TMEM131L cDNA ORF clone, Homo sapiens(human)

The following TMEM131L gene cDNA ORF clone sequences were retrieved from the NCBI Reference Sequence Database (RefSeq). These sequences represent the protein coding region of the TMEM131L 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
OHu95000 XM_017007927.1
Latest version!
Homo sapiens KIAA0922 (KIAA0922), transcript variant X7, mRNA. pcDNA3.1-C-(k)DYK or customized vector 10-12 $475.30
$679.00
OHu65775 XM_024453958.1
Latest version!
Homo sapiens transmembrane 131 like (TMEM131L), transcript variant X8, mRNA. pcDNA3.1-C-(k)DYK or customized vector 14-16 $475.30
$679.00
OHu105504 XM_024453957.1
Latest version!
Homo sapiens transmembrane 131 like (TMEM131L), transcript variant X4, mRNA. pcDNA3.1-C-(k)DYK or customized vector 24-26 $811.30
$1159.00
OHu65773 XM_024453956.1
Latest version!
Homo sapiens transmembrane 131 like (TMEM131L), transcript variant X3, mRNA. pcDNA3.1-C-(k)DYK or customized vector 24-26 $811.30
$1159.00
OHu94997 XM_017007924.1
Latest version!
Homo sapiens KIAA0922 (KIAA0922), transcript variant X3, mRNA. pcDNA3.1-C-(k)DYK or customized vector 24-26 $811.30
$1159.00
OHu94998 XM_017007925.1
Latest version!
Homo sapiens transmembrane 131 like (TMEM131L), transcript variant X5, mRNA. pcDNA3.1-C-(k)DYK or customized vector 24-26 $811.30
$1159.00
OHu94999 XM_017007926.1
Latest version!
Homo sapiens transmembrane 131 like (TMEM131L), transcript variant X6, mRNA. pcDNA3.1-C-(k)DYK or customized vector 24-26 $811.30
$1159.00
OHu09176 NM_001131007.2
Latest version!
Homo sapiens transmembrane 131 like (TMEM131L), transcript variant 1, mRNA. pcDNA3.1-C-(k)DYK or customized vector 25 $811.30
$1159.00
OHu09215 NM_015196.3
Latest version!
Homo sapiens transmembrane 131 like (TMEM131L), transcript variant 2, mRNA. pcDNA3.1-C-(k)DYK or customized vector 25 $811.30
$1159.00
OHu65771 XM_011531780.1
Latest version!
Homo sapiens transmembrane 131 like (TMEM131L), transcript variant X1, mRNA. pcDNA3.1-C-(k)DYK or customized vector 25 $811.30
$1159.00
OHu65772 XM_011531781.1
Latest version!
Homo sapiens transmembrane 131 like (TMEM131L), transcript variant X2, mRNA. pcDNA3.1-C-(k)DYK or customized vector 25 $811.30
$1159.00
OHu65774 XM_011531783.1
Latest version!
Homo sapiens transmembrane 131 like (TMEM131L), transcript variant X7, mRNA. pcDNA3.1-C-(k)DYK or customized vector 25 $811.30
$1159.00
View Old Accession Versions >>
OHu09176 NM_001131007.1 Homo sapiens transmembrane 131 like (TMEM131L), transcript variant 1, mRNA. pcDNA3.1-C-(k)DYK or customized vector 25 $811.30
$1159.00
Hide Old Accession Versions >>

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

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

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

  • Reference Sequences (Refseq)
    CloneID OHu95000
    Clone ID Related Accession (Same CDS sequence) XM_017007927.1
    Accession Version XM_017007927.1 Latest version! Documents for ORF clone product in default vector
    Sequence Information ORF Nucleotide Sequence (Length: 2898bp)
    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 transmembrane protein 131-like isoform X7
    Comment Comment: MODEL REFSEQ: This record is predicted by automated computational analysis. This record is derived from a genomic sequence (NC_000004.12) annotated using gene prediction method: Gnomon, supported by mRNA and EST evidence. Also see: Documentation of NCBI's Annotation Process ##Genome-Annotation-Data-START## Annotation Provider :: NCBI Annotation Status :: 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
    ATGCAGATGA TTAATTTCAC AACTGGTGAA TTCCAGCTCA CCGAAGCTTG CCCTTACCTG 
    GGTACGCATT CTGAGGAATC CAGGTTTGGC ATCCTCCACT TACATCTGCA GCCTTTGGAA
    ATGAAAAGGG TTGGCGTAGT TTTCACACCT GCTGACTATG GAAAAGTTAC CTCACTCATA
    CTAATCCGGA ATAACTTGAC TGTTATTGAC ATGATTGGCG TGGAAGGATT TGGAGCAAGA
    GAGTTATTAA AAGTGGGTGG AAGACTTCCT GGTGCAGGAG GCTCACTCCG ATTTAAGGTG
    CCCGAGTCCA CGCTGATGGA CTGCCGTAGA CAACTGAAAG ACAGTAAGCA AATTTTATCT
    ATTACAAAGA ACTTTAAAGT TGAGAATATT GGACCTCTTC CTATAACTGT TTCGTCTCTG
    AAAATTAATG GGTATAACTG CCAAGGTTAT GGATTCGAGG TGCTGGATTG TCATCAGTTT
    TCCCTGGACC CAAACACATC CCGCGATATC AGCATTGTGT TCACTCCAGA CTTTACCTCC
    TCCTGGGTAA TTCGGGACCT AAGTCTTGTA ACCGCAGCGG ACCTAGAATT TCGCTTCACT
    CTCAATGTGA CTCTCCCTCA TCACCTGTTG CCCTTGTGTG CAGACGTGGT TCCAGGACCC
    AGCTGGGAGG AGTCATTTTG GAGGCTCACG GTCTTCTTTG TCAGTTTGTC CCTGTTGGGT
    GTGATTTTAA TAGCCTTCCA ACAAGCACAG TACATTCTCA TGGAATTCAT GAAAACAAGA
    CAGAGGCAAA ATGCTAGCTC CTCTTCACAG CAAAACAATG GTCCTATGGA TGTAATCAGC
    CCCCATTCTT ACAAAAGCAA TTGCAAGAAC TTTCTCGATA CATATGGCCC CTCTGATAAA
    GGCAGGGGGA AGAACTGCCT TCCAGTGAAC ACTCCCCAAA GCAGGATCCA GAATGCTGCA
    AAGAGGAGCC CAGCCACCTA TGGTCATTCT CAGAAGAAGC ACAAATGCTC AGTGTATTAC
    AGTAAACACA AAACCAGCAC AGCTGCGGCC AGCAGCACCA GCACGACTAC TGAGGAAAAA
    CAGACTTCAC CCCTGGGCAG CTCACTGCCT GCTGCTAAAG AGGACATTTG CACTGATGCC
    ATGCGTGAGA ACTGGATCAG CCTCAGATAT GCAAGTGGCA TAAATGTCAA CCTGCAGAAG
    AATTTAACCC TTCCCAAAAA CTTACTGAAT AAAGAAGAAA ACACACTGAA AAACACAATT
    GTTTTCAGTA ATCCTTCTTC AGAATGTAGT ATGAAGGAGG GAATACAGAC ATGTATGTTT
    CCTAAGGAAA CTGACATTAA AACTTCAGAG AACACAGCCG AGTTCAAGGA ACGGGAGCTC
    TGTCCACTGA AGACCTCCAA GAAACTACCT GAAAACCATT TACCAAGAAA CTCACCTCAG
    TACCACCAGC CAGACTTGCC AGAAATTTCC AGGAAAAATA ATGGGAATAA CCAGCAAGTA
    CCTGTCAAGA ATGAAGTAGA TCATTGTGAA AATTTGAAGA AGGTGGACAC AAAGCCTTCT
    TCAGAAAAGA AGATTCACAA AACATCTAGA GAAGACATGT TTTCTGAGAA ACAGGACATA
    CCTTTCGTAG AGCAAGAAGA TCCTTATAGG AAGAAAAAGC TTCAGGAGAA AAGAGAAGGA
    AATTTACAAA ATTTAAATTG GAGTAAAAGT CGAACATGTA GAAAGAACAA GAAAAGGGGT
    GTTGCTCCAG TCTCAAGGCC TCCTGAACAG AGTGATCTAA AGCTTGTGTG CAGTGACTTT
    GAGAGGTCTG AGCTGAGCAG TGACATCAAT GTAAGAAGCT GGTGTATACA GGAAAGCACT
    AGGGAGGTTT GTAAAGCAGA TGCCGAAATT GCAAGCAGTT TACCTGCTGC CCAGAGAGAG
    GCAGAAGGTT ACTACCAGAA GCCTGAGAAG AAATGTGTGG ACAAGTTCTG CTCCGATTCC
    AGCTCTGACT GTGGGAGCTC CTCTGGCAGC GTGCGTGCCA GCCGGGGCAG CTGGGGGAGC
    TGGAGCAGCA CCAGCAGCTC CGACGGGGAT AAGAAGCCCA TGGTGGACGC CCAGCACTTC
    CTGCCGGCCG GAGACAGTGT TTCACAAAAT GATTTTCCTT CTGAAGCTCC CATCTCCTTG
    AATCTTTCTC ATAACATCTG CAATCCCATG ACCGTGAATA GTCTCCCACA ATACGCAGAG
    CCTTCCTGTC CCAGCCTTCC TGCCGGGCCC ACAGGTGTTG AAGAAGATAA AGGTCTTTAC
    TCACCTGGAG ACCTGTGGCC CACTCCGCCA GTGTGTGTGA CAAGCAGCTT AAACTGCACC
    CTGGAGAACG GCGTGCCTTG TGTGATTCAG GAGTCGGCCC CGGTTCATAA TAGTTTCATT
    GATTGGAGTG CAACATGCGA AGGCCAGTTT TCCAGCGCAT ACTGTCCATT GGAATTGAAC
    GATTACAATG CCTTTCCAGA AGAAAACATG AACTATGCCA ATGGCTTCCC CTGTCCTGCA
    GATGTTCAGA CAGACTTTAT TGATCACAAC TCTCAGTCTA CCTGGAACAC CCCACCCAAC
    ATGCCTGCTG CCTGGGGACA TGCCAGTTTC ATCAGCTCTC CGCCCTACCT CACAAGCACC
    CGAAGCTTGT CTCCAATGTC TGGACTTTTT GGTTCCATCT GGGCCCCGCA AAGCGATGTG
    TATGAAAATT GCTGCCCCAT CAACCCCACC ACGGAACATT CGACCCACAT GGAAAACCAA
    GCGGTCGTGT GCAAGGAATA CTACCCGGGG TTCAACCCGT TTCGCGCCTA TATGAACCTG
    GACATATGGA CTACCACAGC GAATAGGAAT GCAAATTTCC CACTGTCTAG AGACTCGAGT
    TACTGTGGGA ATGTGTGA

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

    RefSeq XP_016863416.1
    CDS93..2990
    Translation

    Target ORF information:

    RefSeq Version XM_017007927.1
    Organism Homo sapiens(human)
    Definition Homo sapiens KIAA0922 (KIAA0922), transcript variant X7, mRNA.

    Target ORF information:

    Epitope DYKDDDDK
    Bacterial selection AMPR
    Mammalian selection NeoR
    Vector pcDNA3.1+/C-(K)DYK
    XM_017007927.1

    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
    ATGCAGATGA TTAATTTCAC AACTGGTGAA TTCCAGCTCA CCGAAGCTTG CCCTTACCTG 
    GGTACGCATT CTGAGGAATC CAGGTTTGGC ATCCTCCACT TACATCTGCA GCCTTTGGAA
    ATGAAAAGGG TTGGCGTAGT TTTCACACCT GCTGACTATG GAAAAGTTAC CTCACTCATA
    CTAATCCGGA ATAACTTGAC TGTTATTGAC ATGATTGGCG TGGAAGGATT TGGAGCAAGA
    GAGTTATTAA AAGTGGGTGG AAGACTTCCT GGTGCAGGAG GCTCACTCCG ATTTAAGGTG
    CCCGAGTCCA CGCTGATGGA CTGCCGTAGA CAACTGAAAG ACAGTAAGCA AATTTTATCT
    ATTACAAAGA ACTTTAAAGT TGAGAATATT GGACCTCTTC CTATAACTGT TTCGTCTCTG
    AAAATTAATG GGTATAACTG CCAAGGTTAT GGATTCGAGG TGCTGGATTG TCATCAGTTT
    TCCCTGGACC CAAACACATC CCGCGATATC AGCATTGTGT TCACTCCAGA CTTTACCTCC
    TCCTGGGTAA TTCGGGACCT AAGTCTTGTA ACCGCAGCGG ACCTAGAATT TCGCTTCACT
    CTCAATGTGA CTCTCCCTCA TCACCTGTTG CCCTTGTGTG CAGACGTGGT TCCAGGACCC
    AGCTGGGAGG AGTCATTTTG GAGGCTCACG GTCTTCTTTG TCAGTTTGTC CCTGTTGGGT
    GTGATTTTAA TAGCCTTCCA ACAAGCACAG TACATTCTCA TGGAATTCAT GAAAACAAGA
    CAGAGGCAAA ATGCTAGCTC CTCTTCACAG CAAAACAATG GTCCTATGGA TGTAATCAGC
    CCCCATTCTT ACAAAAGCAA TTGCAAGAAC TTTCTCGATA CATATGGCCC CTCTGATAAA
    GGCAGGGGGA AGAACTGCCT TCCAGTGAAC ACTCCCCAAA GCAGGATCCA GAATGCTGCA
    AAGAGGAGCC CAGCCACCTA TGGTCATTCT CAGAAGAAGC ACAAATGCTC AGTGTATTAC
    AGTAAACACA AAACCAGCAC AGCTGCGGCC AGCAGCACCA GCACGACTAC TGAGGAAAAA
    CAGACTTCAC CCCTGGGCAG CTCACTGCCT GCTGCTAAAG AGGACATTTG CACTGATGCC
    ATGCGTGAGA ACTGGATCAG CCTCAGATAT GCAAGTGGCA TAAATGTCAA CCTGCAGAAG
    AATTTAACCC TTCCCAAAAA CTTACTGAAT AAAGAAGAAA ACACACTGAA AAACACAATT
    GTTTTCAGTA ATCCTTCTTC AGAATGTAGT ATGAAGGAGG GAATACAGAC ATGTATGTTT
    CCTAAGGAAA CTGACATTAA AACTTCAGAG AACACAGCCG AGTTCAAGGA ACGGGAGCTC
    TGTCCACTGA AGACCTCCAA GAAACTACCT GAAAACCATT TACCAAGAAA CTCACCTCAG
    TACCACCAGC CAGACTTGCC AGAAATTTCC AGGAAAAATA ATGGGAATAA CCAGCAAGTA
    CCTGTCAAGA ATGAAGTAGA TCATTGTGAA AATTTGAAGA AGGTGGACAC AAAGCCTTCT
    TCAGAAAAGA AGATTCACAA AACATCTAGA GAAGACATGT TTTCTGAGAA ACAGGACATA
    CCTTTCGTAG AGCAAGAAGA TCCTTATAGG AAGAAAAAGC TTCAGGAGAA AAGAGAAGGA
    AATTTACAAA ATTTAAATTG GAGTAAAAGT CGAACATGTA GAAAGAACAA GAAAAGGGGT
    GTTGCTCCAG TCTCAAGGCC TCCTGAACAG AGTGATCTAA AGCTTGTGTG CAGTGACTTT
    GAGAGGTCTG AGCTGAGCAG TGACATCAAT GTAAGAAGCT GGTGTATACA GGAAAGCACT
    AGGGAGGTTT GTAAAGCAGA TGCCGAAATT GCAAGCAGTT TACCTGCTGC CCAGAGAGAG
    GCAGAAGGTT ACTACCAGAA GCCTGAGAAG AAATGTGTGG ACAAGTTCTG CTCCGATTCC
    AGCTCTGACT GTGGGAGCTC CTCTGGCAGC GTGCGTGCCA GCCGGGGCAG CTGGGGGAGC
    TGGAGCAGCA CCAGCAGCTC CGACGGGGAT AAGAAGCCCA TGGTGGACGC CCAGCACTTC
    CTGCCGGCCG GAGACAGTGT TTCACAAAAT GATTTTCCTT CTGAAGCTCC CATCTCCTTG
    AATCTTTCTC ATAACATCTG CAATCCCATG ACCGTGAATA GTCTCCCACA ATACGCAGAG
    CCTTCCTGTC CCAGCCTTCC TGCCGGGCCC ACAGGTGTTG AAGAAGATAA AGGTCTTTAC
    TCACCTGGAG ACCTGTGGCC CACTCCGCCA GTGTGTGTGA CAAGCAGCTT AAACTGCACC
    CTGGAGAACG GCGTGCCTTG TGTGATTCAG GAGTCGGCCC CGGTTCATAA TAGTTTCATT
    GATTGGAGTG CAACATGCGA AGGCCAGTTT TCCAGCGCAT ACTGTCCATT GGAATTGAAC
    GATTACAATG CCTTTCCAGA AGAAAACATG AACTATGCCA ATGGCTTCCC CTGTCCTGCA
    GATGTTCAGA CAGACTTTAT TGATCACAAC TCTCAGTCTA CCTGGAACAC CCCACCCAAC
    ATGCCTGCTG CCTGGGGACA TGCCAGTTTC ATCAGCTCTC CGCCCTACCT CACAAGCACC
    CGAAGCTTGT CTCCAATGTC TGGACTTTTT GGTTCCATCT GGGCCCCGCA AAGCGATGTG
    TATGAAAATT GCTGCCCCAT CAACCCCACC ACGGAACATT CGACCCACAT GGAAAACCAA
    GCGGTCGTGT GCAAGGAATA CTACCCGGGG TTCAACCCGT TTCGCGCCTA TATGAACCTG
    GACATATGGA CTACCACAGC GAATAGGAAT GCAAATTTCC CACTGTCTAG AGACTCGAGT
    TACTGTGGGA ATGTGTGA

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

    CloneID OHu65775
    Clone ID Related Accession (Same CDS sequence) XM_024453958.1
    Accession Version XM_024453958.1 Latest version! Documents for ORF clone product in default vector
    Sequence Information ORF Nucleotide Sequence (Length: 2955bp)
    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 transmembrane protein 131-like isoform X8
    Comment Comment: MODEL REFSEQ: This record is predicted by automated computational analysis. This record is derived from a genomic sequence (NC_000004.12) annotated using gene prediction method: Gnomon, supported by 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
    ATGCAGATGA TTAATTTCAC AACTGGTGAA TTCCAGCTCA CCGAAGCTTG CCCTTACCTG 
    GGTACGCATT CTGAGGAATC CAGGTTTGGC ATCCTCCACT TACATCTGCA GCCTTTGGAA
    ATGAAAAGGG TTGGCGTAGT TTTCACACCT GCTGACTATG GAAAAGTTAC CTCACTCATA
    CTAATCCGGA ATAACTTGAC TGTTATTGAC ATGATTGGCG TGGAAGGATT TGGAGCAAGA
    GAGTTATTAA AAGTGGGTGG AAGACTTCCT GGTGCAGGAG GCTCACTCCG ATTTAAGGTG
    CCCGAGTCCA CGCTGATGGA CTGCCGTAGA CAACTGAAAG ACAGTAAGCA AATTTTATCT
    ATTACAAAGA ACTTTAAAGT TGAGAATATT GGACCTCTTC CTATAACTGT TTCGTCTCTG
    AAAATTAATG GGTATAACTG CCAAGGTTAT GGATTCGAGG TGCTGGATTG TCATCAGTTT
    TCCCTGGACC CAAACACATC CCGCGATATC AGCATTGTGT TCACTCCAGA CTTTACCTCC
    TCCTGGGTAA TTCGGGACCT AAGTCTTGTA ACCGCAGCGG ACCTAGAATT TCGCTTCACT
    CTCAATGTGA CTCTCCCTCA TCACCTGTTG CCCTTGTGTG CAGACGTGGT TCCAGGACCC
    AGCTGGGAGG AGTCATTTTG GAGGCTCACG GTCTTCTTTG TCAGTTTGTC CCTGTTGGGT
    GTGATTTTAA TAGCCTTCCA ACAAGCACAG TACATTCTCA TGGAATTCAT GAAAACAAGA
    CAGAGGCAAA ATGCTAGCTC CTCTTCACAG CAAAACAATG GTCCTATGGA TGTAATCAGC
    CCCCATTCTT ACAAAAGCAA TTGCAAGAAC TTTCTCGATA CATATGGCCC CTCTGATAAA
    GGCAGGGGGA AGAACTGCCT TCCAGTGAAC ACTCCCCAAA GCAGGATCCA GAATGCTGCA
    AAGAGGAGCC CAGCCACCTA TGGTCATTCT CAGAAGAAGC ACAAATGCTC AGTGTATTAC
    AGTAAACACA AAACCAGCAC AGCTGCGGCC AGCAGCACCA GCACGACTAC TGAGGAAAAA
    CAGACTTCAC CCCTGGGCAG CTCACTGCCT GCTGCTAAAG AGGACATTTG CACTGATGCC
    ATGCGTGAGA ACTGGATCAG CCTCAGATAT GCAAGTGGCA TAAATGTCAA CCTGCAGAAG
    AATTTAACCC TTCCCAAAAA CTTACTGAAT AAAGAAGAAA ACACACTGAA AAACACAATT
    GTTTTCAGTA ATCCTTCTTC AGAATGTAGT ATGAAGGAGG GAATACAGAC ATGTATGTTT
    CCTAAGGAAA CTGACATTAA AACTTCAGAG AACACAGCCG AGTTCAAGGA ACGGGAGCTC
    TGTCCACTGA AGACCTCCAA GAAACTACCT GAAAACCATT TACCAAGAAA CTCACCTCAG
    TACCACCAGC CAGACTTGCC AGAAATTTCC AGGAAAAATA ATGGGAATAA CCAGCAAGTA
    CCTGTCAAGA ATGAAGTAGA TCATTGTGAA AATTTGAAGA AGGTGGACAC AAAGCCTTCT
    TCAGAAAAGA AGATTCACAA AACATCTAGA GAAGACATGT TTTCTGAGAA ACAGGACATA
    CCTTTCGTAG AGCAAGAAGA TCCTTATAGG AAGAAAAAGC TTCAGGAGAA AAGAGAAGGA
    AATTTACAAA ATTTAAATTG GAGTAAAAGT CGAACATGTA GAAAGAACAA GAAAAGGGGT
    GTTGCTCCAG TCTCAAGGCC TCCTGAACAG AGTGATCTAA AGCTTGTGTG CAGTGACTTT
    GAGAGGTCTG AGCTGAGCAG TGACATCAAT GTAAGAAGCT GGTGTATACA GGAAAGCACT
    AGGGAGGTTT GTAAAGCAGA TGCCGAAATT GCAAGCAGTT TACCTGCTGC CCAGAGAGAG
    GCAGAAGGTT ACTACCAGAA GCCTGAGAAG AAATGTGTGG ACAAGTTCTG CTCCGATTCC
    AGCTCTGACT GTGGGAGCTC CTCTGGCAGC GTGCGTGCCA GCCGGGGCAG CTGGGGGAGC
    TGGAGCAGCA CCAGCAGCTC CGACGGGGAT AAGAAGCCCA TGGTGGACGC CCAGCACTTC
    CTGCCGGCCG GAGACAGTGT TTCACAAAAT GATTTTCCTT CTGAAGCTCC CATCTCCTTG
    AATCTTTCTC ATAACATCTG CAATCCCATG ACCGTGAATA GTCTCCCACA ATACGCAGAG
    CCTTCCTGTC CCAGCCTTCC TGCCGGGCCC ACAGGTGTTG AAGAAGATAA AGAATTTAAC
    ACTGGATTTA AAAGCTGCTC TGCACATTGG AGAATTTTAA CCCTTGAAGG TCTTTACTCA
    CCTGGAGACC TGTGGCCCAC TCCGCCAGTG TGTGTGACAA GCAGCTTAAA CTGCACCCTG
    GAGAACGGCG TGCCTTGTGT GATTCAGGAG TCGGCCCCGG TTCATAATAG TTTCATTGAT
    TGGAGTGCAA CATGCGAAGG CCAGTTTTCC AGCGCATACT GTCCATTGGA ATTGAACGAT
    TACAATGCCT TTCCAGAAGA AAACATGAAC TATGCCAATG GCTTCCCCTG TCCTGCAGAT
    GTTCAGACAG ACTTTATTGA TCACAACTCT CAGTCTACCT GGAACACCCC ACCCAACATG
    CCTGCTGCCT GGGGACATGC CAGTTTCATC AGCTCTCCGC CCTACCTCAC AAGCACCCGA
    AGCTTGTCTC CAATGTCTGG ACTTTTTGGT TCCATCTGGG CCCCGCAAAG CGATGTGTAT
    GAAAATTGCT GCCCCATCAA CCCCACCACG GAACATTCGA CCCACATGGA AAACCAAGCG
    GTCGTGTGCA AGGAATACTA CCCGGGGTTC AACCCGTTTC GCGCCTATAT GAACCTGGAC
    ATATGGACTA CCACAGCGAA TAGGAATGCA AATTTCCCAC TGTCTAGAGA CTCGAGTTAC
    TGTGGGAATG TGTGA

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

    RefSeq XP_024309726.1
    CDS94..3048
    Translation

    Target ORF information:

    RefSeq Version XM_024453958.1
    Organism Homo sapiens(human)
    Definition Homo sapiens transmembrane 131 like (TMEM131L), transcript variant X8, mRNA.

    Target ORF information:

    Epitope DYKDDDDK
    Bacterial selection AMPR
    Mammalian selection NeoR
    Vector pcDNA3.1+/C-(K)DYK
    XM_024453958.1

    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
    ATGCAGATGA TTAATTTCAC AACTGGTGAA TTCCAGCTCA CCGAAGCTTG CCCTTACCTG 
    GGTACGCATT CTGAGGAATC CAGGTTTGGC ATCCTCCACT TACATCTGCA GCCTTTGGAA
    ATGAAAAGGG TTGGCGTAGT TTTCACACCT GCTGACTATG GAAAAGTTAC CTCACTCATA
    CTAATCCGGA ATAACTTGAC TGTTATTGAC ATGATTGGCG TGGAAGGATT TGGAGCAAGA
    GAGTTATTAA AAGTGGGTGG AAGACTTCCT GGTGCAGGAG GCTCACTCCG ATTTAAGGTG
    CCCGAGTCCA CGCTGATGGA CTGCCGTAGA CAACTGAAAG ACAGTAAGCA AATTTTATCT
    ATTACAAAGA ACTTTAAAGT TGAGAATATT GGACCTCTTC CTATAACTGT TTCGTCTCTG
    AAAATTAATG GGTATAACTG CCAAGGTTAT GGATTCGAGG TGCTGGATTG TCATCAGTTT
    TCCCTGGACC CAAACACATC CCGCGATATC AGCATTGTGT TCACTCCAGA CTTTACCTCC
    TCCTGGGTAA TTCGGGACCT AAGTCTTGTA ACCGCAGCGG ACCTAGAATT TCGCTTCACT
    CTCAATGTGA CTCTCCCTCA TCACCTGTTG CCCTTGTGTG CAGACGTGGT TCCAGGACCC
    AGCTGGGAGG AGTCATTTTG GAGGCTCACG GTCTTCTTTG TCAGTTTGTC CCTGTTGGGT
    GTGATTTTAA TAGCCTTCCA ACAAGCACAG TACATTCTCA TGGAATTCAT GAAAACAAGA
    CAGAGGCAAA ATGCTAGCTC CTCTTCACAG CAAAACAATG GTCCTATGGA TGTAATCAGC
    CCCCATTCTT ACAAAAGCAA TTGCAAGAAC TTTCTCGATA CATATGGCCC CTCTGATAAA
    GGCAGGGGGA AGAACTGCCT TCCAGTGAAC ACTCCCCAAA GCAGGATCCA GAATGCTGCA
    AAGAGGAGCC CAGCCACCTA TGGTCATTCT CAGAAGAAGC ACAAATGCTC AGTGTATTAC
    AGTAAACACA AAACCAGCAC AGCTGCGGCC AGCAGCACCA GCACGACTAC TGAGGAAAAA
    CAGACTTCAC CCCTGGGCAG CTCACTGCCT GCTGCTAAAG AGGACATTTG CACTGATGCC
    ATGCGTGAGA ACTGGATCAG CCTCAGATAT GCAAGTGGCA TAAATGTCAA CCTGCAGAAG
    AATTTAACCC TTCCCAAAAA CTTACTGAAT AAAGAAGAAA ACACACTGAA AAACACAATT
    GTTTTCAGTA ATCCTTCTTC AGAATGTAGT ATGAAGGAGG GAATACAGAC ATGTATGTTT
    CCTAAGGAAA CTGACATTAA AACTTCAGAG AACACAGCCG AGTTCAAGGA ACGGGAGCTC
    TGTCCACTGA AGACCTCCAA GAAACTACCT GAAAACCATT TACCAAGAAA CTCACCTCAG
    TACCACCAGC CAGACTTGCC AGAAATTTCC AGGAAAAATA ATGGGAATAA CCAGCAAGTA
    CCTGTCAAGA ATGAAGTAGA TCATTGTGAA AATTTGAAGA AGGTGGACAC AAAGCCTTCT
    TCAGAAAAGA AGATTCACAA AACATCTAGA GAAGACATGT TTTCTGAGAA ACAGGACATA
    CCTTTCGTAG AGCAAGAAGA TCCTTATAGG AAGAAAAAGC TTCAGGAGAA AAGAGAAGGA
    AATTTACAAA ATTTAAATTG GAGTAAAAGT CGAACATGTA GAAAGAACAA GAAAAGGGGT
    GTTGCTCCAG TCTCAAGGCC TCCTGAACAG AGTGATCTAA AGCTTGTGTG CAGTGACTTT
    GAGAGGTCTG AGCTGAGCAG TGACATCAAT GTAAGAAGCT GGTGTATACA GGAAAGCACT
    AGGGAGGTTT GTAAAGCAGA TGCCGAAATT GCAAGCAGTT TACCTGCTGC CCAGAGAGAG
    GCAGAAGGTT ACTACCAGAA GCCTGAGAAG AAATGTGTGG ACAAGTTCTG CTCCGATTCC
    AGCTCTGACT GTGGGAGCTC CTCTGGCAGC GTGCGTGCCA GCCGGGGCAG CTGGGGGAGC
    TGGAGCAGCA CCAGCAGCTC CGACGGGGAT AAGAAGCCCA TGGTGGACGC CCAGCACTTC
    CTGCCGGCCG GAGACAGTGT TTCACAAAAT GATTTTCCTT CTGAAGCTCC CATCTCCTTG
    AATCTTTCTC ATAACATCTG CAATCCCATG ACCGTGAATA GTCTCCCACA ATACGCAGAG
    CCTTCCTGTC CCAGCCTTCC TGCCGGGCCC ACAGGTGTTG AAGAAGATAA AGAATTTAAC
    ACTGGATTTA AAAGCTGCTC TGCACATTGG AGAATTTTAA CCCTTGAAGG TCTTTACTCA
    CCTGGAGACC TGTGGCCCAC TCCGCCAGTG TGTGTGACAA GCAGCTTAAA CTGCACCCTG
    GAGAACGGCG TGCCTTGTGT GATTCAGGAG TCGGCCCCGG TTCATAATAG TTTCATTGAT
    TGGAGTGCAA CATGCGAAGG CCAGTTTTCC AGCGCATACT GTCCATTGGA ATTGAACGAT
    TACAATGCCT TTCCAGAAGA AAACATGAAC TATGCCAATG GCTTCCCCTG TCCTGCAGAT
    GTTCAGACAG ACTTTATTGA TCACAACTCT CAGTCTACCT GGAACACCCC ACCCAACATG
    CCTGCTGCCT GGGGACATGC CAGTTTCATC AGCTCTCCGC CCTACCTCAC AAGCACCCGA
    AGCTTGTCTC CAATGTCTGG ACTTTTTGGT TCCATCTGGG CCCCGCAAAG CGATGTGTAT
    GAAAATTGCT GCCCCATCAA CCCCACCACG GAACATTCGA CCCACATGGA AAACCAAGCG
    GTCGTGTGCA AGGAATACTA CCCGGGGTTC AACCCGTTTC GCGCCTATAT GAACCTGGAC
    ATATGGACTA CCACAGCGAA TAGGAATGCA AATTTCCCAC TGTCTAGAGA CTCGAGTTAC
    TGTGGGAATG TGTGA

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

    CloneID OHu105504
    Clone ID Related Accession (Same CDS sequence) XM_024453957.1
    Accession Version XM_024453957.1 Latest version! Documents for ORF clone product in default vector
    Sequence Information ORF Nucleotide Sequence (Length: 4887bp)
    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 transmembrane protein 131-like isoform X4
    Comment Comment: MODEL REFSEQ: This record is predicted by automated computational analysis. This record is derived from a genomic sequence (NC_000004.12) annotated using gene prediction method: Gnomon, supported by 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
    4861
    ATGGCGGGGC TCCGACGCCC GCAGCCCGGC TGCTACTGCC GCACCGCGGC GGCCGTGAAC 
    CTCCTGCTGG GCGTCTTCCA GGTCCTGCTG CCCTGCTGTC GCCCGGGAGG GGCTCAGGGA
    CAAGCGATTG AGCCGTTGCC GAACGTGGTG GAGCTGTGGC AGGCAGAAGA AGGGGAACTC
    CTGCTGCCCA CTCAGGGTGA TTCTGAAGAG GGTCTGGAGG AGCCTTCTCA AGAACAGAGC
    TTCTCGGACA AACTATTTAG TGGAAAAGGC TTACATTTTC AGCCATCAGT TTTAGATTTT
    GGAATACAGT TCCTGGGACA TCCTGTAGCA AAGATTCTCC ATGCTTACAA CCCTAGTAGG
    GACAGCGAGG TTGTGGTGAA TTCAGTGTTT GCAGCTGCTG GACATTTCCA TGTACCGCCA
    GTTCCCTGCA GGGTAATTCC AGCAATGGGG AAAACTTCCT TCAGAATTAT TTTCTTACCT
    ACTGAAGAAG GAAGCATTGA AAGTTCCTTA TTTATTAATA CCTCTTCGTA TGGAGTCCTT
    TCCTATCATG TATCTGGAAT TGGCACTCGT AGAATCTCTA CAGAAGGGTC TGCAAAGCAG
    CTACCAAATG CTTATTTTCT GCTTCCAAAG GTCCAGAGCA TTCAGCTGTC TCAAATGCAG
    GCAGAAACCA CTAATACTAG CCTCTTGCAG GTGCAACTGG AATGCAGTTT ACATAATAAA
    GTGTGTCAGC AATTAAAGGG TTGTTATCTG GAATCTGATG ATGTTTTGCG TCTACAAATG
    AGCATAATGG TAACAATGGA AAACTTTTCA AAAGAATTTG AAGAAAACAC ACAACATTTG
    TTAGATCATC TCTCTATTGT TTACGTAGCT ACAGATGAAT CTGAGACCTC AGATGATTCA
    GCAGTAAATA TGTATATATT ACATTCAGGA AACAGCCTTA TATGGATACA GGATATACGC
    CATTTCTCAC AGAGAGATGC TCTGTCTCTG CAGTTTGAAC CAGTACTACT ACCTACTTCT
    ACAACAAACT TTACAAAAAT TGCTTCTTTT ACCTGCAAAG CTACATCATG TGACAGTGGA
    ATTATAGAAG ATGTGAAGAA AACAACACAC ACTCCAACAC TAAAAGCATG CCTCTTCTCT
    TCTGTGGCTC AGGGGTATTT TAGAATGGAC TCTTCTGCAA CCCAGTTTCA CATAGAGACT
    CATGAGAACA CATCAGGACT TTGGTCAATA TGGTACCGCA ACCATTTTGA CCGTAGTGTT
    GTATTAAATG ATGTGTTTCT TTCCAAGGAG ACCAAGCACA TGTTAAAGAT TCTGAATTTC
    ACTGGCCCTT TATTTCTACC TCCAGGCTGT TGGAATATAT TTTCTTTGAA ACTTGCTGTT
    AAAGACATTG CCATAAATCT ATTCACCAAT GTATTTTTGA CTACAAACAT AGGTGCCATT
    TTTGCAATAC CTCTACAGAT TTATTCAGCA CCAACCAAGG AAGGGAGTCT GGGTTTTGAA
    GTGATAGCAC ATTGTGGCAT GCATTATTTC ATGGGAAAAT CAAAAGCAGG AAATCCTAAT
    TGGAATGGGA GCCTTTCTCT GGATCAATCT ACCTGGAATG TGGATTCTGA ACTTGCAAAT
    AAATTGTATG AAAGATGGAA GAAATATAAA AATGGTGACG TCTGCAAGAG GAATGTTTTG
    GGAACAACTC GATTTGCTCA CTTGAAGAAA TCCAAGGAGT CAGAGTCCTT TGTTTTCTTT
    TTGCCTCGTT TGATCGCAGA GCCTGGCCTC ATGTTAAACT TCAGCGCAAC TGCCCTTAGG
    AGCAGGATGA TCAAGTACTT TGTGGTGCAG AACCCGTCCT CTTGGCCGGT CTCCTTGCAG
    CTCCTGCCTC TCTCCTTGTA CCCTAAACCC GAAGCCCTAG TGCACCTGCT CCACAGATGG
    TTTGGCACTG ATATGCAGAT GATTAATTTC ACAACTGGTG AATTCCAGCT CACCGAAGCT
    TGCCCTTACC TGGGTACGCA TTCTGAGGAA TCCAGGTTTG GCATCCTCCA CTTACATCTG
    CAGCCTTTGG AAATGAAAAG GGTTGGCGTA GTTTTCACAC CTGCTGACTA TGGAAAAGTT
    ACCTCACTCA TACTAATCCG GAATAACTTG ACTGTTATTG ACATGATTGG CGTGGAAGGA
    TTTGGAGCAA GAGAGTTATT AAAAGTGGGT GGAAGACTTC CTGGTGCAGG AGGCTCACTC
    CGATTTAAGG TGCCCGAGTC CACGCTGATG GACTGCCGTA GACAACTGAA AGACAGTAAG
    CAAATTTTAT CTATTACAAA GAACTTTAAA GTTGAGAATA TTGGACCTCT TCCTATAACT
    GTTTCGTCTC TGAAAATTAA TGGGTATAAC TGCCAAGGTT ATGGATTCGA GGTGCTGGAT
    TGTCATCAGT TTTCCCTGGA CCCAAACACA TCCCGCGATA TCAGCATTGT GTTCACTCCA
    GACTTTACCT CCTCCTGGGT AATTCGGGAC CTAAGTCTTG TAACCGCAGC GGACCTAGAA
    TTTCGCTTCA CTCTCAATGT GACTCTCCCT CATCACCTGT TGCCCTTGTG TGCAGACGTG
    GTTCCAGGAC CCAGCTGGGA GGAGTCATTT TGGAGGCTCA CGGTCTTCTT TGTCAGTTTG
    TCCCTGTTGG GTGTGATTTT AATAGCCTTC CAACAAGCAC AGTACATTCT CATGGAATTC
    ATGAAAACAA GACAGAGGCA AAATGCTAGC TCCTCTTCAC AGCAAAACAA TGGTCCTATG
    GATGTAATCA GCCCCCATTC TTACAAAAGC AATTGCAAGA ACTTTCTCGA TACATATGGC
    CCCTCTGATA AAGGCAGGGG GAAGAACTGC CTTCCAGTGA ACACTCCCCA AAGCAGGATC
    CAGAATGCTG CAAAGAGGAG CCCAGCCACC TATGGTCATT CTCAGAAGAA GCACAAATGC
    TCAGTGTATT ACAGTAAACA CAAAACCAGC ACAGCTGCGG CCAGCAGCAC CAGCACGACT
    ACTGAGGAAA AACAGACTTC ACCCCTGGGC AGCTCACTGC CTGCTGCTAA AGAGGACATT
    TGCACTGATG CCATGCGTGA GAACTGGATC AGCCTCAGAT ATGCAAGTGG CATAAATGTC
    AACCTGCAGA AGAATTTAAC CCTTCCCAAA AACTTACTGA ATAAAGAAGA AAACACACTG
    AAAAACACAA TTGTTTTCAG TAATCCTTCT TCAGAATGTA GTATGAAGGA GGGAATACAG
    ACATGTATGT TTCCTAAGGA AACTGACATT AAAACTTCAG AGAACACAGC CGAGTTCAAG
    GAACGGGAGC TCTGTCCACT GAAGACCTCC AAGAAACTAC CTGAAAACCA TTTACCAAGA
    AACTCACCTC AGTACCACCA GCCAGACTTG CCAGAAATTT CCAGGAAAAA TAATGGGAAT
    AACCAGCAAG TACCTGTCAA GAATGAAGTA GATCATTGTG AAAATTTGAA GAAGGTGGAC
    ACAAAGCCTT CTTCAGAAAA GAAGATTCAC AAAACATCTA GAGAAGACAT GTTTTCTGAG
    AAACAGGACA TACCTTTCGT AGAGCAAGAA GATCCTTATA GGAAGAAAAA GCTTCAGGAG
    AAAAGAGAAG GAAATTTACA AAATTTAAAT TGGAGTAAAA GTCGAACATG TAGAAAGAAC
    AAGAAAAGGG GTGTTGCTCC AGTCTCAAGG CCTCCTGAAC AGAGTGATCT AAAGCTTGTG
    TGCAGTGACT TTGAGAGGTC TGAGCTGAGC AGTGACATCA ATGTAAGAAG CTGGTGTATA
    CAGGAAAGCA CTAGGGAGGT TTGTAAAGCA GATGCCGAAA TTGCAAGCAG TTTACCTGCT
    GCCCAGAGAG AGGCAGAAGG TTACTACCAG AAGCCTGAGA AGAAATGTGT GGACAAGTTC
    TGCTCCGATT CCAGCTCTGA CTGTGGGAGC TCCTCTGGCA GCGTGCGTGC CAGCCGGGGC
    AGCTGGGGGA GCTGGAGCAG CACCAGCAGC TCCGACGGGG ATAAGAAGCC CATGGTGGAC
    GCCCAGCACT TCCTGCCGGC CGGAGACAGT GTTTCACAAA ATGATTTTCC TTCTGAAGCT
    CCCATCTCCT TGAATCTTTC TCATAACATC TGCAATCCCA TGACCGTGAA TAGTCTCCCA
    CAATACGCAG AGCCTTCCTG TCCCAGCCTT CCTGCCGGGC CCACAGGTGT TGAAGAAGAT
    AAAGAATTTA ACACTGGATT TAAAAGCTGC TCTGCACATT GGAGAATTTT AACCCTTGAA
    GGTCTTTACT CACCTGGAGA CCTGTGGCCC ACTCCGCCAG TGTGTGTGAC AAGCAGCTTA
    AACTGCACCC TGGAGAACGG CGTGCCTTGT GTGATTCAGG AGTCGGCCCC GGTTCATAAT
    AGTTTCATTG ATTGGAGTGC AACATGCGAA GGCCAGTTTT CCAGCGCATA CTGTCCATTG
    GAATTGAACG ATTACAATGC CTTTCCAGAA GAAAACATGA ACTATGCCAA TGGCTTCCCC
    TGTCCTGCAG ATGTTCAGAC AGACTTTATT GATCACAACT CTCAGTCTAC CTGGAACACC
    CCACCCAACA TGCCTGCTGC CTGGGGACAT GCCAGTTTCA TCAGCTCTCC GCCCTACCTC
    ACAAGCACCC GAAGCTTGTC TCCAATGTCT GGACTTTTTG GTTCCATCTG GGCCCCGCAA
    AGCGATGTGT ATGAAAATTG CTGCCCCATC AACCCCACCA CGGAACATTC GACCCACATG
    GAAAACCAAG CGGTCGTGTG CAAGGAATAC TACCCGGGGT TCAACCCGTT TCGCGCCTAT
    ATGAACCTGG ACATATGGAC TACCACAGCG AATAGGAATG CAAATTTCCC ACTGTCTAGA
    GACTCGAGTT ACTGTGGGAA TGTGTGA

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

    RefSeq XP_024309725.1
    CDS53..4939
    Translation

    Target ORF information:

    RefSeq Version XM_024453957.1
    Organism Homo sapiens(human)
    Definition Homo sapiens transmembrane 131 like (TMEM131L), transcript variant X4, mRNA.

    Target ORF information:

    Epitope DYKDDDDK
    Bacterial selection AMPR
    Mammalian selection NeoR
    Vector pcDNA3.1+/C-(K)DYK
    XM_024453957.1

    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
    4861
    ATGGCGGGGC TCCGACGCCC GCAGCCCGGC TGCTACTGCC GCACCGCGGC GGCCGTGAAC 
    CTCCTGCTGG GCGTCTTCCA GGTCCTGCTG CCCTGCTGTC GCCCGGGAGG GGCTCAGGGA
    CAAGCGATTG AGCCGTTGCC GAACGTGGTG GAGCTGTGGC AGGCAGAAGA AGGGGAACTC
    CTGCTGCCCA CTCAGGGTGA TTCTGAAGAG GGTCTGGAGG AGCCTTCTCA AGAACAGAGC
    TTCTCGGACA AACTATTTAG TGGAAAAGGC TTACATTTTC AGCCATCAGT TTTAGATTTT
    GGAATACAGT TCCTGGGACA TCCTGTAGCA AAGATTCTCC ATGCTTACAA CCCTAGTAGG
    GACAGCGAGG TTGTGGTGAA TTCAGTGTTT GCAGCTGCTG GACATTTCCA TGTACCGCCA
    GTTCCCTGCA GGGTAATTCC AGCAATGGGG AAAACTTCCT TCAGAATTAT TTTCTTACCT
    ACTGAAGAAG GAAGCATTGA AAGTTCCTTA TTTATTAATA CCTCTTCGTA TGGAGTCCTT
    TCCTATCATG TATCTGGAAT TGGCACTCGT AGAATCTCTA CAGAAGGGTC TGCAAAGCAG
    CTACCAAATG CTTATTTTCT GCTTCCAAAG GTCCAGAGCA TTCAGCTGTC TCAAATGCAG
    GCAGAAACCA CTAATACTAG CCTCTTGCAG GTGCAACTGG AATGCAGTTT ACATAATAAA
    GTGTGTCAGC AATTAAAGGG TTGTTATCTG GAATCTGATG ATGTTTTGCG TCTACAAATG
    AGCATAATGG TAACAATGGA AAACTTTTCA AAAGAATTTG AAGAAAACAC ACAACATTTG
    TTAGATCATC TCTCTATTGT TTACGTAGCT ACAGATGAAT CTGAGACCTC AGATGATTCA
    GCAGTAAATA TGTATATATT ACATTCAGGA AACAGCCTTA TATGGATACA GGATATACGC
    CATTTCTCAC AGAGAGATGC TCTGTCTCTG CAGTTTGAAC CAGTACTACT ACCTACTTCT
    ACAACAAACT TTACAAAAAT TGCTTCTTTT ACCTGCAAAG CTACATCATG TGACAGTGGA
    ATTATAGAAG ATGTGAAGAA AACAACACAC ACTCCAACAC TAAAAGCATG CCTCTTCTCT
    TCTGTGGCTC AGGGGTATTT TAGAATGGAC TCTTCTGCAA CCCAGTTTCA CATAGAGACT
    CATGAGAACA CATCAGGACT TTGGTCAATA TGGTACCGCA ACCATTTTGA CCGTAGTGTT
    GTATTAAATG ATGTGTTTCT TTCCAAGGAG ACCAAGCACA TGTTAAAGAT TCTGAATTTC
    ACTGGCCCTT TATTTCTACC TCCAGGCTGT TGGAATATAT TTTCTTTGAA ACTTGCTGTT
    AAAGACATTG CCATAAATCT ATTCACCAAT GTATTTTTGA CTACAAACAT AGGTGCCATT
    TTTGCAATAC CTCTACAGAT TTATTCAGCA CCAACCAAGG AAGGGAGTCT GGGTTTTGAA
    GTGATAGCAC ATTGTGGCAT GCATTATTTC ATGGGAAAAT CAAAAGCAGG AAATCCTAAT
    TGGAATGGGA GCCTTTCTCT GGATCAATCT ACCTGGAATG TGGATTCTGA ACTTGCAAAT
    AAATTGTATG AAAGATGGAA GAAATATAAA AATGGTGACG TCTGCAAGAG GAATGTTTTG
    GGAACAACTC GATTTGCTCA CTTGAAGAAA TCCAAGGAGT CAGAGTCCTT TGTTTTCTTT
    TTGCCTCGTT TGATCGCAGA GCCTGGCCTC ATGTTAAACT TCAGCGCAAC TGCCCTTAGG
    AGCAGGATGA TCAAGTACTT TGTGGTGCAG AACCCGTCCT CTTGGCCGGT CTCCTTGCAG
    CTCCTGCCTC TCTCCTTGTA CCCTAAACCC GAAGCCCTAG TGCACCTGCT CCACAGATGG
    TTTGGCACTG ATATGCAGAT GATTAATTTC ACAACTGGTG AATTCCAGCT CACCGAAGCT
    TGCCCTTACC TGGGTACGCA TTCTGAGGAA TCCAGGTTTG GCATCCTCCA CTTACATCTG
    CAGCCTTTGG AAATGAAAAG GGTTGGCGTA GTTTTCACAC CTGCTGACTA TGGAAAAGTT
    ACCTCACTCA TACTAATCCG GAATAACTTG ACTGTTATTG ACATGATTGG CGTGGAAGGA
    TTTGGAGCAA GAGAGTTATT AAAAGTGGGT GGAAGACTTC CTGGTGCAGG AGGCTCACTC
    CGATTTAAGG TGCCCGAGTC CACGCTGATG GACTGCCGTA GACAACTGAA AGACAGTAAG
    CAAATTTTAT CTATTACAAA GAACTTTAAA GTTGAGAATA TTGGACCTCT TCCTATAACT
    GTTTCGTCTC TGAAAATTAA TGGGTATAAC TGCCAAGGTT ATGGATTCGA GGTGCTGGAT
    TGTCATCAGT TTTCCCTGGA CCCAAACACA TCCCGCGATA TCAGCATTGT GTTCACTCCA
    GACTTTACCT CCTCCTGGGT AATTCGGGAC CTAAGTCTTG TAACCGCAGC GGACCTAGAA
    TTTCGCTTCA CTCTCAATGT GACTCTCCCT CATCACCTGT TGCCCTTGTG TGCAGACGTG
    GTTCCAGGAC CCAGCTGGGA GGAGTCATTT TGGAGGCTCA CGGTCTTCTT TGTCAGTTTG
    TCCCTGTTGG GTGTGATTTT AATAGCCTTC CAACAAGCAC AGTACATTCT CATGGAATTC
    ATGAAAACAA GACAGAGGCA AAATGCTAGC TCCTCTTCAC AGCAAAACAA TGGTCCTATG
    GATGTAATCA GCCCCCATTC TTACAAAAGC AATTGCAAGA ACTTTCTCGA TACATATGGC
    CCCTCTGATA AAGGCAGGGG GAAGAACTGC CTTCCAGTGA ACACTCCCCA AAGCAGGATC
    CAGAATGCTG CAAAGAGGAG CCCAGCCACC TATGGTCATT CTCAGAAGAA GCACAAATGC
    TCAGTGTATT ACAGTAAACA CAAAACCAGC ACAGCTGCGG CCAGCAGCAC CAGCACGACT
    ACTGAGGAAA AACAGACTTC ACCCCTGGGC AGCTCACTGC CTGCTGCTAA AGAGGACATT
    TGCACTGATG CCATGCGTGA GAACTGGATC AGCCTCAGAT ATGCAAGTGG CATAAATGTC
    AACCTGCAGA AGAATTTAAC CCTTCCCAAA AACTTACTGA ATAAAGAAGA AAACACACTG
    AAAAACACAA TTGTTTTCAG TAATCCTTCT TCAGAATGTA GTATGAAGGA GGGAATACAG
    ACATGTATGT TTCCTAAGGA AACTGACATT AAAACTTCAG AGAACACAGC CGAGTTCAAG
    GAACGGGAGC TCTGTCCACT GAAGACCTCC AAGAAACTAC CTGAAAACCA TTTACCAAGA
    AACTCACCTC AGTACCACCA GCCAGACTTG CCAGAAATTT CCAGGAAAAA TAATGGGAAT
    AACCAGCAAG TACCTGTCAA GAATGAAGTA GATCATTGTG AAAATTTGAA GAAGGTGGAC
    ACAAAGCCTT CTTCAGAAAA GAAGATTCAC AAAACATCTA GAGAAGACAT GTTTTCTGAG
    AAACAGGACA TACCTTTCGT AGAGCAAGAA GATCCTTATA GGAAGAAAAA GCTTCAGGAG
    AAAAGAGAAG GAAATTTACA AAATTTAAAT TGGAGTAAAA GTCGAACATG TAGAAAGAAC
    AAGAAAAGGG GTGTTGCTCC AGTCTCAAGG CCTCCTGAAC AGAGTGATCT AAAGCTTGTG
    TGCAGTGACT TTGAGAGGTC TGAGCTGAGC AGTGACATCA ATGTAAGAAG CTGGTGTATA
    CAGGAAAGCA CTAGGGAGGT TTGTAAAGCA GATGCCGAAA TTGCAAGCAG TTTACCTGCT
    GCCCAGAGAG AGGCAGAAGG TTACTACCAG AAGCCTGAGA AGAAATGTGT GGACAAGTTC
    TGCTCCGATT CCAGCTCTGA CTGTGGGAGC TCCTCTGGCA GCGTGCGTGC CAGCCGGGGC
    AGCTGGGGGA GCTGGAGCAG CACCAGCAGC TCCGACGGGG ATAAGAAGCC CATGGTGGAC
    GCCCAGCACT TCCTGCCGGC CGGAGACAGT GTTTCACAAA ATGATTTTCC TTCTGAAGCT
    CCCATCTCCT TGAATCTTTC TCATAACATC TGCAATCCCA TGACCGTGAA TAGTCTCCCA
    CAATACGCAG AGCCTTCCTG TCCCAGCCTT CCTGCCGGGC CCACAGGTGT TGAAGAAGAT
    AAAGAATTTA ACACTGGATT TAAAAGCTGC TCTGCACATT GGAGAATTTT AACCCTTGAA
    GGTCTTTACT CACCTGGAGA CCTGTGGCCC ACTCCGCCAG TGTGTGTGAC AAGCAGCTTA
    AACTGCACCC TGGAGAACGG CGTGCCTTGT GTGATTCAGG AGTCGGCCCC GGTTCATAAT
    AGTTTCATTG ATTGGAGTGC AACATGCGAA GGCCAGTTTT CCAGCGCATA CTGTCCATTG
    GAATTGAACG ATTACAATGC CTTTCCAGAA GAAAACATGA ACTATGCCAA TGGCTTCCCC
    TGTCCTGCAG ATGTTCAGAC AGACTTTATT GATCACAACT CTCAGTCTAC CTGGAACACC
    CCACCCAACA TGCCTGCTGC CTGGGGACAT GCCAGTTTCA TCAGCTCTCC GCCCTACCTC
    ACAAGCACCC GAAGCTTGTC TCCAATGTCT GGACTTTTTG GTTCCATCTG GGCCCCGCAA
    AGCGATGTGT ATGAAAATTG CTGCCCCATC AACCCCACCA CGGAACATTC GACCCACATG
    GAAAACCAAG CGGTCGTGTG CAAGGAATAC TACCCGGGGT TCAACCCGTT TCGCGCCTAT
    ATGAACCTGG ACATATGGAC TACCACAGCG AATAGGAATG CAAATTTCCC ACTGTCTAGA
    GACTCGAGTT ACTGTGGGAA TGTGTGA

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

    CloneID OHu65773
    Clone ID Related Accession (Same CDS sequence) XM_024453956.1
    Accession Version XM_024453956.1 Latest version! Documents for ORF clone product in default vector
    Sequence Information ORF Nucleotide Sequence (Length: 4890bp)
    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 transmembrane protein 131-like isoform X3
    Comment Comment: MODEL REFSEQ: This record is predicted by automated computational analysis. This record is derived from a genomic sequence (NC_000004.12) annotated using gene prediction method: Gnomon, supported by mRNA and EST evidence. Also see: Documentation of NCBI's Annotation Process ##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
    ATGGCGGGGC TCCGACGCCC GCAGCCCGGC TGCTACTGCC GCACCGCGGC GGCCGTGAAC 
    CTCCTGCTGG GCGTCTTCCA GGTCCTGCTG CCCTGCTGTC GCCCGGGAGG GGCTCAGGGA
    CAAGCGATTG AGCCGTTGCC GAACGTGGTG GAGCTGTGGC AGGCAGAAGA AGGGGAACTC
    CTGCTGCCCA CTCAGGGTGA TTCTGAAGAG GGTCTGGAGG AGCCTTCTCA AGAACAGAGC
    TTCTCGGACA AACTATTTAG TGGAAAAGGC TTACATTTTC AGCCATCAGT TTTAGATTTT
    GGAATACAGT TCCTGGGACA TCCTGTAGCA AAGATTCTCC ATGCTTACAA CCCTAGTAGG
    GACAGCGAGG TTGTGGTGAA TTCAGTGTTT GCAGCTGCTG GACATTTCCA TGTACCGCCA
    GTTCCCTGCA GGGTAATTCC AGCAATGGGG AAAACTTCCT TCAGAATTAT TTTCTTACCT
    ACTGAAGAAG GAAGCATTGA AAGTTCCTTA TTTATTAATA CCTCTTCGTA TGGAGTCCTT
    TCCTATCATG TATCTGGAAT TGGCACTCGT AGAATCTCTA CAGAAGGGTC TGCAAAGCAG
    CTACCAAATG CTTATTTTCT GCTTCCAAAG GTCCAGAGCA TTCAGCTGTC TCAAATGCAG
    GCAGAAACCA CTAATACTAG CCTCTTGCAG GTGCAACTGG AATGCAGTTT ACATAATAAA
    GTGTGTCAGC AATTAAAGGG TTGTTATCTG GAATCTGATG ATGTTTTGCG TCTACAAATG
    AGCATAATGG TAACAATGGA AAACTTTTCA AAAGAATTTG AAGAAAACAC ACAACATTTG
    TTAGATCATC TCTCTATTGT TTACGTAGCT ACAGATGAAT CTGAGACCTC AGATGATTCA
    GCAGTAAATA TGTATATATT ACATTCAGGA AACAGCCTTA TATGGATACA GGATATACGC
    CATTTCTCAC AGAGAGATGC TCTGTCTCTG CAGTTTGAAC CAGTACTACT ACCTACTTCT
    ACAACAAACT TTACAAAAAT TGCTTCTTTT ACCTGCAAAG CAGCTACATC ATGTGACAGT
    GGAATTATAG AAGATGTGAA GAAAACAACA CACACTCCAA CACTAAAAGC ATGCCTCTTC
    TCTTCTGTGG CTCAGGGGTA TTTTAGAATG GACTCTTCTG CAACCCAGTT TCACATAGAG
    ACTCATGAGA ACACATCAGG ACTTTGGTCA ATATGGTACC GCAACCATTT TGACCGTAGT
    GTTGTATTAA ATGATGTGTT TCTTTCCAAG GAGACCAAGC ACATGTTAAA GATTCTGAAT
    TTCACTGGCC CTTTATTTCT ACCTCCAGGC TGTTGGAATA TATTTTCTTT GAAACTTGCT
    GTTAAAGACA TTGCCATAAA TCTATTCACC AATGTATTTT TGACTACAAA CATAGGTGCC
    ATTTTTGCAA TACCTCTACA GATTTATTCA GCACCAACCA AGGAAGGGAG TCTGGGTTTT
    GAAGTGATAG CACATTGTGG CATGCATTAT TTCATGGGAA AATCAAAAGC AGGAAATCCT
    AATTGGAATG GGAGCCTTTC TCTGGATCAA TCTACCTGGA ATGTGGATTC TGAACTTGCA
    AATAAATTGT ATGAAAGATG GAAGAAATAT AAAAATGGTG ACGTCTGCAA GAGGAATGTT
    TTGGGAACAA CTCGATTTGC TCACTTGAAG AAATCCAAGG AGTCAGAGTC CTTTGTTTTC
    TTTTTGCCTC GTTTGATCGC AGAGCCTGGC CTCATGTTAA ACTTCAGCGC AACTGCCCTT
    AGGAGCAGGA TGATCAAGTA CTTTGTGGTG CAGAACCCGT CCTCTTGGCC GGTCTCCTTG
    CAGCTCCTGC CTCTCTCCTT GTACCCTAAA CCCGAAGCCC TAGTGCACCT GCTCCACAGA
    TGGTTTGGCA CTGATATGCA GATGATTAAT TTCACAACTG GTGAATTCCA GCTCACCGAA
    GCTTGCCCTT ACCTGGGTAC GCATTCTGAG GAATCCAGGT TTGGCATCCT CCACTTACAT
    CTGCAGCCTT TGGAAATGAA AAGGGTTGGC GTAGTTTTCA CACCTGCTGA CTATGGAAAA
    GTTACCTCAC TCATACTAAT CCGGAATAAC TTGACTGTTA TTGACATGAT TGGCGTGGAA
    GGATTTGGAG CAAGAGAGTT ATTAAAAGTG GGTGGAAGAC TTCCTGGTGC AGGAGGCTCA
    CTCCGATTTA AGGTGCCCGA GTCCACGCTG ATGGACTGCC GTAGACAACT GAAAGACAGT
    AAGCAAATTT TATCTATTAC AAAGAACTTT AAAGTTGAGA ATATTGGACC TCTTCCTATA
    ACTGTTTCGT CTCTGAAAAT TAATGGGTAT AACTGCCAAG GTTATGGATT CGAGGTGCTG
    GATTGTCATC AGTTTTCCCT GGACCCAAAC ACATCCCGCG ATATCAGCAT TGTGTTCACT
    CCAGACTTTA CCTCCTCCTG GGTAATTCGG GACCTAAGTC TTGTAACCGC AGCGGACCTA
    GAATTTCGCT TCACTCTCAA TGTGACTCTC CCTCATCACC TGTTGCCCTT GTGTGCAGAC
    GTGGTTCCAG GACCCAGCTG GGAGGAGTCA TTTTGGAGGC TCACGGTCTT CTTTGTCAGT
    TTGTCCCTGT TGGGTGTGAT TTTAATAGCC TTCCAACAAG CACAGTACAT TCTCATGGAA
    TTCATGAAAA CAAGACAGAG GCAAAATGCT AGCTCCTCTT CACAGCAAAA CAATGGTCCT
    ATGGATGTAA TCAGCCCCCA TTCTTACAAA AGCAATTGCA AGAACTTTCT CGATACATAT
    GGCCCCTCTG ATAAAGGCAG GGGGAAGAAC TGCCTTCCAG TGAACACTCC CCAAAGCAGG
    ATCCAGAATG CTGCAAAGAG GAGCCCAGCC ACCTATGGTC ATTCTCAGAA GAAGCACAAA
    TGCTCAGTGT ATTACAGTAA ACACAAAACC AGCACAGCTG CGGCCAGCAG CACCAGCACG
    ACTACTGAGG AAAAACAGAC TTCACCCCTG GGCAGCTCAC TGCCTGCTGC TAAAGAGGAC
    ATTTGCACTG ATGCCATGCG TGAGAACTGG ATCAGCCTCA GATATGCAAG TGGCATAAAT
    GTCAACCTGC AGAAGAATTT AACCCTTCCC AAAAACTTAC TGAATAAAGA AGAAAACACA
    CTGAAAAACA CAATTGTTTT CAGTAATCCT TCTTCAGAAT GTAGTATGAA GGAGGGAATA
    CAGACATGTA TGTTTCCTAA GGAAACTGAC ATTAAAACTT CAGAGAACAC AGCCGAGTTC
    AAGGAACGGG AGCTCTGTCC ACTGAAGACC TCCAAGAAAC TACCTGAAAA CCATTTACCA
    AGAAACTCAC CTCAGTACCA CCAGCCAGAC TTGCCAGAAA TTTCCAGGAA AAATAATGGG
    AATAACCAGC AAGTACCTGT CAAGAATGAA GTAGATCATT GTGAAAATTT GAAGAAGGTG
    GACACAAAGC CTTCTTCAGA AAAGAAGATT CACAAAACAT CTAGAGAAGA CATGTTTTCT
    GAGAAACAGG ACATACCTTT CGTAGAGCAA GAAGATCCTT ATAGGAAGAA AAAGCTTCAG
    GAGAAAAGAG AAGGAAATTT ACAAAATTTA AATTGGAGTA AAAGTCGAAC ATGTAGAAAG
    AACAAGAAAA GGGGTGTTGC TCCAGTCTCA AGGCCTCCTG AACAGAGTGA TCTAAAGCTT
    GTGTGCAGTG ACTTTGAGAG GTCTGAGCTG AGCAGTGACA TCAATGTAAG AAGCTGGTGT
    ATACAGGAAA GCACTAGGGA GGTTTGTAAA GCAGATGCCG AAATTGCAAG CAGTTTACCT
    GCTGCCCAGA GAGAGGCAGA AGGTTACTAC CAGAAGCCTG AGAAGAAATG TGTGGACAAG
    TTCTGCTCCG ATTCCAGCTC TGACTGTGGG AGCTCCTCTG GCAGCGTGCG TGCCAGCCGG
    GGCAGCTGGG GGAGCTGGAG CAGCACCAGC AGCTCCGACG GGGATAAGAA GCCCATGGTG
    GACGCCCAGC ACTTCCTGCC GGCCGGAGAC AGTGTTTCAC AAAATGATTT TCCTTCTGAA
    GCTCCCATCT CCTTGAATCT TTCTCATAAC ATCTGCAATC CCATGACCGT GAATAGTCTC
    CCACAATACG CAGAGCCTTC CTGTCCCAGC CTTCCTGCCG GGCCCACAGG TGTTGAAGAA
    GATAAAGAAT TTAACACTGG ATTTAAAAGC TGCTCTGCAC ATTGGAGAAT TTTAACCCTT
    GAAGGTCTTT ACTCACCTGG AGACCTGTGG CCCACTCCGC CAGTGTGTGT GACAAGCAGC
    TTAAACTGCA CCCTGGAGAA CGGCGTGCCT TGTGTGATTC AGGAGTCGGC CCCGGTTCAT
    AATAGTTTCA TTGATTGGAG TGCAACATGC GAAGGCCAGT TTTCCAGCGC ATACTGTCCA
    TTGGAATTGA ACGATTACAA TGCCTTTCCA GAAGAAAACA TGAACTATGC CAATGGCTTC
    CCCTGTCCTG CAGATGTTCA GACAGACTTT ATTGATCACA ACTCTCAGTC TACCTGGAAC
    ACCCCACCCA ACATGCCTGC TGCCTGGGGA CATGCCAGTT TCATCAGCTC TCCGCCCTAC
    CTCACAAGCA CCCGAAGCTT GTCTCCAATG TCTGGACTTT TTGGTTCCAT CTGGGCCCCG
    CAAAGCGATG TGTATGAAAA TTGCTGCCCC ATCAACCCCA CCACGGAACA TTCGACCCAC
    ATGGAAAACC AAGCGGTCGT GTGCAAGGAA TACTACCCGG GGTTCAACCC GTTTCGCGCC
    TATATGAACC TGGACATATG GACTACCACA GCGAATAGGA ATGCAAATTT CCCACTGTCT
    AGAGACTCGA GTTACTGTGG GAATGTGTGA

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

    RefSeq XP_024309724.1
    CDS53..4942
    Translation

    Target ORF information:

    RefSeq Version XM_024453956.1
    Organism Homo sapiens(human)
    Definition Homo sapiens transmembrane 131 like (TMEM131L), transcript variant X3, mRNA.

    Target ORF information:

    Epitope DYKDDDDK
    Bacterial selection AMPR
    Mammalian selection NeoR
    Vector pcDNA3.1+/C-(K)DYK
    XM_024453956.1

    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
    4861
    ATGGCGGGGC TCCGACGCCC GCAGCCCGGC TGCTACTGCC GCACCGCGGC GGCCGTGAAC 
    CTCCTGCTGG GCGTCTTCCA GGTCCTGCTG CCCTGCTGTC GCCCGGGAGG GGCTCAGGGA
    CAAGCGATTG AGCCGTTGCC GAACGTGGTG GAGCTGTGGC AGGCAGAAGA AGGGGAACTC
    CTGCTGCCCA CTCAGGGTGA TTCTGAAGAG GGTCTGGAGG AGCCTTCTCA AGAACAGAGC
    TTCTCGGACA AACTATTTAG TGGAAAAGGC TTACATTTTC AGCCATCAGT TTTAGATTTT
    GGAATACAGT TCCTGGGACA TCCTGTAGCA AAGATTCTCC ATGCTTACAA CCCTAGTAGG
    GACAGCGAGG TTGTGGTGAA TTCAGTGTTT GCAGCTGCTG GACATTTCCA TGTACCGCCA
    GTTCCCTGCA GGGTAATTCC AGCAATGGGG AAAACTTCCT TCAGAATTAT TTTCTTACCT
    ACTGAAGAAG GAAGCATTGA AAGTTCCTTA TTTATTAATA CCTCTTCGTA TGGAGTCCTT
    TCCTATCATG TATCTGGAAT TGGCACTCGT AGAATCTCTA CAGAAGGGTC TGCAAAGCAG
    CTACCAAATG CTTATTTTCT GCTTCCAAAG GTCCAGAGCA TTCAGCTGTC TCAAATGCAG
    GCAGAAACCA CTAATACTAG CCTCTTGCAG GTGCAACTGG AATGCAGTTT ACATAATAAA
    GTGTGTCAGC AATTAAAGGG TTGTTATCTG GAATCTGATG ATGTTTTGCG TCTACAAATG
    AGCATAATGG TAACAATGGA AAACTTTTCA AAAGAATTTG AAGAAAACAC ACAACATTTG
    TTAGATCATC TCTCTATTGT TTACGTAGCT ACAGATGAAT CTGAGACCTC AGATGATTCA
    GCAGTAAATA TGTATATATT ACATTCAGGA AACAGCCTTA TATGGATACA GGATATACGC
    CATTTCTCAC AGAGAGATGC TCTGTCTCTG CAGTTTGAAC CAGTACTACT ACCTACTTCT
    ACAACAAACT TTACAAAAAT TGCTTCTTTT ACCTGCAAAG CAGCTACATC ATGTGACAGT
    GGAATTATAG AAGATGTGAA GAAAACAACA CACACTCCAA CACTAAAAGC ATGCCTCTTC
    TCTTCTGTGG CTCAGGGGTA TTTTAGAATG GACTCTTCTG CAACCCAGTT TCACATAGAG
    ACTCATGAGA ACACATCAGG ACTTTGGTCA ATATGGTACC GCAACCATTT TGACCGTAGT
    GTTGTATTAA ATGATGTGTT TCTTTCCAAG GAGACCAAGC ACATGTTAAA GATTCTGAAT
    TTCACTGGCC CTTTATTTCT ACCTCCAGGC TGTTGGAATA TATTTTCTTT GAAACTTGCT
    GTTAAAGACA TTGCCATAAA TCTATTCACC AATGTATTTT TGACTACAAA CATAGGTGCC
    ATTTTTGCAA TACCTCTACA GATTTATTCA GCACCAACCA AGGAAGGGAG TCTGGGTTTT
    GAAGTGATAG CACATTGTGG CATGCATTAT TTCATGGGAA AATCAAAAGC AGGAAATCCT
    AATTGGAATG GGAGCCTTTC TCTGGATCAA TCTACCTGGA ATGTGGATTC TGAACTTGCA
    AATAAATTGT ATGAAAGATG GAAGAAATAT AAAAATGGTG ACGTCTGCAA GAGGAATGTT
    TTGGGAACAA CTCGATTTGC TCACTTGAAG AAATCCAAGG AGTCAGAGTC CTTTGTTTTC
    TTTTTGCCTC GTTTGATCGC AGAGCCTGGC CTCATGTTAA ACTTCAGCGC AACTGCCCTT
    AGGAGCAGGA TGATCAAGTA CTTTGTGGTG CAGAACCCGT CCTCTTGGCC GGTCTCCTTG
    CAGCTCCTGC CTCTCTCCTT GTACCCTAAA CCCGAAGCCC TAGTGCACCT GCTCCACAGA
    TGGTTTGGCA CTGATATGCA GATGATTAAT TTCACAACTG GTGAATTCCA GCTCACCGAA
    GCTTGCCCTT ACCTGGGTAC GCATTCTGAG GAATCCAGGT TTGGCATCCT CCACTTACAT
    CTGCAGCCTT TGGAAATGAA AAGGGTTGGC GTAGTTTTCA CACCTGCTGA CTATGGAAAA
    GTTACCTCAC TCATACTAAT CCGGAATAAC TTGACTGTTA TTGACATGAT TGGCGTGGAA
    GGATTTGGAG CAAGAGAGTT ATTAAAAGTG GGTGGAAGAC TTCCTGGTGC AGGAGGCTCA
    CTCCGATTTA AGGTGCCCGA GTCCACGCTG ATGGACTGCC GTAGACAACT GAAAGACAGT
    AAGCAAATTT TATCTATTAC AAAGAACTTT AAAGTTGAGA ATATTGGACC TCTTCCTATA
    ACTGTTTCGT CTCTGAAAAT TAATGGGTAT AACTGCCAAG GTTATGGATT CGAGGTGCTG
    GATTGTCATC AGTTTTCCCT GGACCCAAAC ACATCCCGCG ATATCAGCAT TGTGTTCACT
    CCAGACTTTA CCTCCTCCTG GGTAATTCGG GACCTAAGTC TTGTAACCGC AGCGGACCTA
    GAATTTCGCT TCACTCTCAA TGTGACTCTC CCTCATCACC TGTTGCCCTT GTGTGCAGAC
    GTGGTTCCAG GACCCAGCTG GGAGGAGTCA TTTTGGAGGC TCACGGTCTT CTTTGTCAGT
    TTGTCCCTGT TGGGTGTGAT TTTAATAGCC TTCCAACAAG CACAGTACAT TCTCATGGAA
    TTCATGAAAA CAAGACAGAG GCAAAATGCT AGCTCCTCTT CACAGCAAAA CAATGGTCCT
    ATGGATGTAA TCAGCCCCCA TTCTTACAAA AGCAATTGCA AGAACTTTCT CGATACATAT
    GGCCCCTCTG ATAAAGGCAG GGGGAAGAAC TGCCTTCCAG TGAACACTCC CCAAAGCAGG
    ATCCAGAATG CTGCAAAGAG GAGCCCAGCC ACCTATGGTC ATTCTCAGAA GAAGCACAAA
    TGCTCAGTGT ATTACAGTAA ACACAAAACC AGCACAGCTG CGGCCAGCAG CACCAGCACG
    ACTACTGAGG AAAAACAGAC TTCACCCCTG GGCAGCTCAC TGCCTGCTGC TAAAGAGGAC
    ATTTGCACTG ATGCCATGCG TGAGAACTGG ATCAGCCTCA GATATGCAAG TGGCATAAAT
    GTCAACCTGC AGAAGAATTT AACCCTTCCC AAAAACTTAC TGAATAAAGA AGAAAACACA
    CTGAAAAACA CAATTGTTTT CAGTAATCCT TCTTCAGAAT GTAGTATGAA GGAGGGAATA
    CAGACATGTA TGTTTCCTAA GGAAACTGAC ATTAAAACTT CAGAGAACAC AGCCGAGTTC
    AAGGAACGGG AGCTCTGTCC ACTGAAGACC TCCAAGAAAC TACCTGAAAA CCATTTACCA
    AGAAACTCAC CTCAGTACCA CCAGCCAGAC TTGCCAGAAA TTTCCAGGAA AAATAATGGG
    AATAACCAGC AAGTACCTGT CAAGAATGAA GTAGATCATT GTGAAAATTT GAAGAAGGTG
    GACACAAAGC CTTCTTCAGA AAAGAAGATT CACAAAACAT CTAGAGAAGA CATGTTTTCT
    GAGAAACAGG ACATACCTTT CGTAGAGCAA GAAGATCCTT ATAGGAAGAA AAAGCTTCAG
    GAGAAAAGAG AAGGAAATTT ACAAAATTTA AATTGGAGTA AAAGTCGAAC ATGTAGAAAG
    AACAAGAAAA GGGGTGTTGC TCCAGTCTCA AGGCCTCCTG AACAGAGTGA TCTAAAGCTT
    GTGTGCAGTG ACTTTGAGAG GTCTGAGCTG AGCAGTGACA TCAATGTAAG AAGCTGGTGT
    ATACAGGAAA GCACTAGGGA GGTTTGTAAA GCAGATGCCG AAATTGCAAG CAGTTTACCT
    GCTGCCCAGA GAGAGGCAGA AGGTTACTAC CAGAAGCCTG AGAAGAAATG TGTGGACAAG
    TTCTGCTCCG ATTCCAGCTC TGACTGTGGG AGCTCCTCTG GCAGCGTGCG TGCCAGCCGG
    GGCAGCTGGG GGAGCTGGAG CAGCACCAGC AGCTCCGACG GGGATAAGAA GCCCATGGTG
    GACGCCCAGC ACTTCCTGCC GGCCGGAGAC AGTGTTTCAC AAAATGATTT TCCTTCTGAA
    GCTCCCATCT CCTTGAATCT TTCTCATAAC ATCTGCAATC CCATGACCGT GAATAGTCTC
    CCACAATACG CAGAGCCTTC CTGTCCCAGC CTTCCTGCCG GGCCCACAGG TGTTGAAGAA
    GATAAAGAAT TTAACACTGG ATTTAAAAGC TGCTCTGCAC ATTGGAGAAT TTTAACCCTT
    GAAGGTCTTT ACTCACCTGG AGACCTGTGG CCCACTCCGC CAGTGTGTGT GACAAGCAGC
    TTAAACTGCA CCCTGGAGAA CGGCGTGCCT TGTGTGATTC AGGAGTCGGC CCCGGTTCAT
    AATAGTTTCA TTGATTGGAG TGCAACATGC GAAGGCCAGT TTTCCAGCGC ATACTGTCCA
    TTGGAATTGA ACGATTACAA TGCCTTTCCA GAAGAAAACA TGAACTATGC CAATGGCTTC
    CCCTGTCCTG CAGATGTTCA GACAGACTTT ATTGATCACA ACTCTCAGTC TACCTGGAAC
    ACCCCACCCA ACATGCCTGC TGCCTGGGGA CATGCCAGTT TCATCAGCTC TCCGCCCTAC
    CTCACAAGCA CCCGAAGCTT GTCTCCAATG TCTGGACTTT TTGGTTCCAT CTGGGCCCCG
    CAAAGCGATG TGTATGAAAA TTGCTGCCCC ATCAACCCCA CCACGGAACA TTCGACCCAC
    ATGGAAAACC AAGCGGTCGT GTGCAAGGAA TACTACCCGG GGTTCAACCC GTTTCGCGCC
    TATATGAACC TGGACATATG GACTACCACA GCGAATAGGA ATGCAAATTT CCCACTGTCT
    AGAGACTCGA GTTACTGTGG GAATGTGTGA

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

    CloneID OHu94997
    Clone ID Related Accession (Same CDS sequence) XM_017007924.1
    Accession Version XM_017007924.1 Latest version! Documents for ORF clone product in default vector
    Sequence Information ORF Nucleotide Sequence (Length: 4842bp)
    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 transmembrane protein 131-like isoform X3
    Comment Comment: MODEL REFSEQ: This record is predicted by automated computational analysis. This record is derived from a genomic sequence (NC_000004.12) annotated using gene prediction method: Gnomon, supported by mRNA and EST evidence. Also see: Documentation of NCBI's Annotation Process ##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
    ATGCTCGGGC TGCGGAGCCC GGAGTGCCTC GTGGGGTGTC TTCACTCCCA CTTCGTCCCC 
    CCACCCCCAG CACGAGCACC CCGAGCCTGC CTGCACGCTG TCGCCTTCGC GTCCGAGGGG
    CCGCCGGCTC ACACCCCACC CATTGTATTT TTATCCTTGG CTCGCCCCTG GGATGGCCTC
    TGTTCCCAGG AGGAAAAAGA GACGTGTTTT GCGATTGAGC CGTTGCCGAA CGTGGTGGAG
    CTGTGGCAGG CAGAAGAAGG GGAACTCCTG CTGCCCACTC AGGGTGATTC TGAAGAGGGT
    CTGGAGGAGC CTTCTCAAGA ACAGAGCTTC TCGGACAAAC TATTTAGTGG AAAAGGCTTA
    CATTTTCAGC CATCAGTTTT AGATTTTGGA ATACAGTTCC TGGGACATCC TGTAGCAAAG
    ATTCTCCATG CTTACAACCC TAGTAGGGAC AGCGAGGTTG TGGTGAATTC AGTGTTTGCA
    GCTGCTGGAC ATTTCCATGT ACCGCCAGTT CCCTGCAGGG TAATTCCAGC AATGGGGAAA
    ACTTCCTTCA GAATTATTTT CTTACCTACT GAAGAAGGAA GCATTGAAAG TTCCTTATTT
    ATTAATACCT CTTCGTATGG AGTCCTTTCC TATCATGTAT CTGGAATTGG CACTCGTAGA
    ATCTCTACAG AAGGGTCTGC AAAGCAGCTA CCAAATGCTT ATTTTCTGCT TCCAAAGGTC
    CAGAGCATTC AGCTGTCTCA AATGCAGGGT TGTTATCTGG AATCTGATGA TGTTTTGCGT
    CTACAAATGA GCATAATGGT AACAATGGAA AACTTTTCAA AAGAATTTGA AGAAAACACA
    CAACATTTGT TAGATCATCT CTCTATTGTT TACGTAGCTA CAGATGAATC TGAGACCTCA
    GATGATTCAG CAGTAAATAT GTATATATTA CATTCAGGAA ACAGCCTTAT ATGGATACAG
    GATATACGCC ATTTCTCACA GAGAGATGCT CTGTCTCTGC AGTTTGAACC AGTACTACTA
    CCTACTTCTA CAACAAACTT TACAAAAATT GCTTCTTTTA CCTGCAAAGC AGCTACATCA
    TGTGACAGTG GAATTATAGA AGATGTGAAG AAAACAACAC ACACTCCAAC ACTAAAAGCA
    TGCCTCTTCT CTTCTGTGGC TCAGGGGTAT TTTAGAATGG ACTCTTCTGC AACCCAGTTT
    CACATAGAGA CTCATGAGAA CACATCAGGA CTTTGGTCAA TATGGTACCG CAACCATTTT
    GACCGTAGTG TTGTATTAAA TGATGTGTTT CTTTCCAAGG AGACCAAGCA CATGTTAAAG
    ATTCTGAATT TCACTGGCCC TTTATTTCTA CCTCCAGGCT GTTGGAATAT ATTTTCTTTG
    AAACTTGCTG TTAAAGACAT TGCCATAAAT CTATTCACCA ATGTATTTTT GACTACAAAC
    ATAGGTGCCA TTTTTGCAAT ACCTCTACAG ATTTATTCAG CACCAACCAA GGAAGGGAGT
    CTGGGTTTTG AAGTGATAGC ACATTGTGGC ATGCATTATT TCATGGGAAA ATCAAAAGCA
    GGAAATCCTA ATTGGAATGG GAGCCTTTCT CTGGATCAAT CTACCTGGAA TGTGGATTCT
    GAACTTGCAA ATAAATTGTA TGAAAGATGG AAGAAATATA AAAATGGTGA CGTCTGCAAG
    AGGAATGTTT TGGGAACAAC TCGATTTGCT CACTTGAAGA AATCCAAGGA GTCAGAGTCC
    TTTGTTTTCT TTTTGCCTCG TTTGATCGCA GAGCCTGGCC TCATGTTAAA CTTCAGCGCA
    ACTGCCCTTA GGAGCAGGAT GATCAAGTAC TTTGTGGTGC AGAACCCGTC CTCTTGGCCG
    GTCTCCTTGC AGCTCCTGCC TCTCTCCTTG TACCCTAAAC CCGAAGCCCT AGTGCACCTG
    CTCCACAGAT GGTTTGGCAC TGATATGCAG ATGATTAATT TCACAACTGG TGAATTCCAG
    CTCACCGAAG CTTGCCCTTA CCTGGGTACG CATTCTGAGG AATCCAGGTT TGGCATCCTC
    CACTTACATC TGCAGCCTTT GGAAATGAAA AGGGTTGGCG TAGTTTTCAC ACCTGCTGAC
    TATGGAAAAG TTACCTCACT CATACTAATC CGGAATAACT TGACTGTTAT TGACATGATT
    GGCGTGGAAG GATTTGGAGC AAGAGAGTTA TTAAAAGTGG GTGGAAGACT TCCTGGTGCA
    GGAGGCTCAC TCCGATTTAA GGTGCCCGAG TCCACGCTGA TGGACTGCCG TAGACAACTG
    AAAGACAGTA AGCAAATTTT ATCTATTACA AAGAACTTTA AAGTTGAGAA TATTGGACCT
    CTTCCTATAA CTGTTTCGTC TCTGAAAATT AATGGGTATA ACTGCCAAGG TTATGGATTC
    GAGGTGCTGG ATTGTCATCA GTTTTCCCTG GACCCAAACA CATCCCGCGA TATCAGCATT
    GTGTTCACTC CAGACTTTAC CTCCTCCTGG GTAATTCGGG ACCTAAGTCT TGTAACCGCA
    GCGGACCTAG AATTTCGCTT CACTCTCAAT GTGACTCTCC CTCATCACCT GTTGCCCTTG
    TGTGCAGACG TGGTTCCAGG ACCCAGCTGG GAGGAGTCAT TTTGGAGGCT CACGGTCTTC
    TTTGTCAGTT TGTCCCTGTT GGGTGTGATT TTAATAGCCT TCCAACAAGC ACAGTACATT
    CTCATGGAAT TCATGAAAAC AAGACAGAGG CAAAATGCTA GCTCCTCTTC ACAGCAAAAC
    AATGGTCCTA TGGATGTAAT CAGCCCCCAT TCTTACAAAA GCAATTGCAA GAACTTTCTC
    GATACATATG GCCCCTCTGA TAAAGGCAGG GGGAAGAACT GCCTTCCAGT GAACACTCCC
    CAAAGCAGGA TCCAGAATGC TGCAAAGAGG AGCCCAGCCA CCTATGGTCA TTCTCAGAAG
    AAGCACAAAT GCTCAGTGTA TTACAGTAAA CACAAAACCA GCACAGCTGC GGCCAGCAGC
    ACCAGCACGA CTACTGAGGA AAAACAGACT TCACCCCTGG GCAGCTCACT GCCTGCTGCT
    AAAGAGGACA TTTGCACTGA TGCCATGCGT GAGAACTGGA TCAGCCTCAG ATATGCAAGT
    GGCATAAATG TCAACCTGCA GAAGAATTTA ACCCTTCCCA AAAACTTACT GAATAAAGAA
    GAAAACACAC TGAAAAACAC AATTGTTTTC AGTAATCCTT CTTCAGAATG TAGTATGAAG
    GAGGGAATAC AGACATGTAT GTTTCCTAAG GAAACTGACA TTAAAACTTC AGAGAACACA
    GCCGAGTTCA AGGAACGGGA GCTCTGTCCA CTGAAGACCT CCAAGAAACT ACCTGAAAAC
    CATTTACCAA GAAACTCACC TCAGTACCAC CAGCCAGACT TGCCAGAAAT TTCCAGGAAA
    AATAATGGGA ATAACCAGCA AGTACCTGTC AAGAATGAAG TAGATCATTG TGAAAATTTG
    AAGAAGGTGG ACACAAAGCC TTCTTCAGAA AAGAAGATTC ACAAAACATC TAGAGAAGAC
    ATGTTTTCTG AGAAACAGGA CATACCTTTC GTAGAGCAAG AAGATCCTTA TAGGAAGAAA
    AAGCTTCAGG AGAAAAGAGA AGGAAATTTA CAAAATTTAA ATTGGAGTAA AAGTCGAACA
    TGTAGAAAGA ACAAGAAAAG GGGTGTTGCT CCAGTCTCAA GGCCTCCTGA ACAGAGTGAT
    CTAAAGCTTG TGTGCAGTGA CTTTGAGAGG TCTGAGCTGA GCAGTGACAT CAATGTAAGA
    AGCTGGTGTA TACAGGAAAG CACTAGGGAG GTTTGTAAAG CAGATGCCGA AATTGCAAGC
    AGTTTACCTG CTGCCCAGAG AGAGGCAGAA GGTTACTACC AGAAGCCTGA GAAGAAATGT
    GTGGACAAGT TCTGCTCCGA TTCCAGCTCT GACTGTGGGA GCTCCTCTGG CAGCGTGCGT
    GCCAGCCGGG GCAGCTGGGG GAGCTGGAGC AGCACCAGCA GCTCCGACGG GGATAAGAAG
    CCCATGGTGG ACGCCCAGCA CTTCCTGCCG GCCGGAGACA GTGTTTCACA AAATGATTTT
    CCTTCTGAAG CTCCCATCTC CTTGAATCTT TCTCATAACA TCTGCAATCC CATGACCGTG
    AATAGTCTCC CACAATACGC AGAGCCTTCC TGTCCCAGCC TTCCTGCCGG GCCCACAGGT
    GTTGAAGAAG ATAAAGGTCT TTACTCACCT GGAGACCTGT GGCCCACTCC GCCAGTGTGT
    GTGACAAGCA GCTTAAACTG CACCCTGGAG AACGGCGTGC CTTGTGTGAT TCAGGAGTCG
    GCCCCGGTTC ATAATAGTTT CATTGATTGG AGTGCAACAT GCGAAGGCCA GTTTTCCAGC
    GCATACTGTC CATTGGAATT GAACGATTAC AATGCCTTTC CAGAAGAAAA CATGAACTAT
    GCCAATGGCT TCCCCTGTCC TGCAGATGTT CAGACAGACT TTATTGATCA CAACTCTCAG
    TCTACCTGGA ACACCCCACC CAACATGCCT GCTGCCTGGG GACATGCCAG TTTCATCAGC
    TCTCCGCCCT ACCTCACAAG CACCCGAAGC TTGTCTCCAA TGTCTGGACT TTTTGGTTCC
    ATCTGGGCCC CGCAAAGCGA TGTGTATGAA AATTGCTGCC CCATCAACCC CACCACGGAA
    CATTCGACCC ACATGGAAAA CCAAGCGGTC GTGTGCAAGG AATACTACCC GGGGTTCAAC
    CCGTTTCGCG CCTATATGAA CCTGGACATA TGGACTACCA CAGCGAATAG GAATGCAAAT
    TTCCCACTGT CTAGAGACTC GAGTTACTGT GGGAATGTGT GA

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

    RefSeq XP_016863413.1
    CDS16..4857
    Translation

    Target ORF information:

    RefSeq Version XM_017007924.1
    Organism Homo sapiens(human)
    Definition Homo sapiens KIAA0922 (KIAA0922), transcript variant X3, mRNA.

    Target ORF information:

    Epitope DYKDDDDK
    Bacterial selection AMPR
    Mammalian selection NeoR
    Vector pcDNA3.1+/C-(K)DYK
    XM_017007924.1

    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
    ATGCTCGGGC TGCGGAGCCC GGAGTGCCTC GTGGGGTGTC TTCACTCCCA CTTCGTCCCC 
    CCACCCCCAG CACGAGCACC CCGAGCCTGC CTGCACGCTG TCGCCTTCGC GTCCGAGGGG
    CCGCCGGCTC ACACCCCACC CATTGTATTT TTATCCTTGG CTCGCCCCTG GGATGGCCTC
    TGTTCCCAGG AGGAAAAAGA GACGTGTTTT GCGATTGAGC CGTTGCCGAA CGTGGTGGAG
    CTGTGGCAGG CAGAAGAAGG GGAACTCCTG CTGCCCACTC AGGGTGATTC TGAAGAGGGT
    CTGGAGGAGC CTTCTCAAGA ACAGAGCTTC TCGGACAAAC TATTTAGTGG AAAAGGCTTA
    CATTTTCAGC CATCAGTTTT AGATTTTGGA ATACAGTTCC TGGGACATCC TGTAGCAAAG
    ATTCTCCATG CTTACAACCC TAGTAGGGAC AGCGAGGTTG TGGTGAATTC AGTGTTTGCA
    GCTGCTGGAC ATTTCCATGT ACCGCCAGTT CCCTGCAGGG TAATTCCAGC AATGGGGAAA
    ACTTCCTTCA GAATTATTTT CTTACCTACT GAAGAAGGAA GCATTGAAAG TTCCTTATTT
    ATTAATACCT CTTCGTATGG AGTCCTTTCC TATCATGTAT CTGGAATTGG CACTCGTAGA
    ATCTCTACAG AAGGGTCTGC AAAGCAGCTA CCAAATGCTT ATTTTCTGCT TCCAAAGGTC
    CAGAGCATTC AGCTGTCTCA AATGCAGGGT TGTTATCTGG AATCTGATGA TGTTTTGCGT
    CTACAAATGA GCATAATGGT AACAATGGAA AACTTTTCAA AAGAATTTGA AGAAAACACA
    CAACATTTGT TAGATCATCT CTCTATTGTT TACGTAGCTA CAGATGAATC TGAGACCTCA
    GATGATTCAG CAGTAAATAT GTATATATTA CATTCAGGAA ACAGCCTTAT ATGGATACAG
    GATATACGCC ATTTCTCACA GAGAGATGCT CTGTCTCTGC AGTTTGAACC AGTACTACTA
    CCTACTTCTA CAACAAACTT TACAAAAATT GCTTCTTTTA CCTGCAAAGC AGCTACATCA
    TGTGACAGTG GAATTATAGA AGATGTGAAG AAAACAACAC ACACTCCAAC ACTAAAAGCA
    TGCCTCTTCT CTTCTGTGGC TCAGGGGTAT TTTAGAATGG ACTCTTCTGC AACCCAGTTT
    CACATAGAGA CTCATGAGAA CACATCAGGA CTTTGGTCAA TATGGTACCG CAACCATTTT
    GACCGTAGTG TTGTATTAAA TGATGTGTTT CTTTCCAAGG AGACCAAGCA CATGTTAAAG
    ATTCTGAATT TCACTGGCCC TTTATTTCTA CCTCCAGGCT GTTGGAATAT ATTTTCTTTG
    AAACTTGCTG TTAAAGACAT TGCCATAAAT CTATTCACCA ATGTATTTTT GACTACAAAC
    ATAGGTGCCA TTTTTGCAAT ACCTCTACAG ATTTATTCAG CACCAACCAA GGAAGGGAGT
    CTGGGTTTTG AAGTGATAGC ACATTGTGGC ATGCATTATT TCATGGGAAA ATCAAAAGCA
    GGAAATCCTA ATTGGAATGG GAGCCTTTCT CTGGATCAAT CTACCTGGAA TGTGGATTCT
    GAACTTGCAA ATAAATTGTA TGAAAGATGG AAGAAATATA AAAATGGTGA CGTCTGCAAG
    AGGAATGTTT TGGGAACAAC TCGATTTGCT CACTTGAAGA AATCCAAGGA GTCAGAGTCC
    TTTGTTTTCT TTTTGCCTCG TTTGATCGCA GAGCCTGGCC TCATGTTAAA CTTCAGCGCA
    ACTGCCCTTA GGAGCAGGAT GATCAAGTAC TTTGTGGTGC AGAACCCGTC CTCTTGGCCG
    GTCTCCTTGC AGCTCCTGCC TCTCTCCTTG TACCCTAAAC CCGAAGCCCT AGTGCACCTG
    CTCCACAGAT GGTTTGGCAC TGATATGCAG ATGATTAATT TCACAACTGG TGAATTCCAG
    CTCACCGAAG CTTGCCCTTA CCTGGGTACG CATTCTGAGG AATCCAGGTT TGGCATCCTC
    CACTTACATC TGCAGCCTTT GGAAATGAAA AGGGTTGGCG TAGTTTTCAC ACCTGCTGAC
    TATGGAAAAG TTACCTCACT CATACTAATC CGGAATAACT TGACTGTTAT TGACATGATT
    GGCGTGGAAG GATTTGGAGC AAGAGAGTTA TTAAAAGTGG GTGGAAGACT TCCTGGTGCA
    GGAGGCTCAC TCCGATTTAA GGTGCCCGAG TCCACGCTGA TGGACTGCCG TAGACAACTG
    AAAGACAGTA AGCAAATTTT ATCTATTACA AAGAACTTTA AAGTTGAGAA TATTGGACCT
    CTTCCTATAA CTGTTTCGTC TCTGAAAATT AATGGGTATA ACTGCCAAGG TTATGGATTC
    GAGGTGCTGG ATTGTCATCA GTTTTCCCTG GACCCAAACA CATCCCGCGA TATCAGCATT
    GTGTTCACTC CAGACTTTAC CTCCTCCTGG GTAATTCGGG ACCTAAGTCT TGTAACCGCA
    GCGGACCTAG AATTTCGCTT CACTCTCAAT GTGACTCTCC CTCATCACCT GTTGCCCTTG
    TGTGCAGACG TGGTTCCAGG ACCCAGCTGG GAGGAGTCAT TTTGGAGGCT CACGGTCTTC
    TTTGTCAGTT TGTCCCTGTT GGGTGTGATT TTAATAGCCT TCCAACAAGC ACAGTACATT
    CTCATGGAAT TCATGAAAAC AAGACAGAGG CAAAATGCTA GCTCCTCTTC ACAGCAAAAC
    AATGGTCCTA TGGATGTAAT CAGCCCCCAT TCTTACAAAA GCAATTGCAA GAACTTTCTC
    GATACATATG GCCCCTCTGA TAAAGGCAGG GGGAAGAACT GCCTTCCAGT GAACACTCCC
    CAAAGCAGGA TCCAGAATGC TGCAAAGAGG AGCCCAGCCA CCTATGGTCA TTCTCAGAAG
    AAGCACAAAT GCTCAGTGTA TTACAGTAAA CACAAAACCA GCACAGCTGC GGCCAGCAGC
    ACCAGCACGA CTACTGAGGA AAAACAGACT TCACCCCTGG GCAGCTCACT GCCTGCTGCT
    AAAGAGGACA TTTGCACTGA TGCCATGCGT GAGAACTGGA TCAGCCTCAG ATATGCAAGT
    GGCATAAATG TCAACCTGCA GAAGAATTTA ACCCTTCCCA AAAACTTACT GAATAAAGAA
    GAAAACACAC TGAAAAACAC AATTGTTTTC AGTAATCCTT CTTCAGAATG TAGTATGAAG
    GAGGGAATAC AGACATGTAT GTTTCCTAAG GAAACTGACA TTAAAACTTC AGAGAACACA
    GCCGAGTTCA AGGAACGGGA GCTCTGTCCA CTGAAGACCT CCAAGAAACT ACCTGAAAAC
    CATTTACCAA GAAACTCACC TCAGTACCAC CAGCCAGACT TGCCAGAAAT TTCCAGGAAA
    AATAATGGGA ATAACCAGCA AGTACCTGTC AAGAATGAAG TAGATCATTG TGAAAATTTG
    AAGAAGGTGG ACACAAAGCC TTCTTCAGAA AAGAAGATTC ACAAAACATC TAGAGAAGAC
    ATGTTTTCTG AGAAACAGGA CATACCTTTC GTAGAGCAAG AAGATCCTTA TAGGAAGAAA
    AAGCTTCAGG AGAAAAGAGA AGGAAATTTA CAAAATTTAA ATTGGAGTAA AAGTCGAACA
    TGTAGAAAGA ACAAGAAAAG GGGTGTTGCT CCAGTCTCAA GGCCTCCTGA ACAGAGTGAT
    CTAAAGCTTG TGTGCAGTGA CTTTGAGAGG TCTGAGCTGA GCAGTGACAT CAATGTAAGA
    AGCTGGTGTA TACAGGAAAG CACTAGGGAG GTTTGTAAAG CAGATGCCGA AATTGCAAGC
    AGTTTACCTG CTGCCCAGAG AGAGGCAGAA GGTTACTACC AGAAGCCTGA GAAGAAATGT
    GTGGACAAGT TCTGCTCCGA TTCCAGCTCT GACTGTGGGA GCTCCTCTGG CAGCGTGCGT
    GCCAGCCGGG GCAGCTGGGG GAGCTGGAGC AGCACCAGCA GCTCCGACGG GGATAAGAAG
    CCCATGGTGG ACGCCCAGCA CTTCCTGCCG GCCGGAGACA GTGTTTCACA AAATGATTTT
    CCTTCTGAAG CTCCCATCTC CTTGAATCTT TCTCATAACA TCTGCAATCC CATGACCGTG
    AATAGTCTCC CACAATACGC AGAGCCTTCC TGTCCCAGCC TTCCTGCCGG GCCCACAGGT
    GTTGAAGAAG ATAAAGGTCT TTACTCACCT GGAGACCTGT GGCCCACTCC GCCAGTGTGT
    GTGACAAGCA GCTTAAACTG CACCCTGGAG AACGGCGTGC CTTGTGTGAT TCAGGAGTCG
    GCCCCGGTTC ATAATAGTTT CATTGATTGG AGTGCAACAT GCGAAGGCCA GTTTTCCAGC
    GCATACTGTC CATTGGAATT GAACGATTAC AATGCCTTTC CAGAAGAAAA CATGAACTAT
    GCCAATGGCT TCCCCTGTCC TGCAGATGTT CAGACAGACT TTATTGATCA CAACTCTCAG
    TCTACCTGGA ACACCCCACC CAACATGCCT GCTGCCTGGG GACATGCCAG TTTCATCAGC
    TCTCCGCCCT ACCTCACAAG CACCCGAAGC TTGTCTCCAA TGTCTGGACT TTTTGGTTCC
    ATCTGGGCCC CGCAAAGCGA TGTGTATGAA AATTGCTGCC CCATCAACCC CACCACGGAA
    CATTCGACCC ACATGGAAAA CCAAGCGGTC GTGTGCAAGG AATACTACCC GGGGTTCAAC
    CCGTTTCGCG CCTATATGAA CCTGGACATA TGGACTACCA CAGCGAATAG GAATGCAAAT
    TTCCCACTGT CTAGAGACTC GAGTTACTGT GGGAATGTGT GA

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

    CloneID OHu94998
    Clone ID Related Accession (Same CDS sequence) XM_017007925.1
    Accession Version XM_017007925.1 Latest version! Documents for ORF clone product in default vector
    Sequence Information ORF Nucleotide Sequence (Length: 4830bp)
    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 transmembrane protein 131-like isoform X5
    Comment Comment: MODEL REFSEQ: This record is predicted by automated computational analysis. This record is derived from a genomic sequence (NC_000004.12) annotated using gene prediction method: Gnomon, supported by mRNA and EST evidence. Also see: Documentation of NCBI's Annotation Process ##Genome-Annotation-Data-START## Annotation Provider :: NCBI Annotation Status :: Updated annotation Annotation Name :: Homo sapiens Updated Annotation Release 109.20191205 Annotation Version :: 109.20191205 Annotation Pipeline :: NCBI eukaryotic genome annotation pipeline Annotation Software Version :: 8.3 Annotation Method :: Best-placed RefSeq; propagated RefSeq model Features Annotated :: Gene; mRNA; CDS; ncRNA ##Genome-Annotation-Data-END##

    1
    61
    121
    181
    241
    301
    361
    421
    481
    541
    601
    661
    721
    781
    841
    901
    961
    1021
    1081
    1141
    1201
    1261
    1321
    1381
    1441
    1501
    1561
    1621
    1681
    1741
    1801
    1861
    1921
    1981
    2041
    2101
    2161
    2221
    2281
    2341
    2401
    2461
    2521
    2581
    2641
    2701
    2761
    2821
    2881
    2941
    3001
    3061
    3121
    3181
    3241
    3301
    3361
    3421
    3481
    3541
    3601
    3661
    3721
    3781
    3841
    3901
    3961
    4021
    4081
    4141
    4201
    4261
    4321
    4381
    4441
    4501
    4561
    4621
    4681
    4741
    4801
    ATGGCGGGGC TCCGACGCCC GCAGCCCGGC TGCTACTGCC GCACCGCGGC GGCCGTGAAC 
    CTCCTGCTGG GCGTCTTCCA GGTCCTGCTG CCCTGCTGTC GCCCGGGAGG GGCTCAGGGA
    CAAGCGATTG AGCCGTTGCC GAACGTGGTG GAGCTGTGGC AGGCAGAAGA AGGGGAACTC
    CTGCTGCCCA CTCAGGGTGA TTCTGAAGAG GGTCTGGAGG AGCCTTCTCA AGAACAGAGC
    TTCTCGGACA AACTATTTAG TGGAAAAGGC TTACATTTTC AGCCATCAGT TTTAGATTTT
    GGAATACAGT TCCTGGGACA TCCTGTAGCA AAGATTCTCC ATGCTTACAA CCCTAGTAGG
    GACAGCGAGG TTGTGGTGAA TTCAGTGTTT GCAGCTGCTG GACATTTCCA TGTACCGCCA
    GTTCCCTGCA GGGTAATTCC AGCAATGGGG AAAACTTCCT TCAGAATTAT TTTCTTACCT
    ACTGAAGAAG GAAGCATTGA AAGTTCCTTA TTTATTAATA CCTCTTCGTA TGGAGTCCTT
    TCCTATCATG TATCTGGAAT TGGCACTCGT AGAATCTCTA CAGAAGGGTC TGCAAAGCAG
    CTACCAAATG CTTATTTTCT GCTTCCAAAG GTCCAGAGCA TTCAGCTGTC TCAAATGCAG
    GCAGAAACCA CTAATACTAG CCTCTTGCAG GTGCAACTGG AATGCAGTTT ACATAATAAA
    GTGTGTCAGC AATTAAAGGG TTGTTATCTG GAATCTGATG ATGTTTTGCG TCTACAAATG
    AGCATAATGG TAACAATGGA AAACTTTTCA AAAGAATTTG AAGAAAACAC ACAACATTTG
    TTAGATCATC TCTCTATTGT TTACGTAGCT ACAGATGAAT CTGAGACCTC AGATGATTCA
    GCAGTAAATA TGTATATATT ACATTCAGGA AACAGCCTTA TATGGATACA GGATATACGC
    CATTTCTCAC AGAGAGATGC TCTGTCTCTG CAGTTTGAAC CAGTACTACT ACCTACTTCT
    ACAACAAACT TTACAAAAAT TGCTTCTTTT ACCTGCAAAG CAGCTACATC ATGTGACAGT
    GGAATTATAG AAGATGTGAA GAAAACAACA CACACTCCAA CACTAAAAGC ATGCCTCTTC
    TCTTCTGTGG CTCAGGGGTA TTTTAGAATG GACTCTTCTG CAACCCAGTT TCACATAGAG
    ACTCATGAGA ACACATCAGG ACTTTGGTCA ATATGGTACC GCAACCATTT TGACCGTAGT
    GTTGTATTAA ATGATGTGTT TCTTTCCAAG GAGACCAAGC ACATGTTAAA GATTCTGAAT
    TTCACTGGCC CTTTATTTCT ACCTCCAGGC TGTTGGAATA TATTTTCTTT GAAACTTGCT
    GTTAAAGACA TTGCCATAAA TCTATTCACC AATGTATTTT TGACTACAAA CATAGGTGCC
    ATTTTTGCAA TACCTCTACA GATTTATTCA GCACCAACCA AGGAAGGGAG TCTGGGTTTT
    GAAGTGATAG CACATTGTGG CATGCATTAT TTCATGGGAA AATCAAAAGC AGGAAATCCT
    AATTGGAATG GGAGCCTTTC TCTGGATCAA TCTACCTGGA ATGTGGATTC TGAACTTGCA
    AATAAATTGT ATGAAAGATG GAAGAAATAT AAAAATGGTG ACGTCTGCAA GAGGAATGTT
    TTGGGAACAA CTCGATTTGC TCACTTGAAG AAATCCAAGG AGTCAGAGTC CTTTGTTTTC
    TTTTTGCCTC GTTTGATCGC AGAGCCTGGC CTCATGTTAA ACTTCAGCGC AACTGCCCTT
    AGGAGCAGGA TGATCAAGTA CTTTGTGGTG CAGAACCCGT CCTCTTGGCC GGTCTCCTTG
    CAGCTCCTGC CTCTCTCCTT GTACCCTAAA CCCGAAGCCC TAGTGCACCT GCTCCACAGA
    TGGTTTGGCA CTGATATGCA GATGATTAAT TTCACAACTG GTGAATTCCA GCTCACCGAA
    GCTTGCCCTT ACCTGGGTAC GCATTCTGAG GAATCCAGGT TTGGCATCCT CCACTTACAT
    CTGCAGCCTT TGGAAATGAA AAGGGTTGGC GTAGTTTTCA CACCTGCTGA CTATGGAAAA
    GTTACCTCAC TCATACTAAT CCGGAATAAC TTGACTGTTA TTGACATGAT TGGCGTGGAA
    GGATTTGGAG CAAGAGAGTT ATTAAAAGTG GGTGGAAGAC TTCCTGGTGC AGGAGGCTCA
    CTCCGATTTA AGGTGCCCGA GTCCACGCTG ATGGACTGCC GTAGACAACT GAAAGACAGT
    AAGCAAATTT TATCTATTAC AAAGAACTTT AAAGTTGAGA ATATTGGACC TCTTCCTATA
    ACTGTTTCGT CTCTGAAAAT TAATGGGTAT AACTGCCAAG GTTATGGATT CGAGGTGCTG
    GATTGTCATC AGTTTTCCCT GGACCCAAAC ACATCCCGCG ATATCAGCAT TGTGTTCACT
    CCAGACTTTA CCTCCTCCTG GGTAATTCGG GACCTAAGTC TTGTAACCGC AGCGGACCTA
    GAATTTCGCT TCACTCTCAA TGTGACTCTC CCTCATCACC TGTTGCCCTT GTGTGCAGAC
    GTGGTTCCAG GACCCAGCTG GGAGGAGTCA TTTTGGAGGC TCACGGTCTT CTTTGTCAGT
    TTGTCCCTGT TGGGTGTGAT TTTAATAGCC TTCCAACAAG CACAGTACAT TCTCATGGAA
    TTCATGAAAA CAAGACAGAG GCAAAATGCT AGCTCCTCTT CACAGCAAAA CAATGGTCCT
    ATGGATGTAA TCAGCCCCCA TTCTTACAAA AGCAATTGCA AGAACTTTCT CGATACATAT
    GGCCCCTCTG ATAAAGGCAG GGGGAAGAAC TGCCTTCCAG TGAACACTCC CCAAAGCAGG
    ATCCAGAATG CTGCAAAGAG GAGCCCAGCC ACCTATGGTC ATTCTCAGAA GAAGCACAAA
    TGCTCAGTGT ATTACAGTAA ACACAAAACC AGCACAGCTG CGGCCAGCAG CACCAGCACG
    ACTACTGAGG AAAAACAGAC TTCACCCCTG GGCAGCTCAC TGCCTGCTGC TAAAGAGGAC
    ATTTGCACTG ATGCCATGCG TGAGAACTGG ATCAGCCTCA GATATGCAAG TGGCATAAAT
    GTCAACCTGC AGAAGAATTT AACCCTTCCC AAAAACTTAC TGAATAAAGA AGAAAACACA
    CTGAAAAACA CAATTGTTTT CAGTAATCCT TCTTCAGAAT GTAGTATGAA GGAGGGAATA
    CAGACATGTA TGTTTCCTAA GGAAACTGAC ATTAAAACTT CAGAGAACAC AGCCGAGTTC
    AAGGAACGGG AGCTCTGTCC ACTGAAGACC TCCAAGAAAC TACCTGAAAA CCATTTACCA
    AGAAACTCAC CTCAGTACCA CCAGCCAGAC TTGCCAGAAA TTTCCAGGAA AAATAATGGG
    AATAACCAGC AAGTACCTGT CAAGAATGAA GTAGATCATT GTGAAAATTT GAAGAAGGTG
    GACACAAAGC CTTCTTCAGA AAAGAAGATT CACAAAACAT CTAGAGAAGA CATGTTTTCT
    GAGAAACAGG ACATACCTTT CGTAGAGCAA GAAGATCCTT ATAGGAAGAA AAAGCTTCAG
    GAGAAAAGAG AAGGAAATTT ACAAAATTTA AATTGGAGTA AAAGTCGAAC ATGTAGAAAG
    AACAAGAAAA GGGGTGTTGC TCCAGTCTCA AGGCCTCCTG AACAGAGTGA TCTAAAGCTT
    GTGTGCAGTG ACTTTGAGAG GTCTGAGCTG AGCAGTGACA TCAATGTAAG AAGCTGGTGT
    ATACAGGAAA GCACTAGGGA GGTTTGTAAA GCAGATGCCG AAATTGCAAG CAGTTTACCT
    GCTGCCCAGA GAGAGGCAGG TTACTACCAG AAGCCTGAGA AGAAATGTGT GGACAAGTTC
    TGCTCCGATT CCAGCTCTGA CTGTGGGAGC TCCTCTGGCA GCGTGCGTGC CAGCCGGGGC
    AGCTGGGGGA GCTGGAGCAG CACCAGCAGC TCCGACGGGG ATAAGAAGCC CATGGTGGAC
    GCCCAGCACT TCCTGCCGGC CGGAGACAGT GTTTCACAAA ATGATTTTCC TTCTGAAGCT
    CCCATCTCCT TGAATCTTTC TCATAACATC TGCAATCCCA TGACCGTGAA TAGTCTCCCA
    CAATACGCAG AGCCTTCCTG TCCCAGCCTT CCTGCCGGGC CCACAGGTGT TGAAGAAGAT
    AAAGGTCTTT ACTCACCTGG AGACCTGTGG CCCACTCCGC CAGTGTGTGT GACAAGCAGC
    TTAAACTGCA CCCTGGAGAA CGGCGTGCCT TGTGTGATTC AGGAGTCGGC CCCGGTTCAT
    AATAGTTTCA TTGATTGGAG TGCAACATGC GAAGGCCAGT TTTCCAGCGC ATACTGTCCA
    TTGGAATTGA ACGATTACAA TGCCTTTCCA GAAGAAAACA TGAACTATGC CAATGGCTTC
    CCCTGTCCTG CAGATGTTCA GACAGACTTT ATTGATCACA ACTCTCAGTC TACCTGGAAC
    ACCCCACCCA ACATGCCTGC TGCCTGGGGA CATGCCAGTT TCATCAGCTC TCCGCCCTAC
    CTCACAAGCA CCCGAAGCTT GTCTCCAATG TCTGGACTTT TTGGTTCCAT CTGGGCCCCG
    CAAAGCGATG TGTATGAAAA TTGCTGCCCC ATCAACCCCA CCACGGAACA TTCGACCCAC
    ATGGAAAACC AAGCGGTCGT GTGCAAGGAA TACTACCCGG GGTTCAACCC GTTTCGCGCC
    TATATGAACC TGGACATATG GACTACCACA GCGAATAGGA ATGCAAATTT CCCACTGTCT
    AGAGACTCGA GTTACTGTGG GAATGTGTGA

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

    RefSeq XP_016863414.1
    CDS53..4882
    Translation

    Target ORF information:

    RefSeq Version XM_017007925.1
    Organism Homo sapiens(human)
    Definition Homo sapiens transmembrane 131 like (TMEM131L), transcript variant X5, mRNA.

    Target ORF information:

    Epitope DYKDDDDK
    Bacterial selection AMPR
    Mammalian selection NeoR
    Vector pcDNA3.1+/C-(K)DYK
    XM_017007925.1

    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
    ATGGCGGGGC TCCGACGCCC GCAGCCCGGC TGCTACTGCC GCACCGCGGC GGCCGTGAAC 
    CTCCTGCTGG GCGTCTTCCA GGTCCTGCTG CCCTGCTGTC GCCCGGGAGG GGCTCAGGGA
    CAAGCGATTG AGCCGTTGCC GAACGTGGTG GAGCTGTGGC AGGCAGAAGA AGGGGAACTC
    CTGCTGCCCA CTCAGGGTGA TTCTGAAGAG GGTCTGGAGG AGCCTTCTCA AGAACAGAGC
    TTCTCGGACA AACTATTTAG TGGAAAAGGC TTACATTTTC AGCCATCAGT TTTAGATTTT
    GGAATACAGT TCCTGGGACA TCCTGTAGCA AAGATTCTCC ATGCTTACAA CCCTAGTAGG
    GACAGCGAGG TTGTGGTGAA TTCAGTGTTT GCAGCTGCTG GACATTTCCA TGTACCGCCA
    GTTCCCTGCA GGGTAATTCC AGCAATGGGG AAAACTTCCT TCAGAATTAT TTTCTTACCT
    ACTGAAGAAG GAAGCATTGA AAGTTCCTTA TTTATTAATA CCTCTTCGTA TGGAGTCCTT
    TCCTATCATG TATCTGGAAT TGGCACTCGT AGAATCTCTA CAGAAGGGTC TGCAAAGCAG
    CTACCAAATG CTTATTTTCT GCTTCCAAAG GTCCAGAGCA TTCAGCTGTC TCAAATGCAG
    GCAGAAACCA CTAATACTAG CCTCTTGCAG GTGCAACTGG AATGCAGTTT ACATAATAAA
    GTGTGTCAGC AATTAAAGGG TTGTTATCTG GAATCTGATG ATGTTTTGCG TCTACAAATG
    AGCATAATGG TAACAATGGA AAACTTTTCA AAAGAATTTG AAGAAAACAC ACAACATTTG
    TTAGATCATC TCTCTATTGT TTACGTAGCT ACAGATGAAT CTGAGACCTC AGATGATTCA
    GCAGTAAATA TGTATATATT ACATTCAGGA AACAGCCTTA TATGGATACA GGATATACGC
    CATTTCTCAC AGAGAGATGC TCTGTCTCTG CAGTTTGAAC CAGTACTACT ACCTACTTCT
    ACAACAAACT TTACAAAAAT TGCTTCTTTT ACCTGCAAAG CAGCTACATC ATGTGACAGT
    GGAATTATAG AAGATGTGAA GAAAACAACA CACACTCCAA CACTAAAAGC ATGCCTCTTC
    TCTTCTGTGG CTCAGGGGTA TTTTAGAATG GACTCTTCTG CAACCCAGTT TCACATAGAG
    ACTCATGAGA ACACATCAGG ACTTTGGTCA ATATGGTACC GCAACCATTT TGACCGTAGT
    GTTGTATTAA ATGATGTGTT TCTTTCCAAG GAGACCAAGC ACATGTTAAA GATTCTGAAT
    TTCACTGGCC CTTTATTTCT ACCTCCAGGC TGTTGGAATA TATTTTCTTT GAAACTTGCT
    GTTAAAGACA TTGCCATAAA TCTATTCACC AATGTATTTT TGACTACAAA CATAGGTGCC
    ATTTTTGCAA TACCTCTACA GATTTATTCA GCACCAACCA AGGAAGGGAG TCTGGGTTTT
    GAAGTGATAG CACATTGTGG CATGCATTAT TTCATGGGAA AATCAAAAGC AGGAAATCCT
    AATTGGAATG GGAGCCTTTC TCTGGATCAA TCTACCTGGA ATGTGGATTC TGAACTTGCA
    AATAAATTGT ATGAAAGATG GAAGAAATAT AAAAATGGTG ACGTCTGCAA GAGGAATGTT
    TTGGGAACAA CTCGATTTGC TCACTTGAAG AAATCCAAGG AGTCAGAGTC CTTTGTTTTC
    TTTTTGCCTC GTTTGATCGC AGAGCCTGGC CTCATGTTAA ACTTCAGCGC AACTGCCCTT
    AGGAGCAGGA TGATCAAGTA CTTTGTGGTG CAGAACCCGT CCTCTTGGCC GGTCTCCTTG
    CAGCTCCTGC CTCTCTCCTT GTACCCTAAA CCCGAAGCCC TAGTGCACCT GCTCCACAGA
    TGGTTTGGCA CTGATATGCA GATGATTAAT TTCACAACTG GTGAATTCCA GCTCACCGAA
    GCTTGCCCTT ACCTGGGTAC GCATTCTGAG GAATCCAGGT TTGGCATCCT CCACTTACAT
    CTGCAGCCTT TGGAAATGAA AAGGGTTGGC GTAGTTTTCA CACCTGCTGA CTATGGAAAA
    GTTACCTCAC TCATACTAAT CCGGAATAAC TTGACTGTTA TTGACATGAT TGGCGTGGAA
    GGATTTGGAG CAAGAGAGTT ATTAAAAGTG GGTGGAAGAC TTCCTGGTGC AGGAGGCTCA
    CTCCGATTTA AGGTGCCCGA GTCCACGCTG ATGGACTGCC GTAGACAACT GAAAGACAGT
    AAGCAAATTT TATCTATTAC AAAGAACTTT AAAGTTGAGA ATATTGGACC TCTTCCTATA
    ACTGTTTCGT CTCTGAAAAT TAATGGGTAT AACTGCCAAG GTTATGGATT CGAGGTGCTG
    GATTGTCATC AGTTTTCCCT GGACCCAAAC ACATCCCGCG ATATCAGCAT TGTGTTCACT
    CCAGACTTTA CCTCCTCCTG GGTAATTCGG GACCTAAGTC TTGTAACCGC AGCGGACCTA
    GAATTTCGCT TCACTCTCAA TGTGACTCTC CCTCATCACC TGTTGCCCTT GTGTGCAGAC
    GTGGTTCCAG GACCCAGCTG GGAGGAGTCA TTTTGGAGGC TCACGGTCTT CTTTGTCAGT
    TTGTCCCTGT TGGGTGTGAT TTTAATAGCC TTCCAACAAG CACAGTACAT TCTCATGGAA
    TTCATGAAAA CAAGACAGAG GCAAAATGCT AGCTCCTCTT CACAGCAAAA CAATGGTCCT
    ATGGATGTAA TCAGCCCCCA TTCTTACAAA AGCAATTGCA AGAACTTTCT CGATACATAT
    GGCCCCTCTG ATAAAGGCAG GGGGAAGAAC TGCCTTCCAG TGAACACTCC CCAAAGCAGG
    ATCCAGAATG CTGCAAAGAG GAGCCCAGCC ACCTATGGTC ATTCTCAGAA GAAGCACAAA
    TGCTCAGTGT ATTACAGTAA ACACAAAACC AGCACAGCTG CGGCCAGCAG CACCAGCACG
    ACTACTGAGG AAAAACAGAC TTCACCCCTG GGCAGCTCAC TGCCTGCTGC TAAAGAGGAC
    ATTTGCACTG ATGCCATGCG TGAGAACTGG ATCAGCCTCA GATATGCAAG TGGCATAAAT
    GTCAACCTGC AGAAGAATTT AACCCTTCCC AAAAACTTAC TGAATAAAGA AGAAAACACA
    CTGAAAAACA CAATTGTTTT CAGTAATCCT TCTTCAGAAT GTAGTATGAA GGAGGGAATA
    CAGACATGTA TGTTTCCTAA GGAAACTGAC ATTAAAACTT CAGAGAACAC AGCCGAGTTC
    AAGGAACGGG AGCTCTGTCC ACTGAAGACC TCCAAGAAAC TACCTGAAAA CCATTTACCA
    AGAAACTCAC CTCAGTACCA CCAGCCAGAC TTGCCAGAAA TTTCCAGGAA AAATAATGGG
    AATAACCAGC AAGTACCTGT CAAGAATGAA GTAGATCATT GTGAAAATTT GAAGAAGGTG
    GACACAAAGC CTTCTTCAGA AAAGAAGATT CACAAAACAT CTAGAGAAGA CATGTTTTCT
    GAGAAACAGG ACATACCTTT CGTAGAGCAA GAAGATCCTT ATAGGAAGAA AAAGCTTCAG
    GAGAAAAGAG AAGGAAATTT ACAAAATTTA AATTGGAGTA AAAGTCGAAC ATGTAGAAAG
    AACAAGAAAA GGGGTGTTGC TCCAGTCTCA AGGCCTCCTG AACAGAGTGA TCTAAAGCTT
    GTGTGCAGTG ACTTTGAGAG GTCTGAGCTG AGCAGTGACA TCAATGTAAG AAGCTGGTGT
    ATACAGGAAA GCACTAGGGA GGTTTGTAAA GCAGATGCCG AAATTGCAAG CAGTTTACCT
    GCTGCCCAGA GAGAGGCAGG TTACTACCAG AAGCCTGAGA AGAAATGTGT GGACAAGTTC
    TGCTCCGATT CCAGCTCTGA CTGTGGGAGC TCCTCTGGCA GCGTGCGTGC CAGCCGGGGC
    AGCTGGGGGA GCTGGAGCAG CACCAGCAGC TCCGACGGGG ATAAGAAGCC CATGGTGGAC
    GCCCAGCACT TCCTGCCGGC CGGAGACAGT GTTTCACAAA ATGATTTTCC TTCTGAAGCT
    CCCATCTCCT TGAATCTTTC TCATAACATC TGCAATCCCA TGACCGTGAA TAGTCTCCCA
    CAATACGCAG AGCCTTCCTG TCCCAGCCTT CCTGCCGGGC CCACAGGTGT TGAAGAAGAT
    AAAGGTCTTT ACTCACCTGG AGACCTGTGG CCCACTCCGC CAGTGTGTGT GACAAGCAGC
    TTAAACTGCA CCCTGGAGAA CGGCGTGCCT TGTGTGATTC AGGAGTCGGC CCCGGTTCAT
    AATAGTTTCA TTGATTGGAG TGCAACATGC GAAGGCCAGT TTTCCAGCGC ATACTGTCCA
    TTGGAATTGA ACGATTACAA TGCCTTTCCA GAAGAAAACA TGAACTATGC CAATGGCTTC
    CCCTGTCCTG CAGATGTTCA GACAGACTTT ATTGATCACA ACTCTCAGTC TACCTGGAAC
    ACCCCACCCA ACATGCCTGC TGCCTGGGGA CATGCCAGTT TCATCAGCTC TCCGCCCTAC
    CTCACAAGCA CCCGAAGCTT GTCTCCAATG TCTGGACTTT TTGGTTCCAT CTGGGCCCCG
    CAAAGCGATG TGTATGAAAA TTGCTGCCCC ATCAACCCCA CCACGGAACA TTCGACCCAC
    ATGGAAAACC AAGCGGTCGT GTGCAAGGAA TACTACCCGG GGTTCAACCC GTTTCGCGCC
    TATATGAACC TGGACATATG GACTACCACA GCGAATAGGA ATGCAAATTT CCCACTGTCT
    AGAGACTCGA GTTACTGTGG GAATGTGTGA

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

    CloneID OHu94999
    Clone ID Related Accession (Same CDS sequence) XM_017007926.1
    Accession Version XM_017007926.1 Latest version! Documents for ORF clone product in default vector
    Sequence Information ORF Nucleotide Sequence (Length: 4827bp)
    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 transmembrane protein 131-like isoform X6
    Comment Comment: MODEL REFSEQ: This record is predicted by automated computational analysis. This record is derived from a genomic sequence (NC_000004.12) annotated using gene prediction method: Gnomon, supported by 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
    ATGGCGGGGC TCCGACGCCC GCAGCCCGGC TGCTACTGCC GCACCGCGGC GGCCGTGAAC 
    CTCCTGCTGG GCGTCTTCCA GGTCCTGCTG CCCTGCTGTC GCCCGGGAGG GGCTCAGGGA
    CAAGCGATTG AGCCGTTGCC GAACGTGGTG GAGCTGTGGC AGGCAGAAGA AGGGGAACTC
    CTGCTGCCCA CTCAGGGTGA TTCTGAAGAG GGTCTGGAGG AGCCTTCTCA AGAACAGAGC
    TTCTCGGACA AACTATTTAG TGGAAAAGGC TTACATTTTC AGCCATCAGT TTTAGATTTT
    GGAATACAGT TCCTGGGACA TCCTGTAGCA AAGATTCTCC ATGCTTACAA CCCTAGTAGG
    GACAGCGAGG TTGTGGTGAA TTCAGTGTTT GCAGCTGCTG GACATTTCCA TGTACCGCCA
    GTTCCCTGCA GGGTAATTCC AGCAATGGGG AAAACTTCCT TCAGAATTAT TTTCTTACCT
    ACTGAAGAAG GAAGCATTGA AAGTTCCTTA TTTATTAATA CCTCTTCGTA TGGAGTCCTT
    TCCTATCATG TATCTGGAAT TGGCACTCGT AGAATCTCTA CAGAAGGGTC TGCAAAGCAG
    CTACCAAATG CTTATTTTCT GCTTCCAAAG GTCCAGAGCA TTCAGCTGTC TCAAATGCAG
    GCAGAAACCA CTAATACTAG CCTCTTGCAG GTGCAACTGG AATGCAGTTT ACATAATAAA
    GTGTGTCAGC AATTAAAGGG TTGTTATCTG GAATCTGATG ATGTTTTGCG TCTACAAATG
    AGCATAATGG TAACAATGGA AAACTTTTCA AAAGAATTTG AAGAAAACAC ACAACATTTG
    TTAGATCATC TCTCTATTGT TTACGTAGCT ACAGATGAAT CTGAGACCTC AGATGATTCA
    GCAGTAAATA TGTATATATT ACATTCAGGA AACAGCCTTA TATGGATACA GGATATACGC
    CATTTCTCAC AGAGAGATGC TCTGTCTCTG CAGTTTGAAC CAGTACTACT ACCTACTTCT
    ACAACAAACT TTACAAAAAT TGCTTCTTTT ACCTGCAAAG CTACATCATG TGACAGTGGA
    ATTATAGAAG ATGTGAAGAA AACAACACAC ACTCCAACAC TAAAAGCATG CCTCTTCTCT
    TCTGTGGCTC AGGGGTATTT TAGAATGGAC TCTTCTGCAA CCCAGTTTCA CATAGAGACT
    CATGAGAACA CATCAGGACT TTGGTCAATA TGGTACCGCA ACCATTTTGA CCGTAGTGTT
    GTATTAAATG ATGTGTTTCT TTCCAAGGAG ACCAAGCACA TGTTAAAGAT TCTGAATTTC
    ACTGGCCCTT TATTTCTACC TCCAGGCTGT TGGAATATAT TTTCTTTGAA ACTTGCTGTT
    AAAGACATTG CCATAAATCT ATTCACCAAT GTATTTTTGA CTACAAACAT AGGTGCCATT
    TTTGCAATAC CTCTACAGAT TTATTCAGCA CCAACCAAGG AAGGGAGTCT GGGTTTTGAA
    GTGATAGCAC ATTGTGGCAT GCATTATTTC ATGGGAAAAT CAAAAGCAGG AAATCCTAAT
    TGGAATGGGA GCCTTTCTCT GGATCAATCT ACCTGGAATG TGGATTCTGA ACTTGCAAAT
    AAATTGTATG AAAGATGGAA GAAATATAAA AATGGTGACG TCTGCAAGAG GAATGTTTTG
    GGAACAACTC GATTTGCTCA CTTGAAGAAA TCCAAGGAGT CAGAGTCCTT TGTTTTCTTT
    TTGCCTCGTT TGATCGCAGA GCCTGGCCTC ATGTTAAACT TCAGCGCAAC TGCCCTTAGG
    AGCAGGATGA TCAAGTACTT TGTGGTGCAG AACCCGTCCT CTTGGCCGGT CTCCTTGCAG
    CTCCTGCCTC TCTCCTTGTA CCCTAAACCC GAAGCCCTAG TGCACCTGCT CCACAGATGG
    TTTGGCACTG ATATGCAGAT GATTAATTTC ACAACTGGTG AATTCCAGCT CACCGAAGCT
    TGCCCTTACC TGGGTACGCA TTCTGAGGAA TCCAGGTTTG GCATCCTCCA CTTACATCTG
    CAGCCTTTGG AAATGAAAAG GGTTGGCGTA GTTTTCACAC CTGCTGACTA TGGAAAAGTT
    ACCTCACTCA TACTAATCCG GAATAACTTG ACTGTTATTG ACATGATTGG CGTGGAAGGA
    TTTGGAGCAA GAGAGTTATT AAAAGTGGGT GGAAGACTTC CTGGTGCAGG AGGCTCACTC
    CGATTTAAGG TGCCCGAGTC CACGCTGATG GACTGCCGTA GACAACTGAA AGACAGTAAG
    CAAATTTTAT CTATTACAAA GAACTTTAAA GTTGAGAATA TTGGACCTCT TCCTATAACT
    GTTTCGTCTC TGAAAATTAA TGGGTATAAC TGCCAAGGTT ATGGATTCGA GGTGCTGGAT
    TGTCATCAGT TTTCCCTGGA CCCAAACACA TCCCGCGATA TCAGCATTGT GTTCACTCCA
    GACTTTACCT CCTCCTGGGT AATTCGGGAC CTAAGTCTTG TAACCGCAGC GGACCTAGAA
    TTTCGCTTCA CTCTCAATGT GACTCTCCCT CATCACCTGT TGCCCTTGTG TGCAGACGTG
    GTTCCAGGAC CCAGCTGGGA GGAGTCATTT TGGAGGCTCA CGGTCTTCTT TGTCAGTTTG
    TCCCTGTTGG GTGTGATTTT AATAGCCTTC CAACAAGCAC AGTACATTCT CATGGAATTC
    ATGAAAACAA GACAGAGGCA AAATGCTAGC TCCTCTTCAC AGCAAAACAA TGGTCCTATG
    GATGTAATCA GCCCCCATTC TTACAAAAGC AATTGCAAGA ACTTTCTCGA TACATATGGC
    CCCTCTGATA AAGGCAGGGG GAAGAACTGC CTTCCAGTGA ACACTCCCCA AAGCAGGATC
    CAGAATGCTG CAAAGAGGAG CCCAGCCACC TATGGTCATT CTCAGAAGAA GCACAAATGC
    TCAGTGTATT ACAGTAAACA CAAAACCAGC ACAGCTGCGG CCAGCAGCAC CAGCACGACT
    ACTGAGGAAA AACAGACTTC ACCCCTGGGC AGCTCACTGC CTGCTGCTAA AGAGGACATT
    TGCACTGATG CCATGCGTGA GAACTGGATC AGCCTCAGAT ATGCAAGTGG CATAAATGTC
    AACCTGCAGA AGAATTTAAC CCTTCCCAAA AACTTACTGA ATAAAGAAGA AAACACACTG
    AAAAACACAA TTGTTTTCAG TAATCCTTCT TCAGAATGTA GTATGAAGGA GGGAATACAG
    ACATGTATGT TTCCTAAGGA AACTGACATT AAAACTTCAG AGAACACAGC CGAGTTCAAG
    GAACGGGAGC TCTGTCCACT GAAGACCTCC AAGAAACTAC CTGAAAACCA TTTACCAAGA
    AACTCACCTC AGTACCACCA GCCAGACTTG CCAGAAATTT CCAGGAAAAA TAATGGGAAT
    AACCAGCAAG TACCTGTCAA GAATGAAGTA GATCATTGTG AAAATTTGAA GAAGGTGGAC
    ACAAAGCCTT CTTCAGAAAA GAAGATTCAC AAAACATCTA GAGAAGACAT GTTTTCTGAG
    AAACAGGACA TACCTTTCGT AGAGCAAGAA GATCCTTATA GGAAGAAAAA GCTTCAGGAG
    AAAAGAGAAG GAAATTTACA AAATTTAAAT TGGAGTAAAA GTCGAACATG TAGAAAGAAC
    AAGAAAAGGG GTGTTGCTCC AGTCTCAAGG CCTCCTGAAC AGAGTGATCT AAAGCTTGTG
    TGCAGTGACT TTGAGAGGTC TGAGCTGAGC AGTGACATCA ATGTAAGAAG CTGGTGTATA
    CAGGAAAGCA CTAGGGAGGT TTGTAAAGCA GATGCCGAAA TTGCAAGCAG TTTACCTGCT
    GCCCAGAGAG AGGCAGGTTA CTACCAGAAG CCTGAGAAGA AATGTGTGGA CAAGTTCTGC
    TCCGATTCCA GCTCTGACTG TGGGAGCTCC TCTGGCAGCG TGCGTGCCAG CCGGGGCAGC
    TGGGGGAGCT GGAGCAGCAC CAGCAGCTCC GACGGGGATA AGAAGCCCAT GGTGGACGCC
    CAGCACTTCC TGCCGGCCGG AGACAGTGTT TCACAAAATG ATTTTCCTTC TGAAGCTCCC
    ATCTCCTTGA ATCTTTCTCA TAACATCTGC AATCCCATGA CCGTGAATAG TCTCCCACAA
    TACGCAGAGC CTTCCTGTCC CAGCCTTCCT GCCGGGCCCA CAGGTGTTGA AGAAGATAAA
    GGTCTTTACT CACCTGGAGA CCTGTGGCCC ACTCCGCCAG TGTGTGTGAC AAGCAGCTTA
    AACTGCACCC TGGAGAACGG CGTGCCTTGT GTGATTCAGG AGTCGGCCCC GGTTCATAAT
    AGTTTCATTG ATTGGAGTGC AACATGCGAA GGCCAGTTTT CCAGCGCATA CTGTCCATTG
    GAATTGAACG ATTACAATGC CTTTCCAGAA GAAAACATGA ACTATGCCAA TGGCTTCCCC
    TGTCCTGCAG ATGTTCAGAC AGACTTTATT GATCACAACT CTCAGTCTAC CTGGAACACC
    CCACCCAACA TGCCTGCTGC CTGGGGACAT GCCAGTTTCA TCAGCTCTCC GCCCTACCTC
    ACAAGCACCC GAAGCTTGTC TCCAATGTCT GGACTTTTTG GTTCCATCTG GGCCCCGCAA
    AGCGATGTGT ATGAAAATTG CTGCCCCATC AACCCCACCA CGGAACATTC GACCCACATG
    GAAAACCAAG CGGTCGTGTG CAAGGAATAC TACCCGGGGT TCAACCCGTT TCGCGCCTAT
    ATGAACCTGG ACATATGGAC TACCACAGCG AATAGGAATG CAAATTTCCC ACTGTCTAGA
    GACTCGAGTT ACTGTGGGAA TGTGTGA

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

    RefSeq XP_016863415.1
    CDS53..4879
    Translation

    Target ORF information:

    RefSeq Version XM_017007926.1
    Organism Homo sapiens(human)
    Definition Homo sapiens transmembrane 131 like (TMEM131L), transcript variant X6, mRNA.

    Target ORF information:

    Epitope DYKDDDDK
    Bacterial selection AMPR
    Mammalian selection NeoR
    Vector pcDNA3.1+/C-(K)DYK
    XM_017007926.1

    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
    ATGGCGGGGC TCCGACGCCC GCAGCCCGGC TGCTACTGCC GCACCGCGGC GGCCGTGAAC 
    CTCCTGCTGG GCGTCTTCCA GGTCCTGCTG CCCTGCTGTC GCCCGGGAGG GGCTCAGGGA
    CAAGCGATTG AGCCGTTGCC GAACGTGGTG GAGCTGTGGC AGGCAGAAGA AGGGGAACTC
    CTGCTGCCCA CTCAGGGTGA TTCTGAAGAG GGTCTGGAGG AGCCTTCTCA AGAACAGAGC
    TTCTCGGACA AACTATTTAG TGGAAAAGGC TTACATTTTC AGCCATCAGT TTTAGATTTT
    GGAATACAGT TCCTGGGACA TCCTGTAGCA AAGATTCTCC ATGCTTACAA CCCTAGTAGG
    GACAGCGAGG TTGTGGTGAA TTCAGTGTTT GCAGCTGCTG GACATTTCCA TGTACCGCCA
    GTTCCCTGCA GGGTAATTCC AGCAATGGGG AAAACTTCCT TCAGAATTAT TTTCTTACCT
    ACTGAAGAAG GAAGCATTGA AAGTTCCTTA TTTATTAATA CCTCTTCGTA TGGAGTCCTT
    TCCTATCATG TATCTGGAAT TGGCACTCGT AGAATCTCTA CAGAAGGGTC TGCAAAGCAG
    CTACCAAATG CTTATTTTCT GCTTCCAAAG GTCCAGAGCA TTCAGCTGTC TCAAATGCAG
    GCAGAAACCA CTAATACTAG CCTCTTGCAG GTGCAACTGG AATGCAGTTT ACATAATAAA
    GTGTGTCAGC AATTAAAGGG TTGTTATCTG GAATCTGATG ATGTTTTGCG TCTACAAATG
    AGCATAATGG TAACAATGGA AAACTTTTCA AAAGAATTTG AAGAAAACAC ACAACATTTG
    TTAGATCATC TCTCTATTGT TTACGTAGCT ACAGATGAAT CTGAGACCTC AGATGATTCA
    GCAGTAAATA TGTATATATT ACATTCAGGA AACAGCCTTA TATGGATACA GGATATACGC
    CATTTCTCAC AGAGAGATGC TCTGTCTCTG CAGTTTGAAC CAGTACTACT ACCTACTTCT
    ACAACAAACT TTACAAAAAT TGCTTCTTTT ACCTGCAAAG CTACATCATG TGACAGTGGA
    ATTATAGAAG ATGTGAAGAA AACAACACAC ACTCCAACAC TAAAAGCATG CCTCTTCTCT
    TCTGTGGCTC AGGGGTATTT TAGAATGGAC TCTTCTGCAA CCCAGTTTCA CATAGAGACT
    CATGAGAACA CATCAGGACT TTGGTCAATA TGGTACCGCA ACCATTTTGA CCGTAGTGTT
    GTATTAAATG ATGTGTTTCT TTCCAAGGAG ACCAAGCACA TGTTAAAGAT TCTGAATTTC
    ACTGGCCCTT TATTTCTACC TCCAGGCTGT TGGAATATAT TTTCTTTGAA ACTTGCTGTT
    AAAGACATTG CCATAAATCT ATTCACCAAT GTATTTTTGA CTACAAACAT AGGTGCCATT
    TTTGCAATAC CTCTACAGAT TTATTCAGCA CCAACCAAGG AAGGGAGTCT GGGTTTTGAA
    GTGATAGCAC ATTGTGGCAT GCATTATTTC ATGGGAAAAT CAAAAGCAGG AAATCCTAAT
    TGGAATGGGA GCCTTTCTCT GGATCAATCT ACCTGGAATG TGGATTCTGA ACTTGCAAAT
    AAATTGTATG AAAGATGGAA GAAATATAAA AATGGTGACG TCTGCAAGAG GAATGTTTTG
    GGAACAACTC GATTTGCTCA CTTGAAGAAA TCCAAGGAGT CAGAGTCCTT TGTTTTCTTT
    TTGCCTCGTT TGATCGCAGA GCCTGGCCTC ATGTTAAACT TCAGCGCAAC TGCCCTTAGG
    AGCAGGATGA TCAAGTACTT TGTGGTGCAG AACCCGTCCT CTTGGCCGGT CTCCTTGCAG
    CTCCTGCCTC TCTCCTTGTA CCCTAAACCC GAAGCCCTAG TGCACCTGCT CCACAGATGG
    TTTGGCACTG ATATGCAGAT GATTAATTTC ACAACTGGTG AATTCCAGCT CACCGAAGCT
    TGCCCTTACC TGGGTACGCA TTCTGAGGAA TCCAGGTTTG GCATCCTCCA CTTACATCTG
    CAGCCTTTGG AAATGAAAAG GGTTGGCGTA GTTTTCACAC CTGCTGACTA TGGAAAAGTT
    ACCTCACTCA TACTAATCCG GAATAACTTG ACTGTTATTG ACATGATTGG CGTGGAAGGA
    TTTGGAGCAA GAGAGTTATT AAAAGTGGGT GGAAGACTTC CTGGTGCAGG AGGCTCACTC
    CGATTTAAGG TGCCCGAGTC CACGCTGATG GACTGCCGTA GACAACTGAA AGACAGTAAG
    CAAATTTTAT CTATTACAAA GAACTTTAAA GTTGAGAATA TTGGACCTCT TCCTATAACT
    GTTTCGTCTC TGAAAATTAA TGGGTATAAC TGCCAAGGTT ATGGATTCGA GGTGCTGGAT
    TGTCATCAGT TTTCCCTGGA CCCAAACACA TCCCGCGATA TCAGCATTGT GTTCACTCCA
    GACTTTACCT CCTCCTGGGT AATTCGGGAC CTAAGTCTTG TAACCGCAGC GGACCTAGAA
    TTTCGCTTCA CTCTCAATGT GACTCTCCCT CATCACCTGT TGCCCTTGTG TGCAGACGTG
    GTTCCAGGAC CCAGCTGGGA GGAGTCATTT TGGAGGCTCA CGGTCTTCTT TGTCAGTTTG
    TCCCTGTTGG GTGTGATTTT AATAGCCTTC CAACAAGCAC AGTACATTCT CATGGAATTC
    ATGAAAACAA GACAGAGGCA AAATGCTAGC TCCTCTTCAC AGCAAAACAA TGGTCCTATG
    GATGTAATCA GCCCCCATTC TTACAAAAGC AATTGCAAGA ACTTTCTCGA TACATATGGC
    CCCTCTGATA AAGGCAGGGG GAAGAACTGC CTTCCAGTGA ACACTCCCCA AAGCAGGATC
    CAGAATGCTG CAAAGAGGAG CCCAGCCACC TATGGTCATT CTCAGAAGAA GCACAAATGC
    TCAGTGTATT ACAGTAAACA CAAAACCAGC ACAGCTGCGG CCAGCAGCAC CAGCACGACT
    ACTGAGGAAA AACAGACTTC ACCCCTGGGC AGCTCACTGC CTGCTGCTAA AGAGGACATT
    TGCACTGATG CCATGCGTGA GAACTGGATC AGCCTCAGAT ATGCAAGTGG CATAAATGTC
    AACCTGCAGA AGAATTTAAC CCTTCCCAAA AACTTACTGA ATAAAGAAGA AAACACACTG
    AAAAACACAA TTGTTTTCAG TAATCCTTCT TCAGAATGTA GTATGAAGGA GGGAATACAG
    ACATGTATGT TTCCTAAGGA AACTGACATT AAAACTTCAG AGAACACAGC CGAGTTCAAG
    GAACGGGAGC TCTGTCCACT GAAGACCTCC AAGAAACTAC CTGAAAACCA TTTACCAAGA
    AACTCACCTC AGTACCACCA GCCAGACTTG CCAGAAATTT CCAGGAAAAA TAATGGGAAT
    AACCAGCAAG TACCTGTCAA GAATGAAGTA GATCATTGTG AAAATTTGAA GAAGGTGGAC
    ACAAAGCCTT CTTCAGAAAA GAAGATTCAC AAAACATCTA GAGAAGACAT GTTTTCTGAG
    AAACAGGACA TACCTTTCGT AGAGCAAGAA GATCCTTATA GGAAGAAAAA GCTTCAGGAG
    AAAAGAGAAG GAAATTTACA AAATTTAAAT TGGAGTAAAA GTCGAACATG TAGAAAGAAC
    AAGAAAAGGG GTGTTGCTCC AGTCTCAAGG CCTCCTGAAC AGAGTGATCT AAAGCTTGTG
    TGCAGTGACT TTGAGAGGTC TGAGCTGAGC AGTGACATCA ATGTAAGAAG CTGGTGTATA
    CAGGAAAGCA CTAGGGAGGT TTGTAAAGCA GATGCCGAAA TTGCAAGCAG TTTACCTGCT
    GCCCAGAGAG AGGCAGGTTA CTACCAGAAG CCTGAGAAGA AATGTGTGGA CAAGTTCTGC
    TCCGATTCCA GCTCTGACTG TGGGAGCTCC TCTGGCAGCG TGCGTGCCAG CCGGGGCAGC
    TGGGGGAGCT GGAGCAGCAC CAGCAGCTCC GACGGGGATA AGAAGCCCAT GGTGGACGCC
    CAGCACTTCC TGCCGGCCGG AGACAGTGTT TCACAAAATG ATTTTCCTTC TGAAGCTCCC
    ATCTCCTTGA ATCTTTCTCA TAACATCTGC AATCCCATGA CCGTGAATAG TCTCCCACAA
    TACGCAGAGC CTTCCTGTCC CAGCCTTCCT GCCGGGCCCA CAGGTGTTGA AGAAGATAAA
    GGTCTTTACT CACCTGGAGA CCTGTGGCCC ACTCCGCCAG TGTGTGTGAC AAGCAGCTTA
    AACTGCACCC TGGAGAACGG CGTGCCTTGT GTGATTCAGG AGTCGGCCCC GGTTCATAAT
    AGTTTCATTG ATTGGAGTGC AACATGCGAA GGCCAGTTTT CCAGCGCATA CTGTCCATTG
    GAATTGAACG ATTACAATGC CTTTCCAGAA GAAAACATGA ACTATGCCAA TGGCTTCCCC
    TGTCCTGCAG ATGTTCAGAC AGACTTTATT GATCACAACT CTCAGTCTAC CTGGAACACC
    CCACCCAACA TGCCTGCTGC CTGGGGACAT GCCAGTTTCA TCAGCTCTCC GCCCTACCTC
    ACAAGCACCC GAAGCTTGTC TCCAATGTCT GGACTTTTTG GTTCCATCTG GGCCCCGCAA
    AGCGATGTGT ATGAAAATTG CTGCCCCATC AACCCCACCA CGGAACATTC GACCCACATG
    GAAAACCAAG CGGTCGTGTG CAAGGAATAC TACCCGGGGT TCAACCCGTT TCGCGCCTAT
    ATGAACCTGG ACATATGGAC TACCACAGCG AATAGGAATG CAAATTTCCC ACTGTCTAGA
    GACTCGAGTT ACTGTGGGAA TGTGTGA

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

    CloneID OHu09176
    Clone ID Related Accession (Same CDS sequence) NM_001131007.2 , NM_001131007.1
    Accession Version NM_001131007.2 Latest version! Documents for ORF clone product in default vector
    Sequence Information ORF Nucleotide Sequence (Length: 4833bp)
    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 2019-04-30
    Organism Homo sapiens(human)
    Product transmembrane protein 131-like isoform 1 precursor
    Comment Comment: VALIDATED REFSEQ: This record has undergone validation or preliminary review. The reference sequence was derived from AK092270.1, AK308448.1, AK096538.1 and BC044932.1. On Nov 22, 2018 this sequence version replaced NM_001131007.1. Transcript Variant: This variant (1) represents the longer transcript and encodes the longer isoform (2). ##Evidence-Data-START## Transcript exon combination :: SRR1803612.113328.1, SRR1803611.115260.1 [ECO:0000332] RNAseq introns :: single sample supports all introns SAMEA1965299, SAMEA1966682 [ECO:0000348] ##Evidence-Data-END## ##RefSeq-Attributes-START## MANE Ensembl match :: ENST00000409959.8/ ENSP00000386787.3 RefSeq Select criteria :: based on conservation, expression ##RefSeq-Attributes-END## COMPLETENESS: full length.

    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
    ATGGCGGGGC TCCGACGCCC GCAGCCCGGC TGCTACTGCC GCACCGCGGC GGCCGTGAAC 
    CTCCTGCTGG GCGTCTTCCA GGTCCTGCTG CCCTGCTGTC GCCCGGGAGG GGCTCAGGGA
    CAAGCGATTG AGCCGTTGCC GAACGTGGTG GAGCTGTGGC AGGCAGAAGA AGGGGAACTC
    CTGCTGCCCA CTCAGGGTGA TTCTGAAGAG GGTCTGGAGG AGCCTTCTCA AGAACAGAGC
    TTCTCGGACA AACTATTTAG TGGAAAAGGC TTACATTTTC AGCCATCAGT TTTAGATTTT
    GGAATACAGT TCCTGGGACA TCCTGTAGCA AAGATTCTCC ATGCTTACAA CCCTAGTAGG
    GACAGCGAGG TTGTGGTGAA TTCAGTGTTT GCAGCTGCTG GACATTTCCA TGTACCGCCA
    GTTCCCTGCA GGGTAATTCC AGCAATGGGG AAAACTTCCT TCAGAATTAT TTTCTTACCT
    ACTGAAGAAG GAAGCATTGA AAGTTCCTTA TTTATTAATA CCTCTTCGTA TGGAGTCCTT
    TCCTATCATG TATCTGGAAT TGGCACTCGT AGAATCTCTA CAGAAGGGTC TGCAAAGCAG
    CTACCAAATG CTTATTTTCT GCTTCCAAAG GTCCAGAGCA TTCAGCTGTC TCAAATGCAG
    GCAGAAACCA CTAATACTAG CCTCTTGCAG GTGCAACTGG AATGCAGTTT ACATAATAAA
    GTGTGTCAGC AATTAAAGGG TTGTTATCTG GAATCTGATG ATGTTTTGCG TCTACAAATG
    AGCATAATGG TAACAATGGA AAACTTTTCA AAAGAATTTG AAGAAAACAC ACAACATTTG
    TTAGATCATC TCTCTATTGT TTACGTAGCT ACAGATGAAT CTGAGACCTC AGATGATTCA
    GCAGTAAATA TGTATATATT ACATTCAGGA AACAGCCTTA TATGGATACA GGATATACGC
    CATTTCTCAC AGAGAGATGC TCTGTCTCTG CAGTTTGAAC CAGTACTACT ACCTACTTCT
    ACAACAAACT TTACAAAAAT TGCTTCTTTT ACCTGCAAAG CAGCTACATC ATGTGACAGT
    GGAATTATAG AAGATGTGAA GAAAACAACA CACACTCCAA CACTAAAAGC ATGCCTCTTC
    TCTTCTGTGG CTCAGGGGTA TTTTAGAATG GACTCTTCTG CAACCCAGTT TCACATAGAG
    ACTCATGAGA ACACATCAGG ACTTTGGTCA ATATGGTACC GCAACCATTT TGACCGTAGT
    GTTGTATTAA ATGATGTGTT TCTTTCCAAG GAGACCAAGC ACATGTTAAA GATTCTGAAT
    TTCACTGGCC CTTTATTTCT ACCTCCAGGC TGTTGGAATA TATTTTCTTT GAAACTTGCT
    GTTAAAGACA TTGCCATAAA TCTATTCACC AATGTATTTT TGACTACAAA CATAGGTGCC
    ATTTTTGCAA TACCTCTACA GATTTATTCA GCACCAACCA AGGAAGGGAG TCTGGGTTTT
    GAAGTGATAG CACATTGTGG CATGCATTAT TTCATGGGAA AATCAAAAGC AGGAAATCCT
    AATTGGAATG GGAGCCTTTC TCTGGATCAA TCTACCTGGA ATGTGGATTC TGAACTTGCA
    AATAAATTGT ATGAAAGATG GAAGAAATAT AAAAATGGTG ACGTCTGCAA GAGGAATGTT
    TTGGGAACAA CTCGATTTGC TCACTTGAAG AAATCCAAGG AGTCAGAGTC CTTTGTTTTC
    TTTTTGCCTC GTTTGATCGC AGAGCCTGGC CTCATGTTAA ACTTCAGCGC AACTGCCCTT
    AGGAGCAGGA TGATCAAGTA CTTTGTGGTG CAGAACCCGT CCTCTTGGCC GGTCTCCTTG
    CAGCTCCTGC CTCTCTCCTT GTACCCTAAA CCCGAAGCCC TAGTGCACCT GCTCCACAGA
    TGGTTTGGCA CTGATATGCA GATGATTAAT TTCACAACTG GTGAATTCCA GCTCACCGAA
    GCTTGCCCTT ACCTGGGTAC GCATTCTGAG GAATCCAGGT TTGGCATCCT CCACTTACAT
    CTGCAGCCTT TGGAAATGAA AAGGGTTGGC GTAGTTTTCA CACCTGCTGA CTATGGAAAA
    GTTACCTCAC TCATACTAAT CCGGAATAAC TTGACTGTTA TTGACATGAT TGGCGTGGAA
    GGATTTGGAG CAAGAGAGTT ATTAAAAGTG GGTGGAAGAC TTCCTGGTGC AGGAGGCTCA
    CTCCGATTTA AGGTGCCCGA GTCCACGCTG ATGGACTGCC GTAGACAACT GAAAGACAGT
    AAGCAAATTT TATCTATTAC AAAGAACTTT AAAGTTGAGA ATATTGGACC TCTTCCTATA
    ACTGTTTCGT CTCTGAAAAT TAATGGGTAT AACTGCCAAG GTTATGGATT CGAGGTGCTG
    GATTGTCATC AGTTTTCCCT GGACCCAAAC ACATCCCGCG ATATCAGCAT TGTGTTCACT
    CCAGACTTTA CCTCCTCCTG GGTAATTCGG GACCTAAGTC TTGTAACCGC AGCGGACCTA
    GAATTTCGCT TCACTCTCAA TGTGACTCTC CCTCATCACC TGTTGCCCTT GTGTGCAGAC
    GTGGTTCCAG GACCCAGCTG GGAGGAGTCA TTTTGGAGGC TCACGGTCTT CTTTGTCAGT
    TTGTCCCTGT TGGGTGTGAT TTTAATAGCC TTCCAACAAG CACAGTACAT TCTCATGGAA
    TTCATGAAAA CAAGACAGAG GCAAAATGCT AGCTCCTCTT CACAGCAAAA CAATGGTCCT
    ATGGATGTAA TCAGCCCCCA TTCTTACAAA AGCAATTGCA AGAACTTTCT CGATACATAT
    GGCCCCTCTG ATAAAGGCAG GGGGAAGAAC TGCCTTCCAG TGAACACTCC CCAAAGCAGG
    ATCCAGAATG CTGCAAAGAG GAGCCCAGCC ACCTATGGTC ATTCTCAGAA GAAGCACAAA
    TGCTCAGTGT ATTACAGTAA ACACAAAACC AGCACAGCTG CGGCCAGCAG CACCAGCACG
    ACTACTGAGG AAAAACAGAC TTCACCCCTG GGCAGCTCAC TGCCTGCTGC TAAAGAGGAC
    ATTTGCACTG ATGCCATGCG TGAGAACTGG ATCAGCCTCA GATATGCAAG TGGCATAAAT
    GTCAACCTGC AGAAGAATTT AACCCTTCCC AAAAACTTAC TGAATAAAGA AGAAAACACA
    CTGAAAAACA CAATTGTTTT CAGTAATCCT TCTTCAGAAT GTAGTATGAA GGAGGGAATA
    CAGACATGTA TGTTTCCTAA GGAAACTGAC ATTAAAACTT CAGAGAACAC AGCCGAGTTC
    AAGGAACGGG AGCTCTGTCC ACTGAAGACC TCCAAGAAAC TACCTGAAAA CCATTTACCA
    AGAAACTCAC CTCAGTACCA CCAGCCAGAC TTGCCAGAAA TTTCCAGGAA AAATAATGGG
    AATAACCAGC AAGTACCTGT CAAGAATGAA GTAGATCATT GTGAAAATTT GAAGAAGGTG
    GACACAAAGC CTTCTTCAGA AAAGAAGATT CACAAAACAT CTAGAGAAGA CATGTTTTCT
    GAGAAACAGG ACATACCTTT CGTAGAGCAA GAAGATCCTT ATAGGAAGAA AAAGCTTCAG
    GAGAAAAGAG AAGGAAATTT ACAAAATTTA AATTGGAGTA AAAGTCGAAC ATGTAGAAAG
    AACAAGAAAA GGGGTGTTGC TCCAGTCTCA AGGCCTCCTG AACAGAGTGA TCTAAAGCTT
    GTGTGCAGTG ACTTTGAGAG GTCTGAGCTG AGCAGTGACA TCAATGTAAG AAGCTGGTGT
    ATACAGGAAA GCACTAGGGA GGTTTGTAAA GCAGATGCCG AAATTGCAAG CAGTTTACCT
    GCTGCCCAGA GAGAGGCAGA AGGTTACTAC CAGAAGCCTG AGAAGAAATG TGTGGACAAG
    TTCTGCTCCG ATTCCAGCTC TGACTGTGGG AGCTCCTCTG GCAGCGTGCG TGCCAGCCGG
    GGCAGCTGGG GGAGCTGGAG CAGCACCAGC AGCTCCGACG GGGATAAGAA GCCCATGGTG
    GACGCCCAGC ACTTCCTGCC GGCCGGAGAC AGTGTTTCAC AAAATGATTT TCCTTCTGAA
    GCTCCCATCT CCTTGAATCT TTCTCATAAC ATCTGCAATC CCATGACCGT GAATAGTCTC
    CCACAATACG CAGAGCCTTC CTGTCCCAGC CTTCCTGCCG GGCCCACAGG TGTTGAAGAA
    GATAAAGGTC TTTACTCACC TGGAGACCTG TGGCCCACTC CGCCAGTGTG TGTGACAAGC
    AGCTTAAACT GCACCCTGGA GAACGGCGTG CCTTGTGTGA TTCAGGAGTC GGCCCCGGTT
    CATAATAGTT TCATTGATTG GAGTGCAACA TGCGAAGGCC AGTTTTCCAG CGCATACTGT
    CCATTGGAAT TGAACGATTA CAATGCCTTT CCAGAAGAAA ACATGAACTA TGCCAATGGC
    TTCCCCTGTC CTGCAGATGT TCAGACAGAC TTTATTGATC ACAACTCTCA GTCTACCTGG
    AACACCCCAC CCAACATGCC TGCTGCCTGG GGACATGCCA GTTTCATCAG CTCTCCGCCC
    TACCTCACAA GCACCCGAAG CTTGTCTCCA ATGTCTGGAC TTTTTGGTTC CATCTGGGCC
    CCGCAAAGCG ATGTGTATGA AAATTGCTGC CCCATCAACC CCACCACGGA ACATTCGACC
    CACATGGAAA ACCAAGCGGT CGTGTGCAAG GAATACTACC CGGGGTTCAA CCCGTTTCGC
    GCCTATATGA ACCTGGACAT ATGGACTACC ACAGCGAATA GGAATGCAAA TTTCCCACTG
    TCTAGAGACT CGAGTTACTG TGGGAATGTG TGA

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

    RefSeq NP_001124479.1
    CDS39..4871
    Translation

    Target ORF information:

    RefSeq Version NM_001131007.2
    Organism Homo sapiens(human)
    Definition Homo sapiens transmembrane 131 like (TMEM131L), transcript variant 1, mRNA.

    Target ORF information:

    Epitope DYKDDDDK
    Bacterial selection AMPR
    Mammalian selection NeoR
    Vector pcDNA3.1+/C-(K)DYK
    NM_001131007.2

    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
    ATGGCGGGGC TCCGACGCCC GCAGCCCGGC TGCTACTGCC GCACCGCGGC GGCCGTGAAC 
    CTCCTGCTGG GCGTCTTCCA GGTCCTGCTG CCCTGCTGTC GCCCGGGAGG GGCTCAGGGA
    CAAGCGATTG AGCCGTTGCC GAACGTGGTG GAGCTGTGGC AGGCAGAAGA AGGGGAACTC
    CTGCTGCCCA CTCAGGGTGA TTCTGAAGAG GGTCTGGAGG AGCCTTCTCA AGAACAGAGC
    TTCTCGGACA AACTATTTAG TGGAAAAGGC TTACATTTTC AGCCATCAGT TTTAGATTTT
    GGAATACAGT TCCTGGGACA TCCTGTAGCA AAGATTCTCC ATGCTTACAA CCCTAGTAGG
    GACAGCGAGG TTGTGGTGAA TTCAGTGTTT GCAGCTGCTG GACATTTCCA TGTACCGCCA
    GTTCCCTGCA GGGTAATTCC AGCAATGGGG AAAACTTCCT TCAGAATTAT TTTCTTACCT
    ACTGAAGAAG GAAGCATTGA AAGTTCCTTA TTTATTAATA CCTCTTCGTA TGGAGTCCTT
    TCCTATCATG TATCTGGAAT TGGCACTCGT AGAATCTCTA CAGAAGGGTC TGCAAAGCAG
    CTACCAAATG CTTATTTTCT GCTTCCAAAG GTCCAGAGCA TTCAGCTGTC TCAAATGCAG
    GCAGAAACCA CTAATACTAG CCTCTTGCAG GTGCAACTGG AATGCAGTTT ACATAATAAA
    GTGTGTCAGC AATTAAAGGG TTGTTATCTG GAATCTGATG ATGTTTTGCG TCTACAAATG
    AGCATAATGG TAACAATGGA AAACTTTTCA AAAGAATTTG AAGAAAACAC ACAACATTTG
    TTAGATCATC TCTCTATTGT TTACGTAGCT ACAGATGAAT CTGAGACCTC AGATGATTCA
    GCAGTAAATA TGTATATATT ACATTCAGGA AACAGCCTTA TATGGATACA GGATATACGC
    CATTTCTCAC AGAGAGATGC TCTGTCTCTG CAGTTTGAAC CAGTACTACT ACCTACTTCT
    ACAACAAACT TTACAAAAAT TGCTTCTTTT ACCTGCAAAG CAGCTACATC ATGTGACAGT
    GGAATTATAG AAGATGTGAA GAAAACAACA CACACTCCAA CACTAAAAGC ATGCCTCTTC
    TCTTCTGTGG CTCAGGGGTA TTTTAGAATG GACTCTTCTG CAACCCAGTT TCACATAGAG
    ACTCATGAGA ACACATCAGG ACTTTGGTCA ATATGGTACC GCAACCATTT TGACCGTAGT
    GTTGTATTAA ATGATGTGTT TCTTTCCAAG GAGACCAAGC ACATGTTAAA GATTCTGAAT
    TTCACTGGCC CTTTATTTCT ACCTCCAGGC TGTTGGAATA TATTTTCTTT GAAACTTGCT
    GTTAAAGACA TTGCCATAAA TCTATTCACC AATGTATTTT TGACTACAAA CATAGGTGCC
    ATTTTTGCAA TACCTCTACA GATTTATTCA GCACCAACCA AGGAAGGGAG TCTGGGTTTT
    GAAGTGATAG CACATTGTGG CATGCATTAT TTCATGGGAA AATCAAAAGC AGGAAATCCT
    AATTGGAATG GGAGCCTTTC TCTGGATCAA TCTACCTGGA ATGTGGATTC TGAACTTGCA
    AATAAATTGT ATGAAAGATG GAAGAAATAT AAAAATGGTG ACGTCTGCAA GAGGAATGTT
    TTGGGAACAA CTCGATTTGC TCACTTGAAG AAATCCAAGG AGTCAGAGTC CTTTGTTTTC
    TTTTTGCCTC GTTTGATCGC AGAGCCTGGC CTCATGTTAA ACTTCAGCGC AACTGCCCTT
    AGGAGCAGGA TGATCAAGTA CTTTGTGGTG CAGAACCCGT CCTCTTGGCC GGTCTCCTTG
    CAGCTCCTGC CTCTCTCCTT GTACCCTAAA CCCGAAGCCC TAGTGCACCT GCTCCACAGA
    TGGTTTGGCA CTGATATGCA GATGATTAAT TTCACAACTG GTGAATTCCA GCTCACCGAA
    GCTTGCCCTT ACCTGGGTAC GCATTCTGAG GAATCCAGGT TTGGCATCCT CCACTTACAT
    CTGCAGCCTT TGGAAATGAA AAGGGTTGGC GTAGTTTTCA CACCTGCTGA CTATGGAAAA
    GTTACCTCAC TCATACTAAT CCGGAATAAC TTGACTGTTA TTGACATGAT TGGCGTGGAA
    GGATTTGGAG CAAGAGAGTT ATTAAAAGTG GGTGGAAGAC TTCCTGGTGC AGGAGGCTCA
    CTCCGATTTA AGGTGCCCGA GTCCACGCTG ATGGACTGCC GTAGACAACT GAAAGACAGT
    AAGCAAATTT TATCTATTAC AAAGAACTTT AAAGTTGAGA ATATTGGACC TCTTCCTATA
    ACTGTTTCGT CTCTGAAAAT TAATGGGTAT AACTGCCAAG GTTATGGATT CGAGGTGCTG
    GATTGTCATC AGTTTTCCCT GGACCCAAAC ACATCCCGCG ATATCAGCAT TGTGTTCACT
    CCAGACTTTA CCTCCTCCTG GGTAATTCGG GACCTAAGTC TTGTAACCGC AGCGGACCTA
    GAATTTCGCT TCACTCTCAA TGTGACTCTC CCTCATCACC TGTTGCCCTT GTGTGCAGAC
    GTGGTTCCAG GACCCAGCTG GGAGGAGTCA TTTTGGAGGC TCACGGTCTT CTTTGTCAGT
    TTGTCCCTGT TGGGTGTGAT TTTAATAGCC TTCCAACAAG CACAGTACAT TCTCATGGAA
    TTCATGAAAA CAAGACAGAG GCAAAATGCT AGCTCCTCTT CACAGCAAAA CAATGGTCCT
    ATGGATGTAA TCAGCCCCCA TTCTTACAAA AGCAATTGCA AGAACTTTCT CGATACATAT
    GGCCCCTCTG ATAAAGGCAG GGGGAAGAAC TGCCTTCCAG TGAACACTCC CCAAAGCAGG
    ATCCAGAATG CTGCAAAGAG GAGCCCAGCC ACCTATGGTC ATTCTCAGAA GAAGCACAAA
    TGCTCAGTGT ATTACAGTAA ACACAAAACC AGCACAGCTG CGGCCAGCAG CACCAGCACG
    ACTACTGAGG AAAAACAGAC TTCACCCCTG GGCAGCTCAC TGCCTGCTGC TAAAGAGGAC
    ATTTGCACTG ATGCCATGCG TGAGAACTGG ATCAGCCTCA GATATGCAAG TGGCATAAAT
    GTCAACCTGC AGAAGAATTT AACCCTTCCC AAAAACTTAC TGAATAAAGA AGAAAACACA
    CTGAAAAACA CAATTGTTTT CAGTAATCCT TCTTCAGAAT GTAGTATGAA GGAGGGAATA
    CAGACATGTA TGTTTCCTAA GGAAACTGAC ATTAAAACTT CAGAGAACAC AGCCGAGTTC
    AAGGAACGGG AGCTCTGTCC ACTGAAGACC TCCAAGAAAC TACCTGAAAA CCATTTACCA
    AGAAACTCAC CTCAGTACCA CCAGCCAGAC TTGCCAGAAA TTTCCAGGAA AAATAATGGG
    AATAACCAGC AAGTACCTGT CAAGAATGAA GTAGATCATT GTGAAAATTT GAAGAAGGTG
    GACACAAAGC CTTCTTCAGA AAAGAAGATT CACAAAACAT CTAGAGAAGA CATGTTTTCT
    GAGAAACAGG ACATACCTTT CGTAGAGCAA GAAGATCCTT ATAGGAAGAA AAAGCTTCAG
    GAGAAAAGAG AAGGAAATTT ACAAAATTTA AATTGGAGTA AAAGTCGAAC ATGTAGAAAG
    AACAAGAAAA GGGGTGTTGC TCCAGTCTCA AGGCCTCCTG AACAGAGTGA TCTAAAGCTT
    GTGTGCAGTG ACTTTGAGAG GTCTGAGCTG AGCAGTGACA TCAATGTAAG AAGCTGGTGT
    ATACAGGAAA GCACTAGGGA GGTTTGTAAA GCAGATGCCG AAATTGCAAG CAGTTTACCT
    GCTGCCCAGA GAGAGGCAGA AGGTTACTAC CAGAAGCCTG AGAAGAAATG TGTGGACAAG
    TTCTGCTCCG ATTCCAGCTC TGACTGTGGG AGCTCCTCTG GCAGCGTGCG TGCCAGCCGG
    GGCAGCTGGG GGAGCTGGAG CAGCACCAGC AGCTCCGACG GGGATAAGAA GCCCATGGTG
    GACGCCCAGC ACTTCCTGCC GGCCGGAGAC AGTGTTTCAC AAAATGATTT TCCTTCTGAA
    GCTCCCATCT CCTTGAATCT TTCTCATAAC ATCTGCAATC CCATGACCGT GAATAGTCTC
    CCACAATACG CAGAGCCTTC CTGTCCCAGC CTTCCTGCCG GGCCCACAGG TGTTGAAGAA
    GATAAAGGTC TTTACTCACC TGGAGACCTG TGGCCCACTC CGCCAGTGTG TGTGACAAGC
    AGCTTAAACT GCACCCTGGA GAACGGCGTG CCTTGTGTGA TTCAGGAGTC GGCCCCGGTT
    CATAATAGTT TCATTGATTG GAGTGCAACA TGCGAAGGCC AGTTTTCCAG CGCATACTGT
    CCATTGGAAT TGAACGATTA CAATGCCTTT CCAGAAGAAA ACATGAACTA TGCCAATGGC
    TTCCCCTGTC CTGCAGATGT TCAGACAGAC TTTATTGATC ACAACTCTCA GTCTACCTGG
    AACACCCCAC CCAACATGCC TGCTGCCTGG GGACATGCCA GTTTCATCAG CTCTCCGCCC
    TACCTCACAA GCACCCGAAG CTTGTCTCCA ATGTCTGGAC TTTTTGGTTC CATCTGGGCC
    CCGCAAAGCG ATGTGTATGA AAATTGCTGC CCCATCAACC CCACCACGGA ACATTCGACC
    CACATGGAAA ACCAAGCGGT CGTGTGCAAG GAATACTACC CGGGGTTCAA CCCGTTTCGC
    GCCTATATGA ACCTGGACAT ATGGACTACC ACAGCGAATA GGAATGCAAA TTTCCCACTG
    TCTAGAGACT CGAGTTACTG TGGGAATGTG TGA

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

    CloneID OHu09176
    Clone ID Related Accession (Same CDS sequence) NM_001131007.2 , NM_001131007.1
    Accession Version NM_001131007.1 Documents for ORF clone product in default vector
    Sequence Information ORF Nucleotide Sequence (Length: 4833bp)
    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 2017-10-01
    Organism Homo sapiens(human)
    Product transmembrane protein 131-like isoform 1 precursor
    Comment Comment: PROVISIONAL REFSEQ: This record has not yet been subject to final NCBI review. The reference sequence was derived from DA778851.1, AK092270.1, AK308448.1, AK096538.1 and BC044932.1. Transcript Variant: This variant (1) represents the longer transcript and encodes the longer isoform (2). ##Evidence-Data-START## RNAseq introns :: single sample supports all introns SAMEA1965299, SAMEA1966682 [ECO:0000348] ##Evidence-Data-END## COMPLETENESS: complete on the 3' end.

    1
    61
    121
    181
    241
    301
    361
    421
    481
    541
    601
    661
    721
    781
    841
    901
    961
    1021
    1081
    1141
    1201
    1261
    1321
    1381
    1441
    1501
    1561
    1621
    1681
    1741
    1801
    1861
    1921
    1981
    2041
    2101
    2161
    2221
    2281
    2341
    2401
    2461
    2521
    2581
    2641
    2701
    2761
    2821
    2881
    2941
    3001
    3061
    3121
    3181
    3241
    3301
    3361
    3421
    3481
    3541
    3601
    3661
    3721
    3781
    3841
    3901
    3961
    4021
    4081
    4141
    4201
    4261
    4321
    4381
    4441
    4501
    4561
    4621
    4681
    4741
    4801
    ATGGCGGGGC TCCGACGCCC GCAGCCCGGC TGCTACTGCC GCACCGCGGC GGCCGTGAAC 
    CTCCTGCTGG GCGTCTTCCA GGTCCTGCTG CCCTGCTGTC GCCCGGGAGG GGCTCAGGGA
    CAAGCGATTG AGCCGTTGCC GAACGTGGTG GAGCTGTGGC AGGCAGAAGA AGGGGAACTC
    CTGCTGCCCA CTCAGGGTGA TTCTGAAGAG GGTCTGGAGG AGCCTTCTCA AGAACAGAGC
    TTCTCGGACA AACTATTTAG TGGAAAAGGC TTACATTTTC AGCCATCAGT TTTAGATTTT
    GGAATACAGT TCCTGGGACA TCCTGTAGCA AAGATTCTCC ATGCTTACAA CCCTAGTAGG
    GACAGCGAGG TTGTGGTGAA TTCAGTGTTT GCAGCTGCTG GACATTTCCA TGTACCGCCA
    GTTCCCTGCA GGGTAATTCC AGCAATGGGG AAAACTTCCT TCAGAATTAT TTTCTTACCT
    ACTGAAGAAG GAAGCATTGA AAGTTCCTTA TTTATTAATA CCTCTTCGTA TGGAGTCCTT
    TCCTATCATG TATCTGGAAT TGGCACTCGT AGAATCTCTA CAGAAGGGTC TGCAAAGCAG
    CTACCAAATG CTTATTTTCT GCTTCCAAAG GTCCAGAGCA TTCAGCTGTC TCAAATGCAG
    GCAGAAACCA CTAATACTAG CCTCTTGCAG GTGCAACTGG AATGCAGTTT ACATAATAAA
    GTGTGTCAGC AATTAAAGGG TTGTTATCTG GAATCTGATG ATGTTTTGCG TCTACAAATG
    AGCATAATGG TAACAATGGA AAACTTTTCA AAAGAATTTG AAGAAAACAC ACAACATTTG
    TTAGATCATC TCTCTATTGT TTACGTAGCT ACAGATGAAT CTGAGACCTC AGATGATTCA
    GCAGTAAATA TGTATATATT ACATTCAGGA AACAGCCTTA TATGGATACA GGATATACGC
    CATTTCTCAC AGAGAGATGC TCTGTCTCTG CAGTTTGAAC CAGTACTACT ACCTACTTCT
    ACAACAAACT TTACAAAAAT TGCTTCTTTT ACCTGCAAAG CAGCTACATC ATGTGACAGT
    GGAATTATAG AAGATGTGAA GAAAACAACA CACACTCCAA CACTAAAAGC ATGCCTCTTC
    TCTTCTGTGG CTCAGGGGTA TTTTAGAATG GACTCTTCTG CAACCCAGTT TCACATAGAG
    ACTCATGAGA ACACATCAGG ACTTTGGTCA ATATGGTACC GCAACCATTT TGACCGTAGT
    GTTGTATTAA ATGATGTGTT TCTTTCCAAG GAGACCAAGC ACATGTTAAA GATTCTGAAT
    TTCACTGGCC CTTTATTTCT ACCTCCAGGC TGTTGGAATA TATTTTCTTT GAAACTTGCT
    GTTAAAGACA TTGCCATAAA TCTATTCACC AATGTATTTT TGACTACAAA CATAGGTGCC
    ATTTTTGCAA TACCTCTACA GATTTATTCA GCACCAACCA AGGAAGGGAG TCTGGGTTTT
    GAAGTGATAG CACATTGTGG CATGCATTAT TTCATGGGAA AATCAAAAGC AGGAAATCCT
    AATTGGAATG GGAGCCTTTC TCTGGATCAA TCTACCTGGA ATGTGGATTC TGAACTTGCA
    AATAAATTGT ATGAAAGATG GAAGAAATAT AAAAATGGTG ACGTCTGCAA GAGGAATGTT
    TTGGGAACAA CTCGATTTGC TCACTTGAAG AAATCCAAGG AGTCAGAGTC CTTTGTTTTC
    TTTTTGCCTC GTTTGATCGC AGAGCCTGGC CTCATGTTAA ACTTCAGCGC AACTGCCCTT
    AGGAGCAGGA TGATCAAGTA CTTTGTGGTG CAGAACCCGT CCTCTTGGCC GGTCTCCTTG
    CAGCTCCTGC CTCTCTCCTT GTACCCTAAA CCCGAAGCCC TAGTGCACCT GCTCCACAGA
    TGGTTTGGCA CTGATATGCA GATGATTAAT TTCACAACTG GTGAATTCCA GCTCACCGAA
    GCTTGCCCTT ACCTGGGTAC GCATTCTGAG GAATCCAGGT TTGGCATCCT CCACTTACAT
    CTGCAGCCTT TGGAAATGAA AAGGGTTGGC GTAGTTTTCA CACCTGCTGA CTATGGAAAA
    GTTACCTCAC TCATACTAAT CCGGAATAAC TTGACTGTTA TTGACATGAT TGGCGTGGAA
    GGATTTGGAG CAAGAGAGTT ATTAAAAGTG GGTGGAAGAC TTCCTGGTGC AGGAGGCTCA
    CTCCGATTTA AGGTGCCCGA GTCCACGCTG ATGGACTGCC GTAGACAACT GAAAGACAGT
    AAGCAAATTT TATCTATTAC AAAGAACTTT AAAGTTGAGA ATATTGGACC TCTTCCTATA
    ACTGTTTCGT CTCTGAAAAT TAATGGGTAT AACTGCCAAG GTTATGGATT CGAGGTGCTG
    GATTGTCATC AGTTTTCCCT GGACCCAAAC ACATCCCGCG ATATCAGCAT TGTGTTCACT
    CCAGACTTTA CCTCCTCCTG GGTAATTCGG GACCTAAGTC TTGTAACCGC AGCGGACCTA
    GAATTTCGCT TCACTCTCAA TGTGACTCTC CCTCATCACC TGTTGCCCTT GTGTGCAGAC
    GTGGTTCCAG GACCCAGCTG GGAGGAGTCA TTTTGGAGGC TCACGGTCTT CTTTGTCAGT
    TTGTCCCTGT TGGGTGTGAT TTTAATAGCC TTCCAACAAG CACAGTACAT TCTCATGGAA
    TTCATGAAAA CAAGACAGAG GCAAAATGCT AGCTCCTCTT CACAGCAAAA CAATGGTCCT
    ATGGATGTAA TCAGCCCCCA TTCTTACAAA AGCAATTGCA AGAACTTTCT CGATACATAT
    GGCCCCTCTG ATAAAGGCAG GGGGAAGAAC TGCCTTCCAG TGAACACTCC CCAAAGCAGG
    ATCCAGAATG CTGCAAAGAG GAGCCCAGCC ACCTATGGTC ATTCTCAGAA GAAGCACAAA
    TGCTCAGTGT ATTACAGTAA ACACAAAACC AGCACAGCTG CGGCCAGCAG CACCAGCACG
    ACTACTGAGG AAAAACAGAC TTCACCCCTG GGCAGCTCAC TGCCTGCTGC TAAAGAGGAC
    ATTTGCACTG ATGCCATGCG TGAGAACTGG ATCAGCCTCA GATATGCAAG TGGCATAAAT
    GTCAACCTGC AGAAGAATTT AACCCTTCCC AAAAACTTAC TGAATAAAGA AGAAAACACA
    CTGAAAAACA CAATTGTTTT CAGTAATCCT TCTTCAGAAT GTAGTATGAA GGAGGGAATA
    CAGACATGTA TGTTTCCTAA GGAAACTGAC ATTAAAACTT CAGAGAACAC AGCCGAGTTC
    AAGGAACGGG AGCTCTGTCC ACTGAAGACC TCCAAGAAAC TACCTGAAAA CCATTTACCA
    AGAAACTCAC CTCAGTACCA CCAGCCAGAC TTGCCAGAAA TTTCCAGGAA AAATAATGGG
    AATAACCAGC AAGTACCTGT CAAGAATGAA GTAGATCATT GTGAAAATTT GAAGAAGGTG
    GACACAAAGC CTTCTTCAGA AAAGAAGATT CACAAAACAT CTAGAGAAGA CATGTTTTCT
    GAGAAACAGG ACATACCTTT CGTAGAGCAA GAAGATCCTT ATAGGAAGAA AAAGCTTCAG
    GAGAAAAGAG AAGGAAATTT ACAAAATTTA AATTGGAGTA AAAGTCGAAC ATGTAGAAAG
    AACAAGAAAA GGGGTGTTGC TCCAGTCTCA AGGCCTCCTG AACAGAGTGA TCTAAAGCTT
    GTGTGCAGTG ACTTTGAGAG GTCTGAGCTG AGCAGTGACA TCAATGTAAG AAGCTGGTGT
    ATACAGGAAA GCACTAGGGA GGTTTGTAAA GCAGATGCCG AAATTGCAAG CAGTTTACCT
    GCTGCCCAGA GAGAGGCAGA AGGTTACTAC CAGAAGCCTG AGAAGAAATG TGTGGACAAG
    TTCTGCTCCG ATTCCAGCTC TGACTGTGGG AGCTCCTCTG GCAGCGTGCG TGCCAGCCGG
    GGCAGCTGGG GGAGCTGGAG CAGCACCAGC AGCTCCGACG GGGATAAGAA GCCCATGGTG
    GACGCCCAGC ACTTCCTGCC GGCCGGAGAC AGTGTTTCAC AAAATGATTT TCCTTCTGAA
    GCTCCCATCT CCTTGAATCT TTCTCATAAC ATCTGCAATC CCATGACCGT GAATAGTCTC
    CCACAATACG CAGAGCCTTC CTGTCCCAGC CTTCCTGCCG GGCCCACAGG TGTTGAAGAA
    GATAAAGGTC TTTACTCACC TGGAGACCTG TGGCCCACTC CGCCAGTGTG TGTGACAAGC
    AGCTTAAACT GCACCCTGGA GAACGGCGTG CCTTGTGTGA TTCAGGAGTC GGCCCCGGTT
    CATAATAGTT TCATTGATTG GAGTGCAACA TGCGAAGGCC AGTTTTCCAG CGCATACTGT
    CCATTGGAAT TGAACGATTA CAATGCCTTT CCAGAAGAAA ACATGAACTA TGCCAATGGC
    TTCCCCTGTC CTGCAGATGT TCAGACAGAC TTTATTGATC ACAACTCTCA GTCTACCTGG
    AACACCCCAC CCAACATGCC TGCTGCCTGG GGACATGCCA GTTTCATCAG CTCTCCGCCC
    TACCTCACAA GCACCCGAAG CTTGTCTCCA ATGTCTGGAC TTTTTGGTTC CATCTGGGCC
    CCGCAAAGCG ATGTGTATGA AAATTGCTGC CCCATCAACC CCACCACGGA ACATTCGACC
    CACATGGAAA ACCAAGCGGT CGTGTGCAAG GAATACTACC CGGGGTTCAA CCCGTTTCGC
    GCCTATATGA ACCTGGACAT ATGGACTACC ACAGCGAATA GGAATGCAAA TTTCCCACTG
    TCTAGAGACT CGAGTTACTG TGGGAATGTG TGA

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

    RefSeq NP_001124479.1
    CDS53..4885
    Translation

    Target ORF information:

    RefSeq Version NM_001131007.1
    Organism Homo sapiens(human)
    Definition Homo sapiens transmembrane 131 like (TMEM131L), transcript variant 1, mRNA.

    Target ORF information:

    Epitope DYKDDDDK
    Bacterial selection AMPR
    Mammalian selection NeoR
    Vector pcDNA3.1+/C-(K)DYK
    NM_001131007.1

    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
    ATGGCGGGGC TCCGACGCCC GCAGCCCGGC TGCTACTGCC GCACCGCGGC GGCCGTGAAC 
    CTCCTGCTGG GCGTCTTCCA GGTCCTGCTG CCCTGCTGTC GCCCGGGAGG GGCTCAGGGA
    CAAGCGATTG AGCCGTTGCC GAACGTGGTG GAGCTGTGGC AGGCAGAAGA AGGGGAACTC
    CTGCTGCCCA CTCAGGGTGA TTCTGAAGAG GGTCTGGAGG AGCCTTCTCA AGAACAGAGC
    TTCTCGGACA AACTATTTAG TGGAAAAGGC TTACATTTTC AGCCATCAGT TTTAGATTTT
    GGAATACAGT TCCTGGGACA TCCTGTAGCA AAGATTCTCC ATGCTTACAA CCCTAGTAGG
    GACAGCGAGG TTGTGGTGAA TTCAGTGTTT GCAGCTGCTG GACATTTCCA TGTACCGCCA
    GTTCCCTGCA GGGTAATTCC AGCAATGGGG AAAACTTCCT TCAGAATTAT TTTCTTACCT
    ACTGAAGAAG GAAGCATTGA AAGTTCCTTA TTTATTAATA CCTCTTCGTA TGGAGTCCTT
    TCCTATCATG TATCTGGAAT TGGCACTCGT AGAATCTCTA CAGAAGGGTC TGCAAAGCAG
    CTACCAAATG CTTATTTTCT GCTTCCAAAG GTCCAGAGCA TTCAGCTGTC TCAAATGCAG
    GCAGAAACCA CTAATACTAG CCTCTTGCAG GTGCAACTGG AATGCAGTTT ACATAATAAA
    GTGTGTCAGC AATTAAAGGG TTGTTATCTG GAATCTGATG ATGTTTTGCG TCTACAAATG
    AGCATAATGG TAACAATGGA AAACTTTTCA AAAGAATTTG AAGAAAACAC ACAACATTTG
    TTAGATCATC TCTCTATTGT TTACGTAGCT ACAGATGAAT CTGAGACCTC AGATGATTCA
    GCAGTAAATA TGTATATATT ACATTCAGGA AACAGCCTTA TATGGATACA GGATATACGC
    CATTTCTCAC AGAGAGATGC TCTGTCTCTG CAGTTTGAAC CAGTACTACT ACCTACTTCT
    ACAACAAACT TTACAAAAAT TGCTTCTTTT ACCTGCAAAG CAGCTACATC ATGTGACAGT
    GGAATTATAG AAGATGTGAA GAAAACAACA CACACTCCAA CACTAAAAGC ATGCCTCTTC
    TCTTCTGTGG CTCAGGGGTA TTTTAGAATG GACTCTTCTG CAACCCAGTT TCACATAGAG
    ACTCATGAGA ACACATCAGG ACTTTGGTCA ATATGGTACC GCAACCATTT TGACCGTAGT
    GTTGTATTAA ATGATGTGTT TCTTTCCAAG GAGACCAAGC ACATGTTAAA GATTCTGAAT
    TTCACTGGCC CTTTATTTCT ACCTCCAGGC TGTTGGAATA TATTTTCTTT GAAACTTGCT
    GTTAAAGACA TTGCCATAAA TCTATTCACC AATGTATTTT TGACTACAAA CATAGGTGCC
    ATTTTTGCAA TACCTCTACA GATTTATTCA GCACCAACCA AGGAAGGGAG TCTGGGTTTT
    GAAGTGATAG CACATTGTGG CATGCATTAT TTCATGGGAA AATCAAAAGC AGGAAATCCT
    AATTGGAATG GGAGCCTTTC TCTGGATCAA TCTACCTGGA ATGTGGATTC TGAACTTGCA
    AATAAATTGT ATGAAAGATG GAAGAAATAT AAAAATGGTG ACGTCTGCAA GAGGAATGTT
    TTGGGAACAA CTCGATTTGC TCACTTGAAG AAATCCAAGG AGTCAGAGTC CTTTGTTTTC
    TTTTTGCCTC GTTTGATCGC AGAGCCTGGC CTCATGTTAA ACTTCAGCGC AACTGCCCTT
    AGGAGCAGGA TGATCAAGTA CTTTGTGGTG CAGAACCCGT CCTCTTGGCC GGTCTCCTTG
    CAGCTCCTGC CTCTCTCCTT GTACCCTAAA CCCGAAGCCC TAGTGCACCT GCTCCACAGA
    TGGTTTGGCA CTGATATGCA GATGATTAAT TTCACAACTG GTGAATTCCA GCTCACCGAA
    GCTTGCCCTT ACCTGGGTAC GCATTCTGAG GAATCCAGGT TTGGCATCCT CCACTTACAT
    CTGCAGCCTT TGGAAATGAA AAGGGTTGGC GTAGTTTTCA CACCTGCTGA CTATGGAAAA
    GTTACCTCAC TCATACTAAT CCGGAATAAC TTGACTGTTA TTGACATGAT TGGCGTGGAA
    GGATTTGGAG CAAGAGAGTT ATTAAAAGTG GGTGGAAGAC TTCCTGGTGC AGGAGGCTCA
    CTCCGATTTA AGGTGCCCGA GTCCACGCTG ATGGACTGCC GTAGACAACT GAAAGACAGT
    AAGCAAATTT TATCTATTAC AAAGAACTTT AAAGTTGAGA ATATTGGACC TCTTCCTATA
    ACTGTTTCGT CTCTGAAAAT TAATGGGTAT AACTGCCAAG GTTATGGATT CGAGGTGCTG
    GATTGTCATC AGTTTTCCCT GGACCCAAAC ACATCCCGCG ATATCAGCAT TGTGTTCACT
    CCAGACTTTA CCTCCTCCTG GGTAATTCGG GACCTAAGTC TTGTAACCGC AGCGGACCTA
    GAATTTCGCT TCACTCTCAA TGTGACTCTC CCTCATCACC TGTTGCCCTT GTGTGCAGAC
    GTGGTTCCAG GACCCAGCTG GGAGGAGTCA TTTTGGAGGC TCACGGTCTT CTTTGTCAGT
    TTGTCCCTGT TGGGTGTGAT TTTAATAGCC TTCCAACAAG CACAGTACAT TCTCATGGAA
    TTCATGAAAA CAAGACAGAG GCAAAATGCT AGCTCCTCTT CACAGCAAAA CAATGGTCCT
    ATGGATGTAA TCAGCCCCCA TTCTTACAAA AGCAATTGCA AGAACTTTCT CGATACATAT
    GGCCCCTCTG ATAAAGGCAG GGGGAAGAAC TGCCTTCCAG TGAACACTCC CCAAAGCAGG
    ATCCAGAATG CTGCAAAGAG GAGCCCAGCC ACCTATGGTC ATTCTCAGAA GAAGCACAAA
    TGCTCAGTGT ATTACAGTAA ACACAAAACC AGCACAGCTG CGGCCAGCAG CACCAGCACG
    ACTACTGAGG AAAAACAGAC TTCACCCCTG GGCAGCTCAC TGCCTGCTGC TAAAGAGGAC
    ATTTGCACTG ATGCCATGCG TGAGAACTGG ATCAGCCTCA GATATGCAAG TGGCATAAAT
    GTCAACCTGC AGAAGAATTT AACCCTTCCC AAAAACTTAC TGAATAAAGA AGAAAACACA
    CTGAAAAACA CAATTGTTTT CAGTAATCCT TCTTCAGAAT GTAGTATGAA GGAGGGAATA
    CAGACATGTA TGTTTCCTAA GGAAACTGAC ATTAAAACTT CAGAGAACAC AGCCGAGTTC
    AAGGAACGGG AGCTCTGTCC ACTGAAGACC TCCAAGAAAC TACCTGAAAA CCATTTACCA
    AGAAACTCAC CTCAGTACCA CCAGCCAGAC TTGCCAGAAA TTTCCAGGAA AAATAATGGG
    AATAACCAGC AAGTACCTGT CAAGAATGAA GTAGATCATT GTGAAAATTT GAAGAAGGTG
    GACACAAAGC CTTCTTCAGA AAAGAAGATT CACAAAACAT CTAGAGAAGA CATGTTTTCT
    GAGAAACAGG ACATACCTTT CGTAGAGCAA GAAGATCCTT ATAGGAAGAA AAAGCTTCAG
    GAGAAAAGAG AAGGAAATTT ACAAAATTTA AATTGGAGTA AAAGTCGAAC ATGTAGAAAG
    AACAAGAAAA GGGGTGTTGC TCCAGTCTCA AGGCCTCCTG AACAGAGTGA TCTAAAGCTT
    GTGTGCAGTG ACTTTGAGAG GTCTGAGCTG AGCAGTGACA TCAATGTAAG AAGCTGGTGT
    ATACAGGAAA GCACTAGGGA GGTTTGTAAA GCAGATGCCG AAATTGCAAG CAGTTTACCT
    GCTGCCCAGA GAGAGGCAGA AGGTTACTAC CAGAAGCCTG AGAAGAAATG TGTGGACAAG
    TTCTGCTCCG ATTCCAGCTC TGACTGTGGG AGCTCCTCTG GCAGCGTGCG TGCCAGCCGG
    GGCAGCTGGG GGAGCTGGAG CAGCACCAGC AGCTCCGACG GGGATAAGAA GCCCATGGTG
    GACGCCCAGC ACTTCCTGCC GGCCGGAGAC AGTGTTTCAC AAAATGATTT TCCTTCTGAA
    GCTCCCATCT CCTTGAATCT TTCTCATAAC ATCTGCAATC CCATGACCGT GAATAGTCTC
    CCACAATACG CAGAGCCTTC CTGTCCCAGC CTTCCTGCCG GGCCCACAGG TGTTGAAGAA
    GATAAAGGTC TTTACTCACC TGGAGACCTG TGGCCCACTC CGCCAGTGTG TGTGACAAGC
    AGCTTAAACT GCACCCTGGA GAACGGCGTG CCTTGTGTGA TTCAGGAGTC GGCCCCGGTT
    CATAATAGTT TCATTGATTG GAGTGCAACA TGCGAAGGCC AGTTTTCCAG CGCATACTGT
    CCATTGGAAT TGAACGATTA CAATGCCTTT CCAGAAGAAA ACATGAACTA TGCCAATGGC
    TTCCCCTGTC CTGCAGATGT TCAGACAGAC TTTATTGATC ACAACTCTCA GTCTACCTGG
    AACACCCCAC CCAACATGCC TGCTGCCTGG GGACATGCCA GTTTCATCAG CTCTCCGCCC
    TACCTCACAA GCACCCGAAG CTTGTCTCCA ATGTCTGGAC TTTTTGGTTC CATCTGGGCC
    CCGCAAAGCG ATGTGTATGA AAATTGCTGC CCCATCAACC CCACCACGGA ACATTCGACC
    CACATGGAAA ACCAAGCGGT CGTGTGCAAG GAATACTACC CGGGGTTCAA CCCGTTTCGC
    GCCTATATGA ACCTGGACAT ATGGACTACC ACAGCGAATA GGAATGCAAA TTTCCCACTG
    TCTAGAGACT CGAGTTACTG TGGGAATGTG TGA

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

    CloneID OHu09215
    Clone ID Related Accession (Same CDS sequence) NM_015196.3
    Accession Version NM_015196.3 Latest version! Documents for ORF clone product in default vector
    Sequence Information ORF Nucleotide Sequence (Length: 4830bp)
    Protein sequence
    SNP
    Vector pcDNA3.1-C-(k)DYK or customized vector User Manual
    Clone information Clone Map MSDS
    Tag on pcDNA3.1+/C-(K)DYK C terminal DYKDDDDK tags
    ORF Insert Method CloneEZ™ Seamless cloning technology
    Insert Structure linear
    Update Date 2019-02-17
    Organism Homo sapiens(human)
    Product transmembrane protein 131-like isoform 2 precursor
    Comment Comment: VALIDATED REFSEQ: This record has undergone validation or preliminary review. The reference sequence was derived from DA778851.1, BC131505.1 and BQ270562.1. On May 7, 2008 this sequence version replaced NM_015196.2. Transcript Variant: This variant (2) uses an alternate in-frame splice site in the mid coding region, compared to variant 1, resulting in an isoform (2) that is 1 aa shorter than isoform 1. ##Evidence-Data-START## RNAseq introns :: single sample supports all introns SAMEA1965299, SAMEA1966682 [ECO:0000348] ##Evidence-Data-END## ##RefSeq-Attributes-START## inferred exon combination :: based on alignments, homology ##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
    ATGGCGGGGC TCCGACGCCC GCAGCCCGGC TGCTACTGCC GCACCGCGGC GGCCGTGAAC 
    CTCCTGCTGG GCGTCTTCCA GGTCCTGCTG CCCTGCTGTC GCCCGGGAGG GGCTCAGGGA
    CAAGCGATTG AGCCGTTGCC GAACGTGGTG GAGCTGTGGC AGGCAGAAGA AGGGGAACTC
    CTGCTGCCCA CTCAGGGTGA TTCTGAAGAG GGTCTGGAGG AGCCTTCTCA AGAACAGAGC
    TTCTCGGACA AACTATTTAG TGGAAAAGGC TTACATTTTC AGCCATCAGT TTTAGATTTT
    GGAATACAGT TCCTGGGACA TCCTGTAGCA AAGATTCTCC ATGCTTACAA CCCTAGTAGG
    GACAGCGAGG TTGTGGTGAA TTCAGTGTTT GCAGCTGCTG GACATTTCCA TGTACCGCCA
    GTTCCCTGCA GGGTAATTCC AGCAATGGGG AAAACTTCCT TCAGAATTAT TTTCTTACCT
    ACTGAAGAAG GAAGCATTGA AAGTTCCTTA TTTATTAATA CCTCTTCGTA TGGAGTCCTT
    TCCTATCATG TATCTGGAAT TGGCACTCGT AGAATCTCTA CAGAAGGGTC TGCAAAGCAG
    CTACCAAATG CTTATTTTCT GCTTCCAAAG GTCCAGAGCA TTCAGCTGTC TCAAATGCAG
    GCAGAAACCA CTAATACTAG CCTCTTGCAG GTGCAACTGG AATGCAGTTT ACATAATAAA
    GTGTGTCAGC AATTAAAGGG TTGTTATCTG GAATCTGATG ATGTTTTGCG TCTACAAATG
    AGCATAATGG TAACAATGGA AAACTTTTCA AAAGAATTTG AAGAAAACAC ACAACATTTG
    TTAGATCATC TCTCTATTGT TTACGTAGCT ACAGATGAAT CTGAGACCTC AGATGATTCA
    GCAGTAAATA TGTATATATT ACATTCAGGA AACAGCCTTA TATGGATACA GGATATACGC
    CATTTCTCAC AGAGAGATGC TCTGTCTCTG CAGTTTGAAC CAGTACTACT ACCTACTTCT
    ACAACAAACT TTACAAAAAT TGCTTCTTTT ACCTGCAAAG CTACATCATG TGACAGTGGA
    ATTATAGAAG ATGTGAAGAA AACAACACAC ACTCCAACAC TAAAAGCATG CCTCTTCTCT
    TCTGTGGCTC AGGGGTATTT TAGAATGGAC TCTTCTGCAA CCCAGTTTCA CATAGAGACT
    CATGAGAACA CATCAGGACT TTGGTCAATA TGGTACCGCA ACCATTTTGA CCGTAGTGTT
    GTATTAAATG ATGTGTTTCT TTCCAAGGAG ACCAAGCACA TGTTAAAGAT TCTGAATTTC
    ACTGGCCCTT TATTTCTACC TCCAGGCTGT TGGAATATAT TTTCTTTGAA ACTTGCTGTT
    AAAGACATTG CCATAAATCT ATTCACCAAT GTATTTTTGA CTACAAACAT AGGTGCCATT
    TTTGCAATAC CTCTACAGAT TTATTCAGCA CCAACCAAGG AAGGGAGTCT GGGTTTTGAA
    GTGATAGCAC ATTGTGGCAT GCATTATTTC ATGGGAAAAT CAAAAGCAGG AAATCCTAAT
    TGGAATGGGA GCCTTTCTCT GGATCAATCT ACCTGGAATG TGGATTCTGA ACTTGCAAAT
    AAATTGTATG AAAGATGGAA GAAATATAAA AATGGTGACG TCTGCAAGAG GAATGTTTTG
    GGAACAACTC GATTTGCTCA CTTGAAGAAA TCCAAGGAGT CAGAGTCCTT TGTTTTCTTT
    TTGCCTCGTT TGATCGCAGA GCCTGGCCTC ATGTTAAACT TCAGCGCAAC TGCCCTTAGG
    AGCAGGATGA TCAAGTACTT TGTGGTGCAG AACCCGTCCT CTTGGCCGGT CTCCTTGCAG
    CTCCTGCCTC TCTCCTTGTA CCCTAAACCC GAAGCCCTAG TGCACCTGCT CCACAGATGG
    TTTGGCACTG ATATGCAGAT GATTAATTTC ACAACTGGTG AATTCCAGCT CACCGAAGCT
    TGCCCTTACC TGGGTACGCA TTCTGAGGAA TCCAGGTTTG GCATCCTCCA CTTACATCTG
    CAGCCTTTGG AAATGAAAAG GGTTGGCGTA GTTTTCACAC CTGCTGACTA TGGAAAAGTT
    ACCTCACTCA TACTAATCCG GAATAACTTG ACTGTTATTG ACATGATTGG CGTGGAAGGA
    TTTGGAGCAA GAGAGTTATT AAAAGTGGGT GGAAGACTTC CTGGTGCAGG AGGCTCACTC
    CGATTTAAGG TGCCCGAGTC CACGCTGATG GACTGCCGTA GACAACTGAA AGACAGTAAG
    CAAATTTTAT CTATTACAAA GAACTTTAAA GTTGAGAATA TTGGACCTCT TCCTATAACT
    GTTTCGTCTC TGAAAATTAA TGGGTATAAC TGCCAAGGTT ATGGATTCGA GGTGCTGGAT
    TGTCATCAGT TTTCCCTGGA CCCAAACACA TCCCGCGATA TCAGCATTGT GTTCACTCCA
    GACTTTACCT CCTCCTGGGT AATTCGGGAC CTAAGTCTTG TAACCGCAGC GGACCTAGAA
    TTTCGCTTCA CTCTCAATGT GACTCTCCCT CATCACCTGT TGCCCTTGTG TGCAGACGTG
    GTTCCAGGAC CCAGCTGGGA GGAGTCATTT TGGAGGCTCA CGGTCTTCTT TGTCAGTTTG
    TCCCTGTTGG GTGTGATTTT AATAGCCTTC CAACAAGCAC AGTACATTCT CATGGAATTC
    ATGAAAACAA GACAGAGGCA AAATGCTAGC TCCTCTTCAC AGCAAAACAA TGGTCCTATG
    GATGTAATCA GCCCCCATTC TTACAAAAGC AATTGCAAGA ACTTTCTCGA TACATATGGC
    CCCTCTGATA AAGGCAGGGG GAAGAACTGC CTTCCAGTGA ACACTCCCCA AAGCAGGATC
    CAGAATGCTG CAAAGAGGAG CCCAGCCACC TATGGTCATT CTCAGAAGAA GCACAAATGC
    TCAGTGTATT ACAGTAAACA CAAAACCAGC ACAGCTGCGG CCAGCAGCAC CAGCACGACT
    ACTGAGGAAA AACAGACTTC ACCCCTGGGC AGCTCACTGC CTGCTGCTAA AGAGGACATT
    TGCACTGATG CCATGCGTGA GAACTGGATC AGCCTCAGAT ATGCAAGTGG CATAAATGTC
    AACCTGCAGA AGAATTTAAC CCTTCCCAAA AACTTACTGA ATAAAGAAGA AAACACACTG
    AAAAACACAA TTGTTTTCAG TAATCCTTCT TCAGAATGTA GTATGAAGGA GGGAATACAG
    ACATGTATGT TTCCTAAGGA AACTGACATT AAAACTTCAG AGAACACAGC CGAGTTCAAG
    GAACGGGAGC TCTGTCCACT GAAGACCTCC AAGAAACTAC CTGAAAACCA TTTACCAAGA
    AACTCACCTC AGTACCACCA GCCAGACTTG CCAGAAATTT CCAGGAAAAA TAATGGGAAT
    AACCAGCAAG TACCTGTCAA GAATGAAGTA GATCATTGTG AAAATTTGAA GAAGGTGGAC
    ACAAAGCCTT CTTCAGAAAA GAAGATTCAC AAAACATCTA GAGAAGACAT GTTTTCTGAG
    AAACAGGACA TACCTTTCGT AGAGCAAGAA GATCCTTATA GGAAGAAAAA GCTTCAGGAG
    AAAAGAGAAG GAAATTTACA AAATTTAAAT TGGAGTAAAA GTCGAACATG TAGAAAGAAC
    AAGAAAAGGG GTGTTGCTCC AGTCTCAAGG CCTCCTGAAC AGAGTGATCT AAAGCTTGTG
    TGCAGTGACT TTGAGAGGTC TGAGCTGAGC AGTGACATCA ATGTAAGAAG CTGGTGTATA
    CAGGAAAGCA CTAGGGAGGT TTGTAAAGCA GATGCCGAAA TTGCAAGCAG TTTACCTGCT
    GCCCAGAGAG AGGCAGAAGG TTACTACCAG AAGCCTGAGA AGAAATGTGT GGACAAGTTC
    TGCTCCGATT CCAGCTCTGA CTGTGGGAGC TCCTCTGGCA GCGTGCGTGC CAGCCGGGGC
    AGCTGGGGGA GCTGGAGCAG CACCAGCAGC TCCGACGGGG ATAAGAAGCC CATGGTGGAC
    GCCCAGCACT TCCTGCCGGC CGGAGACAGT GTTTCACAAA ATGATTTTCC TTCTGAAGCT
    CCCATCTCCT TGAATCTTTC TCATAACATC TGCAATCCCA TGACCGTGAA TAGTCTCCCA
    CAATACGCAG AGCCTTCCTG TCCCAGCCTT CCTGCCGGGC CCACAGGTGT TGAAGAAGAT
    AAAGGTCTTT ACTCACCTGG AGACCTGTGG CCCACTCCGC CAGTGTGTGT GACAAGCAGC
    TTAAACTGCA CCCTGGAGAA CGGCGTGCCT TGTGTGATTC AGGAGTCGGC CCCGGTTCAT
    AATAGTTTCA TTGATTGGAG TGCAACATGC GAAGGCCAGT TTTCCAGCGC ATACTGTCCA
    TTGGAATTGA ACGATTACAA TGCCTTTCCA GAAGAAAACA TGAACTATGC CAATGGCTTC
    CCCTGTCCTG CAGATGTTCA GACAGACTTT ATTGATCACA ACTCTCAGTC TACCTGGAAC
    ACCCCACCCA ACATGCCTGC TGCCTGGGGA CATGCCAGTT TCATCAGCTC TCCGCCCTAC
    CTCACAAGCA CCCGAAGCTT GTCTCCAATG TCTGGACTTT TTGGTTCCAT CTGGGCCCCG
    CAAAGCGATG TGTATGAAAA TTGCTGCCCC ATCAACCCCA CCACGGAACA TTCGACCCAC
    ATGGAAAACC AAGCGGTCGT GTGCAAGGAA TACTACCCGG GGTTCAACCC GTTTCGCGCC
    TATATGAACC TGGACATATG GACTACCACA GCGAATAGGA ATGCAAATTT CCCACTGTCT
    AGAGACTCGA GTTACTGTGG GAATGTGTGA

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

    RefSeq NP_056011.3
    CDS53..4882
    Translation

    Target ORF information:

    RefSeq Version NM_015196.3
    Organism Homo sapiens(human)
    Definition Homo sapiens transmembrane 131 like (TMEM131L), transcript variant 2, mRNA.

    Target ORF information:

    Epitope DYKDDDDK
    Bacterial selection AMPR
    Mammalian selection NeoR
    Vector pcDNA3.1+/C-(K)DYK
    NM_015196.3

    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
    ATGGCGGGGC TCCGACGCCC GCAGCCCGGC TGCTACTGCC GCACCGCGGC GGCCGTGAAC 
    CTCCTGCTGG GCGTCTTCCA GGTCCTGCTG CCCTGCTGTC GCCCGGGAGG GGCTCAGGGA
    CAAGCGATTG AGCCGTTGCC GAACGTGGTG GAGCTGTGGC AGGCAGAAGA AGGGGAACTC
    CTGCTGCCCA CTCAGGGTGA TTCTGAAGAG GGTCTGGAGG AGCCTTCTCA AGAACAGAGC
    TTCTCGGACA AACTATTTAG TGGAAAAGGC TTACATTTTC AGCCATCAGT TTTAGATTTT
    GGAATACAGT TCCTGGGACA TCCTGTAGCA AAGATTCTCC ATGCTTACAA CCCTAGTAGG
    GACAGCGAGG TTGTGGTGAA TTCAGTGTTT GCAGCTGCTG GACATTTCCA TGTACCGCCA
    GTTCCCTGCA GGGTAATTCC AGCAATGGGG AAAACTTCCT TCAGAATTAT TTTCTTACCT
    ACTGAAGAAG GAAGCATTGA AAGTTCCTTA TTTATTAATA CCTCTTCGTA TGGAGTCCTT
    TCCTATCATG TATCTGGAAT TGGCACTCGT AGAATCTCTA CAGAAGGGTC TGCAAAGCAG
    CTACCAAATG CTTATTTTCT GCTTCCAAAG GTCCAGAGCA TTCAGCTGTC TCAAATGCAG
    GCAGAAACCA CTAATACTAG CCTCTTGCAG GTGCAACTGG AATGCAGTTT ACATAATAAA
    GTGTGTCAGC AATTAAAGGG TTGTTATCTG GAATCTGATG ATGTTTTGCG TCTACAAATG
    AGCATAATGG TAACAATGGA AAACTTTTCA AAAGAATTTG AAGAAAACAC ACAACATTTG
    TTAGATCATC TCTCTATTGT TTACGTAGCT ACAGATGAAT CTGAGACCTC AGATGATTCA
    GCAGTAAATA TGTATATATT ACATTCAGGA AACAGCCTTA TATGGATACA GGATATACGC
    CATTTCTCAC AGAGAGATGC TCTGTCTCTG CAGTTTGAAC CAGTACTACT ACCTACTTCT
    ACAACAAACT TTACAAAAAT TGCTTCTTTT ACCTGCAAAG CTACATCATG TGACAGTGGA
    ATTATAGAAG ATGTGAAGAA AACAACACAC ACTCCAACAC TAAAAGCATG CCTCTTCTCT
    TCTGTGGCTC AGGGGTATTT TAGAATGGAC TCTTCTGCAA CCCAGTTTCA CATAGAGACT
    CATGAGAACA CATCAGGACT TTGGTCAATA TGGTACCGCA ACCATTTTGA CCGTAGTGTT
    GTATTAAATG ATGTGTTTCT TTCCAAGGAG ACCAAGCACA TGTTAAAGAT TCTGAATTTC
    ACTGGCCCTT TATTTCTACC TCCAGGCTGT TGGAATATAT TTTCTTTGAA ACTTGCTGTT
    AAAGACATTG CCATAAATCT ATTCACCAAT GTATTTTTGA CTACAAACAT AGGTGCCATT
    TTTGCAATAC CTCTACAGAT TTATTCAGCA CCAACCAAGG AAGGGAGTCT GGGTTTTGAA
    GTGATAGCAC ATTGTGGCAT GCATTATTTC ATGGGAAAAT CAAAAGCAGG AAATCCTAAT
    TGGAATGGGA GCCTTTCTCT GGATCAATCT ACCTGGAATG TGGATTCTGA ACTTGCAAAT
    AAATTGTATG AAAGATGGAA GAAATATAAA AATGGTGACG TCTGCAAGAG GAATGTTTTG
    GGAACAACTC GATTTGCTCA CTTGAAGAAA TCCAAGGAGT CAGAGTCCTT TGTTTTCTTT
    TTGCCTCGTT TGATCGCAGA GCCTGGCCTC ATGTTAAACT TCAGCGCAAC TGCCCTTAGG
    AGCAGGATGA TCAAGTACTT TGTGGTGCAG AACCCGTCCT CTTGGCCGGT CTCCTTGCAG
    CTCCTGCCTC TCTCCTTGTA CCCTAAACCC GAAGCCCTAG TGCACCTGCT CCACAGATGG
    TTTGGCACTG ATATGCAGAT GATTAATTTC ACAACTGGTG AATTCCAGCT CACCGAAGCT
    TGCCCTTACC TGGGTACGCA TTCTGAGGAA TCCAGGTTTG GCATCCTCCA CTTACATCTG
    CAGCCTTTGG AAATGAAAAG GGTTGGCGTA GTTTTCACAC CTGCTGACTA TGGAAAAGTT
    ACCTCACTCA TACTAATCCG GAATAACTTG ACTGTTATTG ACATGATTGG CGTGGAAGGA
    TTTGGAGCAA GAGAGTTATT AAAAGTGGGT GGAAGACTTC CTGGTGCAGG AGGCTCACTC
    CGATTTAAGG TGCCCGAGTC CACGCTGATG GACTGCCGTA GACAACTGAA AGACAGTAAG
    CAAATTTTAT CTATTACAAA GAACTTTAAA GTTGAGAATA TTGGACCTCT TCCTATAACT
    GTTTCGTCTC TGAAAATTAA TGGGTATAAC TGCCAAGGTT ATGGATTCGA GGTGCTGGAT
    TGTCATCAGT TTTCCCTGGA CCCAAACACA TCCCGCGATA TCAGCATTGT GTTCACTCCA
    GACTTTACCT CCTCCTGGGT AATTCGGGAC CTAAGTCTTG TAACCGCAGC GGACCTAGAA
    TTTCGCTTCA CTCTCAATGT GACTCTCCCT CATCACCTGT TGCCCTTGTG TGCAGACGTG
    GTTCCAGGAC CCAGCTGGGA GGAGTCATTT TGGAGGCTCA CGGTCTTCTT TGTCAGTTTG
    TCCCTGTTGG GTGTGATTTT AATAGCCTTC CAACAAGCAC AGTACATTCT CATGGAATTC
    ATGAAAACAA GACAGAGGCA AAATGCTAGC TCCTCTTCAC AGCAAAACAA TGGTCCTATG
    GATGTAATCA GCCCCCATTC TTACAAAAGC AATTGCAAGA ACTTTCTCGA TACATATGGC
    CCCTCTGATA AAGGCAGGGG GAAGAACTGC CTTCCAGTGA ACACTCCCCA AAGCAGGATC
    CAGAATGCTG CAAAGAGGAG CCCAGCCACC TATGGTCATT CTCAGAAGAA GCACAAATGC
    TCAGTGTATT ACAGTAAACA CAAAACCAGC ACAGCTGCGG CCAGCAGCAC CAGCACGACT
    ACTGAGGAAA AACAGACTTC ACCCCTGGGC AGCTCACTGC CTGCTGCTAA AGAGGACATT
    TGCACTGATG CCATGCGTGA GAACTGGATC AGCCTCAGAT ATGCAAGTGG CATAAATGTC
    AACCTGCAGA AGAATTTAAC CCTTCCCAAA AACTTACTGA ATAAAGAAGA AAACACACTG
    AAAAACACAA TTGTTTTCAG TAATCCTTCT TCAGAATGTA GTATGAAGGA GGGAATACAG
    ACATGTATGT TTCCTAAGGA AACTGACATT AAAACTTCAG AGAACACAGC CGAGTTCAAG
    GAACGGGAGC TCTGTCCACT GAAGACCTCC AAGAAACTAC CTGAAAACCA TTTACCAAGA
    AACTCACCTC AGTACCACCA GCCAGACTTG CCAGAAATTT CCAGGAAAAA TAATGGGAAT
    AACCAGCAAG TACCTGTCAA GAATGAAGTA GATCATTGTG AAAATTTGAA GAAGGTGGAC
    ACAAAGCCTT CTTCAGAAAA GAAGATTCAC AAAACATCTA GAGAAGACAT GTTTTCTGAG
    AAACAGGACA TACCTTTCGT AGAGCAAGAA GATCCTTATA GGAAGAAAAA GCTTCAGGAG
    AAAAGAGAAG GAAATTTACA AAATTTAAAT TGGAGTAAAA GTCGAACATG TAGAAAGAAC
    AAGAAAAGGG GTGTTGCTCC AGTCTCAAGG CCTCCTGAAC AGAGTGATCT AAAGCTTGTG
    TGCAGTGACT TTGAGAGGTC TGAGCTGAGC AGTGACATCA ATGTAAGAAG CTGGTGTATA
    CAGGAAAGCA CTAGGGAGGT TTGTAAAGCA GATGCCGAAA TTGCAAGCAG TTTACCTGCT
    GCCCAGAGAG AGGCAGAAGG TTACTACCAG AAGCCTGAGA AGAAATGTGT GGACAAGTTC
    TGCTCCGATT CCAGCTCTGA CTGTGGGAGC TCCTCTGGCA GCGTGCGTGC CAGCCGGGGC
    AGCTGGGGGA GCTGGAGCAG CACCAGCAGC TCCGACGGGG ATAAGAAGCC CATGGTGGAC
    GCCCAGCACT TCCTGCCGGC CGGAGACAGT GTTTCACAAA ATGATTTTCC TTCTGAAGCT
    CCCATCTCCT TGAATCTTTC TCATAACATC TGCAATCCCA TGACCGTGAA TAGTCTCCCA
    CAATACGCAG AGCCTTCCTG TCCCAGCCTT CCTGCCGGGC CCACAGGTGT TGAAGAAGAT
    AAAGGTCTTT ACTCACCTGG AGACCTGTGG CCCACTCCGC CAGTGTGTGT GACAAGCAGC
    TTAAACTGCA CCCTGGAGAA CGGCGTGCCT TGTGTGATTC AGGAGTCGGC CCCGGTTCAT
    AATAGTTTCA TTGATTGGAG TGCAACATGC GAAGGCCAGT TTTCCAGCGC ATACTGTCCA
    TTGGAATTGA ACGATTACAA TGCCTTTCCA GAAGAAAACA TGAACTATGC CAATGGCTTC
    CCCTGTCCTG CAGATGTTCA GACAGACTTT ATTGATCACA ACTCTCAGTC TACCTGGAAC
    ACCCCACCCA ACATGCCTGC TGCCTGGGGA CATGCCAGTT TCATCAGCTC TCCGCCCTAC
    CTCACAAGCA CCCGAAGCTT GTCTCCAATG TCTGGACTTT TTGGTTCCAT CTGGGCCCCG
    CAAAGCGATG TGTATGAAAA TTGCTGCCCC ATCAACCCCA CCACGGAACA TTCGACCCAC
    ATGGAAAACC AAGCGGTCGT GTGCAAGGAA TACTACCCGG GGTTCAACCC GTTTCGCGCC
    TATATGAACC TGGACATATG GACTACCACA GCGAATAGGA ATGCAAATTT CCCACTGTCT
    AGAGACTCGA GTTACTGTGG GAATGTGTGA

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

    CloneID OHu65771
    Clone ID Related Accession (Same CDS sequence) XM_011531780.1
    Accession Version XM_011531780.1 Latest version! Documents for ORF clone product in default vector
    Sequence Information ORF Nucleotide Sequence (Length: 4920bp)
    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 transmembrane protein 131-like isoform X1
    Comment Comment: MODEL REFSEQ: This record is predicted by automated computational analysis. This record is derived from a genomic sequence (NC_000004.12) annotated using gene prediction method: Gnomon, supported by mRNA and EST evidence. Also see: Documentation of NCBI's Annotation Process ##Genome-Annotation-Data-START## Annotation Provider :: NCBI Annotation Status :: Updated annotation Annotation Name :: Homo sapiens Updated Annotation Release 109.20191205 Annotation Version :: 109.20191205 Annotation Pipeline :: NCBI eukaryotic genome annotation pipeline Annotation Software Version :: 8.3 Annotation Method :: Best-placed RefSeq; propagated RefSeq model Features Annotated :: Gene; mRNA; CDS; ncRNA ##Genome-Annotation-Data-END##

    1
    61
    121
    181
    241
    301
    361
    421
    481
    541
    601
    661
    721
    781
    841
    901
    961
    1021
    1081
    1141
    1201
    1261
    1321
    1381
    1441
    1501
    1561
    1621
    1681
    1741
    1801
    1861
    1921
    1981
    2041
    2101
    2161
    2221
    2281
    2341
    2401
    2461
    2521
    2581
    2641
    2701
    2761
    2821
    2881
    2941
    3001
    3061
    3121
    3181
    3241
    3301
    3361
    3421
    3481
    3541
    3601
    3661
    3721
    3781
    3841
    3901
    3961
    4021
    4081
    4141
    4201
    4261
    4321
    4381
    4441
    4501
    4561
    4621
    4681
    4741
    4801
    4861
    ATGCTCGGGC TGCGGAGCCC GGAGTGCCTC GTGGGGTGTC TTCACTCCCA CTTCGTCCCC 
    CCACCCCCAG CACGAGCACC CCGAGCCTGC CTGCACGCTG TCGCCTTCGC GTCCGAGGGG
    CCGCCGGCTC ACACCCCACC CATTGTATTT TTATCCTTGG CTCGCCCCTG GGATGGCCTC
    TGTTCCCAGG AGGAAAAAGA GACGTGTTTT GCGATTGAGC CGTTGCCGAA CGTGGTGGAG
    CTGTGGCAGG CAGAAGAAGG GGAACTCCTG CTGCCCACTC AGGGTGATTC TGAAGAGGGT
    CTGGAGGAGC CTTCTCAAGA ACAGAGCTTC TCGGACAAAC TATTTAGTGG AAAAGGCTTA
    CATTTTCAGC CATCAGTTTT AGATTTTGGA ATACAGTTCC TGGGACATCC TGTAGCAAAG
    ATTCTCCATG CTTACAACCC TAGTAGGGAC AGCGAGGTTG TGGTGAATTC AGTGTTTGCA
    GCTGCTGGAC ATTTCCATGT ACCGCCAGTT CCCTGCAGGG TAATTCCAGC AATGGGGAAA
    ACTTCCTTCA GAATTATTTT CTTACCTACT GAAGAAGGAA GCATTGAAAG TTCCTTATTT
    ATTAATACCT CTTCGTATGG AGTCCTTTCC TATCATGTAT CTGGAATTGG CACTCGTAGA
    ATCTCTACAG AAGGGTCTGC AAAGCAGCTA CCAAATGCTT ATTTTCTGCT TCCAAAGGTC
    CAGAGCATTC AGCTGTCTCA AATGCAGGCA GAAACCACTA ATACTAGCCT CTTGCAGGTG
    CAACTGGAAT GCAGTTTACA TAATAAAGTG TGTCAGCAAT TAAAGGGTTG TTATCTGGAA
    TCTGATGATG TTTTGCGTCT ACAAATGAGC ATAATGGTAA CAATGGAAAA CTTTTCAAAA
    GAATTTGAAG AAAACACACA ACATTTGTTA GATCATCTCT CTATTGTTTA CGTAGCTACA
    GATGAATCTG AGACCTCAGA TGATTCAGCA GTAAATATGT ATATATTACA TTCAGGAAAC
    AGCCTTATAT GGATACAGGA TATACGCCAT TTCTCACAGA GAGATGCTCT GTCTCTGCAG
    TTTGAACCAG TACTACTACC TACTTCTACA ACAAACTTTA CAAAAATTGC TTCTTTTACC
    TGCAAAGCAG CTACATCATG TGACAGTGGA ATTATAGAAG ATGTGAAGAA AACAACACAC
    ACTCCAACAC TAAAAGCATG CCTCTTCTCT TCTGTGGCTC AGGGGTATTT TAGAATGGAC
    TCTTCTGCAA CCCAGTTTCA CATAGAGACT CATGAGAACA CATCAGGACT TTGGTCAATA
    TGGTACCGCA ACCATTTTGA CCGTAGTGTT GTATTAAATG ATGTGTTTCT TTCCAAGGAG
    ACCAAGCACA TGTTAAAGAT TCTGAATTTC ACTGGCCCTT TATTTCTACC TCCAGGCTGT
    TGGAATATAT TTTCTTTGAA ACTTGCTGTT AAAGACATTG CCATAAATCT ATTCACCAAT
    GTATTTTTGA CTACAAACAT AGGTGCCATT TTTGCAATAC CTCTACAGAT TTATTCAGCA
    CCAACCAAGG AAGGGAGTCT GGGTTTTGAA GTGATAGCAC ATTGTGGCAT GCATTATTTC
    ATGGGAAAAT CAAAAGCAGG AAATCCTAAT TGGAATGGGA GCCTTTCTCT GGATCAATCT
    ACCTGGAATG TGGATTCTGA ACTTGCAAAT AAATTGTATG AAAGATGGAA GAAATATAAA
    AATGGTGACG TCTGCAAGAG GAATGTTTTG GGAACAACTC GATTTGCTCA CTTGAAGAAA
    TCCAAGGAGT CAGAGTCCTT TGTTTTCTTT TTGCCTCGTT TGATCGCAGA GCCTGGCCTC
    ATGTTAAACT TCAGCGCAAC TGCCCTTAGG AGCAGGATGA TCAAGTACTT TGTGGTGCAG
    AACCCGTCCT CTTGGCCGGT CTCCTTGCAG CTCCTGCCTC TCTCCTTGTA CCCTAAACCC
    GAAGCCCTAG TGCACCTGCT CCACAGATGG TTTGGCACTG ATATGCAGAT GATTAATTTC
    ACAACTGGTG AATTCCAGCT CACCGAAGCT TGCCCTTACC TGGGTACGCA TTCTGAGGAA
    TCCAGGTTTG GCATCCTCCA CTTACATCTG CAGCCTTTGG AAATGAAAAG GGTTGGCGTA
    GTTTTCACAC CTGCTGACTA TGGAAAAGTT ACCTCACTCA TACTAATCCG GAATAACTTG
    ACTGTTATTG ACATGATTGG CGTGGAAGGA TTTGGAGCAA GAGAGTTATT AAAAGTGGGT
    GGAAGACTTC CTGGTGCAGG AGGCTCACTC CGATTTAAGG TGCCCGAGTC CACGCTGATG
    GACTGCCGTA GACAACTGAA AGACAGTAAG CAAATTTTAT CTATTACAAA GAACTTTAAA
    GTTGAGAATA TTGGACCTCT TCCTATAACT GTTTCGTCTC TGAAAATTAA TGGGTATAAC
    TGCCAAGGTT ATGGATTCGA GGTGCTGGAT TGTCATCAGT TTTCCCTGGA CCCAAACACA
    TCCCGCGATA TCAGCATTGT GTTCACTCCA GACTTTACCT CCTCCTGGGT AATTCGGGAC
    CTAAGTCTTG TAACCGCAGC GGACCTAGAA TTTCGCTTCA CTCTCAATGT GACTCTCCCT
    CATCACCTGT TGCCCTTGTG TGCAGACGTG GTTCCAGGAC CCAGCTGGGA GGAGTCATTT
    TGGAGGCTCA CGGTCTTCTT TGTCAGTTTG TCCCTGTTGG GTGTGATTTT AATAGCCTTC
    CAACAAGCAC AGTACATTCT CATGGAATTC ATGAAAACAA GACAGAGGCA AAATGCTAGC
    TCCTCTTCAC AGCAAAACAA TGGTCCTATG GATGTAATCA GCCCCCATTC TTACAAAAGC
    AATTGCAAGA ACTTTCTCGA TACATATGGC CCCTCTGATA AAGGCAGGGG GAAGAACTGC
    CTTCCAGTGA ACACTCCCCA AAGCAGGATC CAGAATGCTG CAAAGAGGAG CCCAGCCACC
    TATGGTCATT CTCAGAAGAA GCACAAATGC TCAGTGTATT ACAGTAAACA CAAAACCAGC
    ACAGCTGCGG CCAGCAGCAC CAGCACGACT ACTGAGGAAA AACAGACTTC ACCCCTGGGC
    AGCTCACTGC CTGCTGCTAA AGAGGACATT TGCACTGATG CCATGCGTGA GAACTGGATC
    AGCCTCAGAT ATGCAAGTGG CATAAATGTC AACCTGCAGA AGAATTTAAC CCTTCCCAAA
    AACTTACTGA ATAAAGAAGA AAACACACTG AAAAACACAA TTGTTTTCAG TAATCCTTCT
    TCAGAATGTA GTATGAAGGA GGGAATACAG ACATGTATGT TTCCTAAGGA AACTGACATT
    AAAACTTCAG AGAACACAGC CGAGTTCAAG GAACGGGAGC TCTGTCCACT GAAGACCTCC
    AAGAAACTAC CTGAAAACCA TTTACCAAGA AACTCACCTC AGTACCACCA GCCAGACTTG
    CCAGAAATTT CCAGGAAAAA TAATGGGAAT AACCAGCAAG TACCTGTCAA GAATGAAGTA
    GATCATTGTG AAAATTTGAA GAAGGTGGAC ACAAAGCCTT CTTCAGAAAA GAAGATTCAC
    AAAACATCTA GAGAAGACAT GTTTTCTGAG AAACAGGACA TACCTTTCGT AGAGCAAGAA
    GATCCTTATA GGAAGAAAAA GCTTCAGGAG AAAAGAGAAG GAAATTTACA AAATTTAAAT
    TGGAGTAAAA GTCGAACATG TAGAAAGAAC AAGAAAAGGG GTGTTGCTCC AGTCTCAAGG
    CCTCCTGAAC AGAGTGATCT AAAGCTTGTG TGCAGTGACT TTGAGAGGTC TGAGCTGAGC
    AGTGACATCA ATGTAAGAAG CTGGTGTATA CAGGAAAGCA CTAGGGAGGT TTGTAAAGCA
    GATGCCGAAA TTGCAAGCAG TTTACCTGCT GCCCAGAGAG AGGCAGAAGG TTACTACCAG
    AAGCCTGAGA AGAAATGTGT GGACAAGTTC TGCTCCGATT CCAGCTCTGA CTGTGGGAGC
    TCCTCTGGCA GCGTGCGTGC CAGCCGGGGC AGCTGGGGGA GCTGGAGCAG CACCAGCAGC
    TCCGACGGGG ATAAGAAGCC CATGGTGGAC GCCCAGCACT TCCTGCCGGC CGGAGACAGT
    GTTTCACAAA ATGATTTTCC TTCTGAAGCT CCCATCTCCT TGAATCTTTC TCATAACATC
    TGCAATCCCA TGACCGTGAA TAGTCTCCCA CAATACGCAG AGCCTTCCTG TCCCAGCCTT
    CCTGCCGGGC CCACAGGTGT TGAAGAAGAT AAAGGTCTTT ACTCACCTGG AGACCTGTGG
    CCCACTCCGC CAGTGTGTGT GACAAGCAGC TTAAACTGCA CCCTGGAGAA CGGCGTGCCT
    TGTGTGATTC AGGAGTCGGC CCCGGTTCAT AATAGTTTCA TTGATTGGAG TGCAACATGC
    GAAGGCCAGT TTTCCAGCGC ATACTGTCCA TTGGAATTGA ACGATTACAA TGCCTTTCCA
    GAAGAAAACA TGAACTATGC CAATGGCTTC CCCTGTCCTG CAGATGTTCA GACAGACTTT
    ATTGATCACA ACTCTCAGTC TACCTGGAAC ACCCCACCCA ACATGCCTGC TGCCTGGGGA
    CATGCCAGTT TCATCAGCTC TCCGCCCTAC CTCACAAGCA CCCGAAGCTT GTCTCCAATG
    TCTGGACTTT TTGGTTCCAT CTGGGCCCCG CAAAGCGATG TGTATGAAAA TTGCTGCCCC
    ATCAACCCCA CCACGGAACA TTCGACCCAC ATGGAAAACC AAGCGGTCGT GTGCAAGGAA
    TACTACCCGG GGTTCAACCC GTTTCGCGCC TATATGAACC TGGACATATG GACTACCACA
    GCGAATAGGA ATGCAAATTT CCCACTGTCT AGAGACTCGA GTTACTGTGG GAATGTGTGA

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

    RefSeq XP_011530082.1
    CDS16..4935
    Translation

    Target ORF information:

    RefSeq Version XM_011531780.1
    Organism Homo sapiens(human)
    Definition Homo sapiens transmembrane 131 like (TMEM131L), transcript variant X1, mRNA.

    Target ORF information:

    Epitope DYKDDDDK
    Bacterial selection AMPR
    Mammalian selection NeoR
    Vector pcDNA3.1+/C-(K)DYK
    XM_011531780.1

    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
    4861
    ATGCTCGGGC TGCGGAGCCC GGAGTGCCTC GTGGGGTGTC TTCACTCCCA CTTCGTCCCC 
    CCACCCCCAG CACGAGCACC CCGAGCCTGC CTGCACGCTG TCGCCTTCGC GTCCGAGGGG
    CCGCCGGCTC ACACCCCACC CATTGTATTT TTATCCTTGG CTCGCCCCTG GGATGGCCTC
    TGTTCCCAGG AGGAAAAAGA GACGTGTTTT GCGATTGAGC CGTTGCCGAA CGTGGTGGAG
    CTGTGGCAGG CAGAAGAAGG GGAACTCCTG CTGCCCACTC AGGGTGATTC TGAAGAGGGT
    CTGGAGGAGC CTTCTCAAGA ACAGAGCTTC TCGGACAAAC TATTTAGTGG AAAAGGCTTA
    CATTTTCAGC CATCAGTTTT AGATTTTGGA ATACAGTTCC TGGGACATCC TGTAGCAAAG
    ATTCTCCATG CTTACAACCC TAGTAGGGAC AGCGAGGTTG TGGTGAATTC AGTGTTTGCA
    GCTGCTGGAC ATTTCCATGT ACCGCCAGTT CCCTGCAGGG TAATTCCAGC AATGGGGAAA
    ACTTCCTTCA GAATTATTTT CTTACCTACT GAAGAAGGAA GCATTGAAAG TTCCTTATTT
    ATTAATACCT CTTCGTATGG AGTCCTTTCC TATCATGTAT CTGGAATTGG CACTCGTAGA
    ATCTCTACAG AAGGGTCTGC AAAGCAGCTA CCAAATGCTT ATTTTCTGCT TCCAAAGGTC
    CAGAGCATTC AGCTGTCTCA AATGCAGGCA GAAACCACTA ATACTAGCCT CTTGCAGGTG
    CAACTGGAAT GCAGTTTACA TAATAAAGTG TGTCAGCAAT TAAAGGGTTG TTATCTGGAA
    TCTGATGATG TTTTGCGTCT ACAAATGAGC ATAATGGTAA CAATGGAAAA CTTTTCAAAA
    GAATTTGAAG AAAACACACA ACATTTGTTA GATCATCTCT CTATTGTTTA CGTAGCTACA
    GATGAATCTG AGACCTCAGA TGATTCAGCA GTAAATATGT ATATATTACA TTCAGGAAAC
    AGCCTTATAT GGATACAGGA TATACGCCAT TTCTCACAGA GAGATGCTCT GTCTCTGCAG
    TTTGAACCAG TACTACTACC TACTTCTACA ACAAACTTTA CAAAAATTGC TTCTTTTACC
    TGCAAAGCAG CTACATCATG TGACAGTGGA ATTATAGAAG ATGTGAAGAA AACAACACAC
    ACTCCAACAC TAAAAGCATG CCTCTTCTCT TCTGTGGCTC AGGGGTATTT TAGAATGGAC
    TCTTCTGCAA CCCAGTTTCA CATAGAGACT CATGAGAACA CATCAGGACT TTGGTCAATA
    TGGTACCGCA ACCATTTTGA CCGTAGTGTT GTATTAAATG ATGTGTTTCT TTCCAAGGAG
    ACCAAGCACA TGTTAAAGAT TCTGAATTTC ACTGGCCCTT TATTTCTACC TCCAGGCTGT
    TGGAATATAT TTTCTTTGAA ACTTGCTGTT AAAGACATTG CCATAAATCT ATTCACCAAT
    GTATTTTTGA CTACAAACAT AGGTGCCATT TTTGCAATAC CTCTACAGAT TTATTCAGCA
    CCAACCAAGG AAGGGAGTCT GGGTTTTGAA GTGATAGCAC ATTGTGGCAT GCATTATTTC
    ATGGGAAAAT CAAAAGCAGG AAATCCTAAT TGGAATGGGA GCCTTTCTCT GGATCAATCT
    ACCTGGAATG TGGATTCTGA ACTTGCAAAT AAATTGTATG AAAGATGGAA GAAATATAAA
    AATGGTGACG TCTGCAAGAG GAATGTTTTG GGAACAACTC GATTTGCTCA CTTGAAGAAA
    TCCAAGGAGT CAGAGTCCTT TGTTTTCTTT TTGCCTCGTT TGATCGCAGA GCCTGGCCTC
    ATGTTAAACT TCAGCGCAAC TGCCCTTAGG AGCAGGATGA TCAAGTACTT TGTGGTGCAG
    AACCCGTCCT CTTGGCCGGT CTCCTTGCAG CTCCTGCCTC TCTCCTTGTA CCCTAAACCC
    GAAGCCCTAG TGCACCTGCT CCACAGATGG TTTGGCACTG ATATGCAGAT GATTAATTTC
    ACAACTGGTG AATTCCAGCT CACCGAAGCT TGCCCTTACC TGGGTACGCA TTCTGAGGAA
    TCCAGGTTTG GCATCCTCCA CTTACATCTG CAGCCTTTGG AAATGAAAAG GGTTGGCGTA
    GTTTTCACAC CTGCTGACTA TGGAAAAGTT ACCTCACTCA TACTAATCCG GAATAACTTG
    ACTGTTATTG ACATGATTGG CGTGGAAGGA TTTGGAGCAA GAGAGTTATT AAAAGTGGGT
    GGAAGACTTC CTGGTGCAGG AGGCTCACTC CGATTTAAGG TGCCCGAGTC CACGCTGATG
    GACTGCCGTA GACAACTGAA AGACAGTAAG CAAATTTTAT CTATTACAAA GAACTTTAAA
    GTTGAGAATA TTGGACCTCT TCCTATAACT GTTTCGTCTC TGAAAATTAA TGGGTATAAC
    TGCCAAGGTT ATGGATTCGA GGTGCTGGAT TGTCATCAGT TTTCCCTGGA CCCAAACACA
    TCCCGCGATA TCAGCATTGT GTTCACTCCA GACTTTACCT CCTCCTGGGT AATTCGGGAC
    CTAAGTCTTG TAACCGCAGC GGACCTAGAA TTTCGCTTCA CTCTCAATGT GACTCTCCCT
    CATCACCTGT TGCCCTTGTG TGCAGACGTG GTTCCAGGAC CCAGCTGGGA GGAGTCATTT
    TGGAGGCTCA CGGTCTTCTT TGTCAGTTTG TCCCTGTTGG GTGTGATTTT AATAGCCTTC
    CAACAAGCAC AGTACATTCT CATGGAATTC ATGAAAACAA GACAGAGGCA AAATGCTAGC
    TCCTCTTCAC AGCAAAACAA TGGTCCTATG GATGTAATCA GCCCCCATTC TTACAAAAGC
    AATTGCAAGA ACTTTCTCGA TACATATGGC CCCTCTGATA AAGGCAGGGG GAAGAACTGC
    CTTCCAGTGA ACACTCCCCA AAGCAGGATC CAGAATGCTG CAAAGAGGAG CCCAGCCACC
    TATGGTCATT CTCAGAAGAA GCACAAATGC TCAGTGTATT ACAGTAAACA CAAAACCAGC
    ACAGCTGCGG CCAGCAGCAC CAGCACGACT ACTGAGGAAA AACAGACTTC ACCCCTGGGC
    AGCTCACTGC CTGCTGCTAA AGAGGACATT TGCACTGATG CCATGCGTGA GAACTGGATC
    AGCCTCAGAT ATGCAAGTGG CATAAATGTC AACCTGCAGA AGAATTTAAC CCTTCCCAAA
    AACTTACTGA ATAAAGAAGA AAACACACTG AAAAACACAA TTGTTTTCAG TAATCCTTCT
    TCAGAATGTA GTATGAAGGA GGGAATACAG ACATGTATGT TTCCTAAGGA AACTGACATT
    AAAACTTCAG AGAACACAGC CGAGTTCAAG GAACGGGAGC TCTGTCCACT GAAGACCTCC
    AAGAAACTAC CTGAAAACCA TTTACCAAGA AACTCACCTC AGTACCACCA GCCAGACTTG
    CCAGAAATTT CCAGGAAAAA TAATGGGAAT AACCAGCAAG TACCTGTCAA GAATGAAGTA
    GATCATTGTG AAAATTTGAA GAAGGTGGAC ACAAAGCCTT CTTCAGAAAA GAAGATTCAC
    AAAACATCTA GAGAAGACAT GTTTTCTGAG AAACAGGACA TACCTTTCGT AGAGCAAGAA
    GATCCTTATA GGAAGAAAAA GCTTCAGGAG AAAAGAGAAG GAAATTTACA AAATTTAAAT
    TGGAGTAAAA GTCGAACATG TAGAAAGAAC AAGAAAAGGG GTGTTGCTCC AGTCTCAAGG
    CCTCCTGAAC AGAGTGATCT AAAGCTTGTG TGCAGTGACT TTGAGAGGTC TGAGCTGAGC
    AGTGACATCA ATGTAAGAAG CTGGTGTATA CAGGAAAGCA CTAGGGAGGT TTGTAAAGCA
    GATGCCGAAA TTGCAAGCAG TTTACCTGCT GCCCAGAGAG AGGCAGAAGG TTACTACCAG
    AAGCCTGAGA AGAAATGTGT GGACAAGTTC TGCTCCGATT CCAGCTCTGA CTGTGGGAGC
    TCCTCTGGCA GCGTGCGTGC CAGCCGGGGC AGCTGGGGGA GCTGGAGCAG CACCAGCAGC
    TCCGACGGGG ATAAGAAGCC CATGGTGGAC GCCCAGCACT TCCTGCCGGC CGGAGACAGT
    GTTTCACAAA ATGATTTTCC TTCTGAAGCT CCCATCTCCT TGAATCTTTC TCATAACATC
    TGCAATCCCA TGACCGTGAA TAGTCTCCCA CAATACGCAG AGCCTTCCTG TCCCAGCCTT
    CCTGCCGGGC CCACAGGTGT TGAAGAAGAT AAAGGTCTTT ACTCACCTGG AGACCTGTGG
    CCCACTCCGC CAGTGTGTGT GACAAGCAGC TTAAACTGCA CCCTGGAGAA CGGCGTGCCT
    TGTGTGATTC AGGAGTCGGC CCCGGTTCAT AATAGTTTCA TTGATTGGAG TGCAACATGC
    GAAGGCCAGT TTTCCAGCGC ATACTGTCCA TTGGAATTGA ACGATTACAA TGCCTTTCCA
    GAAGAAAACA TGAACTATGC CAATGGCTTC CCCTGTCCTG CAGATGTTCA GACAGACTTT
    ATTGATCACA ACTCTCAGTC TACCTGGAAC ACCCCACCCA ACATGCCTGC TGCCTGGGGA
    CATGCCAGTT TCATCAGCTC TCCGCCCTAC CTCACAAGCA CCCGAAGCTT GTCTCCAATG
    TCTGGACTTT TTGGTTCCAT CTGGGCCCCG CAAAGCGATG TGTATGAAAA TTGCTGCCCC
    ATCAACCCCA CCACGGAACA TTCGACCCAC ATGGAAAACC AAGCGGTCGT GTGCAAGGAA
    TACTACCCGG GGTTCAACCC GTTTCGCGCC TATATGAACC TGGACATATG GACTACCACA
    GCGAATAGGA ATGCAAATTT CCCACTGTCT AGAGACTCGA GTTACTGTGG GAATGTGTGA

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

    CloneID OHu65772
    Clone ID Related Accession (Same CDS sequence) XM_011531781.1
    Accession Version XM_011531781.1 Latest version! Documents for ORF clone product in default vector
    Sequence Information ORF Nucleotide Sequence (Length: 4917bp)
    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 transmembrane protein 131-like isoform X2
    Comment Comment: MODEL REFSEQ: This record is predicted by automated computational analysis. This record is derived from a genomic sequence (NC_000004.12) annotated using gene prediction method: Gnomon, supported by mRNA and EST evidence. Also see: Documentation of NCBI's Annotation Process ##Genome-Annotation-Data-START## Annotation Provider :: NCBI Annotation Status :: Updated annotation Annotation Name :: Homo sapiens Updated Annotation Release 109.20191205 Annotation Version :: 109.20191205 Annotation Pipeline :: NCBI eukaryotic genome annotation pipeline Annotation Software Version :: 8.3 Annotation Method :: Best-placed RefSeq; propagated RefSeq model Features Annotated :: Gene; mRNA; CDS; ncRNA ##Genome-Annotation-Data-END##

    1
    61
    121
    181
    241
    301
    361
    421
    481
    541
    601
    661
    721
    781
    841
    901
    961
    1021
    1081
    1141
    1201
    1261
    1321
    1381
    1441
    1501
    1561
    1621
    1681
    1741
    1801
    1861
    1921
    1981
    2041
    2101
    2161
    2221
    2281
    2341
    2401
    2461
    2521
    2581
    2641
    2701
    2761
    2821
    2881
    2941
    3001
    3061
    3121
    3181
    3241
    3301
    3361
    3421
    3481
    3541
    3601
    3661
    3721
    3781
    3841
    3901
    3961
    4021
    4081
    4141
    4201
    4261
    4321
    4381
    4441
    4501
    4561
    4621
    4681
    4741
    4801
    4861
    ATGCTCGGGC TGCGGAGCCC GGAGTGCCTC GTGGGGTGTC TTCACTCCCA CTTCGTCCCC 
    CCACCCCCAG CACGAGCACC CCGAGCCTGC CTGCACGCTG TCGCCTTCGC GTCCGAGGGG
    CCGCCGGCTC ACACCCCACC CATTGTATTT TTATCCTTGG CTCGCCCCTG GGATGGCCTC
    TGTTCCCAGG AGGAAAAAGA GACGTGTTTT GCGATTGAGC CGTTGCCGAA CGTGGTGGAG
    CTGTGGCAGG CAGAAGAAGG GGAACTCCTG CTGCCCACTC AGGGTGATTC TGAAGAGGGT
    CTGGAGGAGC CTTCTCAAGA ACAGAGCTTC TCGGACAAAC TATTTAGTGG AAAAGGCTTA
    CATTTTCAGC CATCAGTTTT AGATTTTGGA ATACAGTTCC TGGGACATCC TGTAGCAAAG
    ATTCTCCATG CTTACAACCC TAGTAGGGAC AGCGAGGTTG TGGTGAATTC AGTGTTTGCA
    GCTGCTGGAC ATTTCCATGT ACCGCCAGTT CCCTGCAGGG TAATTCCAGC AATGGGGAAA
    ACTTCCTTCA GAATTATTTT CTTACCTACT GAAGAAGGAA GCATTGAAAG TTCCTTATTT
    ATTAATACCT CTTCGTATGG AGTCCTTTCC TATCATGTAT CTGGAATTGG CACTCGTAGA
    ATCTCTACAG AAGGGTCTGC AAAGCAGCTA CCAAATGCTT ATTTTCTGCT TCCAAAGGTC
    CAGAGCATTC AGCTGTCTCA AATGCAGGCA GAAACCACTA ATACTAGCCT CTTGCAGGTG
    CAACTGGAAT GCAGTTTACA TAATAAAGTG TGTCAGCAAT TAAAGGGTTG TTATCTGGAA
    TCTGATGATG TTTTGCGTCT ACAAATGAGC ATAATGGTAA CAATGGAAAA CTTTTCAAAA
    GAATTTGAAG AAAACACACA ACATTTGTTA GATCATCTCT CTATTGTTTA CGTAGCTACA
    GATGAATCTG AGACCTCAGA TGATTCAGCA GTAAATATGT ATATATTACA TTCAGGAAAC
    AGCCTTATAT GGATACAGGA TATACGCCAT TTCTCACAGA GAGATGCTCT GTCTCTGCAG
    TTTGAACCAG TACTACTACC TACTTCTACA ACAAACTTTA CAAAAATTGC TTCTTTTACC
    TGCAAAGCTA CATCATGTGA CAGTGGAATT ATAGAAGATG TGAAGAAAAC AACACACACT
    CCAACACTAA AAGCATGCCT CTTCTCTTCT GTGGCTCAGG GGTATTTTAG AATGGACTCT
    TCTGCAACCC AGTTTCACAT AGAGACTCAT GAGAACACAT CAGGACTTTG GTCAATATGG
    TACCGCAACC ATTTTGACCG TAGTGTTGTA TTAAATGATG TGTTTCTTTC CAAGGAGACC
    AAGCACATGT TAAAGATTCT GAATTTCACT GGCCCTTTAT TTCTACCTCC AGGCTGTTGG
    AATATATTTT CTTTGAAACT TGCTGTTAAA GACATTGCCA TAAATCTATT CACCAATGTA
    TTTTTGACTA CAAACATAGG TGCCATTTTT GCAATACCTC TACAGATTTA TTCAGCACCA
    ACCAAGGAAG GGAGTCTGGG TTTTGAAGTG ATAGCACATT GTGGCATGCA TTATTTCATG
    GGAAAATCAA AAGCAGGAAA TCCTAATTGG AATGGGAGCC TTTCTCTGGA TCAATCTACC
    TGGAATGTGG ATTCTGAACT TGCAAATAAA TTGTATGAAA GATGGAAGAA ATATAAAAAT
    GGTGACGTCT GCAAGAGGAA TGTTTTGGGA ACAACTCGAT TTGCTCACTT GAAGAAATCC
    AAGGAGTCAG AGTCCTTTGT TTTCTTTTTG CCTCGTTTGA TCGCAGAGCC TGGCCTCATG
    TTAAACTTCA GCGCAACTGC CCTTAGGAGC AGGATGATCA AGTACTTTGT GGTGCAGAAC
    CCGTCCTCTT GGCCGGTCTC CTTGCAGCTC CTGCCTCTCT CCTTGTACCC TAAACCCGAA
    GCCCTAGTGC ACCTGCTCCA CAGATGGTTT GGCACTGATA TGCAGATGAT TAATTTCACA
    ACTGGTGAAT TCCAGCTCAC CGAAGCTTGC CCTTACCTGG GTACGCATTC TGAGGAATCC
    AGGTTTGGCA TCCTCCACTT ACATCTGCAG CCTTTGGAAA TGAAAAGGGT TGGCGTAGTT
    TTCACACCTG CTGACTATGG AAAAGTTACC TCACTCATAC TAATCCGGAA TAACTTGACT
    GTTATTGACA TGATTGGCGT GGAAGGATTT GGAGCAAGAG AGTTATTAAA AGTGGGTGGA
    AGACTTCCTG GTGCAGGAGG CTCACTCCGA TTTAAGGTGC CCGAGTCCAC GCTGATGGAC
    TGCCGTAGAC AACTGAAAGA CAGTAAGCAA ATTTTATCTA TTACAAAGAA CTTTAAAGTT
    GAGAATATTG GACCTCTTCC TATAACTGTT TCGTCTCTGA AAATTAATGG GTATAACTGC
    CAAGGTTATG GATTCGAGGT GCTGGATTGT CATCAGTTTT CCCTGGACCC AAACACATCC
    CGCGATATCA GCATTGTGTT CACTCCAGAC TTTACCTCCT CCTGGGTAAT TCGGGACCTA
    AGTCTTGTAA CCGCAGCGGA CCTAGAATTT CGCTTCACTC TCAATGTGAC TCTCCCTCAT
    CACCTGTTGC CCTTGTGTGC AGACGTGGTT CCAGGACCCA GCTGGGAGGA GTCATTTTGG
    AGGCTCACGG TCTTCTTTGT CAGTTTGTCC CTGTTGGGTG TGATTTTAAT AGCCTTCCAA
    CAAGCACAGT ACATTCTCAT GGAATTCATG AAAACAAGAC AGAGGCAAAA TGCTAGCTCC
    TCTTCACAGC AAAACAATGG TCCTATGGAT GTAATCAGCC CCCATTCTTA CAAAAGCAAT
    TGCAAGAACT TTCTCGATAC ATATGGCCCC TCTGATAAAG GCAGGGGGAA GAACTGCCTT
    CCAGTGAACA CTCCCCAAAG CAGGATCCAG AATGCTGCAA AGAGGAGCCC AGCCACCTAT
    GGTCATTCTC AGAAGAAGCA CAAATGCTCA GTGTATTACA GTAAACACAA AACCAGCACA
    GCTGCGGCCA GCAGCACCAG CACGACTACT GAGGAAAAAC AGACTTCACC CCTGGGCAGC
    TCACTGCCTG CTGCTAAAGA GGACATTTGC ACTGATGCCA TGCGTGAGAA CTGGATCAGC
    CTCAGATATG CAAGTGGCAT AAATGTCAAC CTGCAGAAGA ATTTAACCCT TCCCAAAAAC
    TTACTGAATA AAGAAGAAAA CACACTGAAA AACACAATTG TTTTCAGTAA TCCTTCTTCA
    GAATGTAGTA TGAAGGAGGG AATACAGACA TGTATGTTTC CTAAGGAAAC TGACATTAAA
    ACTTCAGAGA ACACAGCCGA GTTCAAGGAA CGGGAGCTCT GTCCACTGAA GACCTCCAAG
    AAACTACCTG AAAACCATTT ACCAAGAAAC TCACCTCAGT ACCACCAGCC AGACTTGCCA
    GAAATTTCCA GGAAAAATAA TGGGAATAAC CAGCAAGTAC CTGTCAAGAA TGAAGTAGAT
    CATTGTGAAA ATTTGAAGAA GGTGGACACA AAGCCTTCTT CAGAAAAGAA GATTCACAAA
    ACATCTAGAG AAGACATGTT TTCTGAGAAA CAGGACATAC CTTTCGTAGA GCAAGAAGAT
    CCTTATAGGA AGAAAAAGCT TCAGGAGAAA AGAGAAGGAA ATTTACAAAA TTTAAATTGG
    AGTAAAAGTC GAACATGTAG AAAGAACAAG AAAAGGGGTG TTGCTCCAGT CTCAAGGCCT
    CCTGAACAGA GTGATCTAAA GCTTGTGTGC AGTGACTTTG AGAGGTCTGA GCTGAGCAGT
    GACATCAATG TAAGAAGCTG GTGTATACAG GAAAGCACTA GGGAGGTTTG TAAAGCAGAT
    GCCGAAATTG CAAGCAGTTT ACCTGCTGCC CAGAGAGAGG CAGAAGGTTA CTACCAGAAG
    CCTGAGAAGA AATGTGTGGA CAAGTTCTGC TCCGATTCCA GCTCTGACTG TGGGAGCTCC
    TCTGGCAGCG TGCGTGCCAG CCGGGGCAGC TGGGGGAGCT GGAGCAGCAC CAGCAGCTCC
    GACGGGGATA AGAAGCCCAT GGTGGACGCC CAGCACTTCC TGCCGGCCGG AGACAGTGTT
    TCACAAAATG ATTTTCCTTC TGAAGCTCCC ATCTCCTTGA ATCTTTCTCA TAACATCTGC
    AATCCCATGA CCGTGAATAG TCTCCCACAA TACGCAGAGC CTTCCTGTCC CAGCCTTCCT
    GCCGGGCCCA CAGGTGTTGA AGAAGATAAA GGTCTTTACT CACCTGGAGA CCTGTGGCCC
    ACTCCGCCAG TGTGTGTGAC AAGCAGCTTA AACTGCACCC TGGAGAACGG CGTGCCTTGT
    GTGATTCAGG AGTCGGCCCC GGTTCATAAT AGTTTCATTG ATTGGAGTGC AACATGCGAA
    GGCCAGTTTT CCAGCGCATA CTGTCCATTG GAATTGAACG ATTACAATGC CTTTCCAGAA
    GAAAACATGA ACTATGCCAA TGGCTTCCCC TGTCCTGCAG ATGTTCAGAC AGACTTTATT
    GATCACAACT CTCAGTCTAC CTGGAACACC CCACCCAACA TGCCTGCTGC CTGGGGACAT
    GCCAGTTTCA TCAGCTCTCC GCCCTACCTC ACAAGCACCC GAAGCTTGTC TCCAATGTCT
    GGACTTTTTG GTTCCATCTG GGCCCCGCAA AGCGATGTGT ATGAAAATTG CTGCCCCATC
    AACCCCACCA CGGAACATTC GACCCACATG GAAAACCAAG CGGTCGTGTG CAAGGAATAC
    TACCCGGGGT TCAACCCGTT TCGCGCCTAT ATGAACCTGG ACATATGGAC TACCACAGCG
    AATAGGAATG CAAATTTCCC ACTGTCTAGA GACTCGAGTT ACTGTGGGAA TGTGTGA

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

    RefSeq XP_011530083.1
    CDS16..4932
    Translation

    Target ORF information:

    RefSeq Version XM_011531781.1
    Organism Homo sapiens(human)
    Definition Homo sapiens transmembrane 131 like (TMEM131L), transcript variant X2, mRNA.

    Target ORF information:

    Epitope DYKDDDDK
    Bacterial selection AMPR
    Mammalian selection NeoR
    Vector pcDNA3.1+/C-(K)DYK
    XM_011531781.1

    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
    4861
    ATGCTCGGGC TGCGGAGCCC GGAGTGCCTC GTGGGGTGTC TTCACTCCCA CTTCGTCCCC 
    CCACCCCCAG CACGAGCACC CCGAGCCTGC CTGCACGCTG TCGCCTTCGC GTCCGAGGGG
    CCGCCGGCTC ACACCCCACC CATTGTATTT TTATCCTTGG CTCGCCCCTG GGATGGCCTC
    TGTTCCCAGG AGGAAAAAGA GACGTGTTTT GCGATTGAGC CGTTGCCGAA CGTGGTGGAG
    CTGTGGCAGG CAGAAGAAGG GGAACTCCTG CTGCCCACTC AGGGTGATTC TGAAGAGGGT
    CTGGAGGAGC CTTCTCAAGA ACAGAGCTTC TCGGACAAAC TATTTAGTGG AAAAGGCTTA
    CATTTTCAGC CATCAGTTTT AGATTTTGGA ATACAGTTCC TGGGACATCC TGTAGCAAAG
    ATTCTCCATG CTTACAACCC TAGTAGGGAC AGCGAGGTTG TGGTGAATTC AGTGTTTGCA
    GCTGCTGGAC ATTTCCATGT ACCGCCAGTT CCCTGCAGGG TAATTCCAGC AATGGGGAAA
    ACTTCCTTCA GAATTATTTT CTTACCTACT GAAGAAGGAA GCATTGAAAG TTCCTTATTT
    ATTAATACCT CTTCGTATGG AGTCCTTTCC TATCATGTAT CTGGAATTGG CACTCGTAGA
    ATCTCTACAG AAGGGTCTGC AAAGCAGCTA CCAAATGCTT ATTTTCTGCT TCCAAAGGTC
    CAGAGCATTC AGCTGTCTCA AATGCAGGCA GAAACCACTA ATACTAGCCT CTTGCAGGTG
    CAACTGGAAT GCAGTTTACA TAATAAAGTG TGTCAGCAAT TAAAGGGTTG TTATCTGGAA
    TCTGATGATG TTTTGCGTCT ACAAATGAGC ATAATGGTAA CAATGGAAAA CTTTTCAAAA
    GAATTTGAAG AAAACACACA ACATTTGTTA GATCATCTCT CTATTGTTTA CGTAGCTACA
    GATGAATCTG AGACCTCAGA TGATTCAGCA GTAAATATGT ATATATTACA TTCAGGAAAC
    AGCCTTATAT GGATACAGGA TATACGCCAT TTCTCACAGA GAGATGCTCT GTCTCTGCAG
    TTTGAACCAG TACTACTACC TACTTCTACA ACAAACTTTA CAAAAATTGC TTCTTTTACC
    TGCAAAGCTA CATCATGTGA CAGTGGAATT ATAGAAGATG TGAAGAAAAC AACACACACT
    CCAACACTAA AAGCATGCCT CTTCTCTTCT GTGGCTCAGG GGTATTTTAG AATGGACTCT
    TCTGCAACCC AGTTTCACAT AGAGACTCAT GAGAACACAT CAGGACTTTG GTCAATATGG
    TACCGCAACC ATTTTGACCG TAGTGTTGTA TTAAATGATG TGTTTCTTTC CAAGGAGACC
    AAGCACATGT TAAAGATTCT GAATTTCACT GGCCCTTTAT TTCTACCTCC AGGCTGTTGG
    AATATATTTT CTTTGAAACT TGCTGTTAAA GACATTGCCA TAAATCTATT CACCAATGTA
    TTTTTGACTA CAAACATAGG TGCCATTTTT GCAATACCTC TACAGATTTA TTCAGCACCA
    ACCAAGGAAG GGAGTCTGGG TTTTGAAGTG ATAGCACATT GTGGCATGCA TTATTTCATG
    GGAAAATCAA AAGCAGGAAA TCCTAATTGG AATGGGAGCC TTTCTCTGGA TCAATCTACC
    TGGAATGTGG ATTCTGAACT TGCAAATAAA TTGTATGAAA GATGGAAGAA ATATAAAAAT
    GGTGACGTCT GCAAGAGGAA TGTTTTGGGA ACAACTCGAT TTGCTCACTT GAAGAAATCC
    AAGGAGTCAG AGTCCTTTGT TTTCTTTTTG CCTCGTTTGA TCGCAGAGCC TGGCCTCATG
    TTAAACTTCA GCGCAACTGC CCTTAGGAGC AGGATGATCA AGTACTTTGT GGTGCAGAAC
    CCGTCCTCTT GGCCGGTCTC CTTGCAGCTC CTGCCTCTCT CCTTGTACCC TAAACCCGAA
    GCCCTAGTGC ACCTGCTCCA CAGATGGTTT GGCACTGATA TGCAGATGAT TAATTTCACA
    ACTGGTGAAT TCCAGCTCAC CGAAGCTTGC CCTTACCTGG GTACGCATTC TGAGGAATCC
    AGGTTTGGCA TCCTCCACTT ACATCTGCAG CCTTTGGAAA TGAAAAGGGT TGGCGTAGTT
    TTCACACCTG CTGACTATGG AAAAGTTACC TCACTCATAC TAATCCGGAA TAACTTGACT
    GTTATTGACA TGATTGGCGT GGAAGGATTT GGAGCAAGAG AGTTATTAAA AGTGGGTGGA
    AGACTTCCTG GTGCAGGAGG CTCACTCCGA TTTAAGGTGC CCGAGTCCAC GCTGATGGAC
    TGCCGTAGAC AACTGAAAGA CAGTAAGCAA ATTTTATCTA TTACAAAGAA CTTTAAAGTT
    GAGAATATTG GACCTCTTCC TATAACTGTT TCGTCTCTGA AAATTAATGG GTATAACTGC
    CAAGGTTATG GATTCGAGGT GCTGGATTGT CATCAGTTTT CCCTGGACCC AAACACATCC
    CGCGATATCA GCATTGTGTT CACTCCAGAC TTTACCTCCT CCTGGGTAAT TCGGGACCTA
    AGTCTTGTAA CCGCAGCGGA CCTAGAATTT CGCTTCACTC TCAATGTGAC TCTCCCTCAT
    CACCTGTTGC CCTTGTGTGC AGACGTGGTT CCAGGACCCA GCTGGGAGGA GTCATTTTGG
    AGGCTCACGG TCTTCTTTGT CAGTTTGTCC CTGTTGGGTG TGATTTTAAT AGCCTTCCAA
    CAAGCACAGT ACATTCTCAT GGAATTCATG AAAACAAGAC AGAGGCAAAA TGCTAGCTCC
    TCTTCACAGC AAAACAATGG TCCTATGGAT GTAATCAGCC CCCATTCTTA CAAAAGCAAT
    TGCAAGAACT TTCTCGATAC ATATGGCCCC TCTGATAAAG GCAGGGGGAA GAACTGCCTT
    CCAGTGAACA CTCCCCAAAG CAGGATCCAG AATGCTGCAA AGAGGAGCCC AGCCACCTAT
    GGTCATTCTC AGAAGAAGCA CAAATGCTCA GTGTATTACA GTAAACACAA AACCAGCACA
    GCTGCGGCCA GCAGCACCAG CACGACTACT GAGGAAAAAC AGACTTCACC CCTGGGCAGC
    TCACTGCCTG CTGCTAAAGA GGACATTTGC ACTGATGCCA TGCGTGAGAA CTGGATCAGC
    CTCAGATATG CAAGTGGCAT AAATGTCAAC CTGCAGAAGA ATTTAACCCT TCCCAAAAAC
    TTACTGAATA AAGAAGAAAA CACACTGAAA AACACAATTG TTTTCAGTAA TCCTTCTTCA
    GAATGTAGTA TGAAGGAGGG AATACAGACA TGTATGTTTC CTAAGGAAAC TGACATTAAA
    ACTTCAGAGA ACACAGCCGA GTTCAAGGAA CGGGAGCTCT GTCCACTGAA GACCTCCAAG
    AAACTACCTG AAAACCATTT ACCAAGAAAC TCACCTCAGT ACCACCAGCC AGACTTGCCA
    GAAATTTCCA GGAAAAATAA TGGGAATAAC CAGCAAGTAC CTGTCAAGAA TGAAGTAGAT
    CATTGTGAAA ATTTGAAGAA GGTGGACACA AAGCCTTCTT CAGAAAAGAA GATTCACAAA
    ACATCTAGAG AAGACATGTT TTCTGAGAAA CAGGACATAC CTTTCGTAGA GCAAGAAGAT
    CCTTATAGGA AGAAAAAGCT TCAGGAGAAA AGAGAAGGAA ATTTACAAAA TTTAAATTGG
    AGTAAAAGTC GAACATGTAG AAAGAACAAG AAAAGGGGTG TTGCTCCAGT CTCAAGGCCT
    CCTGAACAGA GTGATCTAAA GCTTGTGTGC AGTGACTTTG AGAGGTCTGA GCTGAGCAGT
    GACATCAATG TAAGAAGCTG GTGTATACAG GAAAGCACTA GGGAGGTTTG TAAAGCAGAT
    GCCGAAATTG CAAGCAGTTT ACCTGCTGCC CAGAGAGAGG CAGAAGGTTA CTACCAGAAG
    CCTGAGAAGA AATGTGTGGA CAAGTTCTGC TCCGATTCCA GCTCTGACTG TGGGAGCTCC
    TCTGGCAGCG TGCGTGCCAG CCGGGGCAGC TGGGGGAGCT GGAGCAGCAC CAGCAGCTCC
    GACGGGGATA AGAAGCCCAT GGTGGACGCC CAGCACTTCC TGCCGGCCGG AGACAGTGTT
    TCACAAAATG ATTTTCCTTC TGAAGCTCCC ATCTCCTTGA ATCTTTCTCA TAACATCTGC
    AATCCCATGA CCGTGAATAG TCTCCCACAA TACGCAGAGC CTTCCTGTCC CAGCCTTCCT
    GCCGGGCCCA CAGGTGTTGA AGAAGATAAA GGTCTTTACT CACCTGGAGA CCTGTGGCCC
    ACTCCGCCAG TGTGTGTGAC AAGCAGCTTA AACTGCACCC TGGAGAACGG CGTGCCTTGT
    GTGATTCAGG AGTCGGCCCC GGTTCATAAT AGTTTCATTG ATTGGAGTGC AACATGCGAA
    GGCCAGTTTT CCAGCGCATA CTGTCCATTG GAATTGAACG ATTACAATGC CTTTCCAGAA
    GAAAACATGA ACTATGCCAA TGGCTTCCCC TGTCCTGCAG ATGTTCAGAC AGACTTTATT
    GATCACAACT CTCAGTCTAC CTGGAACACC CCACCCAACA TGCCTGCTGC CTGGGGACAT
    GCCAGTTTCA TCAGCTCTCC GCCCTACCTC ACAAGCACCC GAAGCTTGTC TCCAATGTCT
    GGACTTTTTG GTTCCATCTG GGCCCCGCAA AGCGATGTGT ATGAAAATTG CTGCCCCATC
    AACCCCACCA CGGAACATTC GACCCACATG GAAAACCAAG CGGTCGTGTG CAAGGAATAC
    TACCCGGGGT TCAACCCGTT TCGCGCCTAT ATGAACCTGG ACATATGGAC TACCACAGCG
    AATAGGAATG CAAATTTCCC ACTGTCTAGA GACTCGAGTT ACTGTGGGAA TGTGTGA

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

    CloneID OHu65774
    Clone ID Related Accession (Same CDS sequence) XM_011531783.1
    Accession Version XM_011531783.1 Latest version! Documents for ORF clone product in default vector
    Sequence Information ORF Nucleotide Sequence (Length: 4668bp)
    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 transmembrane protein 131-like isoform X7
    Comment Comment: MODEL REFSEQ: This record is predicted by automated computational analysis. This record is derived from a genomic sequence (NC_000004.12) annotated using gene prediction method: Gnomon, supported by mRNA and EST evidence. Also see: Documentation of NCBI's Annotation Process ##Genome-Annotation-Data-START## Annotation Provider :: NCBI Annotation Status :: Updated annotation Annotation Name :: Homo sapiens Updated Annotation Release 109.20191205 Annotation Version :: 109.20191205 Annotation Pipeline :: NCBI eukaryotic genome annotation pipeline Annotation Software Version :: 8.3 Annotation Method :: Best-placed RefSeq; propagated RefSeq model Features Annotated :: Gene; mRNA; CDS; ncRNA ##Genome-Annotation-Data-END##

    1
    61
    121
    181
    241
    301
    361
    421
    481
    541
    601
    661
    721
    781
    841
    901
    961
    1021
    1081
    1141
    1201
    1261
    1321
    1381
    1441
    1501
    1561
    1621
    1681
    1741
    1801
    1861
    1921
    1981
    2041
    2101
    2161
    2221
    2281
    2341
    2401
    2461
    2521
    2581
    2641
    2701
    2761
    2821
    2881
    2941
    3001
    3061
    3121
    3181
    3241
    3301
    3361
    3421
    3481
    3541
    3601
    3661
    3721
    3781
    3841
    3901
    3961
    4021
    4081
    4141
    4201
    4261
    4321
    4381
    4441
    4501
    4561
    4621
    ATGCTCGGGC TGCGGAGCCC GGAGTGCCTC GTGGGGTGTC TTCACTCCCA CTTCGTCCCC 
    CCACCCCCAG CACGAGCACC CCGAGCCTGC CTGCACGCTG TCGCCTTCGC GTCCGAGGGG
    CCGCCGGCTC ACACCCCACC CATTGTATTT TTATCCTTGG CTCGCCCCTG GGATGGCCTC
    TGTTCCCAGG AGGAAAAAGA GACGTGTTTT GCGATTGAGC CGTTGCCGAA CGTGGTGGAG
    CTGTGGCAGG CAGAAGAAGG GGAACTCCTG CTGCCCACTC AGGGTGATTC TGAAGAGGGT
    CTGGAGGAGC CTTCTCAAGA ACAGAGCTTC TCGGACAAAC TATTTAGTGG AAAAGGCTTA
    CATTTTCAGC CATCAGTTTT AGATTTTGGA ATACAGTTCC TGGGACATCC TGTAGCAAAG
    ATTCTCCATG CTTACAACCC TAGTAGGGAC AGCGAGGTTG TGGTGAATTC AGTGTTTGCA
    GCTGCTGGAC ATTTCCATGT ACCGCCAGTT CCCTGCAGGG TAATTCCAGC AATGGGGAAA
    ACTTCCTTCA GAATTATTTT CTTACCTACT GAAGAAGGAA GCATTGAAAG TTCCTTATTT
    ATTAATACCT CTTCGTATGG AGTCCTTTCC TATCATGTAT CTGGAATTGG CACTCGTAGA
    ATCTCTACAG AAGGGTCTGC AAAGCAGCTA CCAAATGCTT ATTTTCTGCT TCCAAAGGTC
    CAGAGCATTC AGCTGTCTCA AATGCAGGCA GAAACCACTA ATACTAGCCT CTTGCAGGTG
    CAACTGGAAT GCAGTTTACA TAATAAAGTG TGTCAGCAAT TAAAGGGTTG TTATCTGGAA
    TCTGATGATG TTTTGCGTCT ACAAATGAGC ATAATGGTAA CAATGGAAAA CTTTTCAAAA
    GAATTTGAAG AAAACACACA ACATTTGTTA GATCATCTCT CTATTGTTTA CGTAGCTACA
    GATGAATCTG AGACCTCAGA TGATTCAGCA GTAAATATGT ATATATTACA TTCAGGAAAC
    AGCCTTATAT GGATACAGGA TATACGCCAT TTCTCACAGA GAGATGCTCT GTCTCTGCAG
    TTTGAACCAG TACTACTACC TACTTCTACA ACAAACTTTA CAAAAATTGC TTCTTTTACC
    TGCAAAGCAG CTACATCATG TGACAGTGGA ATTATAGAAG ATGTGAAGAA AACAACACAC
    ACTCCAACAC TAAAAGCATG CCTCTTCTCT TCTGTGGCTC AGGGGTATTT TAGAATGGAC
    TCTTCTGCAA CCCAGTTTCA CATAGAGACT CATGAGAACA CATCAGGACT TTGGTCAATA
    TGGTACCGCA ACCATTTTGA CCGTAGTGTT GTATTAAATG ATGTGTTTCT TTCCAAGGAG
    ACCAAGCACA TGTTAAAGAT TCTGAATTTC ACTGGCCCTT TATTTCTACC TCCAGGCTGT
    TGGAATATAT TTTCTTTGAA ACTTGCTGTT AAAGACATTG CCATAAATCT ATTCACCAAT
    GTATTTTTGA CTACAAACAT AGGTGCCATT TTTGCAATAC CTCTACAGAT TTATTCAGCA
    CCAACCAAGG AAGGGAGTCT GGGTTTTGAA GTGATAGCAC ATTGTGGCAT GCATTATTTC
    ATGGGAAAAT CAAAAGCAGG AAATCCTAAT TGGAATGGGA GCCTTTCTCT GGATCAATCT
    ACCTGGAATG TGGATTCTGA ACTTGCAAAT AAATTGTATG AAAGATGGAA GAAATATAAA
    AATGGTGACG TCTGCAAGTT TGGCACTGAT ATGCAGATGA TTAATTTCAC AACTGGTGAA
    TTCCAGCTCA CCGAAGCTTG CCCTTACCTG GGTACGCATT CTGAGGAATC CAGGTTTGGC
    ATCCTCCACT TACATCTGCA GCCTTTGGAA ATGAAAAGGG TTGGCGTAGT TTTCACACCT
    GCTGACTATG GAAAAGTTAC CTCACTCATA CTAATCCGGA ATAACTTGAC TGTTATTGAC
    ATGATTGGCG TGGAAGGATT TGGAGCAAGA GAGTTATTAA AAGTGGGTGG AAGACTTCCT
    GGTGCAGGAG GCTCACTCCG ATTTAAGGTG CCCGAGTCCA CGCTGATGGA CTGCCGTAGA
    CAACTGAAAG ACAGTAAGCA AATTTTATCT ATTACAAAGA ACTTTAAAGT TGAGAATATT
    GGACCTCTTC CTATAACTGT TTCGTCTCTG AAAATTAATG GGTATAACTG CCAAGGTTAT
    GGATTCGAGG TGCTGGATTG TCATCAGTTT TCCCTGGACC CAAACACATC CCGCGATATC
    AGCATTGTGT TCACTCCAGA CTTTACCTCC TCCTGGGTAA TTCGGGACCT AAGTCTTGTA
    ACCGCAGCGG ACCTAGAATT TCGCTTCACT CTCAATGTGA CTCTCCCTCA TCACCTGTTG
    CCCTTGTGTG CAGACGTGGT TCCAGGACCC AGCTGGGAGG AGTCATTTTG GAGGCTCACG
    GTCTTCTTTG TCAGTTTGTC CCTGTTGGGT GTGATTTTAA TAGCCTTCCA ACAAGCACAG
    TACATTCTCA TGGAATTCAT GAAAACAAGA CAGAGGCAAA ATGCTAGCTC CTCTTCACAG
    CAAAACAATG GTCCTATGGA TGTAATCAGC CCCCATTCTT ACAAAAGCAA TTGCAAGAAC
    TTTCTCGATA CATATGGCCC CTCTGATAAA GGCAGGGGGA AGAACTGCCT TCCAGTGAAC
    ACTCCCCAAA GCAGGATCCA GAATGCTGCA AAGAGGAGCC CAGCCACCTA TGGTCATTCT
    CAGAAGAAGC ACAAATGCTC AGTGTATTAC AGTAAACACA AAACCAGCAC AGCTGCGGCC
    AGCAGCACCA GCACGACTAC TGAGGAAAAA CAGACTTCAC CCCTGGGCAG CTCACTGCCT
    GCTGCTAAAG AGGACATTTG CACTGATGCC ATGCGTGAGA ACTGGATCAG CCTCAGATAT
    GCAAGTGGCA TAAATGTCAA CCTGCAGAAG AATTTAACCC TTCCCAAAAA CTTACTGAAT
    AAAGAAGAAA ACACACTGAA AAACACAATT GTTTTCAGTA ATCCTTCTTC AGAATGTAGT
    ATGAAGGAGG GAATACAGAC ATGTATGTTT CCTAAGGAAA CTGACATTAA AACTTCAGAG
    AACACAGCCG AGTTCAAGGA ACGGGAGCTC TGTCCACTGA AGACCTCCAA GAAACTACCT
    GAAAACCATT TACCAAGAAA CTCACCTCAG TACCACCAGC CAGACTTGCC AGAAATTTCC
    AGGAAAAATA ATGGGAATAA CCAGCAAGTA CCTGTCAAGA ATGAAGTAGA TCATTGTGAA
    AATTTGAAGA AGGTGGACAC AAAGCCTTCT TCAGAAAAGA AGATTCACAA AACATCTAGA
    GAAGACATGT TTTCTGAGAA ACAGGACATA CCTTTCGTAG AGCAAGAAGA TCCTTATAGG
    AAGAAAAAGC TTCAGGAGAA AAGAGAAGGA AATTTACAAA ATTTAAATTG GAGTAAAAGT
    CGAACATGTA GAAAGAACAA GAAAAGGGGT GTTGCTCCAG TCTCAAGGCC TCCTGAACAG
    AGTGATCTAA AGCTTGTGTG CAGTGACTTT GAGAGGTCTG AGCTGAGCAG TGACATCAAT
    GTAAGAAGCT GGTGTATACA GGAAAGCACT AGGGAGGTTT GTAAAGCAGA TGCCGAAATT
    GCAAGCAGTT TACCTGCTGC CCAGAGAGAG GCAGAAGGTT ACTACCAGAA GCCTGAGAAG
    AAATGTGTGG ACAAGTTCTG CTCCGATTCC AGCTCTGACT GTGGGAGCTC CTCTGGCAGC
    GTGCGTGCCA GCCGGGGCAG CTGGGGGAGC TGGAGCAGCA CCAGCAGCTC CGACGGGGAT
    AAGAAGCCCA TGGTGGACGC CCAGCACTTC CTGCCGGCCG GAGACAGTGT TTCACAAAAT
    GATTTTCCTT CTGAAGCTCC CATCTCCTTG AATCTTTCTC ATAACATCTG CAATCCCATG
    ACCGTGAATA GTCTCCCACA ATACGCAGAG CCTTCCTGTC CCAGCCTTCC TGCCGGGCCC
    ACAGGTGTTG AAGAAGATAA AGGTCTTTAC TCACCTGGAG ACCTGTGGCC CACTCCGCCA
    GTGTGTGTGA CAAGCAGCTT AAACTGCACC CTGGAGAACG GCGTGCCTTG TGTGATTCAG
    GAGTCGGCCC CGGTTCATAA TAGTTTCATT GATTGGAGTG CAACATGCGA AGGCCAGTTT
    TCCAGCGCAT ACTGTCCATT GGAATTGAAC GATTACAATG CCTTTCCAGA AGAAAACATG
    AACTATGCCA ATGGCTTCCC CTGTCCTGCA GATGTTCAGA CAGACTTTAT TGATCACAAC
    TCTCAGTCTA CCTGGAACAC CCCACCCAAC ATGCCTGCTG CCTGGGGACA TGCCAGTTTC
    ATCAGCTCTC CGCCCTACCT CACAAGCACC CGAAGCTTGT CTCCAATGTC TGGACTTTTT
    GGTTCCATCT GGGCCCCGCA AAGCGATGTG TATGAAAATT GCTGCCCCAT CAACCCCACC
    ACGGAACATT CGACCCACAT GGAAAACCAA GCGGTCGTGT GCAAGGAATA CTACCCGGGG
    TTCAACCCGT TTCGCGCCTA TATGAACCTG GACATATGGA CTACCACAGC GAATAGGAAT
    GCAAATTTCC CACTGTCTAG AGACTCGAGT TACTGTGGGA ATGTGTGA

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

    RefSeq XP_011530085.1
    CDS16..4683
    Translation

    Target ORF information:

    RefSeq Version XM_011531783.1
    Organism Homo sapiens(human)
    Definition Homo sapiens transmembrane 131 like (TMEM131L), transcript variant X7, mRNA.

    Target ORF information:

    Epitope DYKDDDDK
    Bacterial selection AMPR
    Mammalian selection NeoR
    Vector pcDNA3.1+/C-(K)DYK
    XM_011531783.1

    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
    ATGCTCGGGC TGCGGAGCCC GGAGTGCCTC GTGGGGTGTC TTCACTCCCA CTTCGTCCCC 
    CCACCCCCAG CACGAGCACC CCGAGCCTGC CTGCACGCTG TCGCCTTCGC GTCCGAGGGG
    CCGCCGGCTC ACACCCCACC CATTGTATTT TTATCCTTGG CTCGCCCCTG GGATGGCCTC
    TGTTCCCAGG AGGAAAAAGA GACGTGTTTT GCGATTGAGC CGTTGCCGAA CGTGGTGGAG
    CTGTGGCAGG CAGAAGAAGG GGAACTCCTG CTGCCCACTC AGGGTGATTC TGAAGAGGGT
    CTGGAGGAGC CTTCTCAAGA ACAGAGCTTC TCGGACAAAC TATTTAGTGG AAAAGGCTTA
    CATTTTCAGC CATCAGTTTT AGATTTTGGA ATACAGTTCC TGGGACATCC TGTAGCAAAG
    ATTCTCCATG CTTACAACCC TAGTAGGGAC AGCGAGGTTG TGGTGAATTC AGTGTTTGCA
    GCTGCTGGAC ATTTCCATGT ACCGCCAGTT CCCTGCAGGG TAATTCCAGC AATGGGGAAA
    ACTTCCTTCA GAATTATTTT CTTACCTACT GAAGAAGGAA GCATTGAAAG TTCCTTATTT
    ATTAATACCT CTTCGTATGG AGTCCTTTCC TATCATGTAT CTGGAATTGG CACTCGTAGA
    ATCTCTACAG AAGGGTCTGC AAAGCAGCTA CCAAATGCTT ATTTTCTGCT TCCAAAGGTC
    CAGAGCATTC AGCTGTCTCA AATGCAGGCA GAAACCACTA ATACTAGCCT CTTGCAGGTG
    CAACTGGAAT GCAGTTTACA TAATAAAGTG TGTCAGCAAT TAAAGGGTTG TTATCTGGAA
    TCTGATGATG TTTTGCGTCT ACAAATGAGC ATAATGGTAA CAATGGAAAA CTTTTCAAAA
    GAATTTGAAG AAAACACACA ACATTTGTTA GATCATCTCT CTATTGTTTA CGTAGCTACA
    GATGAATCTG AGACCTCAGA TGATTCAGCA GTAAATATGT ATATATTACA TTCAGGAAAC
    AGCCTTATAT GGATACAGGA TATACGCCAT TTCTCACAGA GAGATGCTCT GTCTCTGCAG
    TTTGAACCAG TACTACTACC TACTTCTACA ACAAACTTTA CAAAAATTGC TTCTTTTACC
    TGCAAAGCAG CTACATCATG TGACAGTGGA ATTATAGAAG ATGTGAAGAA AACAACACAC
    ACTCCAACAC TAAAAGCATG CCTCTTCTCT TCTGTGGCTC AGGGGTATTT TAGAATGGAC
    TCTTCTGCAA CCCAGTTTCA CATAGAGACT CATGAGAACA CATCAGGACT TTGGTCAATA
    TGGTACCGCA ACCATTTTGA CCGTAGTGTT GTATTAAATG ATGTGTTTCT TTCCAAGGAG
    ACCAAGCACA TGTTAAAGAT TCTGAATTTC ACTGGCCCTT TATTTCTACC TCCAGGCTGT
    TGGAATATAT TTTCTTTGAA ACTTGCTGTT AAAGACATTG CCATAAATCT ATTCACCAAT
    GTATTTTTGA CTACAAACAT AGGTGCCATT TTTGCAATAC CTCTACAGAT TTATTCAGCA
    CCAACCAAGG AAGGGAGTCT GGGTTTTGAA GTGATAGCAC ATTGTGGCAT GCATTATTTC
    ATGGGAAAAT CAAAAGCAGG AAATCCTAAT TGGAATGGGA GCCTTTCTCT GGATCAATCT
    ACCTGGAATG TGGATTCTGA ACTTGCAAAT AAATTGTATG AAAGATGGAA GAAATATAAA
    AATGGTGACG TCTGCAAGTT TGGCACTGAT ATGCAGATGA TTAATTTCAC AACTGGTGAA
    TTCCAGCTCA CCGAAGCTTG CCCTTACCTG GGTACGCATT CTGAGGAATC CAGGTTTGGC
    ATCCTCCACT TACATCTGCA GCCTTTGGAA ATGAAAAGGG TTGGCGTAGT TTTCACACCT
    GCTGACTATG GAAAAGTTAC CTCACTCATA CTAATCCGGA ATAACTTGAC TGTTATTGAC
    ATGATTGGCG TGGAAGGATT TGGAGCAAGA GAGTTATTAA AAGTGGGTGG AAGACTTCCT
    GGTGCAGGAG GCTCACTCCG ATTTAAGGTG CCCGAGTCCA CGCTGATGGA CTGCCGTAGA
    CAACTGAAAG ACAGTAAGCA AATTTTATCT ATTACAAAGA ACTTTAAAGT TGAGAATATT
    GGACCTCTTC CTATAACTGT TTCGTCTCTG AAAATTAATG GGTATAACTG CCAAGGTTAT
    GGATTCGAGG TGCTGGATTG TCATCAGTTT TCCCTGGACC CAAACACATC CCGCGATATC
    AGCATTGTGT TCACTCCAGA CTTTACCTCC TCCTGGGTAA TTCGGGACCT AAGTCTTGTA
    ACCGCAGCGG ACCTAGAATT TCGCTTCACT CTCAATGTGA CTCTCCCTCA TCACCTGTTG
    CCCTTGTGTG CAGACGTGGT TCCAGGACCC AGCTGGGAGG AGTCATTTTG GAGGCTCACG
    GTCTTCTTTG TCAGTTTGTC CCTGTTGGGT GTGATTTTAA TAGCCTTCCA ACAAGCACAG
    TACATTCTCA TGGAATTCAT GAAAACAAGA CAGAGGCAAA ATGCTAGCTC CTCTTCACAG
    CAAAACAATG GTCCTATGGA TGTAATCAGC CCCCATTCTT ACAAAAGCAA TTGCAAGAAC
    TTTCTCGATA CATATGGCCC CTCTGATAAA GGCAGGGGGA AGAACTGCCT TCCAGTGAAC
    ACTCCCCAAA GCAGGATCCA GAATGCTGCA AAGAGGAGCC CAGCCACCTA TGGTCATTCT
    CAGAAGAAGC ACAAATGCTC AGTGTATTAC AGTAAACACA AAACCAGCAC AGCTGCGGCC
    AGCAGCACCA GCACGACTAC TGAGGAAAAA CAGACTTCAC CCCTGGGCAG CTCACTGCCT
    GCTGCTAAAG AGGACATTTG CACTGATGCC ATGCGTGAGA ACTGGATCAG CCTCAGATAT
    GCAAGTGGCA TAAATGTCAA CCTGCAGAAG AATTTAACCC TTCCCAAAAA CTTACTGAAT
    AAAGAAGAAA ACACACTGAA AAACACAATT GTTTTCAGTA ATCCTTCTTC AGAATGTAGT
    ATGAAGGAGG GAATACAGAC ATGTATGTTT CCTAAGGAAA CTGACATTAA AACTTCAGAG
    AACACAGCCG AGTTCAAGGA ACGGGAGCTC TGTCCACTGA AGACCTCCAA GAAACTACCT
    GAAAACCATT TACCAAGAAA CTCACCTCAG TACCACCAGC CAGACTTGCC AGAAATTTCC
    AGGAAAAATA ATGGGAATAA CCAGCAAGTA CCTGTCAAGA ATGAAGTAGA TCATTGTGAA
    AATTTGAAGA AGGTGGACAC AAAGCCTTCT TCAGAAAAGA AGATTCACAA AACATCTAGA
    GAAGACATGT TTTCTGAGAA ACAGGACATA CCTTTCGTAG AGCAAGAAGA TCCTTATAGG
    AAGAAAAAGC TTCAGGAGAA AAGAGAAGGA AATTTACAAA ATTTAAATTG GAGTAAAAGT
    CGAACATGTA GAAAGAACAA GAAAAGGGGT GTTGCTCCAG TCTCAAGGCC TCCTGAACAG
    AGTGATCTAA AGCTTGTGTG CAGTGACTTT GAGAGGTCTG AGCTGAGCAG TGACATCAAT
    GTAAGAAGCT GGTGTATACA GGAAAGCACT AGGGAGGTTT GTAAAGCAGA TGCCGAAATT
    GCAAGCAGTT TACCTGCTGC CCAGAGAGAG GCAGAAGGTT ACTACCAGAA GCCTGAGAAG
    AAATGTGTGG ACAAGTTCTG CTCCGATTCC AGCTCTGACT GTGGGAGCTC CTCTGGCAGC
    GTGCGTGCCA GCCGGGGCAG CTGGGGGAGC TGGAGCAGCA CCAGCAGCTC CGACGGGGAT
    AAGAAGCCCA TGGTGGACGC CCAGCACTTC CTGCCGGCCG GAGACAGTGT TTCACAAAAT
    GATTTTCCTT CTGAAGCTCC CATCTCCTTG AATCTTTCTC ATAACATCTG CAATCCCATG
    ACCGTGAATA GTCTCCCACA ATACGCAGAG CCTTCCTGTC CCAGCCTTCC TGCCGGGCCC
    ACAGGTGTTG AAGAAGATAA AGGTCTTTAC TCACCTGGAG ACCTGTGGCC CACTCCGCCA
    GTGTGTGTGA CAAGCAGCTT AAACTGCACC CTGGAGAACG GCGTGCCTTG TGTGATTCAG
    GAGTCGGCCC CGGTTCATAA TAGTTTCATT GATTGGAGTG CAACATGCGA AGGCCAGTTT
    TCCAGCGCAT ACTGTCCATT GGAATTGAAC GATTACAATG CCTTTCCAGA AGAAAACATG
    AACTATGCCA ATGGCTTCCC CTGTCCTGCA GATGTTCAGA CAGACTTTAT TGATCACAAC
    TCTCAGTCTA CCTGGAACAC CCCACCCAAC ATGCCTGCTG CCTGGGGACA TGCCAGTTTC
    ATCAGCTCTC CGCCCTACCT CACAAGCACC CGAAGCTTGT CTCCAATGTC TGGACTTTTT
    GGTTCCATCT GGGCCCCGCA AAGCGATGTG TATGAAAATT GCTGCCCCAT CAACCCCACC
    ACGGAACATT CGACCCACAT GGAAAACCAA GCGGTCGTGT GCAAGGAATA CTACCCGGGG
    TTCAACCCGT TTCGCGCCTA TATGAACCTG GACATATGGA CTACCACAGC GAATAGGAAT
    GCAAATTTCC CACTGTCTAG AGACTCGAGT TACTGTGGGA ATGTGTGA

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