCAG GTTCAGACTC AGCATTCACA CCTGACTCGA
    GCCACAGTTC AACCTTTGGA CCTGGGGTTT ACCATCACTC CAAAATCCAT GACAGAGGTT
    GAACCTTCTA CAGCCCTGAT GACTACAGCT CCTCCTCCAG GACACCCTGA GGTGACACTT
    CCACCTTCAG ACAAGGGTCA GGCTCAGCAT TCACACCTGA CTCAAGCCAC CGTTCAACCT
    CTGGACCTGG AGCTTACCAT AACTACAAAA CCTACTACAG AGGTTAAACC ATCTCCAACC
    ACGGAGGAGA CCTCAACTCA GCCTCCAGAC CTGGGACTTG CCATCATTCC AGAACCCACT
    ACAGAGACTA GACATTCTAC AGCCCTGGAG AAGACTACAG CTCCTCGTCC AGACCGGGTT
    CAGACTCTGC ATCGAAGCCT GACTGAAGTC ACAGGTCCAC CTACTGAACT AGAACCTGCT
    CAGGATTCAC TGGTGCAGTC TGAAAGTTAC ACCCAAAATA AGGCTTTAAC TGCACCAGAG
    GAACACAAGG CCTCCACAAG CACCAACATA TGTGAGCTCT GTACCTGCGG AGATGAGATG
    TTGTCATGTA TTGATCTCAA CCCAGAGCAG AGGCTCCGCC AAGTGCCTGT GCCAGAGCCC
    AACACCCACA ATGGCACCTT CACCATCTTA AATTTCCAAG GAAACTATAT TTCTTACATT
    GATGGAAATG TATGGAAAGC ATACAGTTGG ACCGAGAAAC TAATTCTCAG AGAAAATAAC
    TTGACTGAAT TACACAAGGA TTCATTTGAA GGCCTGCTAT CCCTCCAGTA TTTAGATTTA
    TCCTGCAATA AAATACAGTC TATTGAAAGA CATACATTTG AACCACTACC ATTTTTGAAG
    TTTATAAATC TTAGTTGCAA TGTAATTACA GAACTCAGCT TTGGAACATT TCAGGCCTGG
    CACGGAATGC AGTTTTTACA TAAGTTGATC TTACCTAGCC ATATGGCCTG CTGCCTCTGC
    CAATTTAAAA ACAGCATTGA GGCTGTCTGC AAGACAGTCA AGCTGCATTG CAACAGTGCA
    TGTCTGACAA ACACCACACA TTGTCCTGAA GAAGCATCGG TAGGGAATCC AGAAGGAGCG
    TTCATGAAGG TGTTACAAGC CCGGAAGAAC TACACAAGCA CTGAGCTGAT TGTTGAGCCA
    GAGGAGCCCT CAGACAGCAG TGGCATCAAC TTGTCAGGCT TTGGGAGTGA GCAGCTAGAC
    ACCAATGACG AGAGTGATTT TATCAGTACA CTAAGTTACA TCTTGCCTTA TTTCTCAGCG
    GTAAACCTAG ATGTGAAATC ACTGTTACTA CCGTTCATTA AACTGCCAAC CACAGGAAAC
    AGCCTGGCAA AGATTCAAAC TGTAGGCCAA AACCGGCAGA GAGTGAAGAG AGTCCTCATG
    GGCCCAAGGA GCATCCAGAA AAGGCACTTC AAAGAGGTAG GAAGGCAGAG CATCAGGAGG
    GAACAGGGTG CCCAGGCATC TGTGGAGAAC GCTGCCGAAG AAAAAAGGCT CGGGAGTCCA
    GCCCCAAGGG AGGTGGAACA GCCCCACACA CAGCAGGGGC CTGAGAAGTT AGCGGGAAAC
    GCCGTCTACA CCAAGCCTTC CTTCACCCAA GAGCATAAGG CAGCAGTCTC TGTGCTGAAA
    CCCTTCTCCA AGGGCGCGCC TTCTACCTCC AGCCCTGCAA AAGCCCTACC ACAGGTGAGA
    GACAGATGGA AAGACTTAAC CCACGCTATT TCCATTTTAG AAAGTGCAAA GGCTAGAGTT
    ACAAATACGA AGACGTCTAA ACCAATCGTA CATGCCAGAA AAAAATACCG CTTTCACAAA
    ACTCGCTCCC ACGTGACCCA CAGAACACCC AAAGTCAAAA AGAGTCCAAA GGTCAGAAAG
    AAAAGTTATC TGAGTAGACT GATGCTCGCA AACAGGCTTC CATTCTCTGC AGCGAAGAGC
    CTCATAAATT CCCCTTCACA AGGGGCTTTT TCATCCTTAG GAGACCTGAG TCCTCAAGAA
    AACCCTTTTC TGGAAGTATC TGCTCCTTCA GAACATTTTA TAGAAAACAA TAATACAAAA
    CACACAACTG CAAGAAATGC CTTTGAAGAA AATGATTTTA TGGAAAACAC TAACATGCCA
    GAAGGAACCA TCTCTGAAAA CACAAACTAC AATCATCCTC ATGAGGCAGA TTCCGCTGGG
    ACTGCATTCA ACTTAGGGCC AACTGTTAAA CAAACTGAGA CAAAATGGGA ATACAACAAC
    GTGGGCACTG ACCTGTCCCC CGAGCCCAAA AGCTTCAATT ACCCATTGCT CTCGTCCCCA
    GGTGATCAGT TTGAAATTCA GCTAACCCAG CAGCTACAGT CCCTTATCCC CAACAACAAT
    GTGAGAAGGC TCATTGCTCA TGTTATCCGG ACCTTGAAGA TGGACTGCTC TGGGGCCCAT
    GTGCAAGTGA CCTGTGCCAA GCTCATCTCC AGGACAGGCC ACCTGATGAA GCTTCTCAGT
    GGGCAGCAGG AAGTAAAGGC ATCCAAGATA GAATGGGATA CGGACCAATG GAAGATTGAG
    AACTACATTA ATGAGAGCAC AGAAGCCCAG AGTGAACAGA AAGAGAAGTC GCTTGAGCTC
    AAAAAAGAAG TTCCAGGATA TGGCTATACT GACAAACTCA TCTTGGCATT AATTGTTACT
    GGAATACTAA CGATTTTGAT TATACTTTTC TGCCTCATTG TGATATGTTG TCACCGAAGG
    TCATTACAAG AAGATGAAGA AGGATTCTCA AGGGGCATTT TCAGATTTCT GCCATGGAGG
    GGATGCTCTT CGCGAAGGGA GAGTCAGGAT GGACTTTCCT CATTTGGACA GCCGCTCTGG
    TTTAAAGATA TGTACAAACC TCTCAGTGCC ACAAGAATAA ATAATCATGC ATGGAAGCTG
    CACAAGAAGT CATCTAATGA GGACAAGATC CTCAACAGGG ACCCTGGGGA CAGCGAAGCC
    CCAACGGAGG AGGAGGAGAG TGAAGCCCTG CCATAG

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

    CloneID OHu80380
    Clone ID Related Accession (Same CDS sequence) XM_011524843.2 , XM_011524843.3
    Accession Version XM_011524843.3 Latest version! Documents for ORF clone product in default vector
    Sequence Information ORF Nucleotide Sequence (Length: 4956bp)
    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 leucine-rich repeat-containing protein 37A2 isoform X3
    Comment Comment: MODEL REFSEQ: This record is predicted by automated computational analysis. This record is derived from a genomic sequence (NC_000017.11) annotated using gene prediction method: Gnomon, supported by mRNA and EST evidence. Also see: Documentation of NCBI's Annotation Process On Mar 26, 2018 this sequence version replaced XM_011524843.2. ##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
    4801
    4861
    4921
    ATGTCTTCTG CTCAGTGCCC GGCACTAGTG TGTGTCATGT CCCGGCTGCG TTTCTGGGGC 
    CCATGGCCCC TCCTTATGTG GCAACTATTG TGGCTACTAG TTAAGGAGGC TCAGCCTCTG
    GAGTGGGTCA AGGACCCGCT CCAGCTCACC TCTAATCCCC TGGGGCCGCC TGACTCCTGG
    TCTTCCCACT CCTCCCATTT CCCACGGGAA TCTCCCCATG CGCCTACTCT CCCAGCAGAC
    CCGTGGGACT TTGATCACCT GGGGCCCTCT GCTTCCTCAG AGATGCCAGC CCCACCCCAG
    GAATCGACTG AAAATTTGGT TCCATTCCTG GACACCTGGG ATTCAGCTGG AGAGCAGCCC
    CTGGAGCCAG AGCAGTTCTT GGCTTCACAG CAGGATTTAA AGGACAAGCT GAGTCCACAG
    GAAAGACTCC CTGTTTCGCC CAAGAAGCTG AAGAAAGATC CAGCTCAGCG TTGGAGCCTT
    GCTGAGATTA TTGGAATTAC ACGCCAATTA TCCACACCTC AGAGTCAGAA ACAGACTTTG
    CAGAATGAAT ATTCCAGTAC AGATACACCG TATCCCGGTA GCCTGCCTCC AGAACTCCGG
    GTGAAGTCAG ATGAGCCTCC AGGGCCCTCT GAGCAAGTTG GACCTTCTCA ATTCCATCTA
    GAGCCCGAAA CTCAAAATCC AGAGACCCTT GAAGACATCC AGTCCTCTTC ACTCCAGCAA
    GAAGCCCCAG CACAGCTTCC ACAGCTCCTT GAGGAAGAAC CTTCTTCAAT GCAGCAGGAG
    GCCCCAGCTC TGCCTCCAGA GTCCTCTATG GAGAGTCTAA CTCTACCGAA TCATGAGGTG
    TCAGTTCAAC CTCCAGGTGA GGATCAAGCT TATTATCACT TGCCCAACAT TACAGTTAAA
    CCTGCAGATG TGGAGGTTAC CATAACTTCA GAGCCTACCA ATGAGACAGA ATCTTCCCAA
    GCCCAGCAGG AGACCCCAAT TCAGTTTCCA GAGGAGGTGG AACCTTCTGC AACCCAACAG
    GAGGCCCCAA TTGAGCCTCC AGTTCCTCCT ATGGAGCATG AACTTTCCAT CAGTGAGCAG
    CAGCAGCCAG TTCAGCCTTC TGAGTCTCCT AGGGAGGTCG AATCTTCTCC GACCCAGCAG
    GAGACCCCAG GTCAGCCTCC AGAACATCAT GAAGTCACAG TTTCACCTCC AGGTCACCAT
    CAAACTCATC ATTTAGCTTC ACCCAGTGTC TCTGTGAAGC CTCCAGACGT GCAGCTCACC
    ATAGCAGCAG AGCCTAGTGC AGAGGTGGGA ACTTCTCTAG TCCACCAGGA GGCTACAACT
    CGGCTCTCAG GGTCAGGTAA TGATGTAGAA CCTCCCGCCA TCCAGCACGG GGGCCCACCT
    CTGCTTCCAG AGTCATCAGA AGAAGCTGGA CCTTTAGCAG TTCAACAGGA GACTTCATTT
    CAATCTCCGG AACCTATTAA TAATGAGAAC CCCTCTCCAA CCCAGCAGGA GGCTGCAGCT
    GAGCATCCAC AGACCGCTGA GGAGGGTGAG TCTTCCCTAA CCCATCAGGA GGCCCCAGCT
    CAGACTCCAG AGTTCCCTAA TGTAGTTGTA GCTCAACCTC CAGAGCATTC ACACCTGACT
    CAAGCCACAG TTCAACCTTT GGATCTGGGG TTTACCATCA CTCCAGAATC CAAGACAGAG
    GTTGAACTTT CTCCAACCAT GAAGGAGACC CCAACTCAGC CTCCTAAGAA AGTTGTACCC
    CAACTTCGAG TATATCAAGG GGTAACAAAT CCAACACCAG GTCAGGATCA AGCTCAGCAT
    CCAGTGTCAC CCAGCGTTAC AGTTCAACTT TTGGACCTGG GACTTACCAT CACTCCAGAA
    CCTACTACGG AGGTTGGACA TTCTACACCC CCGAAGAGGA CTATAGTTTC TCCAAAGCAT
    CCTGAGGTGA CACTTCCACA TCCAGACCAG GTTCAGACTC AGCATTCACA CCTGACTCGA
    GCCACAGTTC AACCTTTGGA CCTGGGGTTT ACCATCACTC CAAAATCCAT GACAGAGGTT
    GAACCTTCTA CAGCCCTGAT GACTACAGCT CCTCCTCCAG GACACCCTGA GGTGACACTT
    CCACCTTCAG ACAAGGGTCA GGCTCAGCAT TCACACCTGA CTCAAGCCAC CGTTCAACCT
    CTGGACCTGG AGCTTACCAT AACTACAAAA CCTACTACAG AGGTTAAACC ATCTCCAACC
    ACGGAGGAGA CCTCAACTCA GCCTCCAGAC CTGGGACTTG CCATCATTCC AGAACCCACT
    ACAGAGACTA GACATTCTAC AGCCCTGGAG AAGACTACAG CTCCTCGTCC AGACCGGGTT
    CAGACTCTGC ATCGAAGCCT GACTGAAGTC ACAGGTCCAC CTACTGAACT AGAACCTGCT
    CAGGATTCAC TGGTGCAGTC TGAAAGTTAC ACCCAAAATA AGGCTTTAAC TGCACCAGAG
    GAACACAAGG CCTCCACAAG CACCAACATA TGTGAGCTCT GTACCTGCGG AGATGAGATG
    TTGTCATGTA TTGATCTCAA CCCAGAGCAG AGGCTCCGCC AAGTGCCTGT GCCAGAGCCC
    AACACCCACA ATGGCACCTT CACCATCTTA AATTTCCAAG GAAACTATAT TTCTTACATT
    GATGGAAATG TATGGAAAGC ATACAGTTGG ACCGAGAAAC TAATTCTCAG AGAAAATAAC
    TTGACTGAAT TACACAAGGA TTCATTTGAA GGCCTGCTAT CCCTCCAGTA TTTAGATTTA
    TCCTGCAATA AAATACAGTC TATTGAAAGA CATACATTTG AACCACTACC ATTTTTGAAG
    TTTATAAATC TTAGTTGCAA TGTAATTACA GAACTCAGCT TTGGAACATT TCAGGCCTGG
    CACGGAATGC AGTTTTTACA TAAGTTGATC TTACCTAGCC ATATGGCCTG CTGCCTCTGC
    CAATTTAAAA ACAGCATTGA GGCTGTCTGC AAGACAGTCA AGCTGCATTG CAACAGTGCA
    TGTCTGACAA ACACCACACA TTGTCCTGAA GAAGCATCGG TAGGGAATCC AGAAGGAGCG
    TTCATGAAGG TGTTACAAGC CCGGAAGAAC TACACAAGCA CTGAGCTGAT TGTTGAGCCA
    GAGGAGCCCT CAGACAGCAG TGGCATCAAC TTGTCAGGCT TTGGGAGTGA GCAGCTAGAC
    ACCAATGACG AGAGTGATTT TATCAGTACA CTAAGTTACA TCTTGCCTTA TTTCTCAGCG
    GTAAACCTAG ATGTGAAATC ACTGTTACTA CCGTTCATTA AACTGCCAAC CACAGGAAAC
    AGCCTGGCAA AGATTCAAAC TGTAGGCCAA AACCGGCAGA GAGTGAAGAG AGTCCTCATG
    GGCCCAAGGA GCATCCAGAA AAGGCACTTC AAAGAGGTAG GAAGGCAGAG CATCAGGAGG
    GAACAGGGTG CCCAGGCATC TGTGGAGAAC GCTGCCGAAG AAAAAAGGCT CGGGAGTCCA
    GCCCCAAGGG AGGTGGAACA GCCCCACACA CAGCAGGGGC CTGAGAAGTT AGCGGGAAAC
    GCCGTCTACA CCAAGCCTTC CTTCACCCAA GAGCATAAGG CAGCAGTCTC TGTGCTGAAA
    CCCTTCTCCA AGGGCGCGCC TTCTACCTCC AGCCCTGCAA AAGCCCTACC ACAGGTGAGA
    GACAGATGGA AAGACTTAAC CCACGCTATT TCCATTTTAG AAAGTGCAAA GGCTAGAGTT
    ACAAATACGA AGACGTCTAA ACCAATCGTA CATGCCAGAA AAAAATACCG CTTTCACAAA
    ACTCGCTCCC ACGTGACCCA CAGAACACCC AAAGTCAAAA AGAGTCCAAA GGTCAGAAAG
    AAAAGTTATC TGAGTAGACT GATGCTCGCA AACAGGCTTC CATTCTCTGC AGCGAAGAGC
    CTCATAAATT CCCCTTCACA AGGGGCTTTT TCATCCTTAG GAGACCTGAG TCCTCAAGAA
    AACCCTTTTC TGGAAGTATC TGCTCCTTCA GAACATTTTA TAGAAAACAA TAATACAAAA
    CACACAACTG CAAGAAATGC CTTTGAAGAA AATGATTTTA TGGAAAACAC TAACATGCCA
    GAAGGAACCA TCTCTGAAAA CACAAACTAC AATCATCCTC ATGAGGCAGA TTCCGCTGGG
    ACTGCATTCA ACTTAGGGCC AACTGTTAAA CAAACTGAGA CAAAATGGGA ATACAACAAC
    GTGGGCACTG ACCTGTCCCC CGAGCCCAAA AGCTTCAATT ACCCATTGCT CTCGTCCCCA
    GGTGATCAGT TTGAAATTCA GCTAACCCAG CAGCTACAGT CCCTTATCCC CAACAACAAT
    GTGAGAAGGC TCATTGCTCA TGTTATCCGG ACCTTGAAGA TGGACTGCTC TGGGGCCCAT
    GTGCAAGTGA CCTGTGCCAA GCTCATCTCC AGGACAGGCC ACCTGATGAA GCTTCTCAGT
    GGGCAGCAGG AAGTAAAGGC ATCCAAGATA GAATGGGATA CGGACCAATG GAAGATTGAG
    AACTACATTA ATGAGAGCAC AGAAGCCCAG AGTGAACAGA AAGAGAAGTC GCTTGAGCTC
    AAAAAAGAAG TTCCAGGATA TGGCTATACT GACAAACTCA TCTTGGCATT AATTGTTACT
    GGAATACTAA CGATTTTGAT TATACTTTTC TGCCTCATTG TGATATGTTG TCACCGAAGG
    TCATTACAAG AAGATGAAGA AGGATTCTCA AGGGGCATTT TCAGATTTCT GCCATGGAGG
    GGATGCTCTT CGCGAAGGGA GAGTCAGGAT GGACTTTCCT CATTTGGACA GCCGCTCTGG
    TTTAAAGATA TGTACAAACC TCTCAGTGCC ACAAGAATAA ATAATCATGC ATGGAAGCTG
    CACAAGAAGT CATCTAATGA GGACAAGATC CTCAACAGGG ACCCTGGGGA CAGCGAAGCC
    CCAACGGAGG AGGAGGAGAG TGAAGCCCTG CCATAG

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

    RefSeq XP_011523145.1
    CDS4..4959
    Translation

    Target ORF information:

    RefSeq Version XM_011524843.3
    Organism Homo sapiens(human)
    Definition Homo sapiens leucine rich repeat containing 37 member A2 (LRRC37A2), transcript variant X3, mRNA.

    Target ORF information:

    Epitope DYKDDDDK
    Bacterial selection AMPR
    Mammalian selection NeoR
    Vector pcDNA3.1+/C-(K)DYK
    XM_011524843.3

    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
    4801
    4861
    4921
    ATGTCTTCTG CTCAGTGCCC GGCACTAGTG TGTGTCATGT CCCGGCTGCG TTTCTGGGGC 
    CCATGGCCCC TCCTTATGTG GCAACTATTG TGGCTACTAG TTAAGGAGGC TCAGCCTCTG
    GAGTGGGTCA AGGACCCGCT CCAGCTCACC TCTAATCCCC TGGGGCCGCC TGACTCCTGG
    TCTTCCCACT CCTCCCATTT CCCACGGGAA TCTCCCCATG CGCCTACTCT CCCAGCAGAC
    CCGTGGGACT TTGATCACCT GGGGCCCTCT GCTTCCTCAG AGATGCCAGC CCCACCCCAG
    GAATCGACTG AAAATTTGGT TCCATTCCTG GACACCTGGG ATTCAGCTGG AGAGCAGCCC
    CTGGAGCCAG AGCAGTTCTT GGCTTCACAG CAGGATTTAA AGGACAAGCT GAGTCCACAG
    GAAAGACTCC CTGTTTCGCC CAAGAAGCTG AAGAAAGATC CAGCTCAGCG TTGGAGCCTT
    GCTGAGATTA TTGGAATTAC ACGCCAATTA TCCACACCTC AGAGTCAGAA ACAGACTTTG
    CAGAATGAAT ATTCCAGTAC AGATACACCG TATCCCGGTA GCCTGCCTCC AGAACTCCGG
    GTGAAGTCAG ATGAGCCTCC AGGGCCCTCT GAGCAAGTTG GACCTTCTCA ATTCCATCTA
    GAGCCCGAAA CTCAAAATCC AGAGACCCTT GAAGACATCC AGTCCTCTTC ACTCCAGCAA
    GAAGCCCCAG CACAGCTTCC ACAGCTCCTT GAGGAAGAAC CTTCTTCAAT GCAGCAGGAG
    GCCCCAGCTC TGCCTCCAGA GTCCTCTATG GAGAGTCTAA CTCTACCGAA TCATGAGGTG
    TCAGTTCAAC CTCCAGGTGA GGATCAAGCT TATTATCACT TGCCCAACAT TACAGTTAAA
    CCTGCAGATG TGGAGGTTAC CATAACTTCA GAGCCTACCA ATGAGACAGA ATCTTCCCAA
    GCCCAGCAGG AGACCCCAAT TCAGTTTCCA GAGGAGGTGG AACCTTCTGC AACCCAACAG
    GAGGCCCCAA TTGAGCCTCC AGTTCCTCCT ATGGAGCATG AACTTTCCAT CAGTGAGCAG
    CAGCAGCCAG TTCAGCCTTC TGAGTCTCCT AGGGAGGTCG AATCTTCTCC GACCCAGCAG
    GAGACCCCAG GTCAGCCTCC AGAACATCAT GAAGTCACAG TTTCACCTCC AGGTCACCAT
    CAAACTCATC ATTTAGCTTC ACCCAGTGTC TCTGTGAAGC CTCCAGACGT GCAGCTCACC
    ATAGCAGCAG AGCCTAGTGC AGAGGTGGGA ACTTCTCTAG TCCACCAGGA GGCTACAACT
    CGGCTCTCAG GGTCAGGTAA TGATGTAGAA CCTCCCGCCA TCCAGCACGG GGGCCCACCT
    CTGCTTCCAG AGTCATCAGA AGAAGCTGGA CCTTTAGCAG TTCAACAGGA GACTTCATTT
    CAATCTCCGG AACCTATTAA TAATGAGAAC CCCTCTCCAA CCCAGCAGGA GGCTGCAGCT
    GAGCATCCAC AGACCGCTGA GGAGGGTGAG TCTTCCCTAA CCCATCAGGA GGCCCCAGCT
    CAGACTCCAG AGTTCCCTAA TGTAGTTGTA GCTCAACCTC CAGAGCATTC ACACCTGACT
    CAAGCCACAG TTCAACCTTT GGATCTGGGG TTTACCATCA CTCCAGAATC CAAGACAGAG
    GTTGAACTTT CTCCAACCAT GAAGGAGACC CCAACTCAGC CTCCTAAGAA AGTTGTACCC
    CAACTTCGAG TATATCAAGG GGTAACAAAT CCAACACCAG GTCAGGATCA AGCTCAGCAT
    CCAGTGTCAC CCAGCGTTAC AGTTCAACTT TTGGACCTGG GACTTACCAT CACTCCAGAA
    CCTACTACGG AGGTTGGACA TTCTACACCC CCGAAGAGGA CTATAGTTTC TCCAAAGCAT
    CCTGAGGTGA CACTTCCACA TCCAGACCAG GTTCAGACTC AGCATTCACA CCTGACTCGA
    GCCACAGTTC AACCTTTGGA CCTGGGGTTT ACCATCACTC CAAAATCCAT GACAGAGGTT
    GAACCTTCTA CAGCCCTGAT GACTACAGCT CCTCCTCCAG GACACCCTGA GGTGACACTT
    CCACCTTCAG ACAAGGGTCA GGCTCAGCAT TCACACCTGA CTCAAGCCAC CGTTCAACCT
    CTGGACCTGG AGCTTACCAT AACTACAAAA CCTACTACAG AGGTTAAACC ATCTCCAACC
    ACGGAGGAGA CCTCAACTCA GCCTCCAGAC CTGGGACTTG CCATCATTCC AGAACCCACT
    ACAGAGACTA GACATTCTAC AGCCCTGGAG AAGACTACAG CTCCTCGTCC AGACCGGGTT
    CAGACTCTGC ATCGAAGCCT GACTGAAGTC ACAGGTCCAC CTACTGAACT AGAACCTGCT
    CAGGATTCAC TGGTGCAGTC TGAAAGTTAC ACCCAAAATA AGGCTTTAAC TGCACCAGAG
    GAACACAAGG CCTCCACAAG CACCAACATA TGTGAGCTCT GTACCTGCGG AGATGAGATG
    TTGTCATGTA TTGATCTCAA CCCAGAGCAG AGGCTCCGCC AAGTGCCTGT GCCAGAGCCC
    AACACCCACA ATGGCACCTT CACCATCTTA AATTTCCAAG GAAACTATAT TTCTTACATT
    GATGGAAATG TATGGAAAGC ATACAGTTGG ACCGAGAAAC TAATTCTCAG AGAAAATAAC
    TTGACTGAAT TACACAAGGA TTCATTTGAA GGCCTGCTAT CCCTCCAGTA TTTAGATTTA
    TCCTGCAATA AAATACAGTC TATTGAAAGA CATACATTTG AACCACTACC ATTTTTGAAG
    TTTATAAATC TTAGTTGCAA TGTAATTACA GAACTCAGCT TTGGAACATT TCAGGCCTGG
    CACGGAATGC AGTTTTTACA TAAGTTGATC TTACCTAGCC ATATGGCCTG CTGCCTCTGC
    CAATTTAAAA ACAGCATTGA GGCTGTCTGC AAGACAGTCA AGCTGCATTG CAACAGTGCA
    TGTCTGACAA ACACCACACA TTGTCCTGAA GAAGCATCGG TAGGGAATCC AGAAGGAGCG
    TTCATGAAGG TGTTACAAGC CCGGAAGAAC TACACAAGCA CTGAGCTGAT TGTTGAGCCA
    GAGGAGCCCT CAGACAGCAG TGGCATCAAC TTGTCAGGCT TTGGGAGTGA GCAGCTAGAC
    ACCAATGACG AGAGTGATTT TATCAGTACA CTAAGTTACA TCTTGCCTTA TTTCTCAGCG
    GTAAACCTAG ATGTGAAATC ACTGTTACTA CCGTTCATTA AACTGCCAAC CACAGGAAAC
    AGCCTGGCAA AGATTCAAAC TGTAGGCCAA AACCGGCAGA GAGTGAAGAG AGTCCTCATG
    GGCCCAAGGA GCATCCAGAA AAGGCACTTC AAAGAGGTAG GAAGGCAGAG CATCAGGAGG
    GAACAGGGTG CCCAGGCATC TGTGGAGAAC GCTGCCGAAG AAAAAAGGCT CGGGAGTCCA
    GCCCCAAGGG AGGTGGAACA GCCCCACACA CAGCAGGGGC CTGAGAAGTT AGCGGGAAAC
    GCCGTCTACA CCAAGCCTTC CTTCACCCAA GAGCATAAGG CAGCAGTCTC TGTGCTGAAA
    CCCTTCTCCA AGGGCGCGCC TTCTACCTCC AGCCCTGCAA AAGCCCTACC ACAGGTGAGA
    GACAGATGGA AAGACTTAAC CCACGCTATT TCCATTTTAG AAAGTGCAAA GGCTAGAGTT
    ACAAATACGA AGACGTCTAA ACCAATCGTA CATGCCAGAA AAAAATACCG CTTTCACAAA
    ACTCGCTCCC ACGTGACCCA CAGAACACCC AAAGTCAAAA AGAGTCCAAA GGTCAGAAAG
    AAAAGTTATC TGAGTAGACT GATGCTCGCA AACAGGCTTC CATTCTCTGC AGCGAAGAGC
    CTCATAAATT CCCCTTCACA AGGGGCTTTT TCATCCTTAG GAGACCTGAG TCCTCAAGAA
    AACCCTTTTC TGGAAGTATC TGCTCCTTCA GAACATTTTA TAGAAAACAA TAATACAAAA
    CACACAACTG CAAGAAATGC CTTTGAAGAA AATGATTTTA TGGAAAACAC TAACATGCCA
    GAAGGAACCA TCTCTGAAAA CACAAACTAC AATCATCCTC ATGAGGCAGA TTCCGCTGGG
    ACTGCATTCA ACTTAGGGCC AACTGTTAAA CAAACTGAGA CAAAATGGGA ATACAACAAC
    GTGGGCACTG ACCTGTCCCC CGAGCCCAAA AGCTTCAATT ACCCATTGCT CTCGTCCCCA
    GGTGATCAGT TTGAAATTCA GCTAACCCAG CAGCTACAGT CCCTTATCCC CAACAACAAT
    GTGAGAAGGC TCATTGCTCA TGTTATCCGG ACCTTGAAGA TGGACTGCTC TGGGGCCCAT
    GTGCAAGTGA CCTGTGCCAA GCTCATCTCC AGGACAGGCC ACCTGATGAA GCTTCTCAGT
    GGGCAGCAGG AAGTAAAGGC ATCCAAGATA GAATGGGATA CGGACCAATG GAAGATTGAG
    AACTACATTA ATGAGAGCAC AGAAGCCCAG AGTGAACAGA AAGAGAAGTC GCTTGAGCTC
    AAAAAAGAAG TTCCAGGATA TGGCTATACT GACAAACTCA TCTTGGCATT AATTGTTACT
    GGAATACTAA CGATTTTGAT TATACTTTTC TGCCTCATTG TGATATGTTG TCACCGAAGG
    TCATTACAAG AAGATGAAGA AGGATTCTCA AGGGGCATTT TCAGATTTCT GCCATGGAGG
    GGATGCTCTT CGCGAAGGGA GAGTCAGGAT GGACTTTCCT CATTTGGACA GCCGCTCTGG
    TTTAAAGATA TGTACAAACC TCTCAGTGCC ACAAGAATAA ATAATCATGC ATGGAAGCTG
    CACAAGAAGT CATCTAATGA GGACAAGATC CTCAACAGGG ACCCTGGGGA CAGCGAAGCC
    CCAACGGAGG AGGAGGAGAG TGAAGCCCTG CCATAG

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

    CloneID OHu80381
    Clone ID Related Accession (Same CDS sequence) XM_011524844.3 , XM_011524844.2
    Accession Version XM_011524844.3 Latest version! Documents for ORF clone product in default vector
    Sequence Information ORF Nucleotide Sequence (Length: 4950bp)
    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 leucine-rich repeat-containing protein 37A2 isoform X4
    Comment Comment: MODEL REFSEQ: This record is predicted by automated computational analysis. This record is derived from a genomic sequence (NC_000017.11) annotated using gene prediction method: Gnomon, supported by mRNA and EST evidence. Also see: Documentation of NCBI's Annotation Process On Mar 26, 2018 this sequence version replaced XM_011524844.2. ##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
    4801
    4861
    4921
    ATGTCTTCTG CTCAGTGCCC GGCACTAGTG TGTGTCATGT CCCGGCTGCG TTTCTGGGGC 
    CCATGGCCCC TCCTTATGTG GCAACTATTG TGGCTACTAG TTAAGGAGGC TCAGCCTCTG
    GAGTGGGTCA AGGACCCGCT CCAGCTCACC TCTAATCCCC TGGGGCCGCC TGACTCCTGG
    TCTTCCCACT CCTCCCATTT CCCACGGGAA TCTCCCCATG CGCCTACTCT CCCAGCAGAC
    CCGTGGGACT TTGATCACCT GGGGCCCTCT GCTTCCTCAG AGATGCCAGC CCCACCCCAG
    GAATCGACTG AAAATTTGGT TCCATTCCTG GACACCTGGG ATTCAGCTGG AGAGCAGCCC
    CTGGAGCCAG AGCAGTTCTT GGCTTCACAG CAGGATTTAA AGGACAAGCT GAGTCCACAG
    GAAAGACTCC CTGTTTCGCC CAAGAAGCTG AAGAAAGATC CAGCTCAGCG TTGGAGCCTT
    GCTGAGATTA TTGGAATTAC ACGCCAATTA TCCACACCTC AGAGTCAGAA ACAGACTTTG
    CAGAATGAAT ATTCCAGTAC AGATACACCG TATCCCGGTA GCCTGCCTCC AGAACTCCGG
    GTGAAGTCAG ATGAGCCTCC AGGGCCCTCT GAGCAAGTTG GACCTTCTCA ATTCCATCTA
    GAGCCCGAAA CTCAAAATCC AGAGACCCTT GAAGACATCC AGTCCTCTTC ACTCCAGCAA
    GAAGCCCCAG CACAGCTTCC ACAGCTCCTT GAGGAAGAAC CTTCTTCAAT GCAGCAGGAG
    GCCCCAGCTC TGCCTCCAGA GTCCTCTATG GAGAGTCTAA CTCTACCGAA TCATGAGGTG
    TCAGTTCAAC CTCCAGGTGA GGATCAAGCT TATTATCACT TGCCCAACAT TACAGTTAAA
    CCTGCAGATG TGGAGGTTAC CATAACTTCA GAGCCTACCA ATGAGACAGA ATCTTCCCAA
    GCCCAGCAGG AGACCCCAAT TCAGTTTCCA GAGGAGGTGG AACCTTCTGC AACCCAACAG
    GAGGCCCCAA TTGAGCCTCC AGTTCCTCCT ATGGAGCATG AACTTTCCAT CAGTGAGCAG
    CAGCAGCCAG TTCAGCCTTC TGAGTCTCCT AGGGAGGTCG AATCTTCTCC GACCCAGCAG
    GAGACCCCAG GTCAGCCTCC AGAACATCAT GAAGTCACAG TTTCACCTCC AGGTCACCAT
    CAAACTCATC ATTTAGCTTC ACCCAGTGTC TCTGTGAAGC CTCCAGACGT GCAGCTCACC
    ATAGCAGCAG AGCCTAGTGC AGAGGTGGGA ACTTCTCTAG TCCACCAGGA GGCTACAACT
    CGGCTCTCAG GGTCAGGTAA TGATGTAGAA CCTCCCGCCA TCCAGCACGG GGGCCCACCT
    CTGCTTCCAG AGTCATCAGA AGAAGCTGGA CCTTTAGCAG TTCAACAGGA GACTTCATTT
    CAATCTCCGG AACCTATTAA TAATGAGAAC CCCTCTCCAA CCCAGCAGGA GGCTGCAGCT
    GAGCATCCAC AGACCGCTGA GGAGGGTGAG TCTTCCCTAA CCCATCAGGA GGCCCCAGCT
    CAGACTCCAG AGTTCCCTAA TGTAGTTGTA GCTCAACCTC CAGAGCATTC ACACCTGACT
    CAAGCCACAG TTCAACCTTT GGATCTGGGG TTTACCATCA CTCCAGAATC CAAGACAGAG
    GTTGAACTTT CTCCAACCAT GAAGGAGACC CCAACTCAGC CTCCTAAGAA AGTTGTACCC
    CAACTTCGAG TATATCAAGG GGTAACAAAT CCAACACCAG GTCAGGATCA AGCTCAGCAT
    CCAGTGTCAC CCAGCGTTAC AGTTCAACTT TTGGACCTGG GACTTACCAT CACTCCAGAA
    CCTACTACGG AGGTTGGACA TTCTACACCC CCGAAGAGGA CTATAGTTTC TCCAAAGCAT
    CCTGAGGTGA CACTTCCACA TCCAGACCAG GTTCAGACTC AGCATTCACA CCTGACTCGA
    GCCACAGTTC AACCTTTGGA CCTGGGGTTT ACCATCACTC CAAAATCCAT GACAGAGGTT
    GAACCTTCTA CAGCCCTGAT GACTACAGCT CCTCCTCCAG GACACCCTGA GGTGACACTT
    CCACCTTCAG ACAAGGGTCA GGCTCAGCAT TCACACCTGA CTCAAGCCAC CGTTCAACCT
    CTGGACCTGG AGCTTACCAT AACTACAAAA CCTACTACAG AGGTTAAACC ATCTCCAACC
    ACGGAGGAGA CCTCAACTCA GCCTCCAGAC CTGGGACTTG CCATCATTCC AGAACCCACT
    ACAGAGACTA GACATTCTAC AGCCCTGGAG AAGACTACAG CTCCTCGTCC AGACCGGGTT
    CAGACTCTGC ATCGAAGCCT GACTGAAGTC ACAGGTCCAC CTACTGAACT AGAACCTGCT
    CAGGATTCAC TGGTGCAGTC TGAAAGTTAC ACCCAAAATA AGGCTTTAAC TGCACCAGAG
    GAACACAAGG CCTCCACAAG CACCAACATA TGTGAGCTCT GTACCTGCGG AGATGAGATG
    TTGTCATGTA TTGATCTCAA CCCAGAGCAG AGGCTCCGCC AAGTGCCTGT GCCAGAGCCC
    AACACCCACA ATGGCACCTT CACCATCTTA AATTTCCAAG GAAACTATAT TTCTTACATT
    GATGGAAATG TATGGAAAGC ATACAGTTGG ACCGAGAAAC TAATTCTCAG AGAAAATAAC
    TTGACTGAAT TACACAAGGA TTCATTTGAA GGCCTGCTAT CCCTCCAGTA TTTAATTCTC
    AATCACAATC CTCTGACAAC TGTTGAAGAT CCGTATCTCT TTAAATTGCC AGCATTAAAA
    TATCTAGACA TGGGAACAAC GCTAGTCCCA CTTACAACAC TTAAGAACAT TCTCATGATG
    ACTGTTGAAC TGGAAAAACT GATCTTACCT AGCCATATGG CCTGCTGCCT CTGCCAATTT
    AAAAACAGCA TTGAGGCTGT CTGCAAGACA GTCAAGCTGC ATTGCAACAG TGCATGTCTG
    ACAAACACCA CACATTGTCC TGAAGAAGCA TCGGTAGGGA ATCCAGAAGG AGCGTTCATG
    AAGGTGTTAC AAGCCCGGAA GAACTACACA AGCACTGAGC TGATTGTTGA GCCAGAGGAG
    CCCTCAGACA GCAGTGGCAT CAACTTGTCA GGCTTTGGGA GTGAGCAGCT AGACACCAAT
    GACGAGAGTG ATTTTATCAG TACACTAAGT TACATCTTGC CTTATTTCTC AGCGGTAAAC
    CTAGATGTGA AATCACTGTT ACTACCGTTC ATTAAACTGC CAACCACAGG AAACAGCCTG
    GCAAAGATTC AAACTGTAGG CCAAAACCGG CAGAGAGTGA AGAGAGTCCT CATGGGCCCA
    AGGAGCATCC AGAAAAGGCA CTTCAAAGAG GTAGGAAGGC AGAGCATCAG GAGGGAACAG
    GGTGCCCAGG CATCTGTGGA GAACGCTGCC GAAGAAAAAA GGCTCGGGAG TCCAGCCCCA
    AGGGAGGTGG AACAGCCCCA CACACAGCAG GGGCCTGAGA AGTTAGCGGG AAACGCCGTC
    TACACCAAGC CTTCCTTCAC CCAAGAGCAT AAGGCAGCAG TCTCTGTGCT GAAACCCTTC
    TCCAAGGGCG CGCCTTCTAC CTCCAGCCCT GCAAAAGCCC TACCACAGGT GAGAGACAGA
    TGGAAAGACT TAACCCACGC TATTTCCATT TTAGAAAGTG CAAAGGCTAG AGTTACAAAT
    ACGAAGACGT CTAAACCAAT CGTACATGCC AGAAAAAAAT ACCGCTTTCA CAAAACTCGC
    TCCCACGTGA CCCACAGAAC ACCCAAAGTC AAAAAGAGTC CAAAGGTCAG AAAGAAAAGT
    TATCTGAGTA GACTGATGCT CGCAAACAGG CTTCCATTCT CTGCAGCGAA GAGCCTCATA
    AATTCCCCTT CACAAGGGGC TTTTTCATCC TTAGGAGACC TGAGTCCTCA AGAAAACCCT
    TTTCTGGAAG TATCTGCTCC TTCAGAACAT TTTATAGAAA ACAATAATAC AAAACACACA
    ACTGCAAGAA ATGCCTTTGA AGAAAATGAT TTTATGGAAA ACACTAACAT GCCAGAAGGA
    ACCATCTCTG AAAACACAAA CTACAATCAT CCTCATGAGG CAGATTCCGC TGGGACTGCA
    TTCAACTTAG GGCCAACTGT TAAACAAACT GAGACAAAAT GGGAATACAA CAACGTGGGC
    ACTGACCTGT CCCCCGAGCC CAAAAGCTTC AATTACCCAT TGCTCTCGTC CCCAGGTGAT
    CAGTTTGAAA TTCAGCTAAC CCAGCAGCTA CAGTCCCTTA TCCCCAACAA CAATGTGAGA
    AGGCTCATTG CTCATGTTAT CCGGACCTTG AAGATGGACT GCTCTGGGGC CCATGTGCAA
    GTGACCTGTG CCAAGCTCAT CTCCAGGACA GGCCACCTGA TGAAGCTTCT CAGTGGGCAG
    CAGGAAGTAA AGGCATCCAA GATAGAATGG GATACGGACC AATGGAAGAT TGAGAACTAC
    ATTAATGAGA GCACAGAAGC CCAGAGTGAA CAGAAAGAGA AGTCGCTTGA GCTCAAAAAA
    GAAGTTCCAG GATATGGCTA TACTGACAAA CTCATCTTGG CATTAATTGT TACTGGAATA
    CTAACGATTT TGATTATACT TTTCTGCCTC ATTGTGATAT GTTGTCACCG AAGGTCATTA
    CAAGAAGATG AAGAAGGATT CTCAAGGGGC ATTTTCAGAT TTCTGCCATG GAGGGGATGC
    TCTTCGCGAA GGGAGAGTCA GGATGGACTT TCCTCATTTG GACAGCCGCT CTGGTTTAAA
    GATATGTACA AACCTCTCAG TGCCACAAGA ATAAATAATC ATGCATGGAA GCTGCACAAG
    AAGTCATCTA ATGAGGACAA GATCCTCAAC AGGGACCCTG GGGACAGCGA AGCCCCAACG
    GAGGAGGAGG AGAGTGAAGC CCTGCCATAG

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

    RefSeq XP_011523146.1
    CDS4..4953
    Translation

    Target ORF information:

    RefSeq Version XM_011524844.3
    Organism Homo sapiens(human)
    Definition Homo sapiens leucine rich repeat containing 37 member A2 (LRRC37A2), transcript variant X4, mRNA.

    Target ORF information:

    Epitope DYKDDDDK
    Bacterial selection AMPR
    Mammalian selection NeoR
    Vector pcDNA3.1+/C-(K)DYK
    XM_011524844.3

    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
    4801
    4861
    4921
    ATGTCTTCTG CTCAGTGCCC GGCACTAGTG TGTGTCATGT CCCGGCTGCG TTTCTGGGGC 
    CCATGGCCCC TCCTTATGTG GCAACTATTG TGGCTACTAG TTAAGGAGGC TCAGCCTCTG
    GAGTGGGTCA AGGACCCGCT CCAGCTCACC TCTAATCCCC TGGGGCCGCC TGACTCCTGG
    TCTTCCCACT CCTCCCATTT CCCACGGGAA TCTCCCCATG CGCCTACTCT CCCAGCAGAC
    CCGTGGGACT TTGATCACCT GGGGCCCTCT GCTTCCTCAG AGATGCCAGC CCCACCCCAG
    GAATCGACTG AAAATTTGGT TCCATTCCTG GACACCTGGG ATTCAGCTGG AGAGCAGCCC
    CTGGAGCCAG AGCAGTTCTT GGCTTCACAG CAGGATTTAA AGGACAAGCT GAGTCCACAG
    GAAAGACTCC CTGTTTCGCC CAAGAAGCTG AAGAAAGATC CAGCTCAGCG TTGGAGCCTT
    GCTGAGATTA TTGGAATTAC ACGCCAATTA TCCACACCTC AGAGTCAGAA ACAGACTTTG
    CAGAATGAAT ATTCCAGTAC AGATACACCG TATCCCGGTA GCCTGCCTCC AGAACTCCGG
    GTGAAGTCAG ATGAGCCTCC AGGGCCCTCT GAGCAAGTTG GACCTTCTCA ATTCCATCTA
    GAGCCCGAAA CTCAAAATCC AGAGACCCTT GAAGACATCC AGTCCTCTTC ACTCCAGCAA
    GAAGCCCCAG CACAGCTTCC ACAGCTCCTT GAGGAAGAAC CTTCTTCAAT GCAGCAGGAG
    GCCCCAGCTC TGCCTCCAGA GTCCTCTATG GAGAGTCTAA CTCTACCGAA TCATGAGGTG
    TCAGTTCAAC CTCCAGGTGA GGATCAAGCT TATTATCACT TGCCCAACAT TACAGTTAAA
    CCTGCAGATG TGGAGGTTAC CATAACTTCA GAGCCTACCA ATGAGACAGA ATCTTCCCAA
    GCCCAGCAGG AGACCCCAAT TCAGTTTCCA GAGGAGGTGG AACCTTCTGC AACCCAACAG
    GAGGCCCCAA TTGAGCCTCC AGTTCCTCCT ATGGAGCATG AACTTTCCAT CAGTGAGCAG
    CAGCAGCCAG TTCAGCCTTC TGAGTCTCCT AGGGAGGTCG AATCTTCTCC GACCCAGCAG
    GAGACCCCAG GTCAGCCTCC AGAACATCAT GAAGTCACAG TTTCACCTCC AGGTCACCAT
    CAAACTCATC ATTTAGCTTC ACCCAGTGTC TCTGTGAAGC CTCCAGACGT GCAGCTCACC
    ATAGCAGCAG AGCCTAGTGC AGAGGTGGGA ACTTCTCTAG TCCACCAGGA GGCTACAACT
    CGGCTCTCAG GGTCAGGTAA TGATGTAGAA CCTCCCGCCA TCCAGCACGG GGGCCCACCT
    CTGCTTCCAG AGTCATCAGA AGAAGCTGGA CCTTTAGCAG TTCAACAGGA GACTTCATTT
    CAATCTCCGG AACCTATTAA TAATGAGAAC CCCTCTCCAA CCCAGCAGGA GGCTGCAGCT
    GAGCATCCAC AGACCGCTGA GGAGGGTGAG TCTTCCCTAA CCCATCAGGA GGCCCCAGCT
    CAGACTCCAG AGTTCCCTAA TGTAGTTGTA GCTCAACCTC CAGAGCATTC ACACCTGACT
    CAAGCCACAG TTCAACCTTT GGATCTGGGG TTTACCATCA CTCCAGAATC CAAGACAGAG
    GTTGAACTTT CTCCAACCAT GAAGGAGACC CCAACTCAGC CTCCTAAGAA AGTTGTACCC
    CAACTTCGAG TATATCAAGG GGTAACAAAT CCAACACCAG GTCAGGATCA AGCTCAGCAT
    CCAGTGTCAC CCAGCGTTAC AGTTCAACTT TTGGACCTGG GACTTACCAT CACTCCAGAA
    CCTACTACGG AGGTTGGACA TTCTACACCC CCGAAGAGGA CTATAGTTTC TCCAAAGCAT
    CCTGAGGTGA CACTTCCACA TCCAGACCAG GTTCAGACTC AGCATTCACA CCTGACTCGA
    GCCACAGTTC AACCTTTGGA CCTGGGGTTT ACCATCACTC CAAAATCCAT GACAGAGGTT
    GAACCTTCTA CAGCCCTGAT GACTACAGCT CCTCCTCCAG GACACCCTGA GGTGACACTT
    CCACCTTCAG ACAAGGGTCA GGCTCAGCAT TCACACCTGA CTCAAGCCAC CGTTCAACCT
    CTGGACCTGG AGCTTACCAT AACTACAAAA CCTACTACAG AGGTTAAACC ATCTCCAACC
    ACGGAGGAGA CCTCAACTCA GCCTCCAGAC CTGGGACTTG CCATCATTCC AGAACCCACT
    ACAGAGACTA GACATTCTAC AGCCCTGGAG AAGACTACAG CTCCTCGTCC AGACCGGGTT
    CAGACTCTGC ATCGAAGCCT GACTGAAGTC ACAGGTCCAC CTACTGAACT AGAACCTGCT
    CAGGATTCAC TGGTGCAGTC TGAAAGTTAC ACCCAAAATA AGGCTTTAAC TGCACCAGAG
    GAACACAAGG CCTCCACAAG CACCAACATA TGTGAGCTCT GTACCTGCGG AGATGAGATG
    TTGTCATGTA TTGATCTCAA CCCAGAGCAG AGGCTCCGCC AAGTGCCTGT GCCAGAGCCC
    AACACCCACA ATGGCACCTT CACCATCTTA AATTTCCAAG GAAACTATAT TTCTTACATT
    GATGGAAATG TATGGAAAGC ATACAGTTGG ACCGAGAAAC TAATTCTCAG AGAAAATAAC
    TTGACTGAAT TACACAAGGA TTCATTTGAA GGCCTGCTAT CCCTCCAGTA TTTAATTCTC
    AATCACAATC CTCTGACAAC TGTTGAAGAT CCGTATCTCT TTAAATTGCC AGCATTAAAA
    TATCTAGACA TGGGAACAAC GCTAGTCCCA CTTACAACAC TTAAGAACAT TCTCATGATG
    ACTGTTGAAC TGGAAAAACT GATCTTACCT AGCCATATGG CCTGCTGCCT CTGCCAATTT
    AAAAACAGCA TTGAGGCTGT CTGCAAGACA GTCAAGCTGC ATTGCAACAG TGCATGTCTG
    ACAAACACCA CACATTGTCC TGAAGAAGCA TCGGTAGGGA ATCCAGAAGG AGCGTTCATG
    AAGGTGTTAC AAGCCCGGAA GAACTACACA AGCACTGAGC TGATTGTTGA GCCAGAGGAG
    CCCTCAGACA GCAGTGGCAT CAACTTGTCA GGCTTTGGGA GTGAGCAGCT AGACACCAAT
    GACGAGAGTG ATTTTATCAG TACACTAAGT TACATCTTGC CTTATTTCTC AGCGGTAAAC
    CTAGATGTGA AATCACTGTT ACTACCGTTC ATTAAACTGC CAACCACAGG AAACAGCCTG
    GCAAAGATTC AAACTGTAGG CCAAAACCGG CAGAGAGTGA AGAGAGTCCT CATGGGCCCA
    AGGAGCATCC AGAAAAGGCA CTTCAAAGAG GTAGGAAGGC AGAGCATCAG GAGGGAACAG
    GGTGCCCAGG CATCTGTGGA GAACGCTGCC GAAGAAAAAA GGCTCGGGAG TCCAGCCCCA
    AGGGAGGTGG AACAGCCCCA CACACAGCAG GGGCCTGAGA AGTTAGCGGG AAACGCCGTC
    TACACCAAGC CTTCCTTCAC CCAAGAGCAT AAGGCAGCAG TCTCTGTGCT GAAACCCTTC
    TCCAAGGGCG CGCCTTCTAC CTCCAGCCCT GCAAAAGCCC TACCACAGGT GAGAGACAGA
    TGGAAAGACT TAACCCACGC TATTTCCATT TTAGAAAGTG CAAAGGCTAG AGTTACAAAT
    ACGAAGACGT CTAAACCAAT CGTACATGCC AGAAAAAAAT ACCGCTTTCA CAAAACTCGC
    TCCCACGTGA CCCACAGAAC ACCCAAAGTC AAAAAGAGTC CAAAGGTCAG AAAGAAAAGT
    TATCTGAGTA GACTGATGCT CGCAAACAGG CTTCCATTCT CTGCAGCGAA GAGCCTCATA
    AATTCCCCTT CACAAGGGGC TTTTTCATCC TTAGGAGACC TGAGTCCTCA AGAAAACCCT
    TTTCTGGAAG TATCTGCTCC TTCAGAACAT TTTATAGAAA ACAATAATAC AAAACACACA
    ACTGCAAGAA ATGCCTTTGA AGAAAATGAT TTTATGGAAA ACACTAACAT GCCAGAAGGA
    ACCATCTCTG AAAACACAAA CTACAATCAT CCTCATGAGG CAGATTCCGC TGGGACTGCA
    TTCAACTTAG GGCCAACTGT TAAACAAACT GAGACAAAAT GGGAATACAA CAACGTGGGC
    ACTGACCTGT CCCCCGAGCC CAAAAGCTTC AATTACCCAT TGCTCTCGTC CCCAGGTGAT
    CAGTTTGAAA TTCAGCTAAC CCAGCAGCTA CAGTCCCTTA TCCCCAACAA CAATGTGAGA
    AGGCTCATTG CTCATGTTAT CCGGACCTTG AAGATGGACT GCTCTGGGGC CCATGTGCAA
    GTGACCTGTG CCAAGCTCAT CTCCAGGACA GGCCACCTGA TGAAGCTTCT CAGTGGGCAG
    CAGGAAGTAA AGGCATCCAA GATAGAATGG GATACGGACC AATGGAAGAT TGAGAACTAC
    ATTAATGAGA GCACAGAAGC CCAGAGTGAA CAGAAAGAGA AGTCGCTTGA GCTCAAAAAA
    GAAGTTCCAG GATATGGCTA TACTGACAAA CTCATCTTGG CATTAATTGT TACTGGAATA
    CTAACGATTT TGATTATACT TTTCTGCCTC ATTGTGATAT GTTGTCACCG AAGGTCATTA
    CAAGAAGATG AAGAAGGATT CTCAAGGGGC ATTTTCAGAT TTCTGCCATG GAGGGGATGC
    TCTTCGCGAA GGGAGAGTCA GGATGGACTT TCCTCATTTG GACAGCCGCT CTGGTTTAAA
    GATATGTACA AACCTCTCAG TGCCACAAGA ATAAATAATC ATGCATGGAA GCTGCACAAG
    AAGTCATCTA ATGAGGACAA GATCCTCAAC AGGGACCCTG GGGACAGCGA AGCCCCAACG
    GAGGAGGAGG AGAGTGAAGC CCTGCCATAG

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

    CloneID OHu80381
    Clone ID Related Accession (Same CDS sequence) XM_011524844.3 , XM_011524844.2
    Accession Version XM_011524844.2 Documents for ORF clone product in default vector
    Sequence Information ORF Nucleotide Sequence (Length: 4950bp)
    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 2016-06-05
    Organism Homo sapiens(human)
    Product leucine-rich repeat-containing protein 37A2 isoform X4
    Comment Comment: MODEL REFSEQ: This record is predicted by automated computational analysis. This record is derived from a genomic sequence (NC_000017.11) annotated using gene prediction method: Gnomon, supported by EST evidence. Also see: Documentation of NCBI's Annotation Process On Jun 6, 2016 this sequence version replaced XM_011524844.1. ##Genome-Annotation-Data-START## Annotation Provider :: NCBI Annotation Status :: Full annotation Annotation Version :: Homo sapiens Annotation Release 108 Annotation Pipeline :: NCBI eukaryotic genome annotation pipeline Annotation Software Version :: 7.0 Annotation Method :: Best-placed RefSeq; Gnomon 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
    4801
    4861
    4921
    ATGTCTTCTG CTCAGTGCCC GGCACTAGTG TGTGTCATGT CCCGGCTGCG TTTCTGGGGC 
    CCATGGCCCC TCCTTATGTG GCAACTATTG TGGCTACTAG TTAAGGAGGC TCAGCCTCTG
    GAGTGGGTCA AGGACCCGCT CCAGCTCACC TCTAATCCCC TGGGGCCGCC TGACTCCTGG
    TCTTCCCACT CCTCCCATTT CCCACGGGAA TCTCCCCATG CGCCTACTCT CCCAGCAGAC
    CCGTGGGACT TTGATCACCT GGGGCCCTCT GCTTCCTCAG AGATGCCAGC CCCACCCCAG
    GAATCGACTG AAAATTTGGT TCCATTCCTG GACACCTGGG ATTCAGCTGG AGAGCAGCCC
    CTGGAGCCAG AGCAGTTCTT GGCTTCACAG CAGGATTTAA AGGACAAGCT GAGTCCACAG
    GAAAGACTCC CTGTTTCGCC CAAGAAGCTG AAGAAAGATC CAGCTCAGCG TTGGAGCCTT
    GCTGAGATTA TTGGAATTAC ACGCCAATTA TCCACACCTC AGAGTCAGAA ACAGACTTTG
    CAGAATGAAT ATTCCAGTAC AGATACACCG TATCCCGGTA GCCTGCCTCC AGAACTCCGG
    GTGAAGTCAG ATGAGCCTCC AGGGCCCTCT GAGCAAGTTG GACCTTCTCA ATTCCATCTA
    GAGCCCGAAA CTCAAAATCC AGAGACCCTT GAAGACATCC AGTCCTCTTC ACTCCAGCAA
    GAAGCCCCAG CACAGCTTCC ACAGCTCCTT GAGGAAGAAC CTTCTTCAAT GCAGCAGGAG
    GCCCCAGCTC TGCCTCCAGA GTCCTCTATG GAGAGTCTAA CTCTACCGAA TCATGAGGTG
    TCAGTTCAAC CTCCAGGTGA GGATCAAGCT TATTATCACT TGCCCAACAT TACAGTTAAA
    CCTGCAGATG TGGAGGTTAC CATAACTTCA GAGCCTACCA ATGAGACAGA ATCTTCCCAA
    GCCCAGCAGG AGACCCCAAT TCAGTTTCCA GAGGAGGTGG AACCTTCTGC AACCCAACAG
    GAGGCCCCAA TTGAGCCTCC AGTTCCTCCT ATGGAGCATG AACTTTCCAT CAGTGAGCAG
    CAGCAGCCAG TTCAGCCTTC TGAGTCTCCT AGGGAGGTCG AATCTTCTCC GACCCAGCAG
    GAGACCCCAG GTCAGCCTCC AGAACATCAT GAAGTCACAG TTTCACCTCC AGGTCACCAT
    CAAACTCATC ATTTAGCTTC ACCCAGTGTC TCTGTGAAGC CTCCAGACGT GCAGCTCACC
    ATAGCAGCAG AGCCTAGTGC AGAGGTGGGA ACTTCTCTAG TCCACCAGGA GGCTACAACT
    CGGCTCTCAG GGTCAGGTAA TGATGTAGAA CCTCCCGCCA TCCAGCACGG GGGCCCACCT
    CTGCTTCCAG AGTCATCAGA AGAAGCTGGA CCTTTAGCAG TTCAACAGGA GACTTCATTT
    CAATCTCCGG AACCTATTAA TAATGAGAAC CCCTCTCCAA CCCAGCAGGA GGCTGCAGCT
    GAGCATCCAC AGACCGCTGA GGAGGGTGAG TCTTCCCTAA CCCATCAGGA GGCCCCAGCT
    CAGACTCCAG AGTTCCCTAA TGTAGTTGTA GCTCAACCTC CAGAGCATTC ACACCTGACT
    CAAGCCACAG TTCAACCTTT GGATCTGGGG TTTACCATCA CTCCAGAATC CAAGACAGAG
    GTTGAACTTT CTCCAACCAT GAAGGAGACC CCAACTCAGC CTCCTAAGAA AGTTGTACCC
    CAACTTCGAG TATATCAAGG GGTAACAAAT CCAACACCAG GTCAGGATCA AGCTCAGCAT
    CCAGTGTCAC CCAGCGTTAC AGTTCAACTT TTGGACCTGG GACTTACCAT CACTCCAGAA
    CCTACTACGG AGGTTGGACA TTCTACACCC CCGAAGAGGA CTATAGTTTC TCCAAAGCAT
    CCTGAGGTGA CACTTCCACA TCCAGACCAG GTTCAGACTC AGCATTCACA CCTGACTCGA
    GCCACAGTTC AACCTTTGGA CCTGGGGTTT ACCATCACTC CAAAATCCAT GACAGAGGTT
    GAACCTTCTA CAGCCCTGAT GACTACAGCT CCTCCTCCAG GACACCCTGA GGTGACACTT
    CCACCTTCAG ACAAGGGTCA GGCTCAGCAT TCACACCTGA CTCAAGCCAC CGTTCAACCT
    CTGGACCTGG AGCTTACCAT AACTACAAAA CCTACTACAG AGGTTAAACC ATCTCCAACC
    ACGGAGGAGA CCTCAACTCA GCCTCCAGAC CTGGGACTTG CCATCATTCC AGAACCCACT
    ACAGAGACTA GACATTCTAC AGCCCTGGAG AAGACTACAG CTCCTCGTCC AGACCGGGTT
    CAGACTCTGC ATCGAAGCCT GACTGAAGTC ACAGGTCCAC CTACTGAACT AGAACCTGCT
    CAGGATTCAC TGGTGCAGTC TGAAAGTTAC ACCCAAAATA AGGCTTTAAC TGCACCAGAG
    GAACACAAGG CCTCCACAAG CACCAACATA TGTGAGCTCT GTACCTGCGG AGATGAGATG
    TTGTCATGTA TTGATCTCAA CCCAGAGCAG AGGCTCCGCC AAGTGCCTGT GCCAGAGCCC
    AACACCCACA ATGGCACCTT CACCATCTTA AATTTCCAAG GAAACTATAT TTCTTACATT
    GATGGAAATG TATGGAAAGC ATACAGTTGG ACCGAGAAAC TAATTCTCAG AGAAAATAAC
    TTGACTGAAT TACACAAGGA TTCATTTGAA GGCCTGCTAT CCCTCCAGTA TTTAATTCTC
    AATCACAATC CTCTGACAAC TGTTGAAGAT CCGTATCTCT TTAAATTGCC AGCATTAAAA
    TATCTAGACA TGGGAACAAC GCTAGTCCCA CTTACAACAC TTAAGAACAT TCTCATGATG
    ACTGTTGAAC TGGAAAAACT GATCTTACCT AGCCATATGG CCTGCTGCCT CTGCCAATTT
    AAAAACAGCA TTGAGGCTGT CTGCAAGACA GTCAAGCTGC ATTGCAACAG TGCATGTCTG
    ACAAACACCA CACATTGTCC TGAAGAAGCA TCGGTAGGGA ATCCAGAAGG AGCGTTCATG
    AAGGTGTTAC AAGCCCGGAA GAACTACACA AGCACTGAGC TGATTGTTGA GCCAGAGGAG
    CCCTCAGACA GCAGTGGCAT CAACTTGTCA GGCTTTGGGA GTGAGCAGCT AGACACCAAT
    GACGAGAGTG ATTTTATCAG TACACTAAGT TACATCTTGC CTTATTTCTC AGCGGTAAAC
    CTAGATGTGA AATCACTGTT ACTACCGTTC ATTAAACTGC CAACCACAGG AAACAGCCTG
    GCAAAGATTC AAACTGTAGG CCAAAACCGG CAGAGAGTGA AGAGAGTCCT CATGGGCCCA
    AGGAGCATCC AGAAAAGGCA CTTCAAAGAG GTAGGAAGGC AGAGCATCAG GAGGGAACAG
    GGTGCCCAGG CATCTGTGGA GAACGCTGCC GAAGAAAAAA GGCTCGGGAG TCCAGCCCCA
    AGGGAGGTGG AACAGCCCCA CACACAGCAG GGGCCTGAGA AGTTAGCGGG AAACGCCGTC
    TACACCAAGC CTTCCTTCAC CCAAGAGCAT AAGGCAGCAG TCTCTGTGCT GAAACCCTTC
    TCCAAGGGCG CGCCTTCTAC CTCCAGCCCT GCAAAAGCCC TACCACAGGT GAGAGACAGA
    TGGAAAGACT TAACCCACGC TATTTCCATT TTAGAAAGTG CAAAGGCTAG AGTTACAAAT
    ACGAAGACGT CTAAACCAAT CGTACATGCC AGAAAAAAAT ACCGCTTTCA CAAAACTCGC
    TCCCACGTGA CCCACAGAAC ACCCAAAGTC AAAAAGAGTC CAAAGGTCAG AAAGAAAAGT
    TATCTGAGTA GACTGATGCT CGCAAACAGG CTTCCATTCT CTGCAGCGAA GAGCCTCATA
    AATTCCCCTT CACAAGGGGC TTTTTCATCC TTAGGAGACC TGAGTCCTCA AGAAAACCCT
    TTTCTGGAAG TATCTGCTCC TTCAGAACAT TTTATAGAAA ACAATAATAC AAAACACACA
    ACTGCAAGAA ATGCCTTTGA AGAAAATGAT TTTATGGAAA ACACTAACAT GCCAGAAGGA
    ACCATCTCTG AAAACACAAA CTACAATCAT CCTCATGAGG CAGATTCCGC TGGGACTGCA
    TTCAACTTAG GGCCAACTGT TAAACAAACT GAGACAAAAT GGGAATACAA CAACGTGGGC
    ACTGACCTGT CCCCCGAGCC CAAAAGCTTC AATTACCCAT TGCTCTCGTC CCCAGGTGAT
    CAGTTTGAAA TTCAGCTAAC CCAGCAGCTA CAGTCCCTTA TCCCCAACAA CAATGTGAGA
    AGGCTCATTG CTCATGTTAT CCGGACCTTG AAGATGGACT GCTCTGGGGC CCATGTGCAA
    GTGACCTGTG CCAAGCTCAT CTCCAGGACA GGCCACCTGA TGAAGCTTCT CAGTGGGCAG
    CAGGAAGTAA AGGCATCCAA GATAGAATGG GATACGGACC AATGGAAGAT TGAGAACTAC
    ATTAATGAGA GCACAGAAGC CCAGAGTGAA CAGAAAGAGA AGTCGCTTGA GCTCAAAAAA
    GAAGTTCCAG GATATGGCTA TACTGACAAA CTCATCTTGG CATTAATTGT TACTGGAATA
    CTAACGATTT TGATTATACT TTTCTGCCTC ATTGTGATAT GTTGTCACCG AAGGTCATTA
    CAAGAAGATG AAGAAGGATT CTCAAGGGGC ATTTTCAGAT TTCTGCCATG GAGGGGATGC
    TCTTCGCGAA GGGAGAGTCA GGATGGACTT TCCTCATTTG GACAGCCGCT CTGGTTTAAA
    GATATGTACA AACCTCTCAG TGCCACAAGA ATAAATAATC ATGCATGGAA GCTGCACAAG
    AAGTCATCTA ATGAGGACAA GATCCTCAAC AGGGACCCTG GGGACAGCGA AGCCCCAACG
    GAGGAGGAGG AGAGTGAAGC CCTGCCATAG

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

    RefSeq XP_011523146.1
    CDS57..5006
    Translation

    Target ORF information:

    RefSeq Version XM_011524844.2
    Organism Homo sapiens(human)
    Definition Homo sapiens leucine-rich repeat containing 37 member A2 (LRRC37A2), transcript variant X4, mRNA.

    Target ORF information:

    Epitope DYKDDDDK
    Bacterial selection AMPR
    Mammalian selection NeoR
    Vector pcDNA3.1+/C-(K)DYK
    XM_011524844.2

    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
    4681
    4741
    4801
    4861
    4921
    ATGTCTTCTG CTCAGTGCCC GGCACTAGTG TGTGTCATGT CCCGGCTGCG TTTCTGGGGC 
    CCATGGCCCC TCCTTATGTG GCAACTATTG TGGCTACTAG TTAAGGAGGC TCAGCCTCTG
    GAGTGGGTCA AGGACCCGCT CCAGCTCACC TCTAATCCCC TGGGGCCGCC TGACTCCTGG
    TCTTCCCACT CCTCCCATTT CCCACGGGAA TCTCCCCATG CGCCTACTCT CCCAGCAGAC
    CCGTGGGACT TTGATCACCT GGGGCCCTCT GCTTCCTCAG AGATGCCAGC CCCACCCCAG
    GAATCGACTG AAAATTTGGT TCCATTCCTG GACACCTGGG ATTCAGCTGG AGAGCAGCCC
    CTGGAGCCAG AGCAGTTCTT GGCTTCACAG CAGGATTTAA AGGACAAGCT GAGTCCACAG
    GAAAGACTCC CTGTTTCGCC CAAGAAGCTG AAGAAAGATC CAGCTCAGCG TTGGAGCCTT
    GCTGAGATTA TTGGAATTAC ACGCCAATTA TCCACACCTC AGAGTCAGAA ACAGACTTTG
    CAGAATGAAT ATTCCAGTAC AGATACACCG TATCCCGGTA GCCTGCCTCC AGAACTCCGG
    GTGAAGTCAG ATGAGCCTCC AGGGCCCTCT GAGCAAGTTG GACCTTCTCA ATTCCATCTA
    GAGCCCGAAA CTCAAAATCC AGAGACCCTT GAAGACATCC AGTCCTCTTC ACTCCAGCAA
    GAAGCCCCAG CACAGCTTCC ACAGCTCCTT GAGGAAGAAC CTTCTTCAAT GCAGCAGGAG
    GCCCCAGCTC TGCCTCCAGA GTCCTCTATG GAGAGTCTAA CTCTACCGAA TCATGAGGTG
    TCAGTTCAAC CTCCAGGTGA GGATCAAGCT TATTATCACT TGCCCAACAT TACAGTTAAA
    CCTGCAGATG TGGAGGTTAC CATAACTTCA GAGCCTACCA ATGAGACAGA ATCTTCCCAA
    GCCCAGCAGG AGACCCCAAT TCAGTTTCCA GAGGAGGTGG AACCTTCTGC AACCCAACAG
    GAGGCCCCAA TTGAGCCTCC AGTTCCTCCT ATGGAGCATG AACTTTCCAT CAGTGAGCAG
    CAGCAGCCAG TTCAGCCTTC TGAGTCTCCT AGGGAGGTCG AATCTTCTCC GACCCAGCAG
    GAGACCCCAG GTCAGCCTCC AGAACATCAT GAAGTCACAG TTTCACCTCC AGGTCACCAT
    CAAACTCATC ATTTAGCTTC ACCCAGTGTC TCTGTGAAGC CTCCAGACGT GCAGCTCACC
    ATAGCAGCAG AGCCTAGTGC AGAGGTGGGA ACTTCTCTAG TCCACCAGGA GGCTACAACT
    CGGCTCTCAG GGTCAGGTAA TGATGTAGAA CCTCCCGCCA TCCAGCACGG GGGCCCACCT
    CTGCTTCCAG AGTCATCAGA AGAAGCTGGA CCTTTAGCAG TTCAACAGGA GACTTCATTT
    CAATCTCCGG AACCTATTAA TAATGAGAAC CCCTCTCCAA CCCAGCAGGA GGCTGCAGCT
    GAGCATCCAC AGACCGCTGA GGAGGGTGAG TCTTCCCTAA CCCATCAGGA GGCCCCAGCT
    CAGACTCCAG AGTTCCCTAA TGTAGTTGTA GCTCAACCTC CAGAGCATTC ACACCTGACT
    CAAGCCACAG TTCAACCTTT GGATCTGGGG TTTACCATCA CTCCAGAATC CAAGACAGAG
    GTTGAACTTT CTCCAACCAT GAAGGAGACC CCAACTCAGC CTCCTAAGAA AGTTGTACCC
    CAACTTCGAG TATATCAAGG GGTAACAAAT CCAACACCAG GTCAGGATCA AGCTCAGCAT
    CCAGTGTCAC CCAGCGTTAC AGTTCAACTT TTGGACCTGG GACTTACCAT CACTCCAGAA
    CCTACTACGG AGGTTGGACA TTCTACACCC CCGAAGAGGA CTATAGTTTC TCCAAAGCAT
    CCTGAGGTGA CACTTCCACA TCCAGACCAG GTTCAGACTC AGCATTCACA CCTGACTCGA
    GCCACAGTTC AACCTTTGGA CCTGGGGTTT ACCATCACTC CAAAATCCAT GACAGAGGTT
    GAACCTTCTA CAGCCCTGAT GACTACAGCT CCTCCTCCAG GACACCCTGA GGTGACACTT
    CCACCTTCAG ACAAGGGTCA GGCTCAGCAT TCACACCTGA CTCAAGCCAC CGTTCAACCT
    CTGGACCTGG AGCTTACCAT AACTACAAAA CCTACTACAG AGGTTAAACC ATCTCCAACC
    ACGGAGGAGA CCTCAACTCA GCCTCCAGAC CTGGGACTTG CCATCATTCC AGAACCCACT
    ACAGAGACTA GACATTCTAC AGCCCTGGAG AAGACTACAG CTCCTCGTCC AGACCGGGTT
    CAGACTCTGC ATCGAAGCCT GACTGAAGTC ACAGGTCCAC CTACTGAACT AGAACCTGCT
    CAGGATTCAC TGGTGCAGTC TGAAAGTTAC ACCCAAAATA AGGCTTTAAC TGCACCAGAG
    GAACACAAGG CCTCCACAAG CACCAACATA TGTGAGCTCT GTACCTGCGG AGATGAGATG
    TTGTCATGTA TTGATCTCAA CCCAGAGCAG AGGCTCCGCC AAGTGCCTGT GCCAGAGCCC
    AACACCCACA ATGGCACCTT CACCATCTTA AATTTCCAAG GAAACTATAT TTCTTACATT
    GATGGAAATG TATGGAAAGC ATACAGTTGG ACCGAGAAAC TAATTCTCAG AGAAAATAAC
    TTGACTGAAT TACACAAGGA TTCATTTGAA GGCCTGCTAT CCCTCCAGTA TTTAATTCTC
    AATCACAATC CTCTGACAAC TGTTGAAGAT CCGTATCTCT TTAAATTGCC AGCATTAAAA
    TATCTAGACA TGGGAACAAC GCTAGTCCCA CTTACAACAC TTAAGAACAT TCTCATGATG
    ACTGTTGAAC TGGAAAAACT GATCTTACCT AGCCATATGG CCTGCTGCCT CTGCCAATTT
    AAAAACAGCA TTGAGGCTGT CTGCAAGACA GTCAAGCTGC ATTGCAACAG TGCATGTCTG
    ACAAACACCA CACATTGTCC TGAAGAAGCA TCGGTAGGGA ATCCAGAAGG AGCGTTCATG
    AAGGTGTTAC AAGCCCGGAA GAACTACACA AGCACTGAGC TGATTGTTGA GCCAGAGGAG
    CCCTCAGACA GCAGTGGCAT CAACTTGTCA GGCTTTGGGA GTGAGCAGCT AGACACCAAT
    GACGAGAGTG ATTTTATCAG TACACTAAGT TACATCTTGC CTTATTTCTC AGCGGTAAAC
    CTAGATGTGA AATCACTGTT ACTACCGTTC ATTAAACTGC CAACCACAGG AAACAGCCTG
    GCAAAGATTC AAACTGTAGG CCAAAACCGG CAGAGAGTGA AGAGAGTCCT CATGGGCCCA
    AGGAGCATCC AGAAAAGGCA CTTCAAAGAG GTAGGAAGGC AGAGCATCAG GAGGGAACAG
    GGTGCCCAGG CATCTGTGGA GAACGCTGCC GAAGAAAAAA GGCTCGGGAG TCCAGCCCCA
    AGGGAGGTGG AACAGCCCCA CACACAGCAG GGGCCTGAGA AGTTAGCGGG AAACGCCGTC
    TACACCAAGC CTTCCTTCAC CCAAGAGCAT AAGGCAGCAG TCTCTGTGCT GAAACCCTTC
    TCCAAGGGCG CGCCTTCTAC CTCCAGCCCT GCAAAAGCCC TACCACAGGT GAGAGACAGA
    TGGAAAGACT TAACCCACGC TATTTCCATT TTAGAAAGTG CAAAGGCTAG AGTTACAAAT
    ACGAAGACGT CTAAACCAAT CGTACATGCC AGAAAAAAAT ACCGCTTTCA CAAAACTCGC
    TCCCACGTGA CCCACAGAAC ACCCAAAGTC AAAAAGAGTC CAAAGGTCAG AAAGAAAAGT
    TATCTGAGTA GACTGATGCT CGCAAACAGG CTTCCATTCT CTGCAGCGAA GAGCCTCATA
    AATTCCCCTT CACAAGGGGC TTTTTCATCC TTAGGAGACC TGAGTCCTCA AGAAAACCCT
    TTTCTGGAAG TATCTGCTCC TTCAGAACAT TTTATAGAAA ACAATAATAC AAAACACACA
    ACTGCAAGAA ATGCCTTTGA AGAAAATGAT TTTATGGAAA ACACTAACAT GCCAGAAGGA
    ACCATCTCTG AAAACACAAA CTACAATCAT CCTCATGAGG CAGATTCCGC TGGGACTGCA
    TTCAACTTAG GGCCAACTGT TAAACAAACT GAGACAAAAT GGGAATACAA CAACGTGGGC
    ACTGACCTGT CCCCCGAGCC CAAAAGCTTC AATTACCCAT TGCTCTCGTC CCCAGGTGAT
    CAGTTTGAAA TTCAGCTAAC CCAGCAGCTA CAGTCCCTTA TCCCCAACAA CAATGTGAGA
    AGGCTCATTG CTCATGTTAT CCGGACCTTG AAGATGGACT GCTCTGGGGC CCATGTGCAA
    GTGACCTGTG CCAAGCTCAT CTCCAGGACA GGCCACCTGA TGAAGCTTCT CAGTGGGCAG
    CAGGAAGTAA AGGCATCCAA GATAGAATGG GATACGGACC AATGGAAGAT TGAGAACTAC
    ATTAATGAGA GCACAGAAGC CCAGAGTGAA CAGAAAGAGA AGTCGCTTGA GCTCAAAAAA
    GAAGTTCCAG GATATGGCTA TACTGACAAA CTCATCTTGG CATTAATTGT TACTGGAATA
    CTAACGATTT TGATTATACT TTTCTGCCTC ATTGTGATAT GTTGTCACCG AAGGTCATTA
    CAAGAAGATG AAGAAGGATT CTCAAGGGGC ATTTTCAGAT TTCTGCCATG GAGGGGATGC
    TCTTCGCGAA GGGAGAGTCA GGATGGACTT TCCTCATTTG GACAGCCGCT CTGGTTTAAA
    GATATGTACA AACCTCTCAG TGCCACAAGA ATAAATAATC ATGCATGGAA GCTGCACAAG
    AAGTCATCTA ATGAGGACAA GATCCTCAAC AGGGACCCTG GGGACAGCGA AGCCCCAACG
    GAGGAGGAGG AGAGTGAAGC CCTGCCATAG

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

    CloneID OHu80383
    Clone ID Related Accession (Same CDS sequence) XM_011524846.2 , XM_011524846.3
    Accession Version XM_011524846.2 Documents for ORF clone product in default vector
    Sequence Information ORF Nucleotide Sequence (Length: 4878bp)
    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 2016-06-05
    Organism Homo sapiens(human)
    Product leucine-rich repeat-containing protein 37A2 isoform X5
    Comment Comment: MODEL REFSEQ: This record is predicted by automated computational analysis. This record is derived from a genomic sequence (NC_000017.11) annotated using gene prediction method: Gnomon, supported by EST evidence. Also see: Documentation of NCBI's Annotation Process On Jun 6, 2016 this sequence version replaced XM_011524846.1. ##Genome-Annotation-Data-START## Annotation Provider :: NCBI Annotation Status :: Full annotation Annotation Version :: Homo sapiens Annotation Release 108 Annotation Pipeline :: NCBI eukaryotic genome annotation pipeline Annotation Software Version :: 7.0 Annotation Method :: Best-placed RefSeq; Gnomon 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
    4801
    4861
    ATGTCTTCTG CTCAGTGCCC GGCACTAGTG TGTGTCATGT CCCGGCTGCG TTTCTGGGGC 
    CCATGGCCCC TCCTTATGTG GCAACTATTG TGGCTACTAG TTAAGGAGGC TCAGCCTCTG
    GAGTGGGTCA AGGACCCGCT CCAGCTCACC TCTAATCCCC TGGGGCCGCC TGACTCCTGG
    TCTTCCCACT CCTCCCATTT CCCACGGGAA TCTCCCCATG CGCCTACTCT CCCAGCAGAC
    CCGTGGGACT TTGATCACCT GGGGCCCTCT GCTTCCTCAG AGATGCCAGC CCCACCCCAG
    GAATCGACTG AAAATTTGGT TCCATTCCTG GACACCTGGG ATTCAGCTGG AGAGCAGCCC
    CTGGAGCCAG AGCAGTTCTT GGCTTCACAG CAGGATTTAA AGGACAAGCT GAGTCCACAG
    GAAAGACTCC CTGTTTCGCC CAAGAAGCTG AAGAAAGATC CAGCTCAGCG TTGGAGCCTT
    GCTGAGATTA TTGGAATTAC ACGCCAATTA TCCACACCTC AGAGTCAGAA ACAGACTTTG
    CAGAATGAAT ATTCCAGTAC AGATACACCG TATCCCGGTA GCCTGCCTCC AGAACTCCGG
    GTGAAGTCAG ATGAGCCTCC AGGGCCCTCT GAGCAAGTTG GACCTTCTCA ATTCCATCTA
    GAGCCCGAAA CTCAAAATCC AGAGACCCTT GAAGACATCC AGTCCTCTTC ACTCCAGCAA
    GAAGCCCCAG CACAGCTTCC ACAGCTCCTT GAGGAAGAAC CTTCTTCAAT GCAGCAGGAG
    GCCCCAGCTC TGCCTCCAGA GTCCTCTATG GAGAGTCTAA CTCTACCGAA TCATGAGGTG
    TCAGTTCAAC CTCCAGGTGA GGATCAAGCT TATTATCACT TGCCCAACAT TACAGTTAAA
    CCTGCAGATG TGGAGGTTAC CATAACTTCA GAGCCTACCA ATGAGACAGA ATCTTCCCAA
    GCCCAGCAGG AGACCCCAAT TCAGTTTCCA GAGGAGGTGG AACCTTCTGC AACCCAACAG
    GAGGCCCCAA TTGAGCCTCC AGTTCCTCCT ATGGAGCATG AACTTTCCAT CAGTGAGCAG
    CAGCAGCCAG TTCAGCCTTC TGAGTCTCCT AGGGAGGTCG AATCTTCTCC GACCCAGCAG
    GAGACCCCAG GTCAGCCTCC AGAACATCAT GAAGTCACAG TTTCACCTCC AGGTCACCAT
    CAAACTCATC ATTTAGCTTC ACCCAGTGTC TCTGTGAAGC CTCCAGACGT GCAGCTCACC
    ATAGCAGCAG AGCCTAGTGC AGAGGTGGGA ACTTCTCTAG TCCACCAGGA GGCTACAACT
    CGGCTCTCAG GGTCAGGTAA TGATGTAGAA CCTCCCGCCA TCCAGCACGG GGGCCCACCT
    CTGCTTCCAG AGTCATCAGA AGAAGCTGGA CCTTTAGCAG TTCAACAGGA GACTTCATTT
    CAATCTCCGG AACCTATTAA TAATGAGAAC CCCTCTCCAA CCCAGCAGGA GGCTGCAGCT
    GAGCATCCAC AGACCGCTGA GGAGGGTGAG TCTTCCCTAA CCCATCAGGA GGCCCCAGCT
    CAGACTCCAG AGTTCCCTAA TGTAGTTGTA GCTCAACCTC CAGAGCATTC ACACCTGACT
    CAAGCCACAG TTCAACCTTT GGATCTGGGG TTTACCATCA CTCCAGAATC CAAGACAGAG
    GTTGAACTTT CTCCAACCAT GAAGGAGACC CCAACTCAGC CTCCTAAGAA AGTTGTACCC
    CAACTTCGAG TATATCAAGG GGTAACAAAT CCAACACCAG GTCAGGATCA AGCTCAGCAT
    CCAGTGTCAC CCAGCGTTAC AGTTCAACTT TTGGACCTGG GACTTACCAT CACTCCAGAA
    CCTACTACGG AGGTTGGACA TTCTACACCC CCGAAGAGGA CTATAGTTTC TCCAAAGCAT
    CCTGAGGTGA CACTTCCACA TCCAGACCAG GTTCAGACTC AGCATTCACA CCTGACTCGA
    GCCACAGTTC AACCTTTGGA CCTGGGGTTT ACCATCACTC CAAAATCCAT GACAGAGGTT
    GAACCTTCTA CAGCCCTGAT GACTACAGCT CCTCCTCCAG GACACCCTGA GGTGACACTT
    CCACCTTCAG ACAAGGGTCA GGCTCAGCAT TCACACCTGA CTCAAGCCAC CGTTCAACCT
    CTGGACCTGG AGCTTACCAT AACTACAAAA CCTACTACAG AGGTTAAACC ATCTCCAACC
    ACGGAGGAGA CCTCAACTCA GCCTCCAGAC CTGGGACTTG CCATCATTCC AGAACCCACT
    ACAGAGACTA GACATTCTAC AGCCCTGGAG AAGACTACAG CTCCTCGTCC AGACCGGGTT
    CAGACTCTGC ATCGAAGCCT GACTGAAGTC ACAGGTCCAC CTACTGAACT AGAACCTGCT
    CAGGATTCAC TGGTGCAGTC TGAAAGTTAC ACCCAAAATA AGGCTTTAAC TGCACCAGAG
    GAACACAAGG CCTCCACAAG CACCAACATA TGTGAGCTCT GTACCTGCGG AGATGAGATG
    TTGTCATGTA TTGATCTCAA CCCAGAGCAG AGGCTCCGCC AAGTGCCTGT GCCAGAGCCC
    AACACCCACA ATGGCACCTT CACCATCTTA AATTTCCAAG GAAACTATAT TTCTTACATT
    GATGGAAATG TATGGAAAGC ATACAGTTGG ACCGAGAAAC TAATTCTCAA TCACAATCCT
    CTGACAACTG TTGAAGATCC GTATCTCTTT AAATTGCCAG CATTAAAATA TCTAGACATG
    GGAACAACGC TAGTCCCACT TACAACACTT AAGAACATTC TCATGATGAC TGTTGAACTG
    GAAAAACTGA TCTTACCTAG CCATATGGCC TGCTGCCTCT GCCAATTTAA AAACAGCATT
    GAGGCTGTCT GCAAGACAGT CAAGCTGCAT TGCAACAGTG CATGTCTGAC AAACACCACA
    CATTGTCCTG AAGAAGCATC GGTAGGGAAT CCAGAAGGAG CGTTCATGAA GGTGTTACAA
    GCCCGGAAGA ACTACACAAG CACTGAGCTG ATTGTTGAGC CAGAGGAGCC CTCAGACAGC
    AGTGGCATCA ACTTGTCAGG CTTTGGGAGT GAGCAGCTAG ACACCAATGA CGAGAGTGAT
    TTTATCAGTA CACTAAGTTA CATCTTGCCT TATTTCTCAG CGGTAAACCT AGATGTGAAA
    TCACTGTTAC TACCGTTCAT TAAACTGCCA ACCACAGGAA ACAGCCTGGC AAAGATTCAA
    ACTGTAGGCC AAAACCGGCA GAGAGTGAAG AGAGTCCTCA TGGGCCCAAG GAGCATCCAG
    AAAAGGCACT TCAAAGAGGT AGGAAGGCAG AGCATCAGGA GGGAACAGGG TGCCCAGGCA
    TCTGTGGAGA ACGCTGCCGA AGAAAAAAGG CTCGGGAGTC CAGCCCCAAG GGAGGTGGAA
    CAGCCCCACA CACAGCAGGG GCCTGAGAAG TTAGCGGGAA ACGCCGTCTA CACCAAGCCT
    TCCTTCACCC AAGAGCATAA GGCAGCAGTC TCTGTGCTGA AACCCTTCTC CAAGGGCGCG
    CCTTCTACCT CCAGCCCTGC AAAAGCCCTA CCACAGGTGA GAGACAGATG GAAAGACTTA
    ACCCACGCTA TTTCCATTTT AGAAAGTGCA AAGGCTAGAG TTACAAATAC GAAGACGTCT
    AAACCAATCG TACATGCCAG AAAAAAATAC CGCTTTCACA AAACTCGCTC CCACGTGACC
    CACAGAACAC CCAAAGTCAA AAAGAGTCCA AAGGTCAGAA AGAAAAGTTA TCTGAGTAGA
    CTGATGCTCG CAAACAGGCT TCCATTCTCT GCAGCGAAGA GCCTCATAAA TTCCCCTTCA
    CAAGGGGCTT TTTCATCCTT AGGAGACCTG AGTCCTCAAG AAAACCCTTT TCTGGAAGTA
    TCTGCTCCTT CAGAACATTT TATAGAAAAC AATAATACAA AACACACAAC TGCAAGAAAT
    GCCTTTGAAG AAAATGATTT TATGGAAAAC ACTAACATGC CAGAAGGAAC CATCTCTGAA
    AACACAAACT ACAATCATCC TCATGAGGCA GATTCCGCTG GGACTGCATT CAACTTAGGG
    CCAACTGTTA AACAAACTGA GACAAAATGG GAATACAACA ACGTGGGCAC TGACCTGTCC
    CCCGAGCCCA AAAGCTTCAA TTACCCATTG CTCTCGTCCC CAGGTGATCA GTTTGAAATT
    CAGCTAACCC AGCAGCTACA GTCCCTTATC CCCAACAACA ATGTGAGAAG GCTCATTGCT
    CATGTTATCC GGACCTTGAA GATGGACTGC TCTGGGGCCC ATGTGCAAGT GACCTGTGCC
    AAGCTCATCT CCAGGACAGG CCACCTGATG AAGCTTCTCA GTGGGCAGCA GGAAGTAAAG
    GCATCCAAGA TAGAATGGGA TACGGACCAA TGGAAGATTG AGAACTACAT TAATGAGAGC
    ACAGAAGCCC AGAGTGAACA GAAAGAGAAG TCGCTTGAGC TCAAAAAAGA AGTTCCAGGA
    TATGGCTATA CTGACAAACT CATCTTGGCA TTAATTGTTA CTGGAATACT AACGATTTTG
    ATTATACTTT TCTGCCTCAT TGTGATATGT TGTCACCGAA GGTCATTACA AGAAGATGAA
    GAAGGATTCT CAAGGGGCAT TTTCAGATTT CTGCCATGGA GGGGATGCTC TTCGCGAAGG
    GAGAGTCAGG ATGGACTTTC CTCATTTGGA CAGCCGCTCT GGTTTAAAGA TATGTACAAA
    CCTCTCAGTG CCACAAGAAT AAATAATCAT GCATGGAAGC TGCACAAGAA GTCATCTAAT
    GAGGACAAGA TCCTCAACAG GGACCCTGGG GACAGCGAAG CCCCAACGGA GGAGGAGGAG
    AGTGAAGCCC TGCCATAG

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

    RefSeq XP_011523148.1
    CDS57..4934
    Translation

    Target ORF information:

    RefSeq Version XM_011524846.2
    Organism Homo sapiens(human)
    Definition Homo sapiens leucine-rich repeat containing 37 member A2 (LRRC37A2), transcript variant X5, mRNA.

    Target ORF information:

    Epitope DYKDDDDK
    Bacterial selection AMPR
    Mammalian selection NeoR
    Vector pcDNA3.1+/C-(K)DYK
    XM_011524846.2

    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
    4681
    4741
    4801
    4861
    ATGTCTTCTG CTCAGTGCCC GGCACTAGTG TGTGTCATGT CCCGGCTGCG TTTCTGGGGC 
    CCATGGCCCC TCCTTATGTG GCAACTATTG TGGCTACTAG TTAAGGAGGC TCAGCCTCTG
    GAGTGGGTCA AGGACCCGCT CCAGCTCACC TCTAATCCCC TGGGGCCGCC TGACTCCTGG
    TCTTCCCACT CCTCCCATTT CCCACGGGAA TCTCCCCATG CGCCTACTCT CCCAGCAGAC
    CCGTGGGACT TTGATCACCT GGGGCCCTCT GCTTCCTCAG AGATGCCAGC CCCACCCCAG
    GAATCGACTG AAAATTTGGT TCCATTCCTG GACACCTGGG ATTCAGCTGG AGAGCAGCCC
    CTGGAGCCAG AGCAGTTCTT GGCTTCACAG CAGGATTTAA AGGACAAGCT GAGTCCACAG
    GAAAGACTCC CTGTTTCGCC CAAGAAGCTG AAGAAAGATC CAGCTCAGCG TTGGAGCCTT
    GCTGAGATTA TTGGAATTAC ACGCCAATTA TCCACACCTC AGAGTCAGAA ACAGACTTTG
    CAGAATGAAT ATTCCAGTAC AGATACACCG TATCCCGGTA GCCTGCCTCC AGAACTCCGG
    GTGAAGTCAG ATGAGCCTCC AGGGCCCTCT GAGCAAGTTG GACCTTCTCA ATTCCATCTA
    GAGCCCGAAA CTCAAAATCC AGAGACCCTT GAAGACATCC AGTCCTCTTC ACTCCAGCAA
    GAAGCCCCAG CACAGCTTCC ACAGCTCCTT GAGGAAGAAC CTTCTTCAAT GCAGCAGGAG
    GCCCCAGCTC TGCCTCCAGA GTCCTCTATG GAGAGTCTAA CTCTACCGAA TCATGAGGTG
    TCAGTTCAAC CTCCAGGTGA GGATCAAGCT TATTATCACT TGCCCAACAT TACAGTTAAA
    CCTGCAGATG TGGAGGTTAC CATAACTTCA GAGCCTACCA ATGAGACAGA ATCTTCCCAA
    GCCCAGCAGG AGACCCCAAT TCAGTTTCCA GAGGAGGTGG AACCTTCTGC AACCCAACAG
    GAGGCCCCAA TTGAGCCTCC AGTTCCTCCT ATGGAGCATG AACTTTCCAT CAGTGAGCAG
    CAGCAGCCAG TTCAGCCTTC TGAGTCTCCT AGGGAGGTCG AATCTTCTCC GACCCAGCAG
    GAGACCCCAG GTCAGCCTCC AGAACATCAT GAAGTCACAG TTTCACCTCC AGGTCACCAT
    CAAACTCATC ATTTAGCTTC ACCCAGTGTC TCTGTGAAGC CTCCAGACGT GCAGCTCACC
    ATAGCAGCAG AGCCTAGTGC AGAGGTGGGA ACTTCTCTAG TCCACCAGGA GGCTACAACT
    CGGCTCTCAG GGTCAGGTAA TGATGTAGAA CCTCCCGCCA TCCAGCACGG GGGCCCACCT
    CTGCTTCCAG AGTCATCAGA AGAAGCTGGA CCTTTAGCAG TTCAACAGGA GACTTCATTT
    CAATCTCCGG AACCTATTAA TAATGAGAAC CCCTCTCCAA CCCAGCAGGA GGCTGCAGCT
    GAGCATCCAC AGACCGCTGA GGAGGGTGAG TCTTCCCTAA CCCATCAGGA GGCCCCAGCT
    CAGACTCCAG AGTTCCCTAA TGTAGTTGTA GCTCAACCTC CAGAGCATTC ACACCTGACT
    CAAGCCACAG TTCAACCTTT GGATCTGGGG TTTACCATCA CTCCAGAATC CAAGACAGAG
    GTTGAACTTT CTCCAACCAT GAAGGAGACC CCAACTCAGC CTCCTAAGAA AGTTGTACCC
    CAACTTCGAG TATATCAAGG GGTAACAAAT CCAACACCAG GTCAGGATCA AGCTCAGCAT
    CCAGTGTCAC CCAGCGTTAC AGTTCAACTT TTGGACCTGG GACTTACCAT CACTCCAGAA
    CCTACTACGG AGGTTGGACA TTCTACACCC CCGAAGAGGA CTATAGTTTC TCCAAAGCAT
    CCTGAGGTGA CACTTCCACA TCCAGACCAG GTTCAGACTC AGCATTCACA CCTGACTCGA
    GCCACAGTTC AACCTTTGGA CCTGGGGTTT ACCATCACTC CAAAATCCAT GACAGAGGTT
    GAACCTTCTA CAGCCCTGAT GACTACAGCT CCTCCTCCAG GACACCCTGA GGTGACACTT
    CCACCTTCAG ACAAGGGTCA GGCTCAGCAT TCACACCTGA CTCAAGCCAC CGTTCAACCT
    CTGGACCTGG AGCTTACCAT AACTACAAAA CCTACTACAG AGGTTAAACC ATCTCCAACC
    ACGGAGGAGA CCTCAACTCA GCCTCCAGAC CTGGGACTTG CCATCATTCC AGAACCCACT
    ACAGAGACTA GACATTCTAC AGCCCTGGAG AAGACTACAG CTCCTCGTCC AGACCGGGTT
    CAGACTCTGC ATCGAAGCCT GACTGAAGTC ACAGGTCCAC CTACTGAACT AGAACCTGCT
    CAGGATTCAC TGGTGCAGTC TGAAAGTTAC ACCCAAAATA AGGCTTTAAC TGCACCAGAG
    GAACACAAGG CCTCCACAAG CACCAACATA TGTGAGCTCT GTACCTGCGG AGATGAGATG
    TTGTCATGTA TTGATCTCAA CCCAGAGCAG AGGCTCCGCC AAGTGCCTGT GCCAGAGCCC
    AACACCCACA ATGGCACCTT CACCATCTTA AATTTCCAAG GAAACTATAT TTCTTACATT
    GATGGAAATG TATGGAAAGC ATACAGTTGG ACCGAGAAAC TAATTCTCAA TCACAATCCT
    CTGACAACTG TTGAAGATCC GTATCTCTTT AAATTGCCAG CATTAAAATA TCTAGACATG
    GGAACAACGC TAGTCCCACT TACAACACTT AAGAACATTC TCATGATGAC TGTTGAACTG
    GAAAAACTGA TCTTACCTAG CCATATGGCC TGCTGCCTCT GCCAATTTAA AAACAGCATT
    GAGGCTGTCT GCAAGACAGT CAAGCTGCAT TGCAACAGTG CATGTCTGAC AAACACCACA
    CATTGTCCTG AAGAAGCATC GGTAGGGAAT CCAGAAGGAG CGTTCATGAA GGTGTTACAA
    GCCCGGAAGA ACTACACAAG CACTGAGCTG ATTGTTGAGC CAGAGGAGCC CTCAGACAGC
    AGTGGCATCA ACTTGTCAGG CTTTGGGAGT GAGCAGCTAG ACACCAATGA CGAGAGTGAT
    TTTATCAGTA CACTAAGTTA CATCTTGCCT TATTTCTCAG CGGTAAACCT AGATGTGAAA
    TCACTGTTAC TACCGTTCAT TAAACTGCCA ACCACAGGAA ACAGCCTGGC AAAGATTCAA
    ACTGTAGGCC AAAACCGGCA GAGAGTGAAG AGAGTCCTCA TGGGCCCAAG GAGCATCCAG
    AAAAGGCACT TCAAAGAGGT AGGAAGGCAG AGCATCAGGA GGGAACAGGG TGCCCAGGCA
    TCTGTGGAGA ACGCTGCCGA AGAAAAAAGG CTCGGGAGTC CAGCCCCAAG GGAGGTGGAA
    CAGCCCCACA CACAGCAGGG GCCTGAGAAG TTAGCGGGAA ACGCCGTCTA CACCAAGCCT
    TCCTTCACCC AAGAGCATAA GGCAGCAGTC TCTGTGCTGA AACCCTTCTC CAAGGGCGCG
    CCTTCTACCT CCAGCCCTGC AAAAGCCCTA CCACAGGTGA GAGACAGATG GAAAGACTTA
    ACCCACGCTA TTTCCATTTT AGAAAGTGCA AAGGCTAGAG TTACAAATAC GAAGACGTCT
    AAACCAATCG TACATGCCAG AAAAAAATAC CGCTTTCACA AAACTCGCTC CCACGTGACC
    CACAGAACAC CCAAAGTCAA AAAGAGTCCA AAGGTCAGAA AGAAAAGTTA TCTGAGTAGA
    CTGATGCTCG CAAACAGGCT TCCATTCTCT GCAGCGAAGA GCCTCATAAA TTCCCCTTCA
    CAAGGGGCTT TTTCATCCTT AGGAGACCTG AGTCCTCAAG AAAACCCTTT TCTGGAAGTA
    TCTGCTCCTT CAGAACATTT TATAGAAAAC AATAATACAA AACACACAAC TGCAAGAAAT
    GCCTTTGAAG AAAATGATTT TATGGAAAAC ACTAACATGC CAGAAGGAAC CATCTCTGAA
    AACACAAACT ACAATCATCC TCATGAGGCA GATTCCGCTG GGACTGCATT CAACTTAGGG
    CCAACTGTTA AACAAACTGA GACAAAATGG GAATACAACA ACGTGGGCAC TGACCTGTCC
    CCCGAGCCCA AAAGCTTCAA TTACCCATTG CTCTCGTCCC CAGGTGATCA GTTTGAAATT
    CAGCTAACCC AGCAGCTACA GTCCCTTATC CCCAACAACA ATGTGAGAAG GCTCATTGCT
    CATGTTATCC GGACCTTGAA GATGGACTGC TCTGGGGCCC ATGTGCAAGT GACCTGTGCC
    AAGCTCATCT CCAGGACAGG CCACCTGATG AAGCTTCTCA GTGGGCAGCA GGAAGTAAAG
    GCATCCAAGA TAGAATGGGA TACGGACCAA TGGAAGATTG AGAACTACAT TAATGAGAGC
    ACAGAAGCCC AGAGTGAACA GAAAGAGAAG TCGCTTGAGC TCAAAAAAGA AGTTCCAGGA
    TATGGCTATA CTGACAAACT CATCTTGGCA TTAATTGTTA CTGGAATACT AACGATTTTG
    ATTATACTTT TCTGCCTCAT TGTGATATGT TGTCACCGAA GGTCATTACA AGAAGATGAA
    GAAGGATTCT CAAGGGGCAT TTTCAGATTT CTGCCATGGA GGGGATGCTC TTCGCGAAGG
    GAGAGTCAGG ATGGACTTTC CTCATTTGGA CAGCCGCTCT GGTTTAAAGA TATGTACAAA
    CCTCTCAGTG CCACAAGAAT AAATAATCAT GCATGGAAGC TGCACAAGAA GTCATCTAAT
    GAGGACAAGA TCCTCAACAG GGACCCTGGG GACAGCGAAG CCCCAACGGA GGAGGAGGAG
    AGTGAAGCCC TGCCATAG

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

    CloneID OHu80383
    Clone ID Related Accession (Same CDS sequence) XM_011524846.2 , XM_011524846.3
    Accession Version XM_011524846.3 Latest version! Documents for ORF clone product in default vector
    Sequence Information ORF Nucleotide Sequence (Length: 4878bp)
    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 leucine-rich repeat-containing protein 37A2 isoform X5
    Comment Comment: MODEL REFSEQ: This record is predicted by automated computational analysis. This record is derived from a genomic sequence (NC_000017.11) annotated using gene prediction method: Gnomon, supported by mRNA and EST evidence. Also see: Documentation of NCBI's Annotation Process On Mar 26, 2018 this sequence version replaced XM_011524846.2. ##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
    4801
    4861
    ATGTCTTCTG CTCAGTGCCC GGCACTAGTG TGTGTCATGT CCCGGCTGCG TTTCTGGGGC 
    CCATGGCCCC TCCTTATGTG GCAACTATTG TGGCTACTAG TTAAGGAGGC TCAGCCTCTG
    GAGTGGGTCA AGGACCCGCT CCAGCTCACC TCTAATCCCC TGGGGCCGCC TGACTCCTGG
    TCTTCCCACT CCTCCCATTT CCCACGGGAA TCTCCCCATG CGCCTACTCT CCCAGCAGAC
    CCGTGGGACT TTGATCACCT GGGGCCCTCT GCTTCCTCAG AGATGCCAGC CCCACCCCAG
    GAATCGACTG AAAATTTGGT TCCATTCCTG GACACCTGGG ATTCAGCTGG AGAGCAGCCC
    CTGGAGCCAG AGCAGTTCTT GGCTTCACAG CAGGATTTAA AGGACAAGCT GAGTCCACAG
    GAAAGACTCC CTGTTTCGCC CAAGAAGCTG AAGAAAGATC CAGCTCAGCG TTGGAGCCTT
    GCTGAGATTA TTGGAATTAC ACGCCAATTA TCCACACCTC AGAGTCAGAA ACAGACTTTG
    CAGAATGAAT ATTCCAGTAC AGATACACCG TATCCCGGTA GCCTGCCTCC AGAACTCCGG
    GTGAAGTCAG ATGAGCCTCC AGGGCCCTCT GAGCAAGTTG GACCTTCTCA ATTCCATCTA
    GAGCCCGAAA CTCAAAATCC AGAGACCCTT GAAGACATCC AGTCCTCTTC ACTCCAGCAA
    GAAGCCCCAG CACAGCTTCC ACAGCTCCTT GAGGAAGAAC CTTCTTCAAT GCAGCAGGAG
    GCCCCAGCTC TGCCTCCAGA GTCCTCTATG GAGAGTCTAA CTCTACCGAA TCATGAGGTG
    TCAGTTCAAC CTCCAGGTGA GGATCAAGCT TATTATCACT TGCCCAACAT TACAGTTAAA
    CCTGCAGATG TGGAGGTTAC CATAACTTCA GAGCCTACCA ATGAGACAGA ATCTTCCCAA
    GCCCAGCAGG AGACCCCAAT TCAGTTTCCA GAGGAGGTGG AACCTTCTGC AACCCAACAG
    GAGGCCCCAA TTGAGCCTCC AGTTCCTCCT ATGGAGCATG AACTTTCCAT CAGTGAGCAG
    CAGCAGCCAG TTCAGCCTTC TGAGTCTCCT AGGGAGGTCG AATCTTCTCC GACCCAGCAG
    GAGACCCCAG GTCAGCCTCC AGAACATCAT GAAGTCACAG TTTCACCTCC AGGTCACCAT
    CAAACTCATC ATTTAGCTTC ACCCAGTGTC TCTGTGAAGC CTCCAGACGT GCAGCTCACC
    ATAGCAGCAG AGCCTAGTGC AGAGGTGGGA ACTTCTCTAG TCCACCAGGA GGCTACAACT
    CGGCTCTCAG GGTCAGGTAA TGATGTAGAA CCTCCCGCCA TCCAGCACGG GGGCCCACCT
    CTGCTTCCAG AGTCATCAGA AGAAGCTGGA CCTTTAGCAG TTCAACAGGA GACTTCATTT
    CAATCTCCGG AACCTATTAA TAATGAGAAC CCCTCTCCAA CCCAGCAGGA GGCTGCAGCT
    GAGCATCCAC AGACCGCTGA GGAGGGTGAG TCTTCCCTAA CCCATCAGGA GGCCCCAGCT
    CAGACTCCAG AGTTCCCTAA TGTAGTTGTA GCTCAACCTC CAGAGCATTC ACACCTGACT
    CAAGCCACAG TTCAACCTTT GGATCTGGGG TTTACCATCA CTCCAGAATC CAAGACAGAG
    GTTGAACTTT CTCCAACCAT GAAGGAGACC CCAACTCAGC CTCCTAAGAA AGTTGTACCC
    CAACTTCGAG TATATCAAGG GGTAACAAAT CCAACACCAG GTCAGGATCA AGCTCAGCAT
    CCAGTGTCAC CCAGCGTTAC AGTTCAACTT TTGGACCTGG GACTTACCAT CACTCCAGAA
    CCTACTACGG AGGTTGGACA TTCTACACCC CCGAAGAGGA CTATAGTTTC TCCAAAGCAT
    CCTGAGGTGA CACTTCCACA TCCAGACCAG GTTCAGACTC AGCATTCACA CCTGACTCGA
    GCCACAGTTC AACCTTTGGA CCTGGGGTTT ACCATCACTC CAAAATCCAT GACAGAGGTT
    GAACCTTCTA CAGCCCTGAT GACTACAGCT CCTCCTCCAG GACACCCTGA GGTGACACTT
    CCACCTTCAG ACAAGGGTCA GGCTCAGCAT TCACACCTGA CTCAAGCCAC CGTTCAACCT
    CTGGACCTGG AGCTTACCAT AACTACAAAA CCTACTACAG AGGTTAAACC ATCTCCAACC
    ACGGAGGAGA CCTCAACTCA GCCTCCAGAC CTGGGACTTG CCATCATTCC AGAACCCACT
    ACAGAGACTA GACATTCTAC AGCCCTGGAG AAGACTACAG CTCCTCGTCC AGACCGGGTT
    CAGACTCTGC ATCGAAGCCT GACTGAAGTC ACAGGTCCAC CTACTGAACT AGAACCTGCT
    CAGGATTCAC TGGTGCAGTC TGAAAGTTAC ACCCAAAATA AGGCTTTAAC TGCACCAGAG
    GAACACAAGG CCTCCACAAG CACCAACATA TGTGAGCTCT GTACCTGCGG AGATGAGATG
    TTGTCATGTA TTGATCTCAA CCCAGAGCAG AGGCTCCGCC AAGTGCCTGT GCCAGAGCCC
    AACACCCACA ATGGCACCTT CACCATCTTA AATTTCCAAG GAAACTATAT TTCTTACATT
    GATGGAAATG TATGGAAAGC ATACAGTTGG ACCGAGAAAC TAATTCTCAA TCACAATCCT
    CTGACAACTG TTGAAGATCC GTATCTCTTT AAATTGCCAG CATTAAAATA TCTAGACATG
    GGAACAACGC TAGTCCCACT TACAACACTT AAGAACATTC TCATGATGAC TGTTGAACTG
    GAAAAACTGA TCTTACCTAG CCATATGGCC TGCTGCCTCT GCCAATTTAA AAACAGCATT
    GAGGCTGTCT GCAAGACAGT CAAGCTGCAT TGCAACAGTG CATGTCTGAC AAACACCACA
    CATTGTCCTG AAGAAGCATC GGTAGGGAAT CCAGAAGGAG CGTTCATGAA GGTGTTACAA
    GCCCGGAAGA ACTACACAAG CACTGAGCTG ATTGTTGAGC CAGAGGAGCC CTCAGACAGC
    AGTGGCATCA ACTTGTCAGG CTTTGGGAGT GAGCAGCTAG ACACCAATGA CGAGAGTGAT
    TTTATCAGTA CACTAAGTTA CATCTTGCCT TATTTCTCAG CGGTAAACCT AGATGTGAAA
    TCACTGTTAC TACCGTTCAT TAAACTGCCA ACCACAGGAA ACAGCCTGGC AAAGATTCAA
    ACTGTAGGCC AAAACCGGCA GAGAGTGAAG AGAGTCCTCA TGGGCCCAAG GAGCATCCAG
    AAAAGGCACT TCAAAGAGGT AGGAAGGCAG AGCATCAGGA GGGAACAGGG TGCCCAGGCA
    TCTGTGGAGA ACGCTGCCGA AGAAAAAAGG CTCGGGAGTC CAGCCCCAAG GGAGGTGGAA
    CAGCCCCACA CACAGCAGGG GCCTGAGAAG TTAGCGGGAA ACGCCGTCTA CACCAAGCCT
    TCCTTCACCC AAGAGCATAA GGCAGCAGTC TCTGTGCTGA AACCCTTCTC CAAGGGCGCG
    CCTTCTACCT CCAGCCCTGC AAAAGCCCTA CCACAGGTGA GAGACAGATG GAAAGACTTA
    ACCCACGCTA TTTCCATTTT AGAAAGTGCA AAGGCTAGAG TTACAAATAC GAAGACGTCT
    AAACCAATCG TACATGCCAG AAAAAAATAC CGCTTTCACA AAACTCGCTC CCACGTGACC
    CACAGAACAC CCAAAGTCAA AAAGAGTCCA AAGGTCAGAA AGAAAAGTTA TCTGAGTAGA
    CTGATGCTCG CAAACAGGCT TCCATTCTCT GCAGCGAAGA GCCTCATAAA TTCCCCTTCA
    CAAGGGGCTT TTTCATCCTT AGGAGACCTG AGTCCTCAAG AAAACCCTTT TCTGGAAGTA
    TCTGCTCCTT CAGAACATTT TATAGAAAAC AATAATACAA AACACACAAC TGCAAGAAAT
    GCCTTTGAAG AAAATGATTT TATGGAAAAC ACTAACATGC CAGAAGGAAC CATCTCTGAA
    AACACAAACT ACAATCATCC TCATGAGGCA GATTCCGCTG GGACTGCATT CAACTTAGGG
    CCAACTGTTA AACAAACTGA GACAAAATGG GAATACAACA ACGTGGGCAC TGACCTGTCC
    CCCGAGCCCA AAAGCTTCAA TTACCCATTG CTCTCGTCCC CAGGTGATCA GTTTGAAATT
    CAGCTAACCC AGCAGCTACA GTCCCTTATC CCCAACAACA ATGTGAGAAG GCTCATTGCT
    CATGTTATCC GGACCTTGAA GATGGACTGC TCTGGGGCCC ATGTGCAAGT GACCTGTGCC
    AAGCTCATCT CCAGGACAGG CCACCTGATG AAGCTTCTCA GTGGGCAGCA GGAAGTAAAG
    GCATCCAAGA TAGAATGGGA TACGGACCAA TGGAAGATTG AGAACTACAT TAATGAGAGC
    ACAGAAGCCC AGAGTGAACA GAAAGAGAAG TCGCTTGAGC TCAAAAAAGA AGTTCCAGGA
    TATGGCTATA CTGACAAACT CATCTTGGCA TTAATTGTTA CTGGAATACT AACGATTTTG
    ATTATACTTT TCTGCCTCAT TGTGATATGT TGTCACCGAA GGTCATTACA AGAAGATGAA
    GAAGGATTCT CAAGGGGCAT TTTCAGATTT CTGCCATGGA GGGGATGCTC TTCGCGAAGG
    GAGAGTCAGG ATGGACTTTC CTCATTTGGA CAGCCGCTCT GGTTTAAAGA TATGTACAAA
    CCTCTCAGTG CCACAAGAAT AAATAATCAT GCATGGAAGC TGCACAAGAA GTCATCTAAT
    GAGGACAAGA TCCTCAACAG GGACCCTGGG GACAGCGAAG CCCCAACGGA GGAGGAGGAG
    AGTGAAGCCC TGCCATAG

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

    RefSeq XP_011523148.1
    CDS4..4881
    Translation

    Target ORF information:

    RefSeq Version XM_011524846.3
    Organism Homo sapiens(human)
    Definition Homo sapiens leucine rich repeat containing 37 member A2 (LRRC37A2), transcript variant X5, mRNA.

    Target ORF information:

    Epitope DYKDDDDK
    Bacterial selection AMPR
    Mammalian selection NeoR
    Vector pcDNA3.1+/C-(K)DYK
    XM_011524846.3

    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
    4801
    4861
    ATGTCTTCTG CTCAGTGCCC GGCACTAGTG TGTGTCATGT CCCGGCTGCG TTTCTGGGGC 
    CCATGGCCCC TCCTTATGTG GCAACTATTG TGGCTACTAG TTAAGGAGGC TCAGCCTCTG
    GAGTGGGTCA AGGACCCGCT CCAGCTCACC TCTAATCCCC TGGGGCCGCC TGACTCCTGG
    TCTTCCCACT CCTCCCATTT CCCACGGGAA TCTCCCCATG CGCCTACTCT CCCAGCAGAC
    CCGTGGGACT TTGATCACCT GGGGCCCTCT GCTTCCTCAG AGATGCCAGC CCCACCCCAG
    GAATCGACTG AAAATTTGGT TCCATTCCTG GACACCTGGG ATTCAGCTGG AGAGCAGCCC
    CTGGAGCCAG AGCAGTTCTT GGCTTCACAG CAGGATTTAA AGGACAAGCT GAGTCCACAG
    GAAAGACTCC CTGTTTCGCC CAAGAAGCTG AAGAAAGATC CAGCTCAGCG TTGGAGCCTT
    GCTGAGATTA TTGGAATTAC ACGCCAATTA TCCACACCTC AGAGTCAGAA ACAGACTTTG
    CAGAATGAAT ATTCCAGTAC AGATACACCG TATCCCGGTA GCCTGCCTCC AGAACTCCGG
    GTGAAGTCAG ATGAGCCTCC AGGGCCCTCT GAGCAAGTTG GACCTTCTCA ATTCCATCTA
    GAGCCCGAAA CTCAAAATCC AGAGACCCTT GAAGACATCC AGTCCTCTTC ACTCCAGCAA
    GAAGCCCCAG CACAGCTTCC ACAGCTCCTT GAGGAAGAAC CTTCTTCAAT GCAGCAGGAG
    GCCCCAGCTC TGCCTCCAGA GTCCTCTATG GAGAGTCTAA CTCTACCGAA TCATGAGGTG
    TCAGTTCAAC CTCCAGGTGA GGATCAAGCT TATTATCACT TGCCCAACAT TACAGTTAAA
    CCTGCAGATG TGGAGGTTAC CATAACTTCA GAGCCTACCA ATGAGACAGA ATCTTCCCAA
    GCCCAGCAGG AGACCCCAAT TCAGTTTCCA GAGGAGGTGG AACCTTCTGC AACCCAACAG
    GAGGCCCCAA TTGAGCCTCC AGTTCCTCCT ATGGAGCATG AACTTTCCAT CAGTGAGCAG
    CAGCAGCCAG TTCAGCCTTC TGAGTCTCCT AGGGAGGTCG AATCTTCTCC GACCCAGCAG
    GAGACCCCAG GTCAGCCTCC AGAACATCAT GAAGTCACAG TTTCACCTCC AGGTCACCAT
    CAAACTCATC ATTTAGCTTC ACCCAGTGTC TCTGTGAAGC CTCCAGACGT GCAGCTCACC
    ATAGCAGCAG AGCCTAGTGC AGAGGTGGGA ACTTCTCTAG TCCACCAGGA GGCTACAACT
    CGGCTCTCAG GGTCAGGTAA TGATGTAGAA CCTCCCGCCA TCCAGCACGG GGGCCCACCT
    CTGCTTCCAG AGTCATCAGA AGAAGCTGGA CCTTTAGCAG TTCAACAGGA GACTTCATTT
    CAATCTCCGG AACCTATTAA TAATGAGAAC CCCTCTCCAA CCCAGCAGGA GGCTGCAGCT
    GAGCATCCAC AGACCGCTGA GGAGGGTGAG TCTTCCCTAA CCCATCAGGA GGCCCCAGCT
    CAGACTCCAG AGTTCCCTAA TGTAGTTGTA GCTCAACCTC CAGAGCATTC ACACCTGACT
    CAAGCCACAG TTCAACCTTT GGATCTGGGG TTTACCATCA CTCCAGAATC CAAGACAGAG
    GTTGAACTTT CTCCAACCAT GAAGGAGACC CCAACTCAGC CTCCTAAGAA AGTTGTACCC
    CAACTTCGAG TATATCAAGG GGTAACAAAT CCAACACCAG GTCAGGATCA AGCTCAGCAT
    CCAGTGTCAC CCAGCGTTAC AGTTCAACTT TTGGACCTGG GACTTACCAT CACTCCAGAA
    CCTACTACGG AGGTTGGACA TTCTACACCC CCGAAGAGGA CTATAGTTTC TCCAAAGCAT
    CCTGAGGTGA CACTTCCACA TCCAGACCAG GTTCAGACTC AGCATTCACA CCTGACTCGA
    GCCACAGTTC AACCTTTGGA CCTGGGGTTT ACCATCACTC CAAAATCCAT GACAGAGGTT
    GAACCTTCTA CAGCCCTGAT GACTACAGCT CCTCCTCCAG GACACCCTGA GGTGACACTT
    CCACCTTCAG ACAAGGGTCA GGCTCAGCAT TCACACCTGA CTCAAGCCAC CGTTCAACCT
    CTGGACCTGG AGCTTACCAT AACTACAAAA CCTACTACAG AGGTTAAACC ATCTCCAACC
    ACGGAGGAGA CCTCAACTCA GCCTCCAGAC CTGGGACTTG CCATCATTCC AGAACCCACT
    ACAGAGACTA GACATTCTAC AGCCCTGGAG AAGACTACAG CTCCTCGTCC AGACCGGGTT
    CAGACTCTGC ATCGAAGCCT GACTGAAGTC ACAGGTCCAC CTACTGAACT AGAACCTGCT
    CAGGATTCAC TGGTGCAGTC TGAAAGTTAC ACCCAAAATA AGGCTTTAAC TGCACCAGAG
    GAACACAAGG CCTCCACAAG CACCAACATA TGTGAGCTCT GTACCTGCGG AGATGAGATG
    TTGTCATGTA TTGATCTCAA CCCAGAGCAG AGGCTCCGCC AAGTGCCTGT GCCAGAGCCC
    AACACCCACA ATGGCACCTT CACCATCTTA AATTTCCAAG GAAACTATAT TTCTTACATT
    GATGGAAATG TATGGAAAGC ATACAGTTGG ACCGAGAAAC TAATTCTCAA TCACAATCCT
    CTGACAACTG TTGAAGATCC GTATCTCTTT AAATTGCCAG CATTAAAATA TCTAGACATG
    GGAACAACGC TAGTCCCACT TACAACACTT AAGAACATTC TCATGATGAC TGTTGAACTG
    GAAAAACTGA TCTTACCTAG CCATATGGCC TGCTGCCTCT GCCAATTTAA AAACAGCATT
    GAGGCTGTCT GCAAGACAGT CAAGCTGCAT TGCAACAGTG CATGTCTGAC AAACACCACA
    CATTGTCCTG AAGAAGCATC GGTAGGGAAT CCAGAAGGAG CGTTCATGAA GGTGTTACAA
    GCCCGGAAGA ACTACACAAG CACTGAGCTG ATTGTTGAGC CAGAGGAGCC CTCAGACAGC
    AGTGGCATCA ACTTGTCAGG CTTTGGGAGT GAGCAGCTAG ACACCAATGA CGAGAGTGAT
    TTTATCAGTA CACTAAGTTA CATCTTGCCT TATTTCTCAG CGGTAAACCT AGATGTGAAA
    TCACTGTTAC TACCGTTCAT TAAACTGCCA ACCACAGGAA ACAGCCTGGC AAAGATTCAA
    ACTGTAGGCC AAAACCGGCA GAGAGTGAAG AGAGTCCTCA TGGGCCCAAG GAGCATCCAG
    AAAAGGCACT TCAAAGAGGT AGGAAGGCAG AGCATCAGGA GGGAACAGGG TGCCCAGGCA
    TCTGTGGAGA ACGCTGCCGA AGAAAAAAGG CTCGGGAGTC CAGCCCCAAG GGAGGTGGAA
    CAGCCCCACA CACAGCAGGG GCCTGAGAAG TTAGCGGGAA ACGCCGTCTA CACCAAGCCT
    TCCTTCACCC AAGAGCATAA GGCAGCAGTC TCTGTGCTGA AACCCTTCTC CAAGGGCGCG
    CCTTCTACCT CCAGCCCTGC AAAAGCCCTA CCACAGGTGA GAGACAGATG GAAAGACTTA
    ACCCACGCTA TTTCCATTTT AGAAAGTGCA AAGGCTAGAG TTACAAATAC GAAGACGTCT
    AAACCAATCG TACATGCCAG AAAAAAATAC CGCTTTCACA AAACTCGCTC CCACGTGACC
    CACAGAACAC CCAAAGTCAA AAAGAGTCCA AAGGTCAGAA AGAAAAGTTA TCTGAGTAGA
    CTGATGCTCG CAAACAGGCT TCCATTCTCT GCAGCGAAGA GCCTCATAAA TTCCCCTTCA
    CAAGGGGCTT TTTCATCCTT AGGAGACCTG AGTCCTCAAG AAAACCCTTT TCTGGAAGTA
    TCTGCTCCTT CAGAACATTT TATAGAAAAC AATAATACAA AACACACAAC TGCAAGAAAT
    GCCTTTGAAG AAAATGATTT TATGGAAAAC ACTAACATGC CAGAAGGAAC CATCTCTGAA
    AACACAAACT ACAATCATCC TCATGAGGCA GATTCCGCTG GGACTGCATT CAACTTAGGG
    CCAACTGTTA AACAAACTGA GACAAAATGG GAATACAACA ACGTGGGCAC TGACCTGTCC
    CCCGAGCCCA AAAGCTTCAA TTACCCATTG CTCTCGTCCC CAGGTGATCA GTTTGAAATT
    CAGCTAACCC AGCAGCTACA GTCCCTTATC CCCAACAACA ATGTGAGAAG GCTCATTGCT
    CATGTTATCC GGACCTTGAA GATGGACTGC TCTGGGGCCC ATGTGCAAGT GACCTGTGCC
    AAGCTCATCT CCAGGACAGG CCACCTGATG AAGCTTCTCA GTGGGCAGCA GGAAGTAAAG
    GCATCCAAGA TAGAATGGGA TACGGACCAA TGGAAGATTG AGAACTACAT TAATGAGAGC
    ACAGAAGCCC AGAGTGAACA GAAAGAGAAG TCGCTTGAGC TCAAAAAAGA AGTTCCAGGA
    TATGGCTATA CTGACAAACT CATCTTGGCA TTAATTGTTA CTGGAATACT AACGATTTTG
    ATTATACTTT TCTGCCTCAT TGTGATATGT TGTCACCGAA GGTCATTACA AGAAGATGAA
    GAAGGATTCT CAAGGGGCAT TTTCAGATTT CTGCCATGGA GGGGATGCTC TTCGCGAAGG
    GAGAGTCAGG ATGGACTTTC CTCATTTGGA CAGCCGCTCT GGTTTAAAGA TATGTACAAA
    CCTCTCAGTG CCACAAGAAT AAATAATCAT GCATGGAAGC TGCACAAGAA GTCATCTAAT
    GAGGACAAGA TCCTCAACAG GGACCCTGGG GACAGCGAAG CCCCAACGGA GGAGGAGGAG
    AGTGAAGCCC TGCCATAG

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

    CloneID OHu80385
    Clone ID Related Accession (Same CDS sequence) XM_011524848.3 , XM_011524848.2
    Accession Version XM_011524848.3 Latest version! Documents for ORF clone product in default vector
    Sequence Information ORF Nucleotide Sequence (Length: 4803bp)
    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 leucine-rich repeat-containing protein 37A2 isoform X7
    Comment Comment: MODEL REFSEQ: This record is predicted by automated computational analysis. This record is derived from a genomic sequence (NC_000017.11) annotated using gene prediction method: Gnomon, supported by mRNA and EST evidence. Also see: Documentation of NCBI's Annotation Process On Mar 26, 2018 this sequence version replaced XM_011524848.2. ##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
    4801
    ATGTCTTCTG CTCAGTGCCC GGCACTAGTG TGTGTCATGT CCCGGCTGCG TTTCTGGGGC 
    CCATGGCCCC TCCTTATGTG GCAACTATTG TGGCTACTAG TTAAGGAGGC TCAGCCTCTG
    GAGTGGGTCA AGGACCCGCT CCAGCTCACC TCTAATCCCC TGGGGCCGCC TGACTCCTGG
    TCTTCCCACT CCTCCCATTT CCCACGGGAA TCTCCCCATG CGCCTACTCT CCCAGCAGAC
    CCGTGGGACT TTGATCACCT GGGGCCCTCT GCTTCCTCAG AGATGCCAGC CCCACCCCAG
    GAATCGACTG AAAATTTGGT TCCATTCCTG GACACCTGGG ATTCAGCTGG AGAGCAGCCC
    CTGGAGCCAG AGCAGTTCTT GGCTTCACAG CAGGATTTAA AGGACAAGCT GAGTCCACAG
    GAAAGACTCC CTGTTTCGCC CAAGAAGCTG AAGAAAGATC CAGCTCAGCG TTGGAGCCTT
    GCTGAGATTA TTGGAATTAC ACGCCAATTA TCCACACCTC AGAGTCAGAA ACAGACTTTG
    CAGAATGAAT ATTCCAGTAC AGATACACCG TATCCCGGTA GCCTGCCTCC AGAACTCCGG
    GTGAAGTCAG ATGAGCCTCC AGGGCCCTCT GAGCAAGTTG GACCTTCTCA ATTCCATCTA
    GAGCCCGAAA CTCAAAATCC AGAGACCCTT GAAGACATCC AGTCCTCTTC ACTCCAGCAA
    GAAGCCCCAG CACAGCTTCC ACAGCTCCTT GAGGAAGAAC CTTCTTCAAT GCAGCAGGAG
    GCCCCAGCTC TGCCTCCAGA GTCCTCTATG GAGAGTCTAA CTCTACCGAA TCATGAGGTG
    TCAGTTCAAC CTCCAGGTGA GGATCAAGCT TATTATCACT TGCCCAACAT TACAGTTAAA
    CCTGCAGATG TGGAGGTTAC CATAACTTCA GAGCCTACCA ATGAGACAGA ATCTTCCCAA
    GCCCAGCAGG AGACCCCAAT TCAGTTTCCA GAGGAGGTGG AACCTTCTGC AACCCAACAG
    GAGGCCCCAA TTGAGCCTCC AGTTCCTCCT ATGGAGCATG AACTTTCCAT CAGTGAGCAG
    CAGCAGCCAG TTCAGCCTTC TGAGTCTCCT AGGGAGGTCG AATCTTCTCC GACCCAGCAG
    GAGACCCCAG GTCAGCCTCC AGAACATCAT GAAGTCACAG TTTCACCTCC AGGTCACCAT
    CAAACTCATC ATTTAGCTTC ACCCAGTGTC TCTGTGAAGC CTCCAGACGT GCAGCTCACC
    ATAGCAGCAG AGCCTAGTGC AGAGGTGGGA ACTTCTCTAG TCCACCAGGA GGCTACAACT
    CGGCTCTCAG GGTCAGGTAA TGATGTAGAA CCTCCCGCCA TCCAGCACGG GGGCCCACCT
    CTGCTTCCAG AGTCATCAGA AGAAGCTGGA CCTTTAGCAG TTCAACAGGA GACTTCATTT
    CAATCTCCGG AACCTATTAA TAATGAGAAC CCCTCTCCAA CCCAGCAGGA GGCTGCAGCT
    GAGCATCCAC AGACCGCTGA GGAGGGTGAG TCTTCCCTAA CCCATCAGGA GGCCCCAGCT
    CAGACTCCAG AGTTCCCTAA TGTAGTTGTA GCTCAACCTC CAGAGCATTC ACACCTGACT
    CAAGCCACAG TTCAACCTTT GGATCTGGGG TTTACCATCA CTCCAGAATC CAAGACAGAG
    GTTGAACTTT CTCCAACCAT GAAGGAGACC CCAACTCAGC CTCCTAAGAA AGTTGTACCC
    CAACTTCGAG TATATCAAGG GGTAACAAAT CCAACACCAG GTCAGGATCA AGCTCAGCAT
    CCAGTGTCAC CCAGCGTTAC AGTTCAACTT TTGGACCTGG GACTTACCAT CACTCCAGAA
    CCTACTACGG AGGTTGGACA TTCTACACCC CCGAAGAGGA CTATAGTTTC TCCAAAGCAT
    CCTGAGGTGA CACTTCCACA TCCAGACCAG GTTCAGACTC AGCATTCACA CCTGACTCGA
    GCCACAGTTC AACCTTTGGA CCTGGGGTTT ACCATCACTC CAAAATCCAT GACAGAGGTT
    GAACCTTCTA CAGCCCTGAT GACTACAGCT CCTCCTCCAG GACACCCTGA GGTGACACTT
    CCACCTTCAG ACAAGGGTCA GGCTCAGCAT TCACACCTGA CTCAAGCCAC CGTTCAACCT
    CTGGACCTGG AGCTTACCAT AACTACAAAA CCTACTACAG AGGTTAAACC ATCTCCAACC
    ACGGAGGAGA CCTCAACTCA GCCTCCAGAC CTGGGACTTG CCATCATTCC AGAACCCACT
    ACAGAGACTA GACATTCTAC AGCCCTGGAG AAGACTACAG CTCCTCGTCC AGACCGGGTT
    CAGACTCTGC ATCGAAGCCT GACTGAAGTC ACAGGTCCAC CTACTGAACT AGAACCTGCT
    CAGGATTCAC TGGTGCAGTC TGAAAGTTAC ACCCAAAATA AGGCTTTAAC TGCACCAGAG
    GAACACAAGG CCTCCACAAG CACCAACATA TGTGAGCTCT GTACCTGCGG AGATGAGATG
    TTGTCATGTA TTGATCTCAA CCCAGAGCAG AGGCTCCGCC AAGTGCCTGT GCCAGAGCCC
    AACACCCACA ATGGCACCTT CACCATCTTA AATTTCCAAG GAAACTATAT TTCTTACATT
    GATGGAAATG TATGGAAAGC ATACAGTTGG ACCGAGAAAC TAATTCTCAG AGAAAATAAC
    TTGACTGAAT TACACAAGGA TTCATTTGAA GGCCTGCTAT CCCTCCAGTA TTTGATCTTA
    CCTAGCCATA TGGCCTGCTG CCTCTGCCAA TTTAAAAACA GCATTGAGGC TGTCTGCAAG
    ACAGTCAAGC TGCATTGCAA CAGTGCATGT CTGACAAACA CCACACATTG TCCTGAAGAA
    GCATCGGTAG GGAATCCAGA AGGAGCGTTC ATGAAGGTGT TACAAGCCCG GAAGAACTAC
    ACAAGCACTG AGCTGATTGT TGAGCCAGAG GAGCCCTCAG ACAGCAGTGG CATCAACTTG
    TCAGGCTTTG GGAGTGAGCA GCTAGACACC AATGACGAGA GTGATTTTAT CAGTACACTA
    AGTTACATCT TGCCTTATTT CTCAGCGGTA AACCTAGATG TGAAATCACT GTTACTACCG
    TTCATTAAAC TGCCAACCAC AGGAAACAGC CTGGCAAAGA TTCAAACTGT AGGCCAAAAC
    CGGCAGAGAG TGAAGAGAGT CCTCATGGGC CCAAGGAGCA TCCAGAAAAG GCACTTCAAA
    GAGGTAGGAA GGCAGAGCAT CAGGAGGGAA CAGGGTGCCC AGGCATCTGT GGAGAACGCT
    GCCGAAGAAA AAAGGCTCGG GAGTCCAGCC CCAAGGGAGG TGGAACAGCC CCACACACAG
    CAGGGGCCTG AGAAGTTAGC GGGAAACGCC GTCTACACCA AGCCTTCCTT CACCCAAGAG
    CATAAGGCAG CAGTCTCTGT GCTGAAACCC TTCTCCAAGG GCGCGCCTTC TACCTCCAGC
    CCTGCAAAAG CCCTACCACA GGTGAGAGAC AGATGGAAAG ACTTAACCCA CGCTATTTCC
    ATTTTAGAAA GTGCAAAGGC TAGAGTTACA AATACGAAGA CGTCTAAACC AATCGTACAT
    GCCAGAAAAA AATACCGCTT TCACAAAACT CGCTCCCACG TGACCCACAG AACACCCAAA
    GTCAAAAAGA GTCCAAAGGT CAGAAAGAAA AGTTATCTGA GTAGACTGAT GCTCGCAAAC
    AGGCTTCCAT TCTCTGCAGC GAAGAGCCTC ATAAATTCCC CTTCACAAGG GGCTTTTTCA
    TCCTTAGGAG ACCTGAGTCC TCAAGAAAAC CCTTTTCTGG AAGTATCTGC TCCTTCAGAA
    CATTTTATAG AAAACAATAA TACAAAACAC ACAACTGCAA GAAATGCCTT TGAAGAAAAT
    GATTTTATGG AAAACACTAA CATGCCAGAA GGAACCATCT CTGAAAACAC AAACTACAAT
    CATCCTCATG AGGCAGATTC CGCTGGGACT GCATTCAACT TAGGGCCAAC TGTTAAACAA
    ACTGAGACAA AATGGGAATA CAACAACGTG GGCACTGACC TGTCCCCCGA GCCCAAAAGC
    TTCAATTACC CATTGCTCTC GTCCCCAGGT GATCAGTTTG AAATTCAGCT AACCCAGCAG
    CTACAGTCCC TTATCCCCAA CAACAATGTG AGAAGGCTCA TTGCTCATGT TATCCGGACC
    TTGAAGATGG ACTGCTCTGG GGCCCATGTG CAAGTGACCT GTGCCAAGCT CATCTCCAGG
    ACAGGCCACC TGATGAAGCT TCTCAGTGGG CAGCAGGAAG TAAAGGCATC CAAGATAGAA
    TGGGATACGG ACCAATGGAA GATTGAGAAC TACATTAATG AGAGCACAGA AGCCCAGAGT
    GAACAGAAAG AGAAGTCGCT TGAGCTCAAA AAAGAAGTTC CAGGATATGG CTATACTGAC
    AAACTCATCT TGGCATTAAT TGTTACTGGA ATACTAACGA TTTTGATTAT ACTTTTCTGC
    CTCATTGTGA TATGTTGTCA CCGAAGGTCA TTACAAGAAG ATGAAGAAGG ATTCTCAAGG
    GGCATTTTCA GATTTCTGCC ATGGAGGGGA TGCTCTTCGC GAAGGGAGAG TCAGGATGGA
    CTTTCCTCAT TTGGACAGCC GCTCTGGTTT AAAGATATGT ACAAACCTCT CAGTGCCACA
    AGAATAAATA ATCATGCATG GAAGCTGCAC AAGAAGTCAT CTAATGAGGA CAAGATCCTC
    AACAGGGACC CTGGGGACAG CGAAGCCCCA ACGGAGGAGG AGGAGAGTGA AGCCCTGCCA
    TAG

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

    RefSeq XP_011523150.1
    CDS4..4806
    Translation

    Target ORF information:

    RefSeq Version XM_011524848.3
    Organism Homo sapiens(human)
    Definition Homo sapiens leucine rich repeat containing 37 member A2 (LRRC37A2), transcript variant X7, mRNA.

    Target ORF information:

    Epitope DYKDDDDK
    Bacterial selection AMPR
    Mammalian selection NeoR
    Vector pcDNA3.1+/C-(K)DYK
    XM_011524848.3

    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
    4801
    ATGTCTTCTG CTCAGTGCCC GGCACTAGTG TGTGTCATGT CCCGGCTGCG TTTCTGGGGC 
    CCATGGCCCC TCCTTATGTG GCAACTATTG TGGCTACTAG TTAAGGAGGC TCAGCCTCTG
    GAGTGGGTCA AGGACCCGCT CCAGCTCACC TCTAATCCCC TGGGGCCGCC TGACTCCTGG
    TCTTCCCACT CCTCCCATTT CCCACGGGAA TCTCCCCATG CGCCTACTCT CCCAGCAGAC
    CCGTGGGACT TTGATCACCT GGGGCCCTCT GCTTCCTCAG AGATGCCAGC CCCACCCCAG
    GAATCGACTG AAAATTTGGT TCCATTCCTG GACACCTGGG ATTCAGCTGG AGAGCAGCCC
    CTGGAGCCAG AGCAGTTCTT GGCTTCACAG CAGGATTTAA AGGACAAGCT GAGTCCACAG
    GAAAGACTCC CTGTTTCGCC CAAGAAGCTG AAGAAAGATC CAGCTCAGCG TTGGAGCCTT
    GCTGAGATTA TTGGAATTAC ACGCCAATTA TCCACACCTC AGAGTCAGAA ACAGACTTTG
    CAGAATGAAT ATTCCAGTAC AGATACACCG TATCCCGGTA GCCTGCCTCC AGAACTCCGG
    GTGAAGTCAG ATGAGCCTCC AGGGCCCTCT GAGCAAGTTG GACCTTCTCA ATTCCATCTA
    GAGCCCGAAA CTCAAAATCC AGAGACCCTT GAAGACATCC AGTCCTCTTC ACTCCAGCAA
    GAAGCCCCAG CACAGCTTCC ACAGCTCCTT GAGGAAGAAC CTTCTTCAAT GCAGCAGGAG
    GCCCCAGCTC TGCCTCCAGA GTCCTCTATG GAGAGTCTAA CTCTACCGAA TCATGAGGTG
    TCAGTTCAAC CTCCAGGTGA GGATCAAGCT TATTATCACT TGCCCAACAT TACAGTTAAA
    CCTGCAGATG TGGAGGTTAC CATAACTTCA GAGCCTACCA ATGAGACAGA ATCTTCCCAA
    GCCCAGCAGG AGACCCCAAT TCAGTTTCCA GAGGAGGTGG AACCTTCTGC AACCCAACAG
    GAGGCCCCAA TTGAGCCTCC AGTTCCTCCT ATGGAGCATG AACTTTCCAT CAGTGAGCAG
    CAGCAGCCAG TTCAGCCTTC TGAGTCTCCT AGGGAGGTCG AATCTTCTCC GACCCAGCAG
    GAGACCCCAG GTCAGCCTCC AGAACATCAT GAAGTCACAG TTTCACCTCC AGGTCACCAT
    CAAACTCATC ATTTAGCTTC ACCCAGTGTC TCTGTGAAGC CTCCAGACGT GCAGCTCACC
    ATAGCAGCAG AGCCTAGTGC AGAGGTGGGA ACTTCTCTAG TCCACCAGGA GGCTACAACT
    CGGCTCTCAG GGTCAGGTAA TGATGTAGAA CCTCCCGCCA TCCAGCACGG GGGCCCACCT
    CTGCTTCCAG AGTCATCAGA AGAAGCTGGA CCTTTAGCAG TTCAACAGGA GACTTCATTT
    CAATCTCCGG AACCTATTAA TAATGAGAAC CCCTCTCCAA CCCAGCAGGA GGCTGCAGCT
    GAGCATCCAC AGACCGCTGA GGAGGGTGAG TCTTCCCTAA CCCATCAGGA GGCCCCAGCT
    CAGACTCCAG AGTTCCCTAA TGTAGTTGTA GCTCAACCTC CAGAGCATTC ACACCTGACT
    CAAGCCACAG TTCAACCTTT GGATCTGGGG TTTACCATCA CTCCAGAATC CAAGACAGAG
    GTTGAACTTT CTCCAACCAT GAAGGAGACC CCAACTCAGC CTCCTAAGAA AGTTGTACCC
    CAACTTCGAG TATATCAAGG GGTAACAAAT CCAACACCAG GTCAGGATCA AGCTCAGCAT
    CCAGTGTCAC CCAGCGTTAC AGTTCAACTT TTGGACCTGG GACTTACCAT CACTCCAGAA
    CCTACTACGG AGGTTGGACA TTCTACACCC CCGAAGAGGA CTATAGTTTC TCCAAAGCAT
    CCTGAGGTGA CACTTCCACA TCCAGACCAG GTTCAGACTC AGCATTCACA CCTGACTCGA
    GCCACAGTTC AACCTTTGGA CCTGGGGTTT ACCATCACTC CAAAATCCAT GACAGAGGTT
    GAACCTTCTA CAGCCCTGAT GACTACAGCT CCTCCTCCAG GACACCCTGA GGTGACACTT
    CCACCTTCAG ACAAGGGTCA GGCTCAGCAT TCACACCTGA CTCAAGCCAC CGTTCAACCT
    CTGGACCTGG AGCTTACCAT AACTACAAAA CCTACTACAG AGGTTAAACC ATCTCCAACC
    ACGGAGGAGA CCTCAACTCA GCCTCCAGAC CTGGGACTTG CCATCATTCC AGAACCCACT
    ACAGAGACTA GACATTCTAC AGCCCTGGAG AAGACTACAG CTCCTCGTCC AGACCGGGTT
    CAGACTCTGC ATCGAAGCCT GACTGAAGTC ACAGGTCCAC CTACTGAACT AGAACCTGCT
    CAGGATTCAC TGGTGCAGTC TGAAAGTTAC ACCCAAAATA AGGCTTTAAC TGCACCAGAG
    GAACACAAGG CCTCCACAAG CACCAACATA TGTGAGCTCT GTACCTGCGG AGATGAGATG
    TTGTCATGTA TTGATCTCAA CCCAGAGCAG AGGCTCCGCC AAGTGCCTGT GCCAGAGCCC
    AACACCCACA ATGGCACCTT CACCATCTTA AATTTCCAAG GAAACTATAT TTCTTACATT
    GATGGAAATG TATGGAAAGC ATACAGTTGG ACCGAGAAAC TAATTCTCAG AGAAAATAAC
    TTGACTGAAT TACACAAGGA TTCATTTGAA GGCCTGCTAT CCCTCCAGTA TTTGATCTTA
    CCTAGCCATA TGGCCTGCTG CCTCTGCCAA TTTAAAAACA GCATTGAGGC TGTCTGCAAG
    ACAGTCAAGC TGCATTGCAA CAGTGCATGT CTGACAAACA CCACACATTG TCCTGAAGAA
    GCATCGGTAG GGAATCCAGA AGGAGCGTTC ATGAAGGTGT TACAAGCCCG GAAGAACTAC
    ACAAGCACTG AGCTGATTGT TGAGCCAGAG GAGCCCTCAG ACAGCAGTGG CATCAACTTG
    TCAGGCTTTG GGAGTGAGCA GCTAGACACC AATGACGAGA GTGATTTTAT CAGTACACTA
    AGTTACATCT TGCCTTATTT CTCAGCGGTA AACCTAGATG TGAAATCACT GTTACTACCG
    TTCATTAAAC TGCCAACCAC AGGAAACAGC CTGGCAAAGA TTCAAACTGT AGGCCAAAAC
    CGGCAGAGAG TGAAGAGAGT CCTCATGGGC CCAAGGAGCA TCCAGAAAAG GCACTTCAAA
    GAGGTAGGAA GGCAGAGCAT CAGGAGGGAA CAGGGTGCCC AGGCATCTGT GGAGAACGCT
    GCCGAAGAAA AAAGGCTCGG GAGTCCAGCC CCAAGGGAGG TGGAACAGCC CCACACACAG
    CAGGGGCCTG AGAAGTTAGC GGGAAACGCC GTCTACACCA AGCCTTCCTT CACCCAAGAG
    CATAAGGCAG CAGTCTCTGT GCTGAAACCC TTCTCCAAGG GCGCGCCTTC TACCTCCAGC
    CCTGCAAAAG CCCTACCACA GGTGAGAGAC AGATGGAAAG ACTTAACCCA CGCTATTTCC
    ATTTTAGAAA GTGCAAAGGC TAGAGTTACA AATACGAAGA CGTCTAAACC AATCGTACAT
    GCCAGAAAAA AATACCGCTT TCACAAAACT CGCTCCCACG TGACCCACAG AACACCCAAA
    GTCAAAAAGA GTCCAAAGGT CAGAAAGAAA AGTTATCTGA GTAGACTGAT GCTCGCAAAC
    AGGCTTCCAT TCTCTGCAGC GAAGAGCCTC ATAAATTCCC CTTCACAAGG GGCTTTTTCA
    TCCTTAGGAG ACCTGAGTCC TCAAGAAAAC CCTTTTCTGG AAGTATCTGC TCCTTCAGAA
    CATTTTATAG AAAACAATAA TACAAAACAC ACAACTGCAA GAAATGCCTT TGAAGAAAAT
    GATTTTATGG AAAACACTAA CATGCCAGAA GGAACCATCT CTGAAAACAC AAACTACAAT
    CATCCTCATG AGGCAGATTC CGCTGGGACT GCATTCAACT TAGGGCCAAC TGTTAAACAA
    ACTGAGACAA AATGGGAATA CAACAACGTG GGCACTGACC TGTCCCCCGA GCCCAAAAGC
    TTCAATTACC CATTGCTCTC GTCCCCAGGT GATCAGTTTG AAATTCAGCT AACCCAGCAG
    CTACAGTCCC TTATCCCCAA CAACAATGTG AGAAGGCTCA TTGCTCATGT TATCCGGACC
    TTGAAGATGG ACTGCTCTGG GGCCCATGTG CAAGTGACCT GTGCCAAGCT CATCTCCAGG
    ACAGGCCACC TGATGAAGCT TCTCAGTGGG CAGCAGGAAG TAAAGGCATC CAAGATAGAA
    TGGGATACGG ACCAATGGAA GATTGAGAAC TACATTAATG AGAGCACAGA AGCCCAGAGT
    GAACAGAAAG AGAAGTCGCT TGAGCTCAAA AAAGAAGTTC CAGGATATGG CTATACTGAC
    AAACTCATCT TGGCATTAAT TGTTACTGGA ATACTAACGA TTTTGATTAT ACTTTTCTGC
    CTCATTGTGA TATGTTGTCA CCGAAGGTCA TTACAAGAAG ATGAAGAAGG ATTCTCAAGG
    GGCATTTTCA GATTTCTGCC ATGGAGGGGA TGCTCTTCGC GAAGGGAGAG TCAGGATGGA
    CTTTCCTCAT TTGGACAGCC GCTCTGGTTT AAAGATATGT ACAAACCTCT CAGTGCCACA
    AGAATAAATA ATCATGCATG GAAGCTGCAC AAGAAGTCAT CTAATGAGGA CAAGATCCTC
    AACAGGGACC CTGGGGACAG CGAAGCCCCA ACGGAGGAGG AGGAGAGTGA AGCCCTGCCA
    TAG

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

    CloneID OHu80385
    Clone ID Related Accession (Same CDS sequence) XM_011524848.3 , XM_011524848.2
    Accession Version XM_011524848.2 Documents for ORF clone product in default vector
    Sequence Information ORF Nucleotide Sequence (Length: 4803bp)
    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 2016-06-05
    Organism Homo sapiens(human)
    Product leucine-rich repeat-containing protein 37A2 isoform X6
    Comment Comment: MODEL REFSEQ: This record is predicted by automated computational analysis. This record is derived from a genomic sequence (NC_000017.11) annotated using gene prediction method: Gnomon, supported by EST evidence. Also see: Documentation of NCBI's Annotation Process On Jun 6, 2016 this sequence version replaced XM_011524848.1. ##Genome-Annotation-Data-START## Annotation Provider :: NCBI Annotation Status :: Full annotation Annotation Version :: Homo sapiens Annotation Release 108 Annotation Pipeline :: NCBI eukaryotic genome annotation pipeline Annotation Software Version :: 7.0 Annotation Method :: Best-placed RefSeq; Gnomon 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
    4801
    ATGTCTTCTG CTCAGTGCCC GGCACTAGTG TGTGTCATGT CCCGGCTGCG TTTCTGGGGC 
    CCATGGCCCC TCCTTATGTG GCAACTATTG TGGCTACTAG TTAAGGAGGC TCAGCCTCTG
    GAGTGGGTCA AGGACCCGCT CCAGCTCACC TCTAATCCCC TGGGGCCGCC TGACTCCTGG
    TCTTCCCACT CCTCCCATTT CCCACGGGAA TCTCCCCATG CGCCTACTCT CCCAGCAGAC
    CCGTGGGACT TTGATCACCT GGGGCCCTCT GCTTCCTCAG AGATGCCAGC CCCACCCCAG
    GAATCGACTG AAAATTTGGT TCCATTCCTG GACACCTGGG ATTCAGCTGG AGAGCAGCCC
    CTGGAGCCAG AGCAGTTCTT GGCTTCACAG CAGGATTTAA AGGACAAGCT GAGTCCACAG
    GAAAGACTCC CTGTTTCGCC CAAGAAGCTG AAGAAAGATC CAGCTCAGCG TTGGAGCCTT
    GCTGAGATTA TTGGAATTAC ACGCCAATTA TCCACACCTC AGAGTCAGAA ACAGACTTTG
    CAGAATGAAT ATTCCAGTAC AGATACACCG TATCCCGGTA GCCTGCCTCC AGAACTCCGG
    GTGAAGTCAG ATGAGCCTCC AGGGCCCTCT GAGCAAGTTG GACCTTCTCA ATTCCATCTA
    GAGCCCGAAA CTCAAAATCC AGAGACCCTT GAAGACATCC AGTCCTCTTC ACTCCAGCAA
    GAAGCCCCAG CACAGCTTCC ACAGCTCCTT GAGGAAGAAC CTTCTTCAAT GCAGCAGGAG
    GCCCCAGCTC TGCCTCCAGA GTCCTCTATG GAGAGTCTAA CTCTACCGAA TCATGAGGTG
    TCAGTTCAAC CTCCAGGTGA GGATCAAGCT TATTATCACT TGCCCAACAT TACAGTTAAA
    CCTGCAGATG TGGAGGTTAC CATAACTTCA GAGCCTACCA ATGAGACAGA ATCTTCCCAA
    GCCCAGCAGG AGACCCCAAT TCAGTTTCCA GAGGAGGTGG AACCTTCTGC AACCCAACAG
    GAGGCCCCAA TTGAGCCTCC AGTTCCTCCT ATGGAGCATG AACTTTCCAT CAGTGAGCAG
    CAGCAGCCAG TTCAGCCTTC TGAGTCTCCT AGGGAGGTCG AATCTTCTCC GACCCAGCAG
    GAGACCCCAG GTCAGCCTCC AGAACATCAT GAAGTCACAG TTTCACCTCC AGGTCACCAT
    CAAACTCATC ATTTAGCTTC ACCCAGTGTC TCTGTGAAGC CTCCAGACGT GCAGCTCACC
    ATAGCAGCAG AGCCTAGTGC AGAGGTGGGA ACTTCTCTAG TCCACCAGGA GGCTACAACT
    CGGCTCTCAG GGTCAGGTAA TGATGTAGAA CCTCCCGCCA TCCAGCACGG GGGCCCACCT
    CTGCTTCCAG AGTCATCAGA AGAAGCTGGA CCTTTAGCAG TTCAACAGGA GACTTCATTT
    CAATCTCCGG AACCTATTAA TAATGAGAAC CCCTCTCCAA CCCAGCAGGA GGCTGCAGCT
    GAGCATCCAC AGACCGCTGA GGAGGGTGAG TCTTCCCTAA CCCATCAGGA GGCCCCAGCT
    CAGACTCCAG AGTTCCCTAA TGTAGTTGTA GCTCAACCTC CAGAGCATTC ACACCTGACT
    CAAGCCACAG TTCAACCTTT GGATCTGGGG TTTACCATCA CTCCAGAATC CAAGACAGAG
    GTTGAACTTT CTCCAACCAT GAAGGAGACC CCAACTCAGC CTCCTAAGAA AGTTGTACCC
    CAACTTCGAG TATATCAAGG GGTAACAAAT CCAACACCAG GTCAGGATCA AGCTCAGCAT
    CCAGTGTCAC CCAGCGTTAC AGTTCAACTT TTGGACCTGG GACTTACCAT CACTCCAGAA
    CCTACTACGG AGGTTGGACA TTCTACACCC CCGAAGAGGA CTATAGTTTC TCCAAAGCAT
    CCTGAGGTGA CACTTCCACA TCCAGACCAG GTTCAGACTC AGCATTCACA CCTGACTCGA
    GCCACAGTTC AACCTTTGGA CCTGGGGTTT ACCATCACTC CAAAATCCAT GACAGAGGTT
    GAACCTTCTA CAGCCCTGAT GACTACAGCT CCTCCTCCAG GACACCCTGA GGTGACACTT
    CCACCTTCAG ACAAGGGTCA GGCTCAGCAT TCACACCTGA CTCAAGCCAC CGTTCAACCT
    CTGGACCTGG AGCTTACCAT AACTACAAAA CCTACTACAG AGGTTAAACC ATCTCCAACC
    ACGGAGGAGA CCTCAACTCA GCCTCCAGAC CTGGGACTTG CCATCATTCC AGAACCCACT
    ACAGAGACTA GACATTCTAC AGCCCTGGAG AAGACTACAG CTCCTCGTCC AGACCGGGTT
    CAGACTCTGC ATCGAAGCCT GACTGAAGTC ACAGGTCCAC CTACTGAACT AGAACCTGCT
    CAGGATTCAC TGGTGCAGTC TGAAAGTTAC ACCCAAAATA AGGCTTTAAC TGCACCAGAG
    GAACACAAGG CCTCCACAAG CACCAACATA TGTGAGCTCT GTACCTGCGG AGATGAGATG
    TTGTCATGTA TTGATCTCAA CCCAGAGCAG AGGCTCCGCC AAGTGCCTGT GCCAGAGCCC
    AACACCCACA ATGGCACCTT CACCATCTTA AATTTCCAAG GAAACTATAT TTCTTACATT
    GATGGAAATG TATGGAAAGC ATACAGTTGG ACCGAGAAAC TAATTCTCAG AGAAAATAAC
    TTGACTGAAT TACACAAGGA TTCATTTGAA GGCCTGCTAT CCCTCCAGTA TTTGATCTTA
    CCTAGCCATA TGGCCTGCTG CCTCTGCCAA TTTAAAAACA GCATTGAGGC TGTCTGCAAG
    ACAGTCAAGC TGCATTGCAA CAGTGCATGT CTGACAAACA CCACACATTG TCCTGAAGAA
    GCATCGGTAG GGAATCCAGA AGGAGCGTTC ATGAAGGTGT TACAAGCCCG GAAGAACTAC
    ACAAGCACTG AGCTGATTGT TGAGCCAGAG GAGCCCTCAG ACAGCAGTGG CATCAACTTG
    TCAGGCTTTG GGAGTGAGCA GCTAGACACC AATGACGAGA GTGATTTTAT CAGTACACTA
    AGTTACATCT TGCCTTATTT CTCAGCGGTA AACCTAGATG TGAAATCACT GTTACTACCG
    TTCATTAAAC TGCCAACCAC AGGAAACAGC CTGGCAAAGA TTCAAACTGT AGGCCAAAAC
    CGGCAGAGAG TGAAGAGAGT CCTCATGGGC CCAAGGAGCA TCCAGAAAAG GCACTTCAAA
    GAGGTAGGAA GGCAGAGCAT CAGGAGGGAA CAGGGTGCCC AGGCATCTGT GGAGAACGCT
    GCCGAAGAAA AAAGGCTCGG GAGTCCAGCC CCAAGGGAGG TGGAACAGCC CCACACACAG
    CAGGGGCCTG AGAAGTTAGC GGGAAACGCC GTCTACACCA AGCCTTCCTT CACCCAAGAG
    CATAAGGCAG CAGTCTCTGT GCTGAAACCC TTCTCCAAGG GCGCGCCTTC TACCTCCAGC
    CCTGCAAAAG CCCTACCACA GGTGAGAGAC AGATGGAAAG ACTTAACCCA CGCTATTTCC
    ATTTTAGAAA GTGCAAAGGC TAGAGTTACA AATACGAAGA CGTCTAAACC AATCGTACAT
    GCCAGAAAAA AATACCGCTT TCACAAAACT CGCTCCCACG TGACCCACAG AACACCCAAA
    GTCAAAAAGA GTCCAAAGGT CAGAAAGAAA AGTTATCTGA GTAGACTGAT GCTCGCAAAC
    AGGCTTCCAT TCTCTGCAGC GAAGAGCCTC ATAAATTCCC CTTCACAAGG GGCTTTTTCA
    TCCTTAGGAG ACCTGAGTCC TCAAGAAAAC CCTTTTCTGG AAGTATCTGC TCCTTCAGAA
    CATTTTATAG AAAACAATAA TACAAAACAC ACAACTGCAA GAAATGCCTT TGAAGAAAAT
    GATTTTATGG AAAACACTAA CATGCCAGAA GGAACCATCT CTGAAAACAC AAACTACAAT
    CATCCTCATG AGGCAGATTC CGCTGGGACT GCATTCAACT TAGGGCCAAC TGTTAAACAA
    ACTGAGACAA AATGGGAATA CAACAACGTG GGCACTGACC TGTCCCCCGA GCCCAAAAGC
    TTCAATTACC CATTGCTCTC GTCCCCAGGT GATCAGTTTG AAATTCAGCT AACCCAGCAG
    CTACAGTCCC TTATCCCCAA CAACAATGTG AGAAGGCTCA TTGCTCATGT TATCCGGACC
    TTGAAGATGG ACTGCTCTGG GGCCCATGTG CAAGTGACCT GTGCCAAGCT CATCTCCAGG
    ACAGGCCACC TGATGAAGCT TCTCAGTGGG CAGCAGGAAG TAAAGGCATC CAAGATAGAA
    TGGGATACGG ACCAATGGAA GATTGAGAAC TACATTAATG AGAGCACAGA AGCCCAGAGT
    GAACAGAAAG AGAAGTCGCT TGAGCTCAAA AAAGAAGTTC CAGGATATGG CTATACTGAC
    AAACTCATCT TGGCATTAAT TGTTACTGGA ATACTAACGA TTTTGATTAT ACTTTTCTGC
    CTCATTGTGA TATGTTGTCA CCGAAGGTCA TTACAAGAAG ATGAAGAAGG ATTCTCAAGG
    GGCATTTTCA GATTTCTGCC ATGGAGGGGA TGCTCTTCGC GAAGGGAGAG TCAGGATGGA
    CTTTCCTCAT TTGGACAGCC GCTCTGGTTT AAAGATATGT ACAAACCTCT CAGTGCCACA
    AGAATAAATA ATCATGCATG GAAGCTGCAC AAGAAGTCAT CTAATGAGGA CAAGATCCTC
    AACAGGGACC CTGGGGACAG CGAAGCCCCA ACGGAGGAGG AGGAGAGTGA AGCCCTGCCA
    TAG

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

    RefSeq XP_011523150.1
    CDS57..4859
    Translation

    Target ORF information:

    RefSeq Version XM_011524848.2
    Organism Homo sapiens(human)
    Definition Homo sapiens leucine-rich repeat containing 37 member A2 (LRRC37A2), transcript variant X6, mRNA.

    Target ORF information:

    Epitope DYKDDDDK
    Bacterial selection AMPR
    Mammalian selection NeoR
    Vector pcDNA3.1+/C-(K)DYK
    XM_011524848.2

    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
    4681
    4741
    4801
    ATGTCTTCTG CTCAGTGCCC GGCACTAGTG TGTGTCATGT CCCGGCTGCG TTTCTGGGGC 
    CCATGGCCCC TCCTTATGTG GCAACTATTG TGGCTACTAG TTAAGGAGGC TCAGCCTCTG
    GAGTGGGTCA AGGACCCGCT CCAGCTCACC TCTAATCCCC TGGGGCCGCC TGACTCCTGG
    TCTTCCCACT CCTCCCATTT CCCACGGGAA TCTCCCCATG CGCCTACTCT CCCAGCAGAC
    CCGTGGGACT TTGATCACCT GGGGCCCTCT GCTTCCTCAG AGATGCCAGC CCCACCCCAG
    GAATCGACTG AAAATTTGGT TCCATTCCTG GACACCTGGG ATTCAGCTGG AGAGCAGCCC
    CTGGAGCCAG AGCAGTTCTT GGCTTCACAG CAGGATTTAA AGGACAAGCT GAGTCCACAG
    GAAAGACTCC CTGTTTCGCC CAAGAAGCTG AAGAAAGATC CAGCTCAGCG TTGGAGCCTT
    GCTGAGATTA TTGGAATTAC ACGCCAATTA TCCACACCTC AGAGTCAGAA ACAGACTTTG
    CAGAATGAAT ATTCCAGTAC AGATACACCG TATCCCGGTA GCCTGCCTCC AGAACTCCGG
    GTGAAGTCAG ATGAGCCTCC AGGGCCCTCT GAGCAAGTTG GACCTTCTCA ATTCCATCTA
    GAGCCCGAAA CTCAAAATCC AGAGACCCTT GAAGACATCC AGTCCTCTTC ACTCCAGCAA
    GAAGCCCCAG CACAGCTTCC ACAGCTCCTT GAGGAAGAAC CTTCTTCAAT GCAGCAGGAG
    GCCCCAGCTC TGCCTCCAGA GTCCTCTATG GAGAGTCTAA CTCTACCGAA TCATGAGGTG
    TCAGTTCAAC CTCCAGGTGA GGATCAAGCT TATTATCACT TGCCCAACAT TACAGTTAAA
    CCTGCAGATG TGGAGGTTAC CATAACTTCA GAGCCTACCA ATGAGACAGA ATCTTCCCAA
    GCCCAGCAGG AGACCCCAAT TCAGTTTCCA GAGGAGGTGG AACCTTCTGC AACCCAACAG
    GAGGCCCCAA TTGAGCCTCC AGTTCCTCCT ATGGAGCATG AACTTTCCAT CAGTGAGCAG
    CAGCAGCCAG TTCAGCCTTC TGAGTCTCCT AGGGAGGTCG AATCTTCTCC GACCCAGCAG
    GAGACCCCAG GTCAGCCTCC AGAACATCAT GAAGTCACAG TTTCACCTCC AGGTCACCAT
    CAAACTCATC ATTTAGCTTC ACCCAGTGTC TCTGTGAAGC CTCCAGACGT GCAGCTCACC
    ATAGCAGCAG AGCCTAGTGC AGAGGTGGGA ACTTCTCTAG TCCACCAGGA GGCTACAACT
    CGGCTCTCAG GGTCAGGTAA TGATGTAGAA CCTCCCGCCA TCCAGCACGG GGGCCCACCT
    CTGCTTCCAG AGTCATCAGA AGAAGCTGGA CCTTTAGCAG TTCAACAGGA GACTTCATTT
    CAATCTCCGG AACCTATTAA TAATGAGAAC CCCTCTCCAA CCCAGCAGGA GGCTGCAGCT
    GAGCATCCAC AGACCGCTGA GGAGGGTGAG TCTTCCCTAA CCCATCAGGA GGCCCCAGCT
    CAGACTCCAG AGTTCCCTAA TGTAGTTGTA GCTCAACCTC CAGAGCATTC ACACCTGACT
    CAAGCCACAG TTCAACCTTT GGATCTGGGG TTTACCATCA CTCCAGAATC CAAGACAGAG
    GTTGAACTTT CTCCAACCAT GAAGGAGACC CCAACTCAGC CTCCTAAGAA AGTTGTACCC
    CAACTTCGAG TATATCAAGG GGTAACAAAT CCAACACCAG GTCAGGATCA AGCTCAGCAT
    CCAGTGTCAC CCAGCGTTAC AGTTCAACTT TTGGACCTGG GACTTACCAT CACTCCAGAA
    CCTACTACGG AGGTTGGACA TTCTACACCC CCGAAGAGGA CTATAGTTTC TCCAAAGCAT
    CCTGAGGTGA CACTTCCACA TCCAGACCAG GTTCAGACTC AGCATTCACA CCTGACTCGA
    GCCACAGTTC AACCTTTGGA CCTGGGGTTT ACCATCACTC CAAAATCCAT GACAGAGGTT
    GAACCTTCTA CAGCCCTGAT GACTACAGCT CCTCCTCCAG GACACCCTGA GGTGACACTT
    CCACCTTCAG ACAAGGGTCA GGCTCAGCAT TCACACCTGA CTCAAGCCAC CGTTCAACCT
    CTGGACCTGG AGCTTACCAT AACTACAAAA CCTACTACAG AGGTTAAACC ATCTCCAACC
    ACGGAGGAGA CCTCAACTCA GCCTCCAGAC CTGGGACTTG CCATCATTCC AGAACCCACT
    ACAGAGACTA GACATTCTAC AGCCCTGGAG AAGACTACAG CTCCTCGTCC AGACCGGGTT
    CAGACTCTGC ATCGAAGCCT GACTGAAGTC ACAGGTCCAC CTACTGAACT AGAACCTGCT
    CAGGATTCAC TGGTGCAGTC TGAAAGTTAC ACCCAAAATA AGGCTTTAAC TGCACCAGAG
    GAACACAAGG CCTCCACAAG CACCAACATA TGTGAGCTCT GTACCTGCGG AGATGAGATG
    TTGTCATGTA TTGATCTCAA CCCAGAGCAG AGGCTCCGCC AAGTGCCTGT GCCAGAGCCC
    AACACCCACA ATGGCACCTT CACCATCTTA AATTTCCAAG GAAACTATAT TTCTTACATT
    GATGGAAATG TATGGAAAGC ATACAGTTGG ACCGAGAAAC TAATTCTCAG AGAAAATAAC
    TTGACTGAAT TACACAAGGA TTCATTTGAA GGCCTGCTAT CCCTCCAGTA TTTGATCTTA
    CCTAGCCATA TGGCCTGCTG CCTCTGCCAA TTTAAAAACA GCATTGAGGC TGTCTGCAAG
    ACAGTCAAGC TGCATTGCAA CAGTGCATGT CTGACAAACA CCACACATTG TCCTGAAGAA
    GCATCGGTAG GGAATCCAGA AGGAGCGTTC ATGAAGGTGT TACAAGCCCG GAAGAACTAC
    ACAAGCACTG AGCTGATTGT TGAGCCAGAG GAGCCCTCAG ACAGCAGTGG CATCAACTTG
    TCAGGCTTTG GGAGTGAGCA GCTAGACACC AATGACGAGA GTGATTTTAT CAGTACACTA
    AGTTACATCT TGCCTTATTT CTCAGCGGTA AACCTAGATG TGAAATCACT GTTACTACCG
    TTCATTAAAC TGCCAACCAC AGGAAACAGC CTGGCAAAGA TTCAAACTGT AGGCCAAAAC
    CGGCAGAGAG TGAAGAGAGT CCTCATGGGC CCAAGGAGCA TCCAGAAAAG GCACTTCAAA
    GAGGTAGGAA GGCAGAGCAT CAGGAGGGAA CAGGGTGCCC AGGCATCTGT GGAGAACGCT
    GCCGAAGAAA AAAGGCTCGG GAGTCCAGCC CCAAGGGAGG TGGAACAGCC CCACACACAG
    CAGGGGCCTG AGAAGTTAGC GGGAAACGCC GTCTACACCA AGCCTTCCTT CACCCAAGAG
    CATAAGGCAG CAGTCTCTGT GCTGAAACCC TTCTCCAAGG GCGCGCCTTC TACCTCCAGC
    CCTGCAAAAG CCCTACCACA GGTGAGAGAC AGATGGAAAG ACTTAACCCA CGCTATTTCC
    ATTTTAGAAA GTGCAAAGGC TAGAGTTACA AATACGAAGA CGTCTAAACC AATCGTACAT
    GCCAGAAAAA AATACCGCTT TCACAAAACT CGCTCCCACG TGACCCACAG AACACCCAAA
    GTCAAAAAGA GTCCAAAGGT CAGAAAGAAA AGTTATCTGA GTAGACTGAT GCTCGCAAAC
    AGGCTTCCAT TCTCTGCAGC GAAGAGCCTC ATAAATTCCC CTTCACAAGG GGCTTTTTCA
    TCCTTAGGAG ACCTGAGTCC TCAAGAAAAC CCTTTTCTGG AAGTATCTGC TCCTTCAGAA
    CATTTTATAG AAAACAATAA TACAAAACAC ACAACTGCAA GAAATGCCTT TGAAGAAAAT
    GATTTTATGG AAAACACTAA CATGCCAGAA GGAACCATCT CTGAAAACAC AAACTACAAT
    CATCCTCATG AGGCAGATTC CGCTGGGACT GCATTCAACT TAGGGCCAAC TGTTAAACAA
    ACTGAGACAA AATGGGAATA CAACAACGTG GGCACTGACC TGTCCCCCGA GCCCAAAAGC
    TTCAATTACC CATTGCTCTC GTCCCCAGGT GATCAGTTTG AAATTCAGCT AACCCAGCAG
    CTACAGTCCC TTATCCCCAA CAACAATGTG AGAAGGCTCA TTGCTCATGT TATCCGGACC
    TTGAAGATGG ACTGCTCTGG GGCCCATGTG CAAGTGACCT GTGCCAAGCT CATCTCCAGG
    ACAGGCCACC TGATGAAGCT TCTCAGTGGG CAGCAGGAAG TAAAGGCATC CAAGATAGAA
    TGGGATACGG ACCAATGGAA GATTGAGAAC TACATTAATG AGAGCACAGA AGCCCAGAGT
    GAACAGAAAG AGAAGTCGCT TGAGCTCAAA AAAGAAGTTC CAGGATATGG CTATACTGAC
    AAACTCATCT TGGCATTAAT TGTTACTGGA ATACTAACGA TTTTGATTAT ACTTTTCTGC
    CTCATTGTGA TATGTTGTCA CCGAAGGTCA TTACAAGAAG ATGAAGAAGG ATTCTCAAGG
    GGCATTTTCA GATTTCTGCC ATGGAGGGGA TGCTCTTCGC GAAGGGAGAG TCAGGATGGA
    CTTTCCTCAT TTGGACAGCC GCTCTGGTTT AAAGATATGT ACAAACCTCT CAGTGCCACA
    AGAATAAATA ATCATGCATG GAAGCTGCAC AAGAAGTCAT CTAATGAGGA CAAGATCCTC
    AACAGGGACC CTGGGGACAG CGAAGCCCCA ACGGAGGAGG AGGAGAGTGA AGCCCTGCCA
    TAG

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

    CloneID OHu80386
    Clone ID Related Accession (Same CDS sequence) XM_011524849.1 , XM_011524849.2
    Accession Version XM_011524849.1 Documents for ORF clone product in default vector
    Sequence Information ORF Nucleotide Sequence (Length: 3057bp)
    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 2016-06-05
    Organism Homo sapiens(human)
    Product leucine-rich repeat-containing protein 37A2 isoform X7
    Comment Comment: MODEL REFSEQ: This record is predicted by automated computational analysis. This record is derived from a genomic sequence (NC_000017.11) annotated using gene prediction method: Gnomon, supported by EST evidence. Also see: Documentation of NCBI's Annotation Process ##Genome-Annotation-Data-START## Annotation Provider :: NCBI Annotation Status :: Full annotation Annotation Version :: Homo sapiens Annotation Release 108 Annotation Pipeline :: NCBI eukaryotic genome annotation pipeline Annotation Software Version :: 7.0 Annotation Method :: Best-placed RefSeq; Gnomon 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
    ATGTCTTCTG CTCAGTGCCC GGCACTAGTG TGTGTCATGT CCCGGCTGCG TTTCTGGGGC 
    CCATGGCCCC TCCTTATGTG GCAACTATTG TGGCTACTAG TTAAGGAGGC TCAGCCTCTG
    GAGTGGGTCA AGGACCCGCT CCAGCTCACC TCTAATCCCC TGGGGCCGCC TGACTCCTGG
    TCTTCCCACT CCTCCCATTT CCCACGGGAA TCTCCCCATG CGCCTACTCT CCCAGCAGAC
    CCGTGGGACT TTGATCACCT GGGGCCCTCT GCTTCCTCAG AGATGCCAGC CCCACCCCAG
    GAATCGACTG AAAATTTGGT TCCATTCCTG GACACCTGGG ATTCAGCTGG AGAGCAGCCC
    CTGGAGCCAG AGCAGTTCTT GGCTTCACAG CAGGATTTAA AGGACAAGCT GAGTCCACAG
    GAAAGACTCC CTGTTTCGCC CAAGAAGCTG AAGAAAGATC CAGCTCAGCG TTGGAGCCTT
    GCTGAGATTA TTGGAATTAC ACGCCAATTA TCCACACCTC AGAGTCAGAA ACAGACTTTG
    CAGAATGAAT ATTCCAGTAC AGATACACCG TATCCCGGTA GCCTGCCTCC AGAACTCCGG
    GTGAAGTCAG ATGAGCCTCC AGGGCCCTCT GAGCAAGTTG GACCTTCTCA ATTCCATCTA
    GAGCCCGAAA CTCAAAATCC AGAGACCCTT GAAGACATCC AGTCCTCTTC ACTCCAGCAA
    GAAGCCCCAG CACAGCTTCC ACAGCTCCTT GAGGAAGAAC CTTCTTCAAT GCAGCAGGAG
    GCCCCAGCTC TGCCTCCAGA GTCCTCTATG GAGAGTCTAA CTCTACCGAA TCATGAGGTG
    TCAGTTCAAC CTCCAGGTGA GGATCAAGCT TATTATCACT TGCCCAACAT TACAGTTAAA
    CCTGCAGATG TGGAGGTTAC CATAACTTCA GAGCCTACCA ATGAGACAGA ATCTTCCCAA
    GCCCAGCAGG AGACCCCAAT TCAGTTTCCA GAGGAGGTGG AACCTTCTGC AACCCAACAG
    GAGGCCCCAA TTGAGCCTCC AGTTCCTCCT ATGGAGCATG AACTTTCCAT CAGTGAGCAG
    CAGCAGCCAG TTCAGCCTTC TGAGTCTCCT AGGGAGGTCG AATCTTCTCC GACCCAGCAG
    GAGACCCCAG GTCAGCCTCC AGAACATCAT GAAGTCACAG TTTCACCTCC AGGTCACCAT
    CAAACTCATC ATTTAGCTTC ACCCAGTGTC TCTGTGAAGC CTCCAGACGT GCAGCTCACC
    ATAGCAGCAG AGCCTAGTGC AGAGGTGGGA ACTTCTCTAG TCCACCAGGA GGCTACAACT
    CGGCTCTCAG GGTCAGGTAA TGATGTAGAA CCTCCCGCCA TCCAGCACGG GGGCCCACCT
    CTGCTTCCAG AGTCATCAGA AGAAGCTGGA CCTTTAGCAG TTCAACAGGA GACTTCATTT
    CAATCTCCGG AACCTATTAA TAATGAGAAC CCCTCTCCAA CCCAGCAGGA GGCTGCAGCT
    GAGCATCCAC AGACCGCTGA GGAGGGTGAG TCTTCCCTAA CCCATCAGGA GGCCCCAGCT
    CAGACTCCAG AGTTCCCTAA TGTAGTTGTA GCTCAACCTC CAGAGCATTC ACACCTGACT
    CAAGCCACAG TTCAACCTTT GGATCTGGGG TTTACCATCA CTCCAGAATC CAAGACAGAG
    GTTGAACTTT CTCCAACCAT GAAGGAGACC CCAACTCAGC CTCCTAAGAA AGTTGTACCC
    CAACTTCGAG TATATCAAGG GGTAACAAAT CCAACACCAG GTCAGGATCA AGCTCAGCAT
    CCAGTGTCAC CCAGCGTTAC AGTTCAACTT TTGGACCTGG GACTTACCAT CACTCCAGAA
    CCTACTACGG AGGTTGGACA TTCTACACCC CCGAAGAGGA CTATAGTTTC TCCAAAGCAT
    CCTGAGGTGA CACTTCCACA TCCAGACCAG GTTCAGACTC AGCATTCACA CCTGACTCGA
    GCCACAGTTC AACCTTTGGA CCTGGGGTTT ACCATCACTC CAAAATCCAT GACAGAGGTT
    GAACCTTCTA CAGCCCTGAT GACTACAGCT CCTCCTCCAG GACACCCTGA GGTGACACTT
    CCACCTTCAG ACAAGGGTCA GGCTCAGCAT TCACACCTGA CTCAAGCCAC CGTTCAACCT
    CTGGACCTGG AGCTTACCAT AACTACAAAA CCTACTACAG AGGTTAAACC ATCTCCAACC
    ACGGAGGAGA CCTCAACTCA GCCTCCAGAC CTGGGACTTG CCATCATTCC AGAACCCACT
    ACAGAGACTA GACATTCTAC AGCCCTGGAG AAGACTACAG CTCCTCGTCC AGACCGGGTT
    CAGACTCTGC ATCGAAGCCT GACTGAAGTC ACAGGTCCAC CTACTGAACT AGAACCTGCT
    CAGGATTCAC TGGTGCAGTC TGAAAGTTAC ACCCAAAATA AGGCTTTAAC TGCACCAGAG
    GAACACAAGG CCTCCACAAG CACCAACATA TGTGAGCTCT GTACCTGCGG AGATGAGATG
    TTGTCATGTA TTGATCTCAA CCCAGAGCAG AGGCTCCGCC AAGTGCCTGT GCCAGAGCCC
    AACACCCACA ATGGCACCTT CACCATCTTA AATTTCCAAG GAAACTATAT TTCTTACATT
    GATGGAAATG TATGGAAAGC ATACAGTTGG ACCGAGAAAC TAATTCTCAG AGAAAATAAC
    TTGACTGAAT TACACAAGGA TTCATTTGAA GGCCTGCTAT CCCTCCAGTA TTTAGATTTA
    TCCTGCAATA AAATACAGTC TATTGAAAGA CATACATTTG AACCACTACC ATTTTTGAAG
    TTTATAAATC TTAGTTGCAA TGTAATTACA GAACTCAGCT TTGGAACATT TCAGGCCTGG
    CACGGAATGC AGTTTTTACA TAAGTTAATT CTCAATCACA ATCCTCTGAC AACTGTTGAA
    GATCCGTATC TCTTTAAATT GCCAGCATTA AAATATCTAG ACATGGGAAC AACGCTAGTC
    CCACTTACAA CACTTAAGAA CATTCTCATG ATGACTGTTG AACTGGAAAA ACTCTGA

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

    RefSeq XP_011523151.1
    CDS57..3113
    Translation

    Target ORF information:

    RefSeq Version XM_011524849.1
    Organism Homo sapiens(human)
    Definition Homo sapiens leucine-rich repeat containing 37 member A2 (LRRC37A2), transcript variant X7, mRNA.

    Target ORF information:

    Epitope DYKDDDDK
    Bacterial selection AMPR
    Mammalian selection NeoR
    Vector pcDNA3.1+/C-(K)DYK
    XM_011524849.1

    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
    ATGTCTTCTG CTCAGTGCCC GGCACTAGTG TGTGTCATGT CCCGGCTGCG TTTCTGGGGC 
    CCATGGCCCC TCCTTATGTG GCAACTATTG TGGCTACTAG TTAAGGAGGC TCAGCCTCTG
    GAGTGGGTCA AGGACCCGCT CCAGCTCACC TCTAATCCCC TGGGGCCGCC TGACTCCTGG
    TCTTCCCACT CCTCCCATTT CCCACGGGAA TCTCCCCATG CGCCTACTCT CCCAGCAGAC
    CCGTGGGACT TTGATCACCT GGGGCCCTCT GCTTCCTCAG AGATGCCAGC CCCACCCCAG
    GAATCGACTG AAAATTTGGT TCCATTCCTG GACACCTGGG ATTCAGCTGG AGAGCAGCCC
    CTGGAGCCAG AGCAGTTCTT GGCTTCACAG CAGGATTTAA AGGACAAGCT GAGTCCACAG
    GAAAGACTCC CTGTTTCGCC CAAGAAGCTG AAGAAAGATC CAGCTCAGCG TTGGAGCCTT
    GCTGAGATTA TTGGAATTAC ACGCCAATTA TCCACACCTC AGAGTCAGAA ACAGACTTTG
    CAGAATGAAT ATTCCAGTAC AGATACACCG TATCCCGGTA GCCTGCCTCC AGAACTCCGG
    GTGAAGTCAG ATGAGCCTCC AGGGCCCTCT GAGCAAGTTG GACCTTCTCA ATTCCATCTA
    GAGCCCGAAA CTCAAAATCC AGAGACCCTT GAAGACATCC AGTCCTCTTC ACTCCAGCAA
    GAAGCCCCAG CACAGCTTCC ACAGCTCCTT GAGGAAGAAC CTTCTTCAAT GCAGCAGGAG
    GCCCCAGCTC TGCCTCCAGA GTCCTCTATG GAGAGTCTAA CTCTACCGAA TCATGAGGTG
    TCAGTTCAAC CTCCAGGTGA GGATCAAGCT TATTATCACT TGCCCAACAT TACAGTTAAA
    CCTGCAGATG TGGAGGTTAC CATAACTTCA GAGCCTACCA ATGAGACAGA ATCTTCCCAA
    GCCCAGCAGG AGACCCCAAT TCAGTTTCCA GAGGAGGTGG AACCTTCTGC AACCCAACAG
    GAGGCCCCAA TTGAGCCTCC AGTTCCTCCT ATGGAGCATG AACTTTCCAT CAGTGAGCAG
    CAGCAGCCAG TTCAGCCTTC TGAGTCTCCT AGGGAGGTCG AATCTTCTCC GACCCAGCAG
    GAGACCCCAG GTCAGCCTCC AGAACATCAT GAAGTCACAG TTTCACCTCC AGGTCACCAT
    CAAACTCATC ATTTAGCTTC ACCCAGTGTC TCTGTGAAGC CTCCAGACGT GCAGCTCACC
    ATAGCAGCAG AGCCTAGTGC AGAGGTGGGA ACTTCTCTAG TCCACCAGGA GGCTACAACT
    CGGCTCTCAG GGTCAGGTAA TGATGTAGAA CCTCCCGCCA TCCAGCACGG GGGCCCACCT
    CTGCTTCCAG AGTCATCAGA AGAAGCTGGA CCTTTAGCAG TTCAACAGGA GACTTCATTT
    CAATCTCCGG AACCTATTAA TAATGAGAAC CCCTCTCCAA CCCAGCAGGA GGCTGCAGCT
    GAGCATCCAC AGACCGCTGA GGAGGGTGAG TCTTCCCTAA CCCATCAGGA GGCCCCAGCT
    CAGACTCCAG AGTTCCCTAA TGTAGTTGTA GCTCAACCTC CAGAGCATTC ACACCTGACT
    CAAGCCACAG TTCAACCTTT GGATCTGGGG TTTACCATCA CTCCAGAATC CAAGACAGAG
    GTTGAACTTT CTCCAACCAT GAAGGAGACC CCAACTCAGC CTCCTAAGAA AGTTGTACCC
    CAACTTCGAG TATATCAAGG GGTAACAAAT CCAACACCAG GTCAGGATCA AGCTCAGCAT
    CCAGTGTCAC CCAGCGTTAC AGTTCAACTT TTGGACCTGG GACTTACCAT CACTCCAGAA
    CCTACTACGG AGGTTGGACA TTCTACACCC CCGAAGAGGA CTATAGTTTC TCCAAAGCAT
    CCTGAGGTGA CACTTCCACA TCCAGACCAG GTTCAGACTC AGCATTCACA CCTGACTCGA
    GCCACAGTTC AACCTTTGGA CCTGGGGTTT ACCATCACTC CAAAATCCAT GACAGAGGTT
    GAACCTTCTA CAGCCCTGAT GACTACAGCT CCTCCTCCAG GACACCCTGA GGTGACACTT
    CCACCTTCAG ACAAGGGTCA GGCTCAGCAT TCACACCTGA CTCAAGCCAC CGTTCAACCT
    CTGGACCTGG AGCTTACCAT AACTACAAAA CCTACTACAG AGGTTAAACC ATCTCCAACC
    ACGGAGGAGA CCTCAACTCA GCCTCCAGAC CTGGGACTTG CCATCATTCC AGAACCCACT
    ACAGAGACTA GACATTCTAC AGCCCTGGAG AAGACTACAG CTCCTCGTCC AGACCGGGTT
    CAGACTCTGC ATCGAAGCCT GACTGAAGTC ACAGGTCCAC CTACTGAACT AGAACCTGCT
    CAGGATTCAC TGGTGCAGTC TGAAAGTTAC ACCCAAAATA AGGCTTTAAC TGCACCAGAG
    GAACACAAGG CCTCCACAAG CACCAACATA TGTGAGCTCT GTACCTGCGG AGATGAGATG
    TTGTCATGTA TTGATCTCAA CCCAGAGCAG AGGCTCCGCC AAGTGCCTGT GCCAGAGCCC
    AACACCCACA ATGGCACCTT CACCATCTTA AATTTCCAAG GAAACTATAT TTCTTACATT
    GATGGAAATG TATGGAAAGC ATACAGTTGG ACCGAGAAAC TAATTCTCAG AGAAAATAAC
    TTGACTGAAT TACACAAGGA TTCATTTGAA GGCCTGCTAT CCCTCCAGTA TTTAGATTTA
    TCCTGCAATA AAATACAGTC TATTGAAAGA CATACATTTG AACCACTACC ATTTTTGAAG
    TTTATAAATC TTAGTTGCAA TGTAATTACA GAACTCAGCT TTGGAACATT TCAGGCCTGG
    CACGGAATGC AGTTTTTACA TAAGTTAATT CTCAATCACA ATCCTCTGAC AACTGTTGAA
    GATCCGTATC TCTTTAAATT GCCAGCATTA AAATATCTAG ACATGGGAAC AACGCTAGTC
    CCACTTACAA CACTTAAGAA CATTCTCATG ATGACTGTTG AACTGGAAAA ACTCTGA

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

    CloneID OHu80386
    Clone ID Related Accession (Same CDS sequence) XM_011524849.1 , XM_011524849.2
    Accession Version XM_011524849.2 Latest version! Documents for ORF clone product in default vector
    Sequence Information ORF Nucleotide Sequence (Length: 3057bp)
    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 leucine-rich repeat-containing protein 37A2 isoform X8
    Comment Comment: MODEL REFSEQ: This record is predicted by automated computational analysis. This record is derived from a genomic sequence (NC_000017.11) annotated using gene prediction method: Gnomon, supported by mRNA and EST evidence. Also see: Documentation of NCBI's Annotation Process On Mar 26, 2018 this sequence version replaced XM_011524849.1. ##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
    ATGTCTTCTG CTCAGTGCCC GGCACTAGTG TGTGTCATGT CCCGGCTGCG TTTCTGGGGC 
    CCATGGCCCC TCCTTATGTG GCAACTATTG TGGCTACTAG TTAAGGAGGC TCAGCCTCTG
    GAGTGGGTCA AGGACCCGCT CCAGCTCACC TCTAATCCCC TGGGGCCGCC TGACTCCTGG
    TCTTCCCACT CCTCCCATTT CCCACGGGAA TCTCCCCATG CGCCTACTCT CCCAGCAGAC
    CCGTGGGACT TTGATCACCT GGGGCCCTCT GCTTCCTCAG AGATGCCAGC CCCACCCCAG
    GAATCGACTG AAAATTTGGT TCCATTCCTG GACACCTGGG ATTCAGCTGG AGAGCAGCCC
    CTGGAGCCAG AGCAGTTCTT GGCTTCACAG CAGGATTTAA AGGACAAGCT GAGTCCACAG
    GAAAGACTCC CTGTTTCGCC CAAGAAGCTG AAGAAAGATC CAGCTCAGCG TTGGAGCCTT
    GCTGAGATTA TTGGAATTAC ACGCCAATTA TCCACACCTC AGAGTCAGAA ACAGACTTTG
    CAGAATGAAT ATTCCAGTAC AGATACACCG TATCCCGGTA GCCTGCCTCC AGAACTCCGG
    GTGAAGTCAG ATGAGCCTCC AGGGCCCTCT GAGCAAGTTG GACCTTCTCA ATTCCATCTA
    GAGCCCGAAA CTCAAAATCC AGAGACCCTT GAAGACATCC AGTCCTCTTC ACTCCAGCAA
    GAAGCCCCAG CACAGCTTCC ACAGCTCCTT GAGGAAGAAC CTTCTTCAAT GCAGCAGGAG
    GCCCCAGCTC TGCCTCCAGA GTCCTCTATG GAGAGTCTAA CTCTACCGAA TCATGAGGTG
    TCAGTTCAAC CTCCAGGTGA GGATCAAGCT TATTATCACT TGCCCAACAT TACAGTTAAA
    CCTGCAGATG TGGAGGTTAC CATAACTTCA GAGCCTACCA ATGAGACAGA ATCTTCCCAA
    GCCCAGCAGG AGACCCCAAT TCAGTTTCCA GAGGAGGTGG AACCTTCTGC AACCCAACAG
    GAGGCCCCAA TTGAGCCTCC AGTTCCTCCT ATGGAGCATG AACTTTCCAT CAGTGAGCAG
    CAGCAGCCAG TTCAGCCTTC TGAGTCTCCT AGGGAGGTCG AATCTTCTCC GACCCAGCAG
    GAGACCCCAG GTCAGCCTCC AGAACATCAT GAAGTCACAG TTTCACCTCC AGGTCACCAT
    CAAACTCATC ATTTAGCTTC ACCCAGTGTC TCTGTGAAGC CTCCAGACGT GCAGCTCACC
    ATAGCAGCAG AGCCTAGTGC AGAGGTGGGA ACTTCTCTAG TCCACCAGGA GGCTACAACT
    CGGCTCTCAG GGTCAGGTAA TGATGTAGAA CCTCCCGCCA TCCAGCACGG GGGCCCACCT
    CTGCTTCCAG AGTCATCAGA AGAAGCTGGA CCTTTAGCAG TTCAACAGGA GACTTCATTT
    CAATCTCCGG AACCTATTAA TAATGAGAAC CCCTCTCCAA CCCAGCAGGA GGCTGCAGCT
    GAGCATCCAC AGACCGCTGA GGAGGGTGAG TCTTCCCTAA CCCATCAGGA GGCCCCAGCT
    CAGACTCCAG AGTTCCCTAA TGTAGTTGTA GCTCAACCTC CAGAGCATTC ACACCTGACT
    CAAGCCACAG TTCAACCTTT GGATCTGGGG TTTACCATCA CTCCAGAATC CAAGACAGAG
    GTTGAACTTT CTCCAACCAT GAAGGAGACC CCAACTCAGC CTCCTAAGAA AGTTGTACCC
    CAACTTCGAG TATATCAAGG GGTAACAAAT CCAACACCAG GTCAGGATCA AGCTCAGCAT
    CCAGTGTCAC CCAGCGTTAC AGTTCAACTT TTGGACCTGG GACTTACCAT CACTCCAGAA
    CCTACTACGG AGGTTGGACA TTCTACACCC CCGAAGAGGA CTATAGTTTC TCCAAAGCAT
    CCTGAGGTGA CACTTCCACA TCCAGACCAG GTTCAGACTC AGCATTCACA CCTGACTCGA
    GCCACAGTTC AACCTTTGGA CCTGGGGTTT ACCATCACTC CAAAATCCAT GACAGAGGTT
    GAACCTTCTA CAGCCCTGAT GACTACAGCT CCTCCTCCAG GACACCCTGA GGTGACACTT
    CCACCTTCAG ACAAGGGTCA GGCTCAGCAT TCACACCTGA CTCAAGCCAC CGTTCAACCT
    CTGGACCTGG AGCTTACCAT AACTACAAAA CCTACTACAG AGGTTAAACC ATCTCCAACC
    ACGGAGGAGA CCTCAACTCA GCCTCCAGAC CTGGGACTTG CCATCATTCC AGAACCCACT
    ACAGAGACTA GACATTCTAC AGCCCTGGAG AAGACTACAG CTCCTCGTCC AGACCGGGTT
    CAGACTCTGC ATCGAAGCCT GACTGAAGTC ACAGGTCCAC CTACTGAACT AGAACCTGCT
    CAGGATTCAC TGGTGCAGTC TGAAAGTTAC ACCCAAAATA AGGCTTTAAC TGCACCAGAG
    GAACACAAGG CCTCCACAAG CACCAACATA TGTGAGCTCT GTACCTGCGG AGATGAGATG
    TTGTCATGTA TTGATCTCAA CCCAGAGCAG AGGCTCCGCC AAGTGCCTGT GCCAGAGCCC
    AACACCCACA ATGGCACCTT CACCATCTTA AATTTCCAAG GAAACTATAT TTCTTACATT
    GATGGAAATG TATGGAAAGC ATACAGTTGG ACCGAGAAAC TAATTCTCAG AGAAAATAAC
    TTGACTGAAT TACACAAGGA TTCATTTGAA GGCCTGCTAT CCCTCCAGTA TTTAGATTTA
    TCCTGCAATA AAATACAGTC TATTGAAAGA CATACATTTG AACCACTACC ATTTTTGAAG
    TTTATAAATC TTAGTTGCAA TGTAATTACA GAACTCAGCT TTGGAACATT TCAGGCCTGG
    CACGGAATGC AGTTTTTACA TAAGTTAATT CTCAATCACA ATCCTCTGAC AACTGTTGAA
    GATCCGTATC TCTTTAAATT GCCAGCATTA AAATATCTAG ACATGGGAAC AACGCTAGTC
    CCACTTACAA CACTTAAGAA CATTCTCATG ATGACTGTTG AACTGGAAAA ACTCTGA

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

    RefSeq XP_011523151.1
    CDS4..3060
    Translation

    Target ORF information:

    RefSeq Version XM_011524849.2
    Organism Homo sapiens(human)
    Definition Homo sapiens leucine rich repeat containing 37 member A2 (LRRC37A2), transcript variant X8, mRNA.

    Target ORF information:

    Epitope DYKDDDDK
    Bacterial selection AMPR
    Mammalian selection NeoR
    Vector pcDNA3.1+/C-(K)DYK
    XM_011524849.2

    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
    ATGTCTTCTG CTCAGTGCCC GGCACTAGTG TGTGTCATGT CCCGGCTGCG TTTCTGGGGC 
    CCATGGCCCC TCCTTATGTG GCAACTATTG TGGCTACTAG TTAAGGAGGC TCAGCCTCTG
    GAGTGGGTCA AGGACCCGCT CCAGCTCACC TCTAATCCCC TGGGGCCGCC TGACTCCTGG
    TCTTCCCACT CCTCCCATTT CCCACGGGAA TCTCCCCATG CGCCTACTCT CCCAGCAGAC
    CCGTGGGACT TTGATCACCT GGGGCCCTCT GCTTCCTCAG AGATGCCAGC CCCACCCCAG
    GAATCGACTG AAAATTTGGT TCCATTCCTG GACACCTGGG ATTCAGCTGG AGAGCAGCCC
    CTGGAGCCAG AGCAGTTCTT GGCTTCACAG CAGGATTTAA AGGACAAGCT GAGTCCACAG
    GAAAGACTCC CTGTTTCGCC CAAGAAGCTG AAGAAAGATC CAGCTCAGCG TTGGAGCCTT
    GCTGAGATTA TTGGAATTAC ACGCCAATTA TCCACACCTC AGAGTCAGAA ACAGACTTTG
    CAGAATGAAT ATTCCAGTAC AGATACACCG TATCCCGGTA GCCTGCCTCC AGAACTCCGG
    GTGAAGTCAG ATGAGCCTCC AGGGCCCTCT GAGCAAGTTG GACCTTCTCA ATTCCATCTA
    GAGCCCGAAA CTCAAAATCC AGAGACCCTT GAAGACATCC AGTCCTCTTC ACTCCAGCAA
    GAAGCCCCAG CACAGCTTCC ACAGCTCCTT GAGGAAGAAC CTTCTTCAAT GCAGCAGGAG
    GCCCCAGCTC TGCCTCCAGA GTCCTCTATG GAGAGTCTAA CTCTACCGAA TCATGAGGTG
    TCAGTTCAAC CTCCAGGTGA GGATCAAGCT TATTATCACT TGCCCAACAT TACAGTTAAA
    CCTGCAGATG TGGAGGTTAC CATAACTTCA GAGCCTACCA ATGAGACAGA ATCTTCCCAA
    GCCCAGCAGG AGACCCCAAT TCAGTTTCCA GAGGAGGTGG AACCTTCTGC AACCCAACAG
    GAGGCCCCAA TTGAGCCTCC AGTTCCTCCT ATGGAGCATG AACTTTCCAT CAGTGAGCAG
    CAGCAGCCAG TTCAGCCTTC TGAGTCTCCT AGGGAGGTCG AATCTTCTCC GACCCAGCAG
    GAGACCCCAG GTCAGCCTCC AGAACATCAT GAAGTCACAG TTTCACCTCC AGGTCACCAT
    CAAACTCATC ATTTAGCTTC ACCCAGTGTC TCTGTGAAGC CTCCAGACGT GCAGCTCACC
    ATAGCAGCAG AGCCTAGTGC AGAGGTGGGA ACTTCTCTAG TCCACCAGGA GGCTACAACT
    CGGCTCTCAG GGTCAGGTAA TGATGTAGAA CCTCCCGCCA TCCAGCACGG GGGCCCACCT
    CTGCTTCCAG AGTCATCAGA AGAAGCTGGA CCTTTAGCAG TTCAACAGGA GACTTCATTT
    CAATCTCCGG AACCTATTAA TAATGAGAAC CCCTCTCCAA CCCAGCAGGA GGCTGCAGCT
    GAGCATCCAC AGACCGCTGA GGAGGGTGAG TCTTCCCTAA CCCATCAGGA GGCCCCAGCT
    CAGACTCCAG AGTTCCCTAA TGTAGTTGTA GCTCAACCTC CAGAGCATTC ACACCTGACT
    CAAGCCACAG TTCAACCTTT GGATCTGGGG TTTACCATCA CTCCAGAATC CAAGACAGAG
    GTTGAACTTT CTCCAACCAT GAAGGAGACC CCAACTCAGC CTCCTAAGAA AGTTGTACCC
    CAACTTCGAG TATATCAAGG GGTAACAAAT CCAACACCAG GTCAGGATCA AGCTCAGCAT
    CCAGTGTCAC CCAGCGTTAC AGTTCAACTT TTGGACCTGG GACTTACCAT CACTCCAGAA
    CCTACTACGG AGGTTGGACA TTCTACACCC CCGAAGAGGA CTATAGTTTC TCCAAAGCAT
    CCTGAGGTGA CACTTCCACA TCCAGACCAG GTTCAGACTC AGCATTCACA CCTGACTCGA
    GCCACAGTTC AACCTTTGGA CCTGGGGTTT ACCATCACTC CAAAATCCAT GACAGAGGTT
    GAACCTTCTA CAGCCCTGAT GACTACAGCT CCTCCTCCAG GACACCCTGA GGTGACACTT
    CCACCTTCAG ACAAGGGTCA GGCTCAGCAT TCACACCTGA CTCAAGCCAC CGTTCAACCT
    CTGGACCTGG AGCTTACCAT AACTACAAAA CCTACTACAG AGGTTAAACC ATCTCCAACC
    ACGGAGGAGA CCTCAACTCA GCCTCCAGAC CTGGGACTTG CCATCATTCC AGAACCCACT
    ACAGAGACTA GACATTCTAC AGCCCTGGAG AAGACTACAG CTCCTCGTCC AGACCGGGTT
    CAGACTCTGC ATCGAAGCCT GACTGAAGTC ACAGGTCCAC CTACTGAACT AGAACCTGCT
    CAGGATTCAC TGGTGCAGTC TGAAAGTTAC ACCCAAAATA AGGCTTTAAC TGCACCAGAG
    GAACACAAGG CCTCCACAAG CACCAACATA TGTGAGCTCT GTACCTGCGG AGATGAGATG
    TTGTCATGTA TTGATCTCAA CCCAGAGCAG AGGCTCCGCC AAGTGCCTGT GCCAGAGCCC
    AACACCCACA ATGGCACCTT CACCATCTTA AATTTCCAAG GAAACTATAT TTCTTACATT
    GATGGAAATG TATGGAAAGC ATACAGTTGG ACCGAGAAAC TAATTCTCAG AGAAAATAAC
    TTGACTGAAT TACACAAGGA TTCATTTGAA GGCCTGCTAT CCCTCCAGTA TTTAGATTTA
    TCCTGCAATA AAATACAGTC TATTGAAAGA CATACATTTG AACCACTACC ATTTTTGAAG
    TTTATAAATC TTAGTTGCAA TGTAATTACA GAACTCAGCT TTGGAACATT TCAGGCCTGG
    CACGGAATGC AGTTTTTACA TAAGTTAATT CTCAATCACA ATCCTCTGAC AACTGTTGAA
    GATCCGTATC TCTTTAAATT GCCAGCATTA AAATATCTAG ACATGGGAAC AACGCTAGTC
    CCACTTACAA CACTTAAGAA CATTCTCATG ATGACTGTTG AACTGGAAAA ACTCTGA

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

    CloneID OHu80387
    Clone ID Related Accession (Same CDS sequence) XM_011524850.2 , XM_011524850.3
    Accession Version XM_011524850.2 Documents for ORF clone product in default vector
    Sequence Information ORF Nucleotide Sequence (Length: 2910bp)
    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 2016-06-05
    Organism Homo sapiens(human)
    Product leucine-rich repeat-containing protein 37A2 isoform X8
    Comment Comment: MODEL REFSEQ: This record is predicted by automated computational analysis. This record is derived from a genomic sequence (NC_000017.11) annotated using gene prediction method: Gnomon, supported by EST evidence. Also see: Documentation of NCBI's Annotation Process On Jun 6, 2016 this sequence version replaced XM_011524850.1. ##Genome-Annotation-Data-START## Annotation Provider :: NCBI Annotation Status :: Full annotation Annotation Version :: Homo sapiens Annotation Release 108 Annotation Pipeline :: NCBI eukaryotic genome annotation pipeline Annotation Software Version :: 7.0 Annotation Method :: Best-placed RefSeq; Gnomon 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
    ATGTCTTCTG CTCAGTGCCC GGCACTAGTG TGTGTCATGT CCCGGCTGCG TTTCTGGGGC 
    CCATGGCCCC TCCTTATGTG GCAACTATTG TGGCTACTAG TTAAGGAGGC TCAGCCTCTG
    GAGTGGGTCA AGGACCCGCT CCAGCTCACC TCTAATCCCC TGGGGCCGCC TGACTCCTGG
    TCTTCCCACT CCTCCCATTT CCCACGGGAA TCTCCCCATG CGCCTACTCT CCCAGCAGAC
    CCGTGGGACT TTGATCACCT GGGGCCCTCT GCTTCCTCAG AGATGCCAGC CCCACCCCAG
    GAATCGACTG AAAATTTGGT TCCATTCCTG GACACCTGGG ATTCAGCTGG AGAGCAGCCC
    CTGGAGCCAG AGCAGTTCTT GGCTTCACAG CAGGATTTAA AGGACAAGCT GAGTCCACAG
    GAAAGACTCC CTGTTTCGCC CAAGAAGCTG AAGAAAGATC CAGCTCAGCG TTGGAGCCTT
    GCTGAGATTA TTGGAATTAC ACGCCAATTA TCCACACCTC AGAGTCAGAA ACAGACTTTG
    CAGAATGAAT ATTCCAGTAC AGATACACCG TATCCCGGTA GCCTGCCTCC AGAACTCCGG
    GTGAAGTCAG ATGAGCCTCC AGGGCCCTCT GAGCAAGTTG GACCTTCTCA ATTCCATCTA
    GAGCCCGAAA CTCAAAATCC AGAGACCCTT GAAGACATCC AGTCCTCTTC ACTCCAGCAA
    GAAGCCCCAG CACAGCTTCC ACAGCTCCTT GAGGAAGAAC CTTCTTCAAT GCAGCAGGAG
    GCCCCAGCTC TGCCTCCAGA GTCCTCTATG GAGAGTCTAA CTCTACCGAA TCATGAGGTG
    TCAGTTCAAC CTCCAGGTGA GGATCAAGCT TATTATCACT TGCCCAACAT TACAGTTAAA
    CCTGCAGATG TGGAGGTTAC CATAACTTCA GAGCCTACCA ATGAGACAGA ATCTTCCCAA
    GCCCAGCAGG AGACCCCAAT TCAGTTTCCA GAGGAGGTGG AACCTTCTGC AACCCAACAG
    GAGGCCCCAA TTGAGCCTCC AGTTCCTCCT ATGGAGCATG AACTTTCCAT CAGTGAGCAG
    CAGCAGCCAG TTCAGCCTTC TGAGTCTCCT AGGGAGGTCG AATCTTCTCC GACCCAGCAG
    GAGACCCCAG GTCAGCCTCC AGAACATCAT GAAGTCACAG TTTCACCTCC AGGTCACCAT
    CAAACTCATC ATTTAGCTTC ACCCAGTGTC TCTGTGAAGC CTCCAGACGT GCAGCTCACC
    ATAGCAGCAG AGCCTAGTGC AGAGGTGGGA ACTTCTCTAG TCCACCAGGA GGCTACAACT
    CGGCTCTCAG GGTCAGGTAA TGATGTAGAA CCTCCCGCCA TCCAGCACGG GGGCCCACCT
    CTGCTTCCAG AGTCATCAGA AGAAGCTGGA CCTTTAGCAG TTCAACAGGA GACTTCATTT
    CAATCTCCGG AACCTATTAA TAATGAGAAC CCCTCTCCAA CCCAGCAGGA GGCTGCAGCT
    GAGCATCCAC AGACCGCTGA GGAGGGTGAG TCTTCCCTAA CCCATCAGGA GGCCCCAGCT
    CAGACTCCAG AGTTCCCTAA TGTAGTTGTA GCTCAACCTC CAGAGCATTC ACACCTGACT
    CAAGCCACAG TTCAACCTTT GGATCTGGGG TTTACCATCA CTCCAGAATC CAAGACAGAG
    GTTGAACTTT CTCCAACCAT GAAGGAGACC CCAACTCAGC CTCCTAAGAA AGTTGTACCC
    CAACTTCGAG TATATCAAGG GGTAACAAAT CCAACACCAG GTCAGGATCA AGCTCAGCAT
    CCAGTGTCAC CCAGCGTTAC AGTTCAACTT TTGGACCTGG GACTTACCAT CACTCCAGAA
    CCTACTACGG AGGTTGGACA TTCTACACCC CCGAAGAGGA CTATAGTTTC TCCAAAGCAT
    CCTGAGGTGA CACTTCCACA TCCAGACCAG GTTCAGACTC AGCATTCACA CCTGACTCGA
    GCCACAGTTC AACCTTTGGA CCTGGGGTTT ACCATCACTC CAAAATCCAT GACAGAGGTT
    GAACCTTCTA CAGCCCTGAT GACTACAGCT CCTCCTCCAG GACACCCTGA GGTGACACTT
    CCACCTTCAG ACAAGGGTCA GGCTCAGCAT TCACACCTGA CTCAAGCCAC CGTTCAACCT
    CTGGACCTGG AGCTTACCAT AACTACAAAA CCTACTACAG AGGTTAAACC ATCTCCAACC
    ACGGAGGAGA CCTCAACTCA GCCTCCAGAC CTGGGACTTG CCATCATTCC AGAACCCACT
    ACAGAGACTA GACATTCTAC AGCCCTGGAG AAGACTACAG CTCCTCGTCC AGACCGGGTT
    CAGACTCTGC ATCGAAGCCT GACTGAAGTC ACAGGTCCAC CTACTGAACT AGAACCTGCT
    CAGGATTCAC TGGTGCAGTC TGAAAGTTAC ACCCAAAATA AGGCTTTAAC TGCACCAGAG
    GAACACAAGG CCTCCACAAG CACCAACATA TGTGAGCTCT GTACCTGCGG AGATGAGATG
    TTGTCATGTA TTGATCTCAA CCCAGAGCAG AGGCTCCGCC AAGTGCCTGT GCCAGAGCCC
    AACACCCACA ATGGCACCTT CACCATCTTA AATTTCCAAG GAAACTATAT TTCTTACATT
    GATGGAAATG TATGGAAAGC ATACAGTTGG ACCGAGAAAC TAATTCTCAG AGAAAATAAC
    TTGACTGAAT TACACAAGGA TTCATTTGAA GGCCTGCTAT CCCTCCAGTA TTTAGATTTA
    TCCTGCAATA AAATACAGTC TATTGAAAGA CATACATTTG AACCACTACC ATTTTTGAAG
    TTTATAAATC TTAGTTGCAA TGTAATTACA GAACTCAGCT TTGGAACATT TCAGGCCTGG
    CACGGAATGC AGTTTTTACA TAAGTTCTGA

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

    RefSeq XP_011523152.1
    CDS57..2966
    Translation

    Target ORF information:

    RefSeq Version XM_011524850.2
    Organism Homo sapiens(human)
    Definition Homo sapiens leucine-rich repeat containing 37 member A2 (LRRC37A2), transcript variant X8, mRNA.

    Target ORF information:

    Epitope DYKDDDDK
    Bacterial selection AMPR
    Mammalian selection NeoR
    Vector pcDNA3.1+/C-(K)DYK
    XM_011524850.2

    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
    ATGTCTTCTG CTCAGTGCCC GGCACTAGTG TGTGTCATGT CCCGGCTGCG TTTCTGGGGC 
    CCATGGCCCC TCCTTATGTG GCAACTATTG TGGCTACTAG TTAAGGAGGC TCAGCCTCTG
    GAGTGGGTCA AGGACCCGCT CCAGCTCACC TCTAATCCCC TGGGGCCGCC TGACTCCTGG
    TCTTCCCACT CCTCCCATTT CCCACGGGAA TCTCCCCATG CGCCTACTCT CCCAGCAGAC
    CCGTGGGACT TTGATCACCT GGGGCCCTCT GCTTCCTCAG AGATGCCAGC CCCACCCCAG
    GAATCGACTG AAAATTTGGT TCCATTCCTG GACACCTGGG ATTCAGCTGG AGAGCAGCCC
    CTGGAGCCAG AGCAGTTCTT GGCTTCACAG CAGGATTTAA AGGACAAGCT GAGTCCACAG
    GAAAGACTCC CTGTTTCGCC CAAGAAGCTG AAGAAAGATC CAGCTCAGCG TTGGAGCCTT
    GCTGAGATTA TTGGAATTAC ACGCCAATTA TCCACACCTC AGAGTCAGAA ACAGACTTTG
    CAGAATGAAT ATTCCAGTAC AGATACACCG TATCCCGGTA GCCTGCCTCC AGAACTCCGG
    GTGAAGTCAG ATGAGCCTCC AGGGCCCTCT GAGCAAGTTG GACCTTCTCA ATTCCATCTA
    GAGCCCGAAA CTCAAAATCC AGAGACCCTT GAAGACATCC AGTCCTCTTC ACTCCAGCAA
    GAAGCCCCAG CACAGCTTCC ACAGCTCCTT GAGGAAGAAC CTTCTTCAAT GCAGCAGGAG
    GCCCCAGCTC TGCCTCCAGA GTCCTCTATG GAGAGTCTAA CTCTACCGAA TCATGAGGTG
    TCAGTTCAAC CTCCAGGTGA GGATCAAGCT TATTATCACT TGCCCAACAT TACAGTTAAA
    CCTGCAGATG TGGAGGTTAC CATAACTTCA GAGCCTACCA ATGAGACAGA ATCTTCCCAA
    GCCCAGCAGG AGACCCCAAT TCAGTTTCCA GAGGAGGTGG AACCTTCTGC AACCCAACAG
    GAGGCCCCAA TTGAGCCTCC AGTTCCTCCT ATGGAGCATG AACTTTCCAT CAGTGAGCAG
    CAGCAGCCAG TTCAGCCTTC TGAGTCTCCT AGGGAGGTCG AATCTTCTCC GACCCAGCAG
    GAGACCCCAG GTCAGCCTCC AGAACATCAT GAAGTCACAG TTTCACCTCC AGGTCACCAT
    CAAACTCATC ATTTAGCTTC ACCCAGTGTC TCTGTGAAGC CTCCAGACGT GCAGCTCACC
    ATAGCAGCAG AGCCTAGTGC AGAGGTGGGA ACTTCTCTAG TCCACCAGGA GGCTACAACT
    CGGCTCTCAG GGTCAGGTAA TGATGTAGAA CCTCCCGCCA TCCAGCACGG GGGCCCACCT
    CTGCTTCCAG AGTCATCAGA AGAAGCTGGA CCTTTAGCAG TTCAACAGGA GACTTCATTT
    CAATCTCCGG AACCTATTAA TAATGAGAAC CCCTCTCCAA CCCAGCAGGA GGCTGCAGCT
    GAGCATCCAC AGACCGCTGA GGAGGGTGAG TCTTCCCTAA CCCATCAGGA GGCCCCAGCT
    CAGACTCCAG AGTTCCCTAA TGTAGTTGTA GCTCAACCTC CAGAGCATTC ACACCTGACT
    CAAGCCACAG TTCAACCTTT GGATCTGGGG TTTACCATCA CTCCAGAATC CAAGACAGAG
    GTTGAACTTT CTCCAACCAT GAAGGAGACC CCAACTCAGC CTCCTAAGAA AGTTGTACCC
    CAACTTCGAG TATATCAAGG GGTAACAAAT CCAACACCAG GTCAGGATCA AGCTCAGCAT
    CCAGTGTCAC CCAGCGTTAC AGTTCAACTT TTGGACCTGG GACTTACCAT CACTCCAGAA
    CCTACTACGG AGGTTGGACA TTCTACACCC CCGAAGAGGA CTATAGTTTC TCCAAAGCAT
    CCTGAGGTGA CACTTCCACA TCCAGACCAG GTTCAGACTC AGCATTCACA CCTGACTCGA
    GCCACAGTTC AACCTTTGGA CCTGGGGTTT ACCATCACTC CAAAATCCAT GACAGAGGTT
    GAACCTTCTA CAGCCCTGAT GACTACAGCT CCTCCTCCAG GACACCCTGA GGTGACACTT
    CCACCTTCAG ACAAGGGTCA GGCTCAGCAT TCACACCTGA CTCAAGCCAC CGTTCAACCT
    CTGGACCTGG AGCTTACCAT AACTACAAAA CCTACTACAG AGGTTAAACC ATCTCCAACC
    ACGGAGGAGA CCTCAACTCA GCCTCCAGAC CTGGGACTTG CCATCATTCC AGAACCCACT
    ACAGAGACTA GACATTCTAC AGCCCTGGAG AAGACTACAG CTCCTCGTCC AGACCGGGTT
    CAGACTCTGC ATCGAAGCCT GACTGAAGTC ACAGGTCCAC CTACTGAACT AGAACCTGCT
    CAGGATTCAC TGGTGCAGTC TGAAAGTTAC ACCCAAAATA AGGCTTTAAC TGCACCAGAG
    GAACACAAGG CCTCCACAAG CACCAACATA TGTGAGCTCT GTACCTGCGG AGATGAGATG
    TTGTCATGTA TTGATCTCAA CCCAGAGCAG AGGCTCCGCC AAGTGCCTGT GCCAGAGCCC
    AACACCCACA ATGGCACCTT CACCATCTTA AATTTCCAAG GAAACTATAT TTCTTACATT
    GATGGAAATG TATGGAAAGC ATACAGTTGG ACCGAGAAAC TAATTCTCAG AGAAAATAAC
    TTGACTGAAT TACACAAGGA TTCATTTGAA GGCCTGCTAT CCCTCCAGTA TTTAGATTTA
    TCCTGCAATA AAATACAGTC TATTGAAAGA CATACATTTG AACCACTACC ATTTTTGAAG
    TTTATAAATC TTAGTTGCAA TGTAATTACA GAACTCAGCT TTGGAACATT TCAGGCCTGG
    CACGGAATGC AGTTTTTACA TAAGTTCTGA

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

    CloneID OHu80387
    Clone ID Related Accession (Same CDS sequence) XM_011524850.2 , XM_011524850.3
    Accession Version XM_011524850.3 Latest version! Documents for ORF clone product in default vector
    Sequence Information ORF Nucleotide Sequence (Length: 2910bp)
    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 leucine-rich repeat-containing protein 37A2 isoform X9
    Comment Comment: MODEL REFSEQ: This record is predicted by automated computational analysis. This record is derived from a genomic sequence (NC_000017.11) annotated using gene prediction method: Gnomon, supported by mRNA and EST evidence. Also see: Documentation of NCBI's Annotation Process On Mar 26, 2018 this sequence version replaced XM_011524850.2. ##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
    ATGTCTTCTG CTCAGTGCCC GGCACTAGTG TGTGTCATGT CCCGGCTGCG TTTCTGGGGC 
    CCATGGCCCC TCCTTATGTG GCAACTATTG TGGCTACTAG TTAAGGAGGC TCAGCCTCTG
    GAGTGGGTCA AGGACCCGCT CCAGCTCACC TCTAATCCCC TGGGGCCGCC TGACTCCTGG
    TCTTCCCACT CCTCCCATTT CCCACGGGAA TCTCCCCATG CGCCTACTCT CCCAGCAGAC
    CCGTGGGACT TTGATCACCT GGGGCCCTCT GCTTCCTCAG AGATGCCAGC CCCACCCCAG
    GAATCGACTG AAAATTTGGT TCCATTCCTG GACACCTGGG ATTCAGCTGG AGAGCAGCCC
    CTGGAGCCAG AGCAGTTCTT GGCTTCACAG CAGGATTTAA AGGACAAGCT GAGTCCACAG
    GAAAGACTCC CTGTTTCGCC CAAGAAGCTG AAGAAAGATC CAGCTCAGCG TTGGAGCCTT
    GCTGAGATTA TTGGAATTAC ACGCCAATTA TCCACACCTC AGAGTCAGAA ACAGACTTTG
    CAGAATGAAT ATTCCAGTAC AGATACACCG TATCCCGGTA GCCTGCCTCC AGAACTCCGG
    GTGAAGTCAG ATGAGCCTCC AGGGCCCTCT GAGCAAGTTG GACCTTCTCA ATTCCATCTA
    GAGCCCGAAA CTCAAAATCC AGAGACCCTT GAAGACATCC AGTCCTCTTC ACTCCAGCAA
    GAAGCCCCAG CACAGCTTCC ACAGCTCCTT GAGGAAGAAC CTTCTTCAAT GCAGCAGGAG
    GCCCCAGCTC TGCCTCCAGA GTCCTCTATG GAGAGTCTAA CTCTACCGAA TCATGAGGTG
    TCAGTTCAAC CTCCAGGTGA GGATCAAGCT TATTATCACT TGCCCAACAT TACAGTTAAA
    CCTGCAGATG TGGAGGTTAC CATAACTTCA GAGCCTACCA ATGAGACAGA ATCTTCCCAA
    GCCCAGCAGG AGACCCCAAT TCAGTTTCCA GAGGAGGTGG AACCTTCTGC AACCCAACAG
    GAGGCCCCAA TTGAGCCTCC AGTTCCTCCT ATGGAGCATG AACTTTCCAT CAGTGAGCAG
    CAGCAGCCAG TTCAGCCTTC TGAGTCTCCT AGGGAGGTCG AATCTTCTCC GACCCAGCAG
    GAGACCCCAG GTCAGCCTCC AGAACATCAT GAAGTCACAG TTTCACCTCC AGGTCACCAT
    CAAACTCATC ATTTAGCTTC ACCCAGTGTC TCTGTGAAGC CTCCAGACGT GCAGCTCACC
    ATAGCAGCAG AGCCTAGTGC AGAGGTGGGA ACTTCTCTAG TCCACCAGGA GGCTACAACT
    CGGCTCTCAG GGTCAGGTAA TGATGTAGAA CCTCCCGCCA TCCAGCACGG GGGCCCACCT
    CTGCTTCCAG AGTCATCAGA AGAAGCTGGA CCTTTAGCAG TTCAACAGGA GACTTCATTT
    CAATCTCCGG AACCTATTAA TAATGAGAAC CCCTCTCCAA CCCAGCAGGA GGCTGCAGCT
    GAGCATCCAC AGACCGCTGA GGAGGGTGAG TCTTCCCTAA CCCATCAGGA GGCCCCAGCT
    CAGACTCCAG AGTTCCCTAA TGTAGTTGTA GCTCAACCTC CAGAGCATTC ACACCTGACT
    CAAGCCACAG TTCAACCTTT GGATCTGGGG TTTACCATCA CTCCAGAATC CAAGACAGAG
    GTTGAACTTT CTCCAACCAT GAAGGAGACC CCAACTCAGC CTCCTAAGAA AGTTGTACCC
    CAACTTCGAG TATATCAAGG GGTAACAAAT CCAACACCAG GTCAGGATCA AGCTCAGCAT
    CCAGTGTCAC CCAGCGTTAC AGTTCAACTT TTGGACCTGG GACTTACCAT CACTCCAGAA
    CCTACTACGG AGGTTGGACA TTCTACACCC CCGAAGAGGA CTATAGTTTC TCCAAAGCAT
    CCTGAGGTGA CACTTCCACA TCCAGACCAG GTTCAGACTC AGCATTCACA CCTGACTCGA
    GCCACAGTTC AACCTTTGGA CCTGGGGTTT ACCATCACTC CAAAATCCAT GACAGAGGTT
    GAACCTTCTA CAGCCCTGAT GACTACAGCT CCTCCTCCAG GACACCCTGA GGTGACACTT
    CCACCTTCAG ACAAGGGTCA GGCTCAGCAT TCACACCTGA CTCAAGCCAC CGTTCAACCT
    CTGGACCTGG AGCTTACCAT AACTACAAAA CCTACTACAG AGGTTAAACC ATCTCCAACC
    ACGGAGGAGA CCTCAACTCA GCCTCCAGAC CTGGGACTTG CCATCATTCC AGAACCCACT
    ACAGAGACTA GACATTCTAC AGCCCTGGAG AAGACTACAG CTCCTCGTCC AGACCGGGTT
    CAGACTCTGC ATCGAAGCCT GACTGAAGTC ACAGGTCCAC CTACTGAACT AGAACCTGCT
    CAGGATTCAC TGGTGCAGTC TGAAAGTTAC ACCCAAAATA AGGCTTTAAC TGCACCAGAG
    GAACACAAGG CCTCCACAAG CACCAACATA TGTGAGCTCT GTACCTGCGG AGATGAGATG
    TTGTCATGTA TTGATCTCAA CCCAGAGCAG AGGCTCCGCC AAGTGCCTGT GCCAGAGCCC
    AACACCCACA ATGGCACCTT CACCATCTTA AATTTCCAAG GAAACTATAT TTCTTACATT
    GATGGAAATG TATGGAAAGC ATACAGTTGG ACCGAGAAAC TAATTCTCAG AGAAAATAAC
    TTGACTGAAT TACACAAGGA TTCATTTGAA GGCCTGCTAT CCCTCCAGTA TTTAGATTTA
    TCCTGCAATA AAATACAGTC TATTGAAAGA CATACATTTG AACCACTACC ATTTTTGAAG
    TTTATAAATC TTAGTTGCAA TGTAATTACA GAACTCAGCT TTGGAACATT TCAGGCCTGG
    CACGGAATGC AGTTTTTACA TAAGTTCTGA

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

    RefSeq XP_011523152.1
    CDS4..2913
    Translation

    Target ORF information:

    RefSeq Version XM_011524850.3
    Organism Homo sapiens(human)
    Definition Homo sapiens leucine rich repeat containing 37 member A2 (LRRC37A2), transcript variant X9, mRNA.

    Target ORF information:

    Epitope DYKDDDDK
    Bacterial selection AMPR
    Mammalian selection NeoR
    Vector pcDNA3.1+/C-(K)DYK
    XM_011524850.3

    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
    ATGTCTTCTG CTCAGTGCCC GGCACTAGTG TGTGTCATGT CCCGGCTGCG TTTCTGGGGC 
    CCATGGCCCC TCCTTATGTG GCAACTATTG TGGCTACTAG TTAAGGAGGC TCAGCCTCTG
    GAGTGGGTCA AGGACCCGCT CCAGCTCACC TCTAATCCCC TGGGGCCGCC TGACTCCTGG
    TCTTCCCACT CCTCCCATTT CCCACGGGAA TCTCCCCATG CGCCTACTCT CCCAGCAGAC
    CCGTGGGACT TTGATCACCT GGGGCCCTCT GCTTCCTCAG AGATGCCAGC CCCACCCCAG
    GAATCGACTG AAAATTTGGT TCCATTCCTG GACACCTGGG ATTCAGCTGG AGAGCAGCCC
    CTGGAGCCAG AGCAGTTCTT GGCTTCACAG CAGGATTTAA AGGACAAGCT GAGTCCACAG
    GAAAGACTCC CTGTTTCGCC CAAGAAGCTG AAGAAAGATC CAGCTCAGCG TTGGAGCCTT
    GCTGAGATTA TTGGAATTAC ACGCCAATTA TCCACACCTC AGAGTCAGAA ACAGACTTTG
    CAGAATGAAT ATTCCAGTAC AGATACACCG TATCCCGGTA GCCTGCCTCC AGAACTCCGG
    GTGAAGTCAG ATGAGCCTCC AGGGCCCTCT GAGCAAGTTG GACCTTCTCA ATTCCATCTA
    GAGCCCGAAA CTCAAAATCC AGAGACCCTT GAAGACATCC AGTCCTCTTC ACTCCAGCAA
    GAAGCCCCAG CACAGCTTCC ACAGCTCCTT GAGGAAGAAC CTTCTTCAAT GCAGCAGGAG
    GCCCCAGCTC TGCCTCCAGA GTCCTCTATG GAGAGTCTAA CTCTACCGAA TCATGAGGTG
    TCAGTTCAAC CTCCAGGTGA GGATCAAGCT TATTATCACT TGCCCAACAT TACAGTTAAA
    CCTGCAGATG TGGAGGTTAC CATAACTTCA GAGCCTACCA ATGAGACAGA ATCTTCCCAA
    GCCCAGCAGG AGACCCCAAT TCAGTTTCCA GAGGAGGTGG AACCTTCTGC AACCCAACAG
    GAGGCCCCAA TTGAGCCTCC AGTTCCTCCT ATGGAGCATG AACTTTCCAT CAGTGAGCAG
    CAGCAGCCAG TTCAGCCTTC TGAGTCTCCT AGGGAGGTCG AATCTTCTCC GACCCAGCAG
    GAGACCCCAG GTCAGCCTCC AGAACATCAT GAAGTCACAG TTTCACCTCC AGGTCACCAT
    CAAACTCATC ATTTAGCTTC ACCCAGTGTC TCTGTGAAGC CTCCAGACGT GCAGCTCACC
    ATAGCAGCAG AGCCTAGTGC AGAGGTGGGA ACTTCTCTAG TCCACCAGGA GGCTACAACT
    CGGCTCTCAG GGTCAGGTAA TGATGTAGAA CCTCCCGCCA TCCAGCACGG GGGCCCACCT
    CTGCTTCCAG AGTCATCAGA AGAAGCTGGA CCTTTAGCAG TTCAACAGGA GACTTCATTT
    CAATCTCCGG AACCTATTAA TAATGAGAAC CCCTCTCCAA CCCAGCAGGA GGCTGCAGCT
    GAGCATCCAC AGACCGCTGA GGAGGGTGAG TCTTCCCTAA CCCATCAGGA GGCCCCAGCT
    CAGACTCCAG AGTTCCCTAA TGTAGTTGTA GCTCAACCTC CAGAGCATTC ACACCTGACT
    CAAGCCACAG TTCAACCTTT GGATCTGGGG TTTACCATCA CTCCAGAATC CAAGACAGAG
    GTTGAACTTT CTCCAACCAT GAAGGAGACC CCAACTCAGC CTCCTAAGAA AGTTGTACCC
    CAACTTCGAG TATATCAAGG GGTAACAAAT CCAACACCAG GTCAGGATCA AGCTCAGCAT
    CCAGTGTCAC CCAGCGTTAC AGTTCAACTT TTGGACCTGG GACTTACCAT CACTCCAGAA
    CCTACTACGG AGGTTGGACA TTCTACACCC CCGAAGAGGA CTATAGTTTC TCCAAAGCAT
    CCTGAGGTGA CACTTCCACA TCCAGACCAG GTTCAGACTC AGCATTCACA CCTGACTCGA
    GCCACAGTTC AACCTTTGGA CCTGGGGTTT ACCATCACTC CAAAATCCAT GACAGAGGTT
    GAACCTTCTA CAGCCCTGAT GACTACAGCT CCTCCTCCAG GACACCCTGA GGTGACACTT
    CCACCTTCAG ACAAGGGTCA GGCTCAGCAT TCACACCTGA CTCAAGCCAC CGTTCAACCT
    CTGGACCTGG AGCTTACCAT AACTACAAAA CCTACTACAG AGGTTAAACC ATCTCCAACC
    ACGGAGGAGA CCTCAACTCA GCCTCCAGAC CTGGGACTTG CCATCATTCC AGAACCCACT
    ACAGAGACTA GACATTCTAC AGCCCTGGAG AAGACTACAG CTCCTCGTCC AGACCGGGTT
    CAGACTCTGC ATCGAAGCCT GACTGAAGTC ACAGGTCCAC CTACTGAACT AGAACCTGCT
    CAGGATTCAC TGGTGCAGTC TGAAAGTTAC ACCCAAAATA AGGCTTTAAC TGCACCAGAG
    GAACACAAGG CCTCCACAAG CACCAACATA TGTGAGCTCT GTACCTGCGG AGATGAGATG
    TTGTCATGTA TTGATCTCAA CCCAGAGCAG AGGCTCCGCC AAGTGCCTGT GCCAGAGCCC
    AACACCCACA ATGGCACCTT CACCATCTTA AATTTCCAAG GAAACTATAT TTCTTACATT
    GATGGAAATG TATGGAAAGC ATACAGTTGG ACCGAGAAAC TAATTCTCAG AGAAAATAAC
    TTGACTGAAT TACACAAGGA TTCATTTGAA GGCCTGCTAT CCCTCCAGTA TTTAGATTTA
    TCCTGCAATA AAATACAGTC TATTGAAAGA CATACATTTG AACCACTACC ATTTTTGAAG
    TTTATAAATC TTAGTTGCAA TGTAATTACA GAACTCAGCT TTGGAACATT TCAGGCCTGG
    CACGGAATGC AGTTTTTACA TAAGTTCTGA

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