DSCAML1 cDNA ORF clone, Homo sapiens(human)

The following DSCAML1 gene cDNA ORF clone sequences were retrieved from the NCBI Reference Sequence Database (RefSeq). These sequences represent the protein coding region of the DSCAML1 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
OHu107654 NM_001367905.1
Latest version!
Homo sapiens DS cell adhesion molecule like 1 (DSCAML1), transcript variant 3, mRNA. pcDNA3.1-C-(k)DYK or customized vector 9-11 $223.30
$319.00
OHu107660 NM_001367904.1
Latest version!
Homo sapiens DS cell adhesion molecule like 1 (DSCAML1), transcript variant 2, mRNA. pcDNA3.1-C-(k)DYK or customized vector 14-16 $475.30
$679.00
OHu107656 NM_020693.4
Latest version!
Homo sapiens DS cell adhesion molecule like 1 (DSCAML1), transcript variant 1, mRNA. pcDNA3.1-C-(k)DYK or customized vector 29-31 $1091.30
$1559.00
OHu03414 NM_020693.3
Latest version!
Homo sapiens DS cell adhesion molecule like 1 (DSCAML1), mRNA. pcDNA3.1-C-(k)DYK or customized vector TBD $1091.30
$1559.00
OHu70457 XM_011542917.2
Latest version!
Homo sapiens DS cell adhesion molecule like 1 (DSCAML1), transcript variant X1, mRNA. pcDNA3.1-C-(k)DYK or customized vector TBD $1091.30
$1559.00
OHu70458 XM_011542918.1
Latest version!
Homo sapiens DS cell adhesion molecule like 1 (DSCAML1), transcript variant X2, mRNA. pcDNA3.1-C-(k)DYK or customized vector TBD $951.30
$1359.00
OHu70459 XM_011542919.2
Latest version!
Homo sapiens DS cell adhesion molecule like 1 (DSCAML1), transcript variant X3, mRNA. pcDNA3.1-C-(k)DYK or customized vector TBD $811.30
$1159.00
OHu70460 XM_011542920.2
Latest version!
Homo sapiens DS cell adhesion molecule like 1 (DSCAML1), transcript variant X4, mRNA. pcDNA3.1-C-(k)DYK or customized vector TBD $811.30
$1159.00
OHu70461 XM_011542921.2
Latest version!
Homo sapiens DS cell adhesion molecule like 1 (DSCAML1), transcript variant X5, mRNA. pcDNA3.1-C-(k)DYK or customized vector TBD $727.30
$1039.00
OHu70464 XM_011542924.2
Latest version!
Homo sapiens DS cell adhesion molecule like 1 (DSCAML1), transcript variant X6, mRNA. pcDNA3.1-C-(k)DYK or customized vector TBD $643.30
$919.00
OHu70465 XM_011542925.2
Latest version!
Homo sapiens DS cell adhesion molecule like 1 (DSCAML1), transcript variant X7, mRNA. pcDNA3.1-C-(k)DYK or customized vector TBD $643.30
$919.00
View Old Accession Versions >>
OHu70457 XM_011542917.1 Homo sapiens DS cell adhesion molecule like 1 (DSCAML1), transcript variant X1, mRNA. pcDNA3.1-C-(k)DYK or customized vector TBD $1091.30
$1559.00
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 OHu107654
    Clone ID Related Accession (Same CDS sequence) NM_001367905.1
    Accession Version NM_001367905.1 Latest version! Documents for ORF clone product in default vector
    Sequence Information ORF Nucleotide Sequence (Length: 1140bp)
    Protein sequence
    SNP
    Vector pcDNA3.1-C-(k)DYK or customized vector User Manual
    Clone information Clone Map MSDS
    Tag on pcDNA3.1+/C-(K)DYK C terminal DYKDDDDK tags
    ORF Insert Method CloneEZ™ Seamless cloning technology
    Insert Structure linear
    Update Date 2018-12-26
    Organism Homo sapiens(human)
    Product Down syndrome cell adhesion molecule-like protein 1 isoform 3
    Comment Comment: REVIEWED REFSEQ: This record has been curated by NCBI staff. The reference sequence was derived from AK025940.1, AP000757.4 and AP002342.3. ##Evidence-Data-START## Transcript exon combination :: AK025940.1 [ECO:0000332] RNAseq introns :: mixed/partial sample support SAMEA1965299, SAMEA1966682 [ECO:0000350] ##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
    ATGCGTGGCA ACGTGGCCGT CTTCAAGTGC CTCATCCCCT CTTCAGTGCA GGAATATGTT 
    AGCGTTGTAT CTTGGGAGAA AGACACAGTC TCCATCATCC CAGAACACAG GTTTTTTATT
    ACCTACCACG GCGGGCTGTA CATCTCTGAC GTACAGAAGG AGGACGCCCT CTCCACCTAT
    CGCTGCATCA CCAAGCACAA GTATAGCGGG GAGACCCGGC AGAGCAATGG GGCACGCCTC
    TCTGTGACAG ACCCTGCTGA GTCGATCCCC ACCATCCTGG ATGGCTTCCA CTCCCAGGAA
    GTGTGGGCCG GCCACACCGT GGAGCTGCCC TGCACCGCCT CGGGCTACCC TATCCCCGCC
    ATCCGCTGGC TCAAGGATGG CCGGCCCCTC CCGGCTGACA GCCGCTGGAC CAAGCGCATC
    ACAGGGCTGA CCATCAGCGA CTTGCGGACC GAGGACAGCG GCACCTACAT TTGTGAGGTC
    ACCAACACCT TCGGTTCGGC AGAGGCCACA GGCATCCTCA TGGTCATTGA TCCCCTTCAT
    GTGACCCTGA CACCAAAGAA GCTGAAGACC GGCATTGGCA GCACGGTCAT CCTCTCCTGT
    GCCCTGACGG GCTCCCCAGA GTTCACCATC CGCTGGTATC GCAACACGGA GCTGGTGCTG
    CCTGACGAGG CCATCTCCAT CCGCGGGCTC AGCAACGAGA CGCTGCTCAT CACCTCGGCC
    CAGAAGAGCC ATTCCGGGGC CTACCAGTGC TTCGCTACCC GCAAGGCCCA GACCGCCCAG
    GACTTTGCCA TCATTGCACT TGAGGATGGC ACGCCCCGCA TCGTCTCGTC CTTCAGCGAG
    AAGGTGGTCA ACCCCGGGGA GCAGTTCTCA CTGATGTGTG CGGCCAAGGG CGCCCCGCCC
    CCCACGGTCA CCTGGGCCCT CGACGATGAG CCCATCGTGC GGGATGGCAG CCACCGCACC
    AACCAGTACA CCATGTCGGA CGGCACCACC ATCAGCCACA TGAACGTCAC AGGCCCCCAG
    ATCCGCGACG GGGGCGTGTA CCGGTGCACA GCGCGGAACT TGGTGGGCAG TGCTGAATAT
    CAGGCGCGAA TAAACGTAAG AGGTGCCTGT CTACATTTAA ATATCAGAAT AGGTTTTTGA

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

    RefSeq NP_001354834.1
    CDS488..1627
    Translation

    Target ORF information:

    RefSeq Version NM_001367905.1
    Organism Homo sapiens(human)
    Definition Homo sapiens DS cell adhesion molecule like 1 (DSCAML1), transcript variant 3, mRNA.

    Target ORF information:

    Epitope DYKDDDDK
    Bacterial selection AMPR
    Mammalian selection NeoR
    Vector pcDNA3.1+/C-(K)DYK
    NM_001367905.1

    ORF Insert Sequence:

    1
    61
    121
    181
    241
    301
    361
    421
    481
    541
    601
    661
    721
    781
    841
    901
    961
    1021
    1081
    ATGCGTGGCA ACGTGGCCGT CTTCAAGTGC CTCATCCCCT CTTCAGTGCA GGAATATGTT 
    AGCGTTGTAT CTTGGGAGAA AGACACAGTC TCCATCATCC CAGAACACAG GTTTTTTATT
    ACCTACCACG GCGGGCTGTA CATCTCTGAC GTACAGAAGG AGGACGCCCT CTCCACCTAT
    CGCTGCATCA CCAAGCACAA GTATAGCGGG GAGACCCGGC AGAGCAATGG GGCACGCCTC
    TCTGTGACAG ACCCTGCTGA GTCGATCCCC ACCATCCTGG ATGGCTTCCA CTCCCAGGAA
    GTGTGGGCCG GCCACACCGT GGAGCTGCCC TGCACCGCCT CGGGCTACCC TATCCCCGCC
    ATCCGCTGGC TCAAGGATGG CCGGCCCCTC CCGGCTGACA GCCGCTGGAC CAAGCGCATC
    ACAGGGCTGA CCATCAGCGA CTTGCGGACC GAGGACAGCG GCACCTACAT TTGTGAGGTC
    ACCAACACCT TCGGTTCGGC AGAGGCCACA GGCATCCTCA TGGTCATTGA TCCCCTTCAT
    GTGACCCTGA CACCAAAGAA GCTGAAGACC GGCATTGGCA GCACGGTCAT CCTCTCCTGT
    GCCCTGACGG GCTCCCCAGA GTTCACCATC CGCTGGTATC GCAACACGGA GCTGGTGCTG
    CCTGACGAGG CCATCTCCAT CCGCGGGCTC AGCAACGAGA CGCTGCTCAT CACCTCGGCC
    CAGAAGAGCC ATTCCGGGGC CTACCAGTGC TTCGCTACCC GCAAGGCCCA GACCGCCCAG
    GACTTTGCCA TCATTGCACT TGAGGATGGC ACGCCCCGCA TCGTCTCGTC CTTCAGCGAG
    AAGGTGGTCA ACCCCGGGGA GCAGTTCTCA CTGATGTGTG CGGCCAAGGG CGCCCCGCCC
    CCCACGGTCA CCTGGGCCCT CGACGATGAG CCCATCGTGC GGGATGGCAG CCACCGCACC
    AACCAGTACA CCATGTCGGA CGGCACCACC ATCAGCCACA TGAACGTCAC AGGCCCCCAG
    ATCCGCGACG GGGGCGTGTA CCGGTGCACA GCGCGGAACT TGGTGGGCAG TGCTGAATAT
    CAGGCGCGAA TAAACGTAAG AGGTGCCTGT CTACATTTAA ATATCAGAAT AGGTTTTTGA

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

    CloneID OHu107660
    Clone ID Related Accession (Same CDS sequence) NM_001367904.1
    Accession Version NM_001367904.1 Latest version! Documents for ORF clone product in default vector
    Sequence Information ORF Nucleotide Sequence (Length: 2790bp)
    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 2019-02-27
    Organism Homo sapiens(human)
    Product Down syndrome cell adhesion molecule-like protein 1 isoform 2 precursor
    Comment Comment: REVIEWED REFSEQ: This record has been curated by NCBI staff. The reference sequence was derived from AP000757.4 and AP002342.3. Sequence Note: The RefSeq transcript and protein were derived from genomic sequence to make the sequence consistent with the reference genome assembly. The genomic coordinates used for the transcript record were based on alignments. ##Evidence-Data-START## Transcript exon combination :: SRR1660803.253408.1 [ECO:0000332] RNAseq introns :: mixed/partial sample support SAMEA1965299, SAMEA1966682 [ECO:0000350] ##Evidence-Data-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
    ATGTGGCTGG TAACTTTCCT CCTGCTCCTG GACTCTTTAC ACAAAGCCCG CCCTGAAGAT 
    GTTGGCACCA GCCTCTACTT TGTAAATGAC TCCTTGCAGC AGGTGACCTT TTCCAGCTCC
    GTGGGGGTGG TGGTGCCCTG CCCGGCCGCG GGCTCCCCCA GCGCGGCCCT TCGATGGTAC
    CTGGCCACAG GGGACGACAT CTACGACGTG CCGCACATCC GGCACGTCCA CGCCAACGGG
    ACGCTGCAGC TCTACCCCTT CTCCCCCTCC GCCTTCAATA GCTTTATCCA CGACAATGAC
    TACTTCTGCA CCGCGGAGAA CGCTGCCGGC AAGATCCGGA GCCCCAACAT CCGCGTCAAA
    GCAGTTTTCA GGGAACCCTA CACCGTCCGG GTGGAGGATC AAAGGTCAAT GCGTGGCAAC
    GTGGCCGTCT TCAAGTGCCT CATCCCCTCT TCAGTGCAGG AATATGTTAG CGTTGTATCT
    TGGGAGAAAG ACACAGTCTC CATCATCCCA GAACACAGGT TTTTTATTAC CTACCACGGC
    GGGCTGTACA TCTCTGACGT ACAGAAGGAG GACGCCCTCT CCACCTATCG CTGCATCACC
    AAGCACAAGT ATAGCGGGGA GACCCGGCAG AGCAATGGGG CACGCCTCTC TGTGACAGAC
    CCTGCTGAGT CGATCCCCAC CATCCTGGAT GGCTTCCACT CCCAGGAAGT GTGGGCCGGC
    CACACCGTGG AGCTGCCCTG CACCGCCTCG GGCTACCCTA TCCCCGCCAT CCGCTGGCTC
    AAGGATGGCC GGCCCCTCCC GGCTGACAGC CGCTGGACCA AGCGCATCAC AGGGCTGACC
    ATCAGCGACT TGCGGACCGA GGACAGCGGC ACCTACATTT GTGAGGTCAC CAACACCTTC
    GGTTCGGCAG AGGCCACAGG CATCCTCATG GTCATTGATC CCCTTCATGT GACCCTGACA
    CCAAAGAAGC TGAAGACCGG CATTGGCAGC ACGGTCATCC TCTCCTGTGC CCTGACGGGC
    TCCCCAGAGT TCACCATCCG CTGGTATCGC AACACGGAGC TGGTGCTGCC TGACGAGGCC
    ATCTCCATCC GCGGGCTCAG CAACGAGACG CTGCTCATCA CCTCGGCCCA GAAGAGCCAT
    TCCGGGGCCT ACCAGTGCTT CGCTACCCGC AAGGCCCAGA CCGCCCAGGA CTTTGCCATC
    ATTGCACTTG AGGATGGCAC GCCCCGCATC GTCTCGTCCT TCAGCGAGAA GGTGGTCAAC
    CCCGGGGAGC AGTTCTCACT GATGTGTGCG GCCAAGGGCG CCCCGCCCCC CACGGTCACC
    TGGGCCCTCG ACGATGAGCC CATCGTGCGG GATGGCAGCC ACCGCACCAA CCAGTACACC
    ATGTCGGACG GCACCACCAT CAGCCACATG AACGTCACAG GCCCCCAGAT CCGCGACGGG
    GGCGTGTACC GGTGCACAGC GCGGAACTTG GTGGGCAGTG CTGAATATCA GGCGCGAATA
    AACGTAAGAG GCCCACCCAG CATCCGGGCT ATGCGGAACA TCACAGCAGT CGCCGGGCGG
    GACACCCTTA TCAACTGCAG GGTCATCGGC TATCCCTACT ACTCCATCAA GTGGTACAAG
    GATGCCCTGC TGCTGCCAGA CAACCACCGC CAGGTGGTGT TTGAGAATGG GACCCTCAAG
    CTGACTGACG TGCAGAAGGG CATGGATGAG GGGGAGTACC TGTGCAGTGT CCTCATCCAG
    CCCCAGCTCT CCATCAGCCA GAGCGTTCAC GTAGCCGTCA AAGTGCCCCC TCTGATCCAG
    CCCTTCGAAT TCCCACCCGC CTCCATCGGC CAGCTGCTCT ACATTCCCTG TGTGGTGTCC
    TCGGGGGACA TGCCCATCCG TATCACCTGG AGGAAGGACG GACAGGTGAT CATCTCAGGC
    TCGGGCGTGA CCATCGAGAG CAAGGAATTC ATGAGCTCCC TGCAGATCTC TAGCGTCTCC
    CTCAAGCACA ACGGCAACTA TACATGCATC GCCAGCAACG CAGCCGCCAC CGTGAGCCGG
    GAGCGCCAGC TCATCGTGCG TGTGCCCCCT CGATTTGTGG TGCAACCCAA CAACCAGGAT
    GGCATCTACG GCAAAGCTGG TGTGCTCAAC TGCTCGGTGG ACGGCTACCC CCCACCCAAG
    GTCATGTGGA AGCATGCCAA GGGGAGCGGG AACCCCCAGC AGTACCACCC TGTGCCCCTC
    ACTGGCCGCA TCCAGATCCT GCCCAACAGC TCGCTGCTGA TCCGCCACGT CCTAGAAGAG
    GACATCGGCT ACTACCTCTG CCAGGCCAGC AACGGCGTAG GCACCGACAT CAGCAAGTCC
    ATGTTCCTCA CAGTCAAGAT CCCGGCCATG ATCACTTCCC ACCCCAACAC CACCATCGCC
    ATCAAGGGCC ATGCGAAGGA GCTAAACTGC ACGGCACGGG GTGAGCGGCC CATCATCATC
    CGCTGGGAGA AGGGGGACAC AGTCATCGAC CCTGACCGCG TCATGCGGTA TGCCATCGCC
    ACCAAGGACA ACGGCGACGA GGTCGTCTCC ACACTGAAGC TCAAGCCCGC TGACCGTGGG
    GACTCTGTGT TCTTCAGCTG CCATGCCATC AACTCGTATG GGGAGGACCG GGGCTTGATC
    CAACTCACTG TGCAAGAGCC CCCCGACCCC CCAGAGCTGG AGATCCGGGA GGTGAAGGCC
    CGGAGCATGA ACCTGCGCTG GACCCAGCGA TTCGACGGGA ACAGCATCAT CACGGGCTTC
    GACATTGAAT ACAAGAACAA ATCAGGCTGA

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

    RefSeq NP_001354833.1
    CDS138..2927
    Translation

    Target ORF information:

    RefSeq Version NM_001367904.1
    Organism Homo sapiens(human)
    Definition Homo sapiens DS cell adhesion molecule like 1 (DSCAML1), transcript variant 2, mRNA.

    Target ORF information:

    Epitope DYKDDDDK
    Bacterial selection AMPR
    Mammalian selection NeoR
    Vector pcDNA3.1+/C-(K)DYK
    NM_001367904.1

    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
    ATGTGGCTGG TAACTTTCCT CCTGCTCCTG GACTCTTTAC ACAAAGCCCG CCCTGAAGAT 
    GTTGGCACCA GCCTCTACTT TGTAAATGAC TCCTTGCAGC AGGTGACCTT TTCCAGCTCC
    GTGGGGGTGG TGGTGCCCTG CCCGGCCGCG GGCTCCCCCA GCGCGGCCCT TCGATGGTAC
    CTGGCCACAG GGGACGACAT CTACGACGTG CCGCACATCC GGCACGTCCA CGCCAACGGG
    ACGCTGCAGC TCTACCCCTT CTCCCCCTCC GCCTTCAATA GCTTTATCCA CGACAATGAC
    TACTTCTGCA CCGCGGAGAA CGCTGCCGGC AAGATCCGGA GCCCCAACAT CCGCGTCAAA
    GCAGTTTTCA GGGAACCCTA CACCGTCCGG GTGGAGGATC AAAGGTCAAT GCGTGGCAAC
    GTGGCCGTCT TCAAGTGCCT CATCCCCTCT TCAGTGCAGG AATATGTTAG CGTTGTATCT
    TGGGAGAAAG ACACAGTCTC CATCATCCCA GAACACAGGT TTTTTATTAC CTACCACGGC
    GGGCTGTACA TCTCTGACGT ACAGAAGGAG GACGCCCTCT CCACCTATCG CTGCATCACC
    AAGCACAAGT ATAGCGGGGA GACCCGGCAG AGCAATGGGG CACGCCTCTC TGTGACAGAC
    CCTGCTGAGT CGATCCCCAC CATCCTGGAT GGCTTCCACT CCCAGGAAGT GTGGGCCGGC
    CACACCGTGG AGCTGCCCTG CACCGCCTCG GGCTACCCTA TCCCCGCCAT CCGCTGGCTC
    AAGGATGGCC GGCCCCTCCC GGCTGACAGC CGCTGGACCA AGCGCATCAC AGGGCTGACC
    ATCAGCGACT TGCGGACCGA GGACAGCGGC ACCTACATTT GTGAGGTCAC CAACACCTTC
    GGTTCGGCAG AGGCCACAGG CATCCTCATG GTCATTGATC CCCTTCATGT GACCCTGACA
    CCAAAGAAGC TGAAGACCGG CATTGGCAGC ACGGTCATCC TCTCCTGTGC CCTGACGGGC
    TCCCCAGAGT TCACCATCCG CTGGTATCGC AACACGGAGC TGGTGCTGCC TGACGAGGCC
    ATCTCCATCC GCGGGCTCAG CAACGAGACG CTGCTCATCA CCTCGGCCCA GAAGAGCCAT
    TCCGGGGCCT ACCAGTGCTT CGCTACCCGC AAGGCCCAGA CCGCCCAGGA CTTTGCCATC
    ATTGCACTTG AGGATGGCAC GCCCCGCATC GTCTCGTCCT TCAGCGAGAA GGTGGTCAAC
    CCCGGGGAGC AGTTCTCACT GATGTGTGCG GCCAAGGGCG CCCCGCCCCC CACGGTCACC
    TGGGCCCTCG ACGATGAGCC CATCGTGCGG GATGGCAGCC ACCGCACCAA CCAGTACACC
    ATGTCGGACG GCACCACCAT CAGCCACATG AACGTCACAG GCCCCCAGAT CCGCGACGGG
    GGCGTGTACC GGTGCACAGC GCGGAACTTG GTGGGCAGTG CTGAATATCA GGCGCGAATA
    AACGTAAGAG GCCCACCCAG CATCCGGGCT ATGCGGAACA TCACAGCAGT CGCCGGGCGG
    GACACCCTTA TCAACTGCAG GGTCATCGGC TATCCCTACT ACTCCATCAA GTGGTACAAG
    GATGCCCTGC TGCTGCCAGA CAACCACCGC CAGGTGGTGT TTGAGAATGG GACCCTCAAG
    CTGACTGACG TGCAGAAGGG CATGGATGAG GGGGAGTACC TGTGCAGTGT CCTCATCCAG
    CCCCAGCTCT CCATCAGCCA GAGCGTTCAC GTAGCCGTCA AAGTGCCCCC TCTGATCCAG
    CCCTTCGAAT TCCCACCCGC CTCCATCGGC CAGCTGCTCT ACATTCCCTG TGTGGTGTCC
    TCGGGGGACA TGCCCATCCG TATCACCTGG AGGAAGGACG GACAGGTGAT CATCTCAGGC
    TCGGGCGTGA CCATCGAGAG CAAGGAATTC ATGAGCTCCC TGCAGATCTC TAGCGTCTCC
    CTCAAGCACA ACGGCAACTA TACATGCATC GCCAGCAACG CAGCCGCCAC CGTGAGCCGG
    GAGCGCCAGC TCATCGTGCG TGTGCCCCCT CGATTTGTGG TGCAACCCAA CAACCAGGAT
    GGCATCTACG GCAAAGCTGG TGTGCTCAAC TGCTCGGTGG ACGGCTACCC CCCACCCAAG
    GTCATGTGGA AGCATGCCAA GGGGAGCGGG AACCCCCAGC AGTACCACCC TGTGCCCCTC
    ACTGGCCGCA TCCAGATCCT GCCCAACAGC TCGCTGCTGA TCCGCCACGT CCTAGAAGAG
    GACATCGGCT ACTACCTCTG CCAGGCCAGC AACGGCGTAG GCACCGACAT CAGCAAGTCC
    ATGTTCCTCA CAGTCAAGAT CCCGGCCATG ATCACTTCCC ACCCCAACAC CACCATCGCC
    ATCAAGGGCC ATGCGAAGGA GCTAAACTGC ACGGCACGGG GTGAGCGGCC CATCATCATC
    CGCTGGGAGA AGGGGGACAC AGTCATCGAC CCTGACCGCG TCATGCGGTA TGCCATCGCC
    ACCAAGGACA ACGGCGACGA GGTCGTCTCC ACACTGAAGC TCAAGCCCGC TGACCGTGGG
    GACTCTGTGT TCTTCAGCTG CCATGCCATC AACTCGTATG GGGAGGACCG GGGCTTGATC
    CAACTCACTG TGCAAGAGCC CCCCGACCCC CCAGAGCTGG AGATCCGGGA GGTGAAGGCC
    CGGAGCATGA ACCTGCGCTG GACCCAGCGA TTCGACGGGA ACAGCATCAT CACGGGCTTC
    GACATTGAAT ACAAGAACAA ATCAGGCTGA

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

    CloneID OHu107656
    Clone ID Related Accession (Same CDS sequence) NM_020693.4
    Accession Version NM_020693.4 Latest version! Documents for ORF clone product in default vector
    Sequence Information ORF Nucleotide Sequence (Length: 6162bp)
    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 2019-10-25
    Organism Homo sapiens(human)
    Product Down syndrome cell adhesion molecule-like protein 1 isoform 1 precursor
    Comment Comment: REVIEWED REFSEQ: This record has been curated by NCBI staff. The reference sequence was derived from AP000757.4 and AP002342.3. This sequence is a reference standard in the RefSeqGene project. On Dec 27, 2018 this sequence version replaced NM_020693.3. Transcript Variant: This variant (1) represents the longest transcript and encodes the longest isoform (1). Sequence Note: The RefSeq transcript and protein were derived from genomic sequence to make the sequence consistent with the reference genome assembly. The genomic coordinates used for the transcript record were based on alignments. CCDS Note: The coding region has been updated to start at a downstream in-frame start codon that is supported by transcript data. ##Evidence-Data-START## Transcript exon combination :: AF491813.1, AB032958.2 [ECO:0000332] RNAseq introns :: mixed/partial sample support SAMEA1965299, SAMEA1966682 [ECO:0000350] ##Evidence-Data-END## ##RefSeq-Attributes-START## MANE Ensembl match :: ENST00000651296.2/ ENSP00000498769.1 RefSeq Select criteria :: based on manual assertion, 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
    4861
    4921
    4981
    5041
    5101
    5161
    5221
    5281
    5341
    5401
    5461
    5521
    5581
    5641
    5701
    5761
    5821
    5881
    5941
    6001
    6061
    6121
    ATGTGGCTGG TAACTTTCCT CCTGCTCCTG GACTCTTTAC ACAAAGCCCG CCCTGAAGAT 
    GTTGGCACCA GCCTCTACTT TGTAAATGAC TCCTTGCAGC AGGTGACCTT TTCCAGCTCC
    GTGGGGGTGG TGGTGCCCTG CCCGGCCGCG GGCTCCCCCA GCGCGGCCCT TCGATGGTAC
    CTGGCCACAG GGGACGACAT CTACGACGTG CCGCACATCC GGCACGTCCA CGCCAACGGG
    ACGCTGCAGC TCTACCCCTT CTCCCCCTCC GCCTTCAATA GCTTTATCCA CGACAATGAC
    TACTTCTGCA CCGCGGAGAA CGCTGCCGGC AAGATCCGGA GCCCCAACAT CCGCGTCAAA
    GCAGTTTTCA GGGAACCCTA CACCGTCCGG GTGGAGGATC AAAGGTCAAT GCGTGGCAAC
    GTGGCCGTCT TCAAGTGCCT CATCCCCTCT TCAGTGCAGG AATATGTTAG CGTTGTATCT
    TGGGAGAAAG ACACAGTCTC CATCATCCCA GAACACAGGT TTTTTATTAC CTACCACGGC
    GGGCTGTACA TCTCTGACGT ACAGAAGGAG GACGCCCTCT CCACCTATCG CTGCATCACC
    AAGCACAAGT ATAGCGGGGA GACCCGGCAG AGCAATGGGG CACGCCTCTC TGTGACAGAC
    CCTGCTGAGT CGATCCCCAC CATCCTGGAT GGCTTCCACT CCCAGGAAGT GTGGGCCGGC
    CACACCGTGG AGCTGCCCTG CACCGCCTCG GGCTACCCTA TCCCCGCCAT CCGCTGGCTC
    AAGGATGGCC GGCCCCTCCC GGCTGACAGC CGCTGGACCA AGCGCATCAC AGGGCTGACC
    ATCAGCGACT TGCGGACCGA GGACAGCGGC ACCTACATTT GTGAGGTCAC CAACACCTTC
    GGTTCGGCAG AGGCCACAGG CATCCTCATG GTCATTGATC CCCTTCATGT GACCCTGACA
    CCAAAGAAGC TGAAGACCGG CATTGGCAGC ACGGTCATCC TCTCCTGTGC CCTGACGGGC
    TCCCCAGAGT TCACCATCCG CTGGTATCGC AACACGGAGC TGGTGCTGCC TGACGAGGCC
    ATCTCCATCC GCGGGCTCAG CAACGAGACG CTGCTCATCA CCTCGGCCCA GAAGAGCCAT
    TCCGGGGCCT ACCAGTGCTT CGCTACCCGC AAGGCCCAGA CCGCCCAGGA CTTTGCCATC
    ATTGCACTTG AGGATGGCAC GCCCCGCATC GTCTCGTCCT TCAGCGAGAA GGTGGTCAAC
    CCCGGGGAGC AGTTCTCACT GATGTGTGCG GCCAAGGGCG CCCCGCCCCC CACGGTCACC
    TGGGCCCTCG ACGATGAGCC CATCGTGCGG GATGGCAGCC ACCGCACCAA CCAGTACACC
    ATGTCGGACG GCACCACCAT CAGCCACATG AACGTCACAG GCCCCCAGAT CCGCGACGGG
    GGCGTGTACC GGTGCACAGC GCGGAACTTG GTGGGCAGTG CTGAATATCA GGCGCGAATA
    AACGTAAGAG GCCCACCCAG CATCCGGGCT ATGCGGAACA TCACAGCAGT CGCCGGGCGG
    GACACCCTTA TCAACTGCAG GGTCATCGGC TATCCCTACT ACTCCATCAA GTGGTACAAG
    GATGCCCTGC TGCTGCCAGA CAACCACCGC CAGGTGGTGT TTGAGAATGG GACCCTCAAG
    CTGACTGACG TGCAGAAGGG CATGGATGAG GGGGAGTACC TGTGCAGTGT CCTCATCCAG
    CCCCAGCTCT CCATCAGCCA GAGCGTTCAC GTAGCCGTCA AAGTGCCCCC TCTGATCCAG
    CCCTTCGAAT TCCCACCCGC CTCCATCGGC CAGCTGCTCT ACATTCCCTG TGTGGTGTCC
    TCGGGGGACA TGCCCATCCG TATCACCTGG AGGAAGGACG GACAGGTGAT CATCTCAGGC
    TCGGGCGTGA CCATCGAGAG CAAGGAATTC ATGAGCTCCC TGCAGATCTC TAGCGTCTCC
    CTCAAGCACA ACGGCAACTA TACATGCATC GCCAGCAACG CAGCCGCCAC CGTGAGCCGG
    GAGCGCCAGC TCATCGTGCG TGTGCCCCCT CGATTTGTGG TGCAACCCAA CAACCAGGAT
    GGCATCTACG GCAAAGCTGG TGTGCTCAAC TGCTCGGTGG ACGGCTACCC CCCACCCAAG
    GTCATGTGGA AGCATGCCAA GGGGAGCGGG AACCCCCAGC AGTACCACCC TGTGCCCCTC
    ACTGGCCGCA TCCAGATCCT GCCCAACAGC TCGCTGCTGA TCCGCCACGT CCTAGAAGAG
    GACATCGGCT ACTACCTCTG CCAGGCCAGC AACGGCGTAG GCACCGACAT CAGCAAGTCC
    ATGTTCCTCA CAGTCAAGAT CCCGGCCATG ATCACTTCCC ACCCCAACAC CACCATCGCC
    ATCAAGGGCC ATGCGAAGGA GCTAAACTGC ACGGCACGGG GTGAGCGGCC CATCATCATC
    CGCTGGGAGA AGGGGGACAC AGTCATCGAC CCTGACCGCG TCATGCGGTA TGCCATCGCC
    ACCAAGGACA ACGGCGACGA GGTCGTCTCC ACACTGAAGC TCAAGCCCGC TGACCGTGGG
    GACTCTGTGT TCTTCAGCTG CCATGCCATC AACTCGTATG GGGAGGACCG GGGCTTGATC
    CAACTCACTG TGCAAGAGCC CCCCGACCCC CCAGAGCTGG AGATCCGGGA GGTGAAGGCC
    CGGAGCATGA ACCTGCGCTG GACCCAGCGA TTCGACGGGA ACAGCATCAT CACGGGCTTC
    GACATTGAAT ACAAGAACAA ATCAGATTCC TGGGACTTCA AGCAGTCCAC ACGCAACATC
    TCCCCCACCA TCAACCAGGC CAACATTGTG GACTTGCACC CGGCATCTGT GTACAGCATC
    CGCATGTACT CTTTCAACAA GATTGGCCGC AGTGAACCAA GCAAGGAGCT CACCATCAGC
    ACTGAGGAGG CCGCTCCCGA TGGGCCCCCC ATGGATGTTA CCTTGCAGCC AGTGACCTCA
    CAGAGCATCC AGGTGACCTG GAAGGCACCC AAGAAGGAGC TGCAGAACGG TGTCATCCGG
    GGCTACCAGA TTGGCTACAG AGAGAACAGC CCCGGCAGCA ACGGGCAGTA CAGCATCGTG
    GAGATGAAGG CCACGGGGGA CAGCGAGGTC TACACCCTGG ACAACCTCAA GAAGTTCGCC
    CAGTATGGGG TGGTGGTCCA AGCCTTCAAT CGGGCTGGCA CGGGGCCCTC TTCCAGCGAG
    ATCAATGCCA CCACTCTGGA GGATGTGCCC AGCCAGCCCC CTGAGAACGT CCGGGCCCTG
    TCCATCACTT CTGACGTGGC CGTCATCTCC TGGTCAGAGC CCCCGCGCAG CACCCTCAAT
    GGCGTCCTCA AAGGCTATCG GGTCATCTTC TGGTCCCTCT ATGTTGATGG GGAGTGGGGC
    GAGATGCAGA ACATCACCAC CACGCGGGAG CGGGTGGAGC TGCGGGGCAT GGAGAAGTTC
    ACCAACTACA GCGTCCAGGT GCTGGCCTAC ACCCAGGCTG GGGACGGCGT ACGCAGCAGT
    GTGCTCTACA TCCAGACCAA GGAGGACGTT CCAGGTCCCC CTGCTGGCAT CAAAGCTGTC
    CCTTCATCAG CTAGCAGTGT GGTTGTGTCT TGGCTCCCCC CTACCAAGCC CAACGGGGTG
    ATCCGCAAGT ACACCATCTT CTGTTCCAGC CCCGGGTCTG GCCAGCCGGC TCCCAGCGAG
    TACGAGACGA GTCCAGAGCA GCTCTTCTAC CGGATCGCCC ACCTAAACCG CGGTCAGCAG
    TATCTGCTGT GGGTGGCCGC CGTCACCTCT GCCGGCCGGG GCAACAGCAG CGAGAAGGTG
    ACCATCGAGC CTGCTGGCAA GGCCCCAGCA AAGATCATCT CCTTTGGGGG CACCGTGACA
    ACACCTTGGA TGAAAGATGT TCGGCTGCCT TGCAATTCAG TGGGAGATCC AGCCCCTGCT
    GTGAAGTGGA CCAAGGACAG TGAAGACTCG GCCATTCCAG TGTCCATGGA TGGGCACCGG
    CTCATCCACA CCAATGGCAC ACTGCTGCTG CGTGCAGTGA AGGCTGAGGA CTCTGGCTAC
    TACACGTGCA CGGCCACCAA CACTGGTGGC TTTGACACCA TCATCGTCAA CCTTCTGGTG
    CAAGTTCCCC CGGACCAGCC CCGCCTCACT GTCTCCAAAA CCTCAGCTTC GTCCATCACC
    CTGACCTGGA TTCCAGGTGA CAATGGGGGC AGCTCCATCC GAGGCTTCGT GCTACAGTAC
    TCGGTGGACA ACAGCGAGGA GTGGAAGGAT GTGTTCATCA GCTCCAGCGA GCGCTCCTTC
    AAGCTGGACA GCCTCAAGTG TGGCACGTGG TACAAGGTGA AGCTGGCAGC CAAGAACAGC
    GTGGGCTCTG GGCGCATCAG CGAGATCATC GAGGCCAAGA CCCACGGGCG GGAGCCCTCC
    TTCAGCAAAG ACCAACACCT CTTCACCCAC ATCAACTCCA CGCATGCTCG GCTTAACCTG
    CAGGGCTGGA ACAATGGGGG CTGCCCTATC ACAGCCATCG TTCTGGAGTA CCGGCCCAAG
    GGGACCTGGG CCTGGCAGGG CCTCCGGGCC AACAGCTCCG GGGAGGTGTT TCTGACGGAA
    CTGCGAGAGG CCACGTGGTA CGAGCTGCGC ATGAGGGCTT GCAACAGTGC GGGCTGCGGC
    AATGAAACAG CCCAGTTCGC CACCCTGGAC TACGATGGCA GCACCATTCC ACCCATCAAG
    TCTGCTCAAG GTGAAGGGGA TGATGTGAAG AAGCTGTTCA CCATCGGCTG CCCTGTCATC
    CTGGCCACAC TGGGGGTGGC ACTGCTCTTC ATCGTACGCA AGAAGAGGAA GGAGAAACGG
    CTGAAGCGAC TCCGAGATGC AAAGAGTTTG GCAGAAATGT TGATAAGCAA GAACAATAGA
    AGCTTTGACA CCCCTGTGAA AGGGCCACCC CAGGGCCCAC GGCTACACAT TGACATCCCC
    AGGGTCCAGC TGCTCATCGA GGACAAAGAA GGCATCAAGC AACTGGGAGA TGACAAGGCC
    ACCATCCCTG TGACAGATGC TGAGTTCAGC CAAGCTGTCA ACCCACAGAG CTTCTGTACT
    GGCGTCTCCT TGCACCACCC AACCCTCATC CAGAGCACAG GACCCCTCAT CGACATGTCT
    GACATCCGGC CAGGAACCAA TCCAGTGTCC AGGAAGAATG TGAAGTCAGC CCACAGCACC
    CGGAACCGGT ACTCAAGCCA GTGGACCCTG ACCAAGTGCC AGGCCTCCAC ACCTGCCCGC
    ACCCTCACCT CCGACTGGCG CACCGTGGGC TCCCAGCATG GTGTCACGGT CACTGAGAGT
    GACAGCTACA GTGCCAGCCT GTCCCAGGAC ACAGACAAAG GAAGGAACAG CATGGTGTCC
    ACTGAGAGTG CCTCTTCCAC CTACGAGGAG CTGGCCCGGG CCTATGAGCA TGCCAAGCTG
    GAGGAGCAGC TGCAGCACGC CAAGTTTGAG ATCACCGAGT GCTTCATCTC TGACAGTTCC
    TCTGACCAGA TGACCACAGG CACCAACGAG AACGCCGACA GCATGACATC CATGAGCACA
    CCCTCAGAGC CTGGCATCTG CCGCTTTACC GCCTCACCAC CCAAGCCCCA GGATGCGGAC
    CGGGGCAAAA ACGTGGCTGT GCCCATCCCT CACCGGGCCA ACAAGAGTGA CTACTGCAAC
    CTGCCCCTGT ATGCCAAGTC AGAGGCCTTC TTTCGAAAGG CAGATGGACG TGAGCCCTGC
    CCCGTGGTCC CACCCCGTGA GGCCTCCATC CGGAACCTGG CTCGAACCTA CCACACCCAG
    GCTCGCCACC TGACCCTGGA CCCTGCCAGC AAGTCCTTGG GCCTTCCCCA CCCAGGGGCC
    CCCGCTGCCG CCTCCACAGC CACCTTACCT CAGAGGACTC TGGCCATGCC AGCCCCCCCA
    GCCGGCACAG CCCCCCCAGC CCCCGGCCCC ACCCCTGCTG AGCCACCCAC CGCCCCCAGC
    GCTGCCCCTC CGGCCCCCAG CACCGAGCCT CCACGAGCCG GGGGCCCACA CACCAAAATG
    GGGGGCTCCA GGGACTCGCT TCTCGAGATG AGCACATCGG GGGTAGGGAG GTCTCAGAAG
    CAGGGGGCCG GGGCCTACTC CAAATCCTAC ACCCTGGTGT AG

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

    RefSeq NP_065744.3
    CDS138..6299
    Translation

    Target ORF information:

    RefSeq Version NM_020693.4
    Organism Homo sapiens(human)
    Definition Homo sapiens DS cell adhesion molecule like 1 (DSCAML1), transcript variant 1, mRNA.

    Target ORF information:

    Epitope DYKDDDDK
    Bacterial selection AMPR
    Mammalian selection NeoR
    Vector pcDNA3.1+/C-(K)DYK
    NM_020693.4

    ORF Insert Sequence:

    1
    61
    121
    181
    241
    301
    361
    421
    481
    541
    601
    661
    721
    781
    841
    901
    961
    1021
    1081
    1141
    1201
    1261
    1321
    1381
    1441
    1501
    1561
    1621
    1681
    1741
    1801
    1861
    1921
    1981
    2041
    2101
    2161
    2221
    2281
    2341
    2401
    2461
    2521
    2581
    2641
    2701
    2761
    2821
    2881
    2941
    3001
    3061
    3121
    3181
    3241
    3301
    3361
    3421
    3481
    3541
    3601
    3661
    3721
    3781
    3841
    3901
    3961
    4021
    4081
    4141
    4201
    4261
    4321
    4381
    4441
    4501
    4561
    4621
    4681
    4741
    4801
    4861
    4921
    4981
    5041
    5101
    5161
    5221
    5281
    5341
    5401
    5461
    5521
    5581
    5641
    5701
    5761
    5821
    5881
    5941
    6001
    6061
    6121
    ATGTGGCTGG TAACTTTCCT CCTGCTCCTG GACTCTTTAC ACAAAGCCCG CCCTGAAGAT 
    GTTGGCACCA GCCTCTACTT TGTAAATGAC TCCTTGCAGC AGGTGACCTT TTCCAGCTCC
    GTGGGGGTGG TGGTGCCCTG CCCGGCCGCG GGCTCCCCCA GCGCGGCCCT TCGATGGTAC
    CTGGCCACAG GGGACGACAT CTACGACGTG CCGCACATCC GGCACGTCCA CGCCAACGGG
    ACGCTGCAGC TCTACCCCTT CTCCCCCTCC GCCTTCAATA GCTTTATCCA CGACAATGAC
    TACTTCTGCA CCGCGGAGAA CGCTGCCGGC AAGATCCGGA GCCCCAACAT CCGCGTCAAA
    GCAGTTTTCA GGGAACCCTA CACCGTCCGG GTGGAGGATC AAAGGTCAAT GCGTGGCAAC
    GTGGCCGTCT TCAAGTGCCT CATCCCCTCT TCAGTGCAGG AATATGTTAG CGTTGTATCT
    TGGGAGAAAG ACACAGTCTC CATCATCCCA GAACACAGGT TTTTTATTAC CTACCACGGC
    GGGCTGTACA TCTCTGACGT ACAGAAGGAG GACGCCCTCT CCACCTATCG CTGCATCACC
    AAGCACAAGT ATAGCGGGGA GACCCGGCAG AGCAATGGGG CACGCCTCTC TGTGACAGAC
    CCTGCTGAGT CGATCCCCAC CATCCTGGAT GGCTTCCACT CCCAGGAAGT GTGGGCCGGC
    CACACCGTGG AGCTGCCCTG CACCGCCTCG GGCTACCCTA TCCCCGCCAT CCGCTGGCTC
    AAGGATGGCC GGCCCCTCCC GGCTGACAGC CGCTGGACCA AGCGCATCAC AGGGCTGACC
    ATCAGCGACT TGCGGACCGA GGACAGCGGC ACCTACATTT GTGAGGTCAC CAACACCTTC
    GGTTCGGCAG AGGCCACAGG CATCCTCATG GTCATTGATC CCCTTCATGT GACCCTGACA
    CCAAAGAAGC TGAAGACCGG CATTGGCAGC ACGGTCATCC TCTCCTGTGC CCTGACGGGC
    TCCCCAGAGT TCACCATCCG CTGGTATCGC AACACGGAGC TGGTGCTGCC TGACGAGGCC
    ATCTCCATCC GCGGGCTCAG CAACGAGACG CTGCTCATCA CCTCGGCCCA GAAGAGCCAT
    TCCGGGGCCT ACCAGTGCTT CGCTACCCGC AAGGCCCAGA CCGCCCAGGA CTTTGCCATC
    ATTGCACTTG AGGATGGCAC GCCCCGCATC GTCTCGTCCT TCAGCGAGAA GGTGGTCAAC
    CCCGGGGAGC AGTTCTCACT GATGTGTGCG GCCAAGGGCG CCCCGCCCCC CACGGTCACC
    TGGGCCCTCG ACGATGAGCC CATCGTGCGG GATGGCAGCC ACCGCACCAA CCAGTACACC
    ATGTCGGACG GCACCACCAT CAGCCACATG AACGTCACAG GCCCCCAGAT CCGCGACGGG
    GGCGTGTACC GGTGCACAGC GCGGAACTTG GTGGGCAGTG CTGAATATCA GGCGCGAATA
    AACGTAAGAG GCCCACCCAG CATCCGGGCT ATGCGGAACA TCACAGCAGT CGCCGGGCGG
    GACACCCTTA TCAACTGCAG GGTCATCGGC TATCCCTACT ACTCCATCAA GTGGTACAAG
    GATGCCCTGC TGCTGCCAGA CAACCACCGC CAGGTGGTGT TTGAGAATGG GACCCTCAAG
    CTGACTGACG TGCAGAAGGG CATGGATGAG GGGGAGTACC TGTGCAGTGT CCTCATCCAG
    CCCCAGCTCT CCATCAGCCA GAGCGTTCAC GTAGCCGTCA AAGTGCCCCC TCTGATCCAG
    CCCTTCGAAT TCCCACCCGC CTCCATCGGC CAGCTGCTCT ACATTCCCTG TGTGGTGTCC
    TCGGGGGACA TGCCCATCCG TATCACCTGG AGGAAGGACG GACAGGTGAT CATCTCAGGC
    TCGGGCGTGA CCATCGAGAG CAAGGAATTC ATGAGCTCCC TGCAGATCTC TAGCGTCTCC
    CTCAAGCACA ACGGCAACTA TACATGCATC GCCAGCAACG CAGCCGCCAC CGTGAGCCGG
    GAGCGCCAGC TCATCGTGCG TGTGCCCCCT CGATTTGTGG TGCAACCCAA CAACCAGGAT
    GGCATCTACG GCAAAGCTGG TGTGCTCAAC TGCTCGGTGG ACGGCTACCC CCCACCCAAG
    GTCATGTGGA AGCATGCCAA GGGGAGCGGG AACCCCCAGC AGTACCACCC TGTGCCCCTC
    ACTGGCCGCA TCCAGATCCT GCCCAACAGC TCGCTGCTGA TCCGCCACGT CCTAGAAGAG
    GACATCGGCT ACTACCTCTG CCAGGCCAGC AACGGCGTAG GCACCGACAT CAGCAAGTCC
    ATGTTCCTCA CAGTCAAGAT CCCGGCCATG ATCACTTCCC ACCCCAACAC CACCATCGCC
    ATCAAGGGCC ATGCGAAGGA GCTAAACTGC ACGGCACGGG GTGAGCGGCC CATCATCATC
    CGCTGGGAGA AGGGGGACAC AGTCATCGAC CCTGACCGCG TCATGCGGTA TGCCATCGCC
    ACCAAGGACA ACGGCGACGA GGTCGTCTCC ACACTGAAGC TCAAGCCCGC TGACCGTGGG
    GACTCTGTGT TCTTCAGCTG CCATGCCATC AACTCGTATG GGGAGGACCG GGGCTTGATC
    CAACTCACTG TGCAAGAGCC CCCCGACCCC CCAGAGCTGG AGATCCGGGA GGTGAAGGCC
    CGGAGCATGA ACCTGCGCTG GACCCAGCGA TTCGACGGGA ACAGCATCAT CACGGGCTTC
    GACATTGAAT ACAAGAACAA ATCAGATTCC TGGGACTTCA AGCAGTCCAC ACGCAACATC
    TCCCCCACCA TCAACCAGGC CAACATTGTG GACTTGCACC CGGCATCTGT GTACAGCATC
    CGCATGTACT CTTTCAACAA GATTGGCCGC AGTGAACCAA GCAAGGAGCT CACCATCAGC
    ACTGAGGAGG CCGCTCCCGA TGGGCCCCCC ATGGATGTTA CCTTGCAGCC AGTGACCTCA
    CAGAGCATCC AGGTGACCTG GAAGGCACCC AAGAAGGAGC TGCAGAACGG TGTCATCCGG
    GGCTACCAGA TTGGCTACAG AGAGAACAGC CCCGGCAGCA ACGGGCAGTA CAGCATCGTG
    GAGATGAAGG CCACGGGGGA CAGCGAGGTC TACACCCTGG ACAACCTCAA GAAGTTCGCC
    CAGTATGGGG TGGTGGTCCA AGCCTTCAAT CGGGCTGGCA CGGGGCCCTC TTCCAGCGAG
    ATCAATGCCA CCACTCTGGA GGATGTGCCC AGCCAGCCCC CTGAGAACGT CCGGGCCCTG
    TCCATCACTT CTGACGTGGC CGTCATCTCC TGGTCAGAGC CCCCGCGCAG CACCCTCAAT
    GGCGTCCTCA AAGGCTATCG GGTCATCTTC TGGTCCCTCT ATGTTGATGG GGAGTGGGGC
    GAGATGCAGA ACATCACCAC CACGCGGGAG CGGGTGGAGC TGCGGGGCAT GGAGAAGTTC
    ACCAACTACA GCGTCCAGGT GCTGGCCTAC ACCCAGGCTG GGGACGGCGT ACGCAGCAGT
    GTGCTCTACA TCCAGACCAA GGAGGACGTT CCAGGTCCCC CTGCTGGCAT CAAAGCTGTC
    CCTTCATCAG CTAGCAGTGT GGTTGTGTCT TGGCTCCCCC CTACCAAGCC CAACGGGGTG
    ATCCGCAAGT ACACCATCTT CTGTTCCAGC CCCGGGTCTG GCCAGCCGGC TCCCAGCGAG
    TACGAGACGA GTCCAGAGCA GCTCTTCTAC CGGATCGCCC ACCTAAACCG CGGTCAGCAG
    TATCTGCTGT GGGTGGCCGC CGTCACCTCT GCCGGCCGGG GCAACAGCAG CGAGAAGGTG
    ACCATCGAGC CTGCTGGCAA GGCCCCAGCA AAGATCATCT CCTTTGGGGG CACCGTGACA
    ACACCTTGGA TGAAAGATGT TCGGCTGCCT TGCAATTCAG TGGGAGATCC AGCCCCTGCT
    GTGAAGTGGA CCAAGGACAG TGAAGACTCG GCCATTCCAG TGTCCATGGA TGGGCACCGG
    CTCATCCACA CCAATGGCAC ACTGCTGCTG CGTGCAGTGA AGGCTGAGGA CTCTGGCTAC
    TACACGTGCA CGGCCACCAA CACTGGTGGC TTTGACACCA TCATCGTCAA CCTTCTGGTG
    CAAGTTCCCC CGGACCAGCC CCGCCTCACT GTCTCCAAAA CCTCAGCTTC GTCCATCACC
    CTGACCTGGA TTCCAGGTGA CAATGGGGGC AGCTCCATCC GAGGCTTCGT GCTACAGTAC
    TCGGTGGACA ACAGCGAGGA GTGGAAGGAT GTGTTCATCA GCTCCAGCGA GCGCTCCTTC
    AAGCTGGACA GCCTCAAGTG TGGCACGTGG TACAAGGTGA AGCTGGCAGC CAAGAACAGC
    GTGGGCTCTG GGCGCATCAG CGAGATCATC GAGGCCAAGA CCCACGGGCG GGAGCCCTCC
    TTCAGCAAAG ACCAACACCT CTTCACCCAC ATCAACTCCA CGCATGCTCG GCTTAACCTG
    CAGGGCTGGA ACAATGGGGG CTGCCCTATC ACAGCCATCG TTCTGGAGTA CCGGCCCAAG
    GGGACCTGGG CCTGGCAGGG CCTCCGGGCC AACAGCTCCG GGGAGGTGTT TCTGACGGAA
    CTGCGAGAGG CCACGTGGTA CGAGCTGCGC ATGAGGGCTT GCAACAGTGC GGGCTGCGGC
    AATGAAACAG CCCAGTTCGC CACCCTGGAC TACGATGGCA GCACCATTCC ACCCATCAAG
    TCTGCTCAAG GTGAAGGGGA TGATGTGAAG AAGCTGTTCA CCATCGGCTG CCCTGTCATC
    CTGGCCACAC TGGGGGTGGC ACTGCTCTTC ATCGTACGCA AGAAGAGGAA GGAGAAACGG
    CTGAAGCGAC TCCGAGATGC AAAGAGTTTG GCAGAAATGT TGATAAGCAA GAACAATAGA
    AGCTTTGACA CCCCTGTGAA AGGGCCACCC CAGGGCCCAC GGCTACACAT TGACATCCCC
    AGGGTCCAGC TGCTCATCGA GGACAAAGAA GGCATCAAGC AACTGGGAGA TGACAAGGCC
    ACCATCCCTG TGACAGATGC TGAGTTCAGC CAAGCTGTCA ACCCACAGAG CTTCTGTACT
    GGCGTCTCCT TGCACCACCC AACCCTCATC CAGAGCACAG GACCCCTCAT CGACATGTCT
    GACATCCGGC CAGGAACCAA TCCAGTGTCC AGGAAGAATG TGAAGTCAGC CCACAGCACC
    CGGAACCGGT ACTCAAGCCA GTGGACCCTG ACCAAGTGCC AGGCCTCCAC ACCTGCCCGC
    ACCCTCACCT CCGACTGGCG CACCGTGGGC TCCCAGCATG GTGTCACGGT CACTGAGAGT
    GACAGCTACA GTGCCAGCCT GTCCCAGGAC ACAGACAAAG GAAGGAACAG CATGGTGTCC
    ACTGAGAGTG CCTCTTCCAC CTACGAGGAG CTGGCCCGGG CCTATGAGCA TGCCAAGCTG
    GAGGAGCAGC TGCAGCACGC CAAGTTTGAG ATCACCGAGT GCTTCATCTC TGACAGTTCC
    TCTGACCAGA TGACCACAGG CACCAACGAG AACGCCGACA GCATGACATC CATGAGCACA
    CCCTCAGAGC CTGGCATCTG CCGCTTTACC GCCTCACCAC CCAAGCCCCA GGATGCGGAC
    CGGGGCAAAA ACGTGGCTGT GCCCATCCCT CACCGGGCCA ACAAGAGTGA CTACTGCAAC
    CTGCCCCTGT ATGCCAAGTC AGAGGCCTTC TTTCGAAAGG CAGATGGACG TGAGCCCTGC
    CCCGTGGTCC CACCCCGTGA GGCCTCCATC CGGAACCTGG CTCGAACCTA CCACACCCAG
    GCTCGCCACC TGACCCTGGA CCCTGCCAGC AAGTCCTTGG GCCTTCCCCA CCCAGGGGCC
    CCCGCTGCCG CCTCCACAGC CACCTTACCT CAGAGGACTC TGGCCATGCC AGCCCCCCCA
    GCCGGCACAG CCCCCCCAGC CCCCGGCCCC ACCCCTGCTG AGCCACCCAC CGCCCCCAGC
    GCTGCCCCTC CGGCCCCCAG CACCGAGCCT CCACGAGCCG GGGGCCCACA CACCAAAATG
    GGGGGCTCCA GGGACTCGCT TCTCGAGATG AGCACATCGG GGGTAGGGAG GTCTCAGAAG
    CAGGGGGCCG GGGCCTACTC CAAATCCTAC ACCCTGGTGT AG

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

    CloneID OHu03414
    Clone ID Related Accession (Same CDS sequence) NM_020693.3
    Accession Version NM_020693.3 Latest version! Documents for ORF clone product in default vector
    Sequence Information ORF Nucleotide Sequence (Length: 6342bp)
    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 2017-10-02
    Organism Homo sapiens(human)
    Product Down syndrome cell adhesion molecule-like protein 1
    Comment Comment: REVIEWED REFSEQ: This record has been curated by NCBI staff. The reference sequence was derived from AF491813.1, AP002342.3 and BM665756.1. This sequence is a reference standard in the RefSeqGene project. On Jan 29, 2015 this sequence version replaced NM_020693.2. ##Evidence-Data-START## Transcript exon combination :: AF491813.1, AB032958.2 [ECO:0000332] RNAseq introns :: mixed/partial sample support SAMEA1965299, SAMEA1966682 [ECO:0000350] ##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
    4861
    4921
    4981
    5041
    5101
    5161
    5221
    5281
    5341
    5401
    5461
    5521
    5581
    5641
    5701
    5761
    5821
    5881
    5941
    6001
    6061
    6121
    6181
    6241
    6301
    ATGACAGGAG CCGGGGAGCC GAGGAGGGAG GAGCCGCCGC CGCAGCCGAG CGCTGGGCTG 
    AGGAGCAGAG AGAGCGGGGC GCCGAGTGCG GGCGGCTGGG AGCGCGCTGA GCGGGGGAGA
    GGCGCTGCCG CACGGCCGGC CACAGGACCA CCTCCCCGGA GAATAGGGCC TCTTTATGGC
    ATGTGGCTGG TAACTTTCCT CCTGCTCCTG GACTCTTTAC ACAAAGCCCG CCCTGAAGAT
    GTTGGCACCA GCCTCTACTT TGTAAATGAC TCCTTGCAGC AGGTGACCTT TTCCAGCTCC
    GTGGGGGTGG TGGTGCCCTG CCCGGCCGCG GGCTCCCCCA GCGCGGCCCT TCGATGGTAC
    CTGGCCACAG GGGACGACAT CTACGACGTG CCGCACATCC GGCACGTCCA CGCCAACGGG
    ACGCTGCAGC TCTACCCCTT CTCCCCCTCC GCCTTCAATA GCTTTATCCA CGACAATGAC
    TACTTCTGCA CCGCGGAGAA CGCTGCCGGC AAGATCCGGA GCCCCAACAT CCGCGTCAAA
    GCAGTTTTCA GGGAACCCTA CACCGTCCGG GTGGAGGATC AAAGGTCAAT GCGTGGCAAC
    GTGGCCGTCT TCAAGTGCCT CATCCCCTCT TCAGTGCAGG AATATGTTAG CGTTGTATCT
    TGGGAGAAAG ACACAGTCTC CATCATCCCA GAACACAGGT TTTTTATTAC CTACCACGGC
    GGGCTGTACA TCTCTGACGT ACAGAAGGAG GACGCCCTCT CCACCTATCG CTGCATCACC
    AAGCACAAGT ATAGCGGGGA GACCCGGCAG AGCAATGGGG CACGCCTCTC TGTGACAGAC
    CCTGCTGAGT CGATCCCCAC CATCCTGGAT GGCTTCCACT CCCAGGAAGT GTGGGCCGGC
    CACACCGTGG AGCTGCCCTG CACCGCCTCG GGCTACCCTA TCCCCGCCAT CCGCTGGCTC
    AAGGATGGCC GGCCCCTCCC GGCTGACAGC CGCTGGACCA AGCGCATCAC AGGGCTGACC
    ATCAGCGACT TGCGGACCGA GGACAGCGGC ACCTACATTT GTGAGGTCAC CAACACCTTC
    GGTTCGGCAG AGGCCACAGG CATCCTCATG GTCATTGATC CCCTTCATGT GACCCTGACA
    CCAAAGAAGC TGAAGACCGG CATTGGCAGC ACGGTCATCC TCTCCTGTGC CCTGACGGGC
    TCCCCAGAGT TCACCATCCG CTGGTATCGC AACACGGAGC TGGTGCTGCC TGACGAGGCC
    ATCTCCATCC GCGGGCTCAG CAACGAGACG CTGCTCATCA CCTCGGCCCA GAAGAGCCAT
    TCCGGGGCCT ACCAGTGCTT CGCTACCCGC AAGGCCCAGA CCGCCCAGGA CTTTGCCATC
    ATTGCACTTG AGGATGGCAC GCCCCGCATC GTCTCGTCCT TCAGCGAGAA GGTGGTCAAC
    CCCGGGGAGC AGTTCTCACT GATGTGTGCG GCCAAGGGCG CCCCGCCCCC CACGGTCACC
    TGGGCCCTCG ACGATGAGCC CATCGTGCGG GATGGCAGCC ACCGCACCAA CCAGTACACC
    ATGTCGGACG GCACCACCAT CAGCCACATG AACGTCACAG GCCCCCAGAT CCGCGACGGG
    GGCGTGTACC GGTGCACAGC GCGGAACTTG GTGGGCAGTG CTGAATATCA GGCGCGAATA
    AACGTAAGAG GCCCACCCAG CATCCGGGCT ATGCGGAACA TCACAGCAGT CGCCGGGCGG
    GACACCCTTA TCAACTGCAG GGTCATCGGC TATCCCTACT ACTCCATCAA GTGGTACAAG
    GATGCCCTGC TGCTGCCAGA CAACCACCGC CAGGTGGTGT TTGAGAATGG GACCCTCAAG
    CTGACTGACG TGCAGAAGGG CATGGATGAG GGGGAGTACC TGTGCAGTGT CCTCATCCAG
    CCCCAGCTCT CCATCAGCCA GAGCGTTCAC GTAGCCGTCA AAGTGCCCCC TCTGATCCAG
    CCCTTCGAAT TCCCACCCGC CTCCATCGGC CAGCTGCTCT ACATTCCCTG TGTGGTGTCC
    TCGGGGGACA TGCCCATCCG TATCACCTGG AGGAAGGACG GACAGGTGAT CATCTCAGGC
    TCGGGCGTGA CCATCGAGAG CAAGGAATTC ATGAGCTCCC TGCAGATCTC TAGCGTCTCC
    CTCAAGCACA ACGGCAACTA TACATGCATC GCCAGCAACG CAGCCGCCAC CGTGAGCCGG
    GAGCGCCAGC TCATCGTGCG TGTGCCCCCT CGATTTGTGG TGCAACCCAA CAACCAGGAT
    GGCATCTACG GCAAAGCTGG TGTGCTCAAC TGCTCGGTGG ACGGCTACCC CCCACCCAAG
    GTCATGTGGA AGCATGCCAA GGGGAGCGGG AACCCCCAGC AGTACCACCC TGTGCCCCTC
    ACTGGCCGCA TCCAGATCCT GCCCAACAGC TCGCTGCTGA TCCGCCACGT CCTAGAAGAG
    GACATCGGCT ACTACCTCTG CCAGGCCAGC AACGGCGTAG GCACCGACAT CAGCAAGTCC
    ATGTTCCTCA CAGTCAAGAT CCCGGCCATG ATCACTTCCC ACCCCAACAC CACCATCGCC
    ATCAAGGGCC ATGCGAAGGA GCTAAACTGC ACGGCACGGG GTGAGCGGCC CATCATCATC
    CGCTGGGAGA AGGGGGACAC AGTCATCGAC CCTGACCGCG TCATGCGGTA TGCCATCGCC
    ACCAAGGACA ACGGCGACGA GGTCGTCTCC ACACTGAAGC TCAAGCCCGC TGACCGTGGG
    GACTCTGTGT TCTTCAGCTG CCATGCCATC AACTCGTATG GGGAGGACCG GGGCTTGATC
    CAACTCACTG TGCAAGAGCC CCCCGACCCC CCAGAGCTGG AGATCCGGGA GGTGAAGGCC
    CGGAGCATGA ACCTGCGCTG GACCCAGCGA TTCGACGGGA ACAGCATCAT CACGGGCTTC
    GACATTGAAT ACAAGAACAA ATCAGATTCC TGGGACTTCA AGCAGTCCAC ACGCAACATC
    TCCCCCACCA TCAACCAGGC CAACATTGTG GACTTGCACC CGGCATCTGT GTACAGCATC
    CGCATGTACT CTTTCAACAA GATTGGCCGC AGTGAACCAA GCAAGGAGCT CACCATCAGC
    ACTGAGGAGG CCGCTCCCGA TGGGCCCCCC ATGGATGTTA CCTTGCAGCC AGTGACCTCA
    CAGAGCATCC AGGTGACCTG GAAGGCACCC AAGAAGGAGC TGCAGAACGG TGTCATCCGG
    GGCTACCAGA TTGGCTACAG AGAGAACAGC CCCGGCAGCA ACGGGCAGTA CAGCATCGTG
    GAGATGAAGG CCACGGGGGA CAGCGAGGTC TACACCCTGG ACAACCTCAA GAAGTTCGCC
    CAGTATGGGG TGGTGGTCCA AGCCTTCAAT CGGGCTGGCA CGGGGCCCTC TTCCAGCGAG
    ATCAATGCCA CCACTCTGGA GGATGTGCCC AGCCAGCCCC CTGAGAACGT CCGGGCCCTG
    TCCATCACTT CTGACGTGGC CGTCATCTCC TGGTCAGAGC CCCCGCGCAG CACCCTCAAT
    GGCGTCCTCA AAGGCTATCG GGTCATCTTC TGGTCCCTCT ATGTTGATGG GGAGTGGGGC
    GAGATGCAGA ACATCACCAC CACGCGGGAG CGGGTGGAGC TGCGGGGCAT GGAGAAGTTC
    ACCAACTACA GCGTCCAGGT GCTGGCCTAC ACCCAGGCTG GGGACGGCGT ACGCAGCAGT
    GTGCTCTACA TCCAGACCAA GGAGGACGTT CCAGGTCCCC CTGCTGGCAT CAAAGCTGTC
    CCTTCATCAG CTAGCAGTGT GGTTGTGTCT TGGCTCCCCC CTACCAAGCC CAACGGGGTG
    ATCCGCAAGT ACACCATCTT CTGTTCCAGC CCCGGGTCTG GCCAGCCGGC TCCCAGCGAG
    TACGAGACGA GTCCAGAGCA GCTCTTCTAC CGGATCGCCC ACCTAAACCG CGGTCAGCAG
    TATCTGCTGT GGGTGGCCGC CGTCACCTCT GCCGGCCGGG GCAACAGCAG CGAGAAGGTG
    ACCATCGAGC CTGCTGGCAA GGCCCCAGCA AAGATCATCT CCTTTGGGGG CACCGTGACA
    ACACCTTGGA TGAAAGATGT TCGGCTGCCT TGCAATTCAG TGGGAGATCC AGCCCCTGCT
    GTGAAGTGGA CCAAGGACAG TGAAGACTCG GCCATTCCAG TGTCCATGGA TGGGCACCGG
    CTCATCCACA CCAATGGCAC ACTGCTGCTG CGTGCAGTGA AGGCTGAGGA CTCTGGCTAC
    TACACGTGCA CGGCCACCAA CACTGGTGGC TTTGACACCA TCATCGTCAA CCTTCTGGTG
    CAAGTTCCCC CGGACCAGCC CCGCCTCACT GTCTCCAAAA CCTCAGCTTC GTCCATCACC
    CTGACCTGGA TTCCAGGTGA CAATGGGGGC AGCTCCATCC GAGGCTTCGT GCTACAGTAC
    TCGGTGGACA ACAGCGAGGA GTGGAAGGAT GTGTTCATCA GCTCCAGCGA GCGCTCCTTC
    AAGCTGGACA GCCTCAAGTG TGGCACGTGG TACAAGGTGA AGCTGGCAGC CAAGAACAGC
    GTGGGCTCTG GGCGCATCAG CGAGATCATC GAGGCCAAGA CCCACGGGCG GGAGCCCTCC
    TTCAGCAAAG ACCAACACCT CTTCACCCAC ATCAACTCCA CGCATGCTCG GCTTAACCTG
    CAGGGCTGGA ACAATGGGGG CTGCCCTATC ACAGCCATCG TTCTGGAGTA CCGGCCCAAG
    GGGACCTGGG CCTGGCAGGG CCTCCGGGCC AACAGCTCCG GGGAGGTGTT TCTGACGGAA
    CTGCGAGAGG CCACGTGGTA CGAGCTGCGC ATGAGGGCTT GCAACAGTGC GGGCTGCGGC
    AATGAAACAG CCCAGTTCGC CACCCTGGAC TACGATGGCA GCACCATTCC ACCCATCAAG
    TCTGCTCAAG GTGAAGGGGA TGATGTGAAG AAGCTGTTCA CCATCGGCTG CCCTGTCATC
    CTGGCCACAC TGGGGGTGGC ACTGCTCTTC ATCGTACGCA AGAAGAGGAA GGAGAAACGG
    CTGAAGCGAC TCCGAGATGC AAAGAGTTTG GCAGAAATGT TGATAAGCAA GAACAATAGA
    AGCTTTGACA CCCCTGTGAA AGGGCCACCC CAGGGCCCAC GGCTACACAT TGACATCCCC
    AGGGTCCAGC TGCTCATCGA GGACAAAGAA GGCATCAAGC AACTGGGAGA TGACAAGGCC
    ACCATCCCTG TGACAGATGC TGAGTTCAGC CAAGCTGTCA ACCCACAGAG CTTCTGTACT
    GGCGTCTCCT TGCACCACCC AACCCTCATC CAGAGCACAG GACCCCTCAT CGACATGTCT
    GACATCCGGC CAGGAACCAA TCCAGTGTCC AGGAAGAATG TGAAGTCAGC CCACAGCACC
    CGGAACCGGT ACTCAAGCCA GTGGACCCTG ACCAAGTGCC AGGCCTCCAC ACCTGCCCGC
    ACCCTCACCT CCGACTGGCG CACCGTGGGC TCCCAGCATG GTGTCACGGT CACTGAGAGT
    GACAGCTACA GTGCCAGCCT GTCCCAGGAC ACAGACAAAG GAAGGAACAG CATGGTGTCC
    ACTGAGAGTG CCTCTTCCAC CTACGAGGAG CTGGCCCGGG CCTATGAGCA TGCCAAGCTG
    GAGGAGCAGC TGCAGCACGC CAAGTTTGAG ATCACCGAGT GCTTCATCTC TGACAGTTCC
    TCTGACCAGA TGACCACAGG CACCAACGAG AACGCCGACA GCATGACATC CATGAGCACA
    CCCTCAGAGC CTGGCATCTG CCGCTTTACC GCCTCACCAC CCAAGCCCCA GGATGCGGAC
    CGGGGCAAAA ACGTGGCTGT GCCCATCCCT CACCGGGCCA ACAAGAGTGA CTACTGCAAC
    CTGCCCCTGT ATGCCAAGTC AGAGGCCTTC TTTCGAAAGG CAGATGGACG TGAGCCCTGC
    CCCGTGGTCC CACCCCGTGA GGCCTCCATC CGGAACCTGG CTCGAACCTA CCACACCCAG
    GCTCGCCACC TGACCCTGGA CCCTGCCAGC AAGTCCTTGG GCCTTCCCCA CCCAGGGGCC
    CCCGCTGCCG CCTCCACAGC CACCTTACCT CAGAGGACTC TGGCCATGCC AGCCCCCCCA
    GCCGGCACAG CCCCCCCAGC CCCCGGCCCC ACCCCTGCTG AGCCACCCAC CGCCCCCAGC
    GCTGCCCCTC CGGCCCCCAG CACCGAGCCT CCACGAGCCG GGGGCCCACA CACCAAAATG
    GGGGGCTCCA GGGACTCGCT TCTCGAGATG AGCACATCGG GGGTAGGGAG GTCTCAGAAG
    CAGGGGGCCG GGGCCTACTC CAAATCCTAC ACCCTGGTGT AG

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

    RefSeq NP_065744.2
    CDS3..6344
    Translation

    Target ORF information:

    RefSeq Version NM_020693.3
    Organism Homo sapiens(human)
    Definition Homo sapiens DS cell adhesion molecule like 1 (DSCAML1), mRNA.

    Target ORF information:

    Epitope DYKDDDDK
    Bacterial selection AMPR
    Mammalian selection NeoR
    Vector pcDNA3.1+/C-(K)DYK
    NM_020693.3

    ORF Insert Sequence:

    1
    61
    121
    181
    241
    301
    361
    421
    481
    541
    601
    661
    721
    781
    841
    901
    961
    1021
    1081
    1141
    1201
    1261
    1321
    1381
    1441
    1501
    1561
    1621
    1681
    1741
    1801
    1861
    1921
    1981
    2041
    2101
    2161
    2221
    2281
    2341
    2401
    2461
    2521
    2581
    2641
    2701
    2761
    2821
    2881
    2941
    3001
    3061
    3121
    3181
    3241
    3301
    3361
    3421
    3481
    3541
    3601
    3661
    3721
    3781
    3841
    3901
    3961
    4021
    4081
    4141
    4201
    4261
    4321
    4381
    4441
    4501
    4561
    4621
    4681
    4741
    4801
    4861
    4921
    4981
    5041
    5101
    5161
    5221
    5281
    5341
    5401
    5461
    5521
    5581
    5641
    5701
    5761
    5821
    5881
    5941
    6001
    6061
    6121
    6181
    6241
    6301
    ATGACAGGAG CCGGGGAGCC GAGGAGGGAG GAGCCGCCGC CGCAGCCGAG CGCTGGGCTG 
    AGGAGCAGAG AGAGCGGGGC GCCGAGTGCG GGCGGCTGGG AGCGCGCTGA GCGGGGGAGA
    GGCGCTGCCG CACGGCCGGC CACAGGACCA CCTCCCCGGA GAATAGGGCC TCTTTATGGC
    ATGTGGCTGG TAACTTTCCT CCTGCTCCTG GACTCTTTAC ACAAAGCCCG CCCTGAAGAT
    GTTGGCACCA GCCTCTACTT TGTAAATGAC TCCTTGCAGC AGGTGACCTT TTCCAGCTCC
    GTGGGGGTGG TGGTGCCCTG CCCGGCCGCG GGCTCCCCCA GCGCGGCCCT TCGATGGTAC
    CTGGCCACAG GGGACGACAT CTACGACGTG CCGCACATCC GGCACGTCCA CGCCAACGGG
    ACGCTGCAGC TCTACCCCTT CTCCCCCTCC GCCTTCAATA GCTTTATCCA CGACAATGAC
    TACTTCTGCA CCGCGGAGAA CGCTGCCGGC AAGATCCGGA GCCCCAACAT CCGCGTCAAA
    GCAGTTTTCA GGGAACCCTA CACCGTCCGG GTGGAGGATC AAAGGTCAAT GCGTGGCAAC
    GTGGCCGTCT TCAAGTGCCT CATCCCCTCT TCAGTGCAGG AATATGTTAG CGTTGTATCT
    TGGGAGAAAG ACACAGTCTC CATCATCCCA GAACACAGGT TTTTTATTAC CTACCACGGC
    GGGCTGTACA TCTCTGACGT ACAGAAGGAG GACGCCCTCT CCACCTATCG CTGCATCACC
    AAGCACAAGT ATAGCGGGGA GACCCGGCAG AGCAATGGGG CACGCCTCTC TGTGACAGAC
    CCTGCTGAGT CGATCCCCAC CATCCTGGAT GGCTTCCACT CCCAGGAAGT GTGGGCCGGC
    CACACCGTGG AGCTGCCCTG CACCGCCTCG GGCTACCCTA TCCCCGCCAT CCGCTGGCTC
    AAGGATGGCC GGCCCCTCCC GGCTGACAGC CGCTGGACCA AGCGCATCAC AGGGCTGACC
    ATCAGCGACT TGCGGACCGA GGACAGCGGC ACCTACATTT GTGAGGTCAC CAACACCTTC
    GGTTCGGCAG AGGCCACAGG CATCCTCATG GTCATTGATC CCCTTCATGT GACCCTGACA
    CCAAAGAAGC TGAAGACCGG CATTGGCAGC ACGGTCATCC TCTCCTGTGC CCTGACGGGC
    TCCCCAGAGT TCACCATCCG CTGGTATCGC AACACGGAGC TGGTGCTGCC TGACGAGGCC
    ATCTCCATCC GCGGGCTCAG CAACGAGACG CTGCTCATCA CCTCGGCCCA GAAGAGCCAT
    TCCGGGGCCT ACCAGTGCTT CGCTACCCGC AAGGCCCAGA CCGCCCAGGA CTTTGCCATC
    ATTGCACTTG AGGATGGCAC GCCCCGCATC GTCTCGTCCT TCAGCGAGAA GGTGGTCAAC
    CCCGGGGAGC AGTTCTCACT GATGTGTGCG GCCAAGGGCG CCCCGCCCCC CACGGTCACC
    TGGGCCCTCG ACGATGAGCC CATCGTGCGG GATGGCAGCC ACCGCACCAA CCAGTACACC
    ATGTCGGACG GCACCACCAT CAGCCACATG AACGTCACAG GCCCCCAGAT CCGCGACGGG
    GGCGTGTACC GGTGCACAGC GCGGAACTTG GTGGGCAGTG CTGAATATCA GGCGCGAATA
    AACGTAAGAG GCCCACCCAG CATCCGGGCT ATGCGGAACA TCACAGCAGT CGCCGGGCGG
    GACACCCTTA TCAACTGCAG GGTCATCGGC TATCCCTACT ACTCCATCAA GTGGTACAAG
    GATGCCCTGC TGCTGCCAGA CAACCACCGC CAGGTGGTGT TTGAGAATGG GACCCTCAAG
    CTGACTGACG TGCAGAAGGG CATGGATGAG GGGGAGTACC TGTGCAGTGT CCTCATCCAG
    CCCCAGCTCT CCATCAGCCA GAGCGTTCAC GTAGCCGTCA AAGTGCCCCC TCTGATCCAG
    CCCTTCGAAT TCCCACCCGC CTCCATCGGC CAGCTGCTCT ACATTCCCTG TGTGGTGTCC
    TCGGGGGACA TGCCCATCCG TATCACCTGG AGGAAGGACG GACAGGTGAT CATCTCAGGC
    TCGGGCGTGA CCATCGAGAG CAAGGAATTC ATGAGCTCCC TGCAGATCTC TAGCGTCTCC
    CTCAAGCACA ACGGCAACTA TACATGCATC GCCAGCAACG CAGCCGCCAC CGTGAGCCGG
    GAGCGCCAGC TCATCGTGCG TGTGCCCCCT CGATTTGTGG TGCAACCCAA CAACCAGGAT
    GGCATCTACG GCAAAGCTGG TGTGCTCAAC TGCTCGGTGG ACGGCTACCC CCCACCCAAG
    GTCATGTGGA AGCATGCCAA GGGGAGCGGG AACCCCCAGC AGTACCACCC TGTGCCCCTC
    ACTGGCCGCA TCCAGATCCT GCCCAACAGC TCGCTGCTGA TCCGCCACGT CCTAGAAGAG
    GACATCGGCT ACTACCTCTG CCAGGCCAGC AACGGCGTAG GCACCGACAT CAGCAAGTCC
    ATGTTCCTCA CAGTCAAGAT CCCGGCCATG ATCACTTCCC ACCCCAACAC CACCATCGCC
    ATCAAGGGCC ATGCGAAGGA GCTAAACTGC ACGGCACGGG GTGAGCGGCC CATCATCATC
    CGCTGGGAGA AGGGGGACAC AGTCATCGAC CCTGACCGCG TCATGCGGTA TGCCATCGCC
    ACCAAGGACA ACGGCGACGA GGTCGTCTCC ACACTGAAGC TCAAGCCCGC TGACCGTGGG
    GACTCTGTGT TCTTCAGCTG CCATGCCATC AACTCGTATG GGGAGGACCG GGGCTTGATC
    CAACTCACTG TGCAAGAGCC CCCCGACCCC CCAGAGCTGG AGATCCGGGA GGTGAAGGCC
    CGGAGCATGA ACCTGCGCTG GACCCAGCGA TTCGACGGGA ACAGCATCAT CACGGGCTTC
    GACATTGAAT ACAAGAACAA ATCAGATTCC TGGGACTTCA AGCAGTCCAC ACGCAACATC
    TCCCCCACCA TCAACCAGGC CAACATTGTG GACTTGCACC CGGCATCTGT GTACAGCATC
    CGCATGTACT CTTTCAACAA GATTGGCCGC AGTGAACCAA GCAAGGAGCT CACCATCAGC
    ACTGAGGAGG CCGCTCCCGA TGGGCCCCCC ATGGATGTTA CCTTGCAGCC AGTGACCTCA
    CAGAGCATCC AGGTGACCTG GAAGGCACCC AAGAAGGAGC TGCAGAACGG TGTCATCCGG
    GGCTACCAGA TTGGCTACAG AGAGAACAGC CCCGGCAGCA ACGGGCAGTA CAGCATCGTG
    GAGATGAAGG CCACGGGGGA CAGCGAGGTC TACACCCTGG ACAACCTCAA GAAGTTCGCC
    CAGTATGGGG TGGTGGTCCA AGCCTTCAAT CGGGCTGGCA CGGGGCCCTC TTCCAGCGAG
    ATCAATGCCA CCACTCTGGA GGATGTGCCC AGCCAGCCCC CTGAGAACGT CCGGGCCCTG
    TCCATCACTT CTGACGTGGC CGTCATCTCC TGGTCAGAGC CCCCGCGCAG CACCCTCAAT
    GGCGTCCTCA AAGGCTATCG GGTCATCTTC TGGTCCCTCT ATGTTGATGG GGAGTGGGGC
    GAGATGCAGA ACATCACCAC CACGCGGGAG CGGGTGGAGC TGCGGGGCAT GGAGAAGTTC
    ACCAACTACA GCGTCCAGGT GCTGGCCTAC ACCCAGGCTG GGGACGGCGT ACGCAGCAGT
    GTGCTCTACA TCCAGACCAA GGAGGACGTT CCAGGTCCCC CTGCTGGCAT CAAAGCTGTC
    CCTTCATCAG CTAGCAGTGT GGTTGTGTCT TGGCTCCCCC CTACCAAGCC CAACGGGGTG
    ATCCGCAAGT ACACCATCTT CTGTTCCAGC CCCGGGTCTG GCCAGCCGGC TCCCAGCGAG
    TACGAGACGA GTCCAGAGCA GCTCTTCTAC CGGATCGCCC ACCTAAACCG CGGTCAGCAG
    TATCTGCTGT GGGTGGCCGC CGTCACCTCT GCCGGCCGGG GCAACAGCAG CGAGAAGGTG
    ACCATCGAGC CTGCTGGCAA GGCCCCAGCA AAGATCATCT CCTTTGGGGG CACCGTGACA
    ACACCTTGGA TGAAAGATGT TCGGCTGCCT TGCAATTCAG TGGGAGATCC AGCCCCTGCT
    GTGAAGTGGA CCAAGGACAG TGAAGACTCG GCCATTCCAG TGTCCATGGA TGGGCACCGG
    CTCATCCACA CCAATGGCAC ACTGCTGCTG CGTGCAGTGA AGGCTGAGGA CTCTGGCTAC
    TACACGTGCA CGGCCACCAA CACTGGTGGC TTTGACACCA TCATCGTCAA CCTTCTGGTG
    CAAGTTCCCC CGGACCAGCC CCGCCTCACT GTCTCCAAAA CCTCAGCTTC GTCCATCACC
    CTGACCTGGA TTCCAGGTGA CAATGGGGGC AGCTCCATCC GAGGCTTCGT GCTACAGTAC
    TCGGTGGACA ACAGCGAGGA GTGGAAGGAT GTGTTCATCA GCTCCAGCGA GCGCTCCTTC
    AAGCTGGACA GCCTCAAGTG TGGCACGTGG TACAAGGTGA AGCTGGCAGC CAAGAACAGC
    GTGGGCTCTG GGCGCATCAG CGAGATCATC GAGGCCAAGA CCCACGGGCG GGAGCCCTCC
    TTCAGCAAAG ACCAACACCT CTTCACCCAC ATCAACTCCA CGCATGCTCG GCTTAACCTG
    CAGGGCTGGA ACAATGGGGG CTGCCCTATC ACAGCCATCG TTCTGGAGTA CCGGCCCAAG
    GGGACCTGGG CCTGGCAGGG CCTCCGGGCC AACAGCTCCG GGGAGGTGTT TCTGACGGAA
    CTGCGAGAGG CCACGTGGTA CGAGCTGCGC ATGAGGGCTT GCAACAGTGC GGGCTGCGGC
    AATGAAACAG CCCAGTTCGC CACCCTGGAC TACGATGGCA GCACCATTCC ACCCATCAAG
    TCTGCTCAAG GTGAAGGGGA TGATGTGAAG AAGCTGTTCA CCATCGGCTG CCCTGTCATC
    CTGGCCACAC TGGGGGTGGC ACTGCTCTTC ATCGTACGCA AGAAGAGGAA GGAGAAACGG
    CTGAAGCGAC TCCGAGATGC AAAGAGTTTG GCAGAAATGT TGATAAGCAA GAACAATAGA
    AGCTTTGACA CCCCTGTGAA AGGGCCACCC CAGGGCCCAC GGCTACACAT TGACATCCCC
    AGGGTCCAGC TGCTCATCGA GGACAAAGAA GGCATCAAGC AACTGGGAGA TGACAAGGCC
    ACCATCCCTG TGACAGATGC TGAGTTCAGC CAAGCTGTCA ACCCACAGAG CTTCTGTACT
    GGCGTCTCCT TGCACCACCC AACCCTCATC CAGAGCACAG GACCCCTCAT CGACATGTCT
    GACATCCGGC CAGGAACCAA TCCAGTGTCC AGGAAGAATG TGAAGTCAGC CCACAGCACC
    CGGAACCGGT ACTCAAGCCA GTGGACCCTG ACCAAGTGCC AGGCCTCCAC ACCTGCCCGC
    ACCCTCACCT CCGACTGGCG CACCGTGGGC TCCCAGCATG GTGTCACGGT CACTGAGAGT
    GACAGCTACA GTGCCAGCCT GTCCCAGGAC ACAGACAAAG GAAGGAACAG CATGGTGTCC
    ACTGAGAGTG CCTCTTCCAC CTACGAGGAG CTGGCCCGGG CCTATGAGCA TGCCAAGCTG
    GAGGAGCAGC TGCAGCACGC CAAGTTTGAG ATCACCGAGT GCTTCATCTC TGACAGTTCC
    TCTGACCAGA TGACCACAGG CACCAACGAG AACGCCGACA GCATGACATC CATGAGCACA
    CCCTCAGAGC CTGGCATCTG CCGCTTTACC GCCTCACCAC CCAAGCCCCA GGATGCGGAC
    CGGGGCAAAA ACGTGGCTGT GCCCATCCCT CACCGGGCCA ACAAGAGTGA CTACTGCAAC
    CTGCCCCTGT ATGCCAAGTC AGAGGCCTTC TTTCGAAAGG CAGATGGACG TGAGCCCTGC
    CCCGTGGTCC CACCCCGTGA GGCCTCCATC CGGAACCTGG CTCGAACCTA CCACACCCAG
    GCTCGCCACC TGACCCTGGA CCCTGCCAGC AAGTCCTTGG GCCTTCCCCA CCCAGGGGCC
    CCCGCTGCCG CCTCCACAGC CACCTTACCT CAGAGGACTC TGGCCATGCC AGCCCCCCCA
    GCCGGCACAG CCCCCCCAGC CCCCGGCCCC ACCCCTGCTG AGCCACCCAC CGCCCCCAGC
    GCTGCCCCTC CGGCCCCCAG CACCGAGCCT CCACGAGCCG GGGGCCCACA CACCAAAATG
    GGGGGCTCCA GGGACTCGCT TCTCGAGATG AGCACATCGG GGGTAGGGAG GTCTCAGAAG
    CAGGGGGCCG GGGCCTACTC CAAATCCTAC ACCCTGGTGT AG

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

    CloneID OHu70457
    Clone ID Related Accession (Same CDS sequence) XM_011542917.2 , XM_011542917.1
    Accession Version XM_011542917.2 Latest version! Documents for ORF clone product in default vector
    Sequence Information ORF Nucleotide Sequence (Length: 6198bp)
    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 Down syndrome cell adhesion molecule-like protein 1 isoform X1
    Comment Comment: MODEL REFSEQ: This record is predicted by automated computational analysis. This record is derived from a genomic sequence (NC_000011.10) annotated using gene prediction method: Gnomon, supported by EST evidence. Also see: Documentation of NCBI's Annotation Process On Mar 26, 2018 this sequence version replaced XM_011542917.1. ##Genome-Annotation-Data-START## Annotation Provider :: NCBI Annotation Status :: Updated annotation Annotation Name :: Homo sapiens Updated Annotation Release 109.20191205 Annotation Version :: 109.20191205 Annotation Pipeline :: NCBI eukaryotic genome annotation pipeline Annotation Software Version :: 8.3 Annotation Method :: Best-placed RefSeq; propagated RefSeq model Features Annotated :: Gene; mRNA; CDS; ncRNA ##Genome-Annotation-Data-END##

    1
    61
    121
    181
    241
    301
    361
    421
    481
    541
    601
    661
    721
    781
    841
    901
    961
    1021
    1081
    1141
    1201
    1261
    1321
    1381
    1441
    1501
    1561
    1621
    1681
    1741
    1801
    1861
    1921
    1981
    2041
    2101
    2161
    2221
    2281
    2341
    2401
    2461
    2521
    2581
    2641
    2701
    2761
    2821
    2881
    2941
    3001
    3061
    3121
    3181
    3241
    3301
    3361
    3421
    3481
    3541
    3601
    3661
    3721
    3781
    3841
    3901
    3961
    4021
    4081
    4141
    4201
    4261
    4321
    4381
    4441
    4501
    4561
    4621
    4681
    4741
    4801
    4861
    4921
    4981
    5041
    5101
    5161
    5221
    5281
    5341
    5401
    5461
    5521
    5581
    5641
    5701
    5761
    5821
    5881
    5941
    6001
    6061
    6121
    6181
    ATGTGGCTGG TAACTTTCCT CCTGCTCCTG GACTCTTTAC ACAAAGCCCG CCCTGAAGAT 
    GTTGGCACCA GCCTCTACTT TGTAAATGAC TCCTTGCAGC AGGTGACCTT TTCCAGCTCC
    GTGGGGGTGG TGGTGCCCTG CCCGGCCGCG GGCTCCCCCA GCGCGGCCCT TCGATGGTAC
    CTGGCCACAG GGGACGACAT CTACGACGTG CCGCACATCC GGCACGTCCA CGCCAACGGG
    ACGCTGCAGC TCTACCCCTT CTCCCCCTCC GCCTTCAATA GCTTTATCCA CGACAATGAC
    TACTTCTGCA CCGCGGAGAA CGCTGCCGGC AAGATCCGGA GCCCCAACAT CCGCGTCAAA
    GCAGTTTTCA GGGAACCCTA CACCGTCCGG GTGGAGGATC AAAGGTCAAT GCGTGGCAAC
    GTGGCCGTCT TCAAGTGCCT CATCCCCTCT TCAGTGCAGG AATATGTTAG CGTTGTATCT
    TGGGAGAAAG ACACAGTCTC CATCATCCCA GAACACAGGT TTTTTATTAC CTACCACGGC
    GGGCTGTACA TCTCTGACGT ACAGAAGGAG GACGCCCTCT CCACCTATCG CTGCATCACC
    AAGCACAAGT ATAGCGGGGA GACCCGGCAG AGCAATGGGG CACGCCTCTC TGTGACAGGG
    CTGGCCAGGG CTGCCGACCC TCTCTGCCTT CCAGACCCTG CTGAGTCGAT CCCCACCATC
    CTGGATGGCT TCCACTCCCA GGAAGTGTGG GCCGGCCACA CCGTGGAGCT GCCCTGCACC
    GCCTCGGGCT ACCCTATCCC CGCCATCCGC TGGCTCAAGG ATGGCCGGCC CCTCCCGGCT
    GACAGCCGCT GGACCAAGCG CATCACAGGG CTGACCATCA GCGACTTGCG GACCGAGGAC
    AGCGGCACCT ACATTTGTGA GGTCACCAAC ACCTTCGGTT CGGCAGAGGC CACAGGCATC
    CTCATGGTCA TTGATCCCCT TCATGTGACC CTGACACCAA AGAAGCTGAA GACCGGCATT
    GGCAGCACGG TCATCCTCTC CTGTGCCCTG ACGGGCTCCC CAGAGTTCAC CATCCGCTGG
    TATCGCAACA CGGAGCTGGT GCTGCCTGAC GAGGCCATCT CCATCCGCGG GCTCAGCAAC
    GAGACGCTGC TCATCACCTC GGCCCAGAAG AGCCATTCCG GGGCCTACCA GTGCTTCGCT
    ACCCGCAAGG CCCAGACCGC CCAGGACTTT GCCATCATTG CACTTGAGGA TGGCACGCCC
    CGCATCGTCT CGTCCTTCAG CGAGAAGGTG GTCAACCCCG GGGAGCAGTT CTCACTGATG
    TGTGCGGCCA AGGGCGCCCC GCCCCCCACG GTCACCTGGG CCCTCGACGA TGAGCCCATC
    GTGCGGGATG GCAGCCACCG CACCAACCAG TACACCATGT CGGACGGCAC CACCATCAGC
    CACATGAACG TCACAGGCCC CCAGATCCGC GACGGGGGCG TGTACCGGTG CACAGCGCGG
    AACTTGGTGG GCAGTGCTGA ATATCAGGCG CGAATAAACG TAAGAGGCCC ACCCAGCATC
    CGGGCTATGC GGAACATCAC AGCAGTCGCC GGGCGGGACA CCCTTATCAA CTGCAGGGTC
    ATCGGCTATC CCTACTACTC CATCAAGTGG TACAAGGATG CCCTGCTGCT GCCAGACAAC
    CACCGCCAGG TGGTGTTTGA GAATGGGACC CTCAAGCTGA CTGACGTGCA GAAGGGCATG
    GATGAGGGGG AGTACCTGTG CAGTGTCCTC ATCCAGCCCC AGCTCTCCAT CAGCCAGAGC
    GTTCACGTAG CCGTCAAAGT GCCCCCTCTG ATCCAGCCCT TCGAATTCCC ACCCGCCTCC
    ATCGGCCAGC TGCTCTACAT TCCCTGTGTG GTGTCCTCGG GGGACATGCC CATCCGTATC
    ACCTGGAGGA AGGACGGACA GGTGATCATC TCAGGCTCGG GCGTGACCAT CGAGAGCAAG
    GAATTCATGA GCTCCCTGCA GATCTCTAGC GTCTCCCTCA AGCACAACGG CAACTATACA
    TGCATCGCCA GCAACGCAGC CGCCACCGTG AGCCGGGAGC GCCAGCTCAT CGTGCGTGTG
    CCCCCTCGAT TTGTGGTGCA ACCCAACAAC CAGGATGGCA TCTACGGCAA AGCTGGTGTG
    CTCAACTGCT CGGTGGACGG CTACCCCCCA CCCAAGGTCA TGTGGAAGCA TGCCAAGGGG
    AGCGGGAACC CCCAGCAGTA CCACCCTGTG CCCCTCACTG GCCGCATCCA GATCCTGCCC
    AACAGCTCGC TGCTGATCCG CCACGTCCTA GAAGAGGACA TCGGCTACTA CCTCTGCCAG
    GCCAGCAACG GCGTAGGCAC CGACATCAGC AAGTCCATGT TCCTCACAGT CAAGATCCCG
    GCCATGATCA CTTCCCACCC CAACACCACC ATCGCCATCA AGGGCCATGC GAAGGAGCTA
    AACTGCACGG CACGGGGTGA GCGGCCCATC ATCATCCGCT GGGAGAAGGG GGACACAGTC
    ATCGACCCTG ACCGCGTCAT GCGGTATGCC ATCGCCACCA AGGACAACGG CGACGAGGTC
    GTCTCCACAC TGAAGCTCAA GCCCGCTGAC CGTGGGGACT CTGTGTTCTT CAGCTGCCAT
    GCCATCAACT CGTATGGGGA GGACCGGGGC TTGATCCAAC TCACTGTGCA AGAGCCCCCC
    GACCCCCCAG AGCTGGAGAT CCGGGAGGTG AAGGCCCGGA GCATGAACCT GCGCTGGACC
    CAGCGATTCG ACGGGAACAG CATCATCACG GGCTTCGACA TTGAATACAA GAACAAATCA
    GATTCCTGGG ACTTCAAGCA GTCCACACGC AACATCTCCC CCACCATCAA CCAGGCCAAC
    ATTGTGGACT TGCACCCGGC ATCTGTGTAC AGCATCCGCA TGTACTCTTT CAACAAGATT
    GGCCGCAGTG AACCAAGCAA GGAGCTCACC ATCAGCACTG AGGAGGCCGC TCCCGATGGG
    CCCCCCATGG ATGTTACCTT GCAGCCAGTG ACCTCACAGA GCATCCAGGT GACCTGGAAG
    GCACCCAAGA AGGAGCTGCA GAACGGTGTC ATCCGGGGCT ACCAGATTGG CTACAGAGAG
    AACAGCCCCG GCAGCAACGG GCAGTACAGC ATCGTGGAGA TGAAGGCCAC GGGGGACAGC
    GAGGTCTACA CCCTGGACAA CCTCAAGAAG TTCGCCCAGT ATGGGGTGGT GGTCCAAGCC
    TTCAATCGGG CTGGCACGGG GCCCTCTTCC AGCGAGATCA ATGCCACCAC TCTGGAGGAT
    GTGCCCAGCC AGCCCCCTGA GAACGTCCGG GCCCTGTCCA TCACTTCTGA CGTGGCCGTC
    ATCTCCTGGT CAGAGCCCCC GCGCAGCACC CTCAATGGCG TCCTCAAAGG CTATCGGGTC
    ATCTTCTGGT CCCTCTATGT TGATGGGGAG TGGGGCGAGA TGCAGAACAT CACCACCACG
    CGGGAGCGGG TGGAGCTGCG GGGCATGGAG AAGTTCACCA ACTACAGCGT CCAGGTGCTG
    GCCTACACCC AGGCTGGGGA CGGCGTACGC AGCAGTGTGC TCTACATCCA GACCAAGGAG
    GACGTTCCAG GTCCCCCTGC TGGCATCAAA GCTGTCCCTT CATCAGCTAG CAGTGTGGTT
    GTGTCTTGGC TCCCCCCTAC CAAGCCCAAC GGGGTGATCC GCAAGTACAC CATCTTCTGT
    TCCAGCCCCG GGTCTGGCCA GCCGGCTCCC AGCGAGTACG AGACGAGTCC AGAGCAGCTC
    TTCTACCGGA TCGCCCACCT AAACCGCGGT CAGCAGTATC TGCTGTGGGT GGCCGCCGTC
    ACCTCTGCCG GCCGGGGCAA CAGCAGCGAG AAGGTGACCA TCGAGCCTGC TGGCAAGGCC
    CCAGCAAAGA TCATCTCCTT TGGGGGCACC GTGACAACAC CTTGGATGAA AGATGTTCGG
    CTGCCTTGCA ATTCAGTGGG AGATCCAGCC CCTGCTGTGA AGTGGACCAA GGACAGTGAA
    GACTCGGCCA TTCCAGTGTC CATGGATGGG CACCGGCTCA TCCACACCAA TGGCACACTG
    CTGCTGCGTG CAGTGAAGGC TGAGGACTCT GGCTACTACA CGTGCACGGC CACCAACACT
    GGTGGCTTTG ACACCATCAT CGTCAACCTT CTGGTGCAAG TTCCCCCGGA CCAGCCCCGC
    CTCACTGTCT CCAAAACCTC AGCTTCGTCC ATCACCCTGA CCTGGATTCC AGGTGACAAT
    GGGGGCAGCT CCATCCGAGG CTTCGTGCTA CAGTACTCGG TGGACAACAG CGAGGAGTGG
    AAGGATGTGT TCATCAGCTC CAGCGAGCGC TCCTTCAAGC TGGACAGCCT CAAGTGTGGC
    ACGTGGTACA AGGTGAAGCT GGCAGCCAAG AACAGCGTGG GCTCTGGGCG CATCAGCGAG
    ATCATCGAGG CCAAGACCCA CGGGCGGGAG CCCTCCTTCA GCAAAGACCA ACACCTCTTC
    ACCCACATCA ACTCCACGCA TGCTCGGCTT AACCTGCAGG GCTGGAACAA TGGGGGCTGC
    CCTATCACAG CCATCGTTCT GGAGTACCGG CCCAAGGGGA CCTGGGCCTG GCAGGGCCTC
    CGGGCCAACA GCTCCGGGGA GGTGTTTCTG ACGGAACTGC GAGAGGCCAC GTGGTACGAG
    CTGCGCATGA GGGCTTGCAA CAGTGCGGGC TGCGGCAATG AAACAGCCCA GTTCGCCACC
    CTGGACTACG ATGGCAGCAC CATTCCACCC ATCAAGTCTG CTCAAGGTGA AGGGGATGAT
    GTGAAGAAGC TGTTCACCAT CGGCTGCCCT GTCATCCTGG CCACACTGGG GGTGGCACTG
    CTCTTCATCG TACGCAAGAA GAGGAAGGAG AAACGGCTGA AGCGACTCCG AGATGCAAAG
    AGTTTGGCAG AAATGTTGAT AAGCAAGAAC AATAGAAGCT TTGACACCCC TGTGAAAGGG
    CCACCCCAGG GCCCACGGCT ACACATTGAC ATCCCCAGGG TCCAGCTGCT CATCGAGGAC
    AAAGAAGGCA TCAAGCAACT GGGAGATGAC AAGGCCACCA TCCCTGTGAC AGATGCTGAG
    TTCAGCCAAG CTGTCAACCC ACAGAGCTTC TGTACTGGCG TCTCCTTGCA CCACCCAACC
    CTCATCCAGA GCACAGGACC CCTCATCGAC ATGTCTGACA TCCGGCCAGG AACCAATCCA
    GTGTCCAGGA AGAATGTGAA GTCAGCCCAC AGCACCCGGA ACCGGTACTC AAGCCAGTGG
    ACCCTGACCA AGTGCCAGGC CTCCACACCT GCCCGCACCC TCACCTCCGA CTGGCGCACC
    GTGGGCTCCC AGCATGGTGT CACGGTCACT GAGAGTGACA GCTACAGTGC CAGCCTGTCC
    CAGGACACAG ACAAAGGAAG GAACAGCATG GTGTCCACTG AGAGTGCCTC TTCCACCTAC
    GAGGAGCTGG CCCGGGCCTA TGAGCATGCC AAGCTGGAGG AGCAGCTGCA GCACGCCAAG
    TTTGAGATCA CCGAGTGCTT CATCTCTGAC AGTTCCTCTG ACCAGATGAC CACAGGCACC
    AACGAGAACG CCGACAGCAT GACATCCATG AGCACACCCT CAGAGCCTGG CATCTGCCGC
    TTTACCGCCT CACCACCCAA GCCCCAGGAT GCGGACCGGG GCAAAAACGT GGCTGTGCCC
    ATCCCTCACC GGGCCAACAA GAGTGACTAC TGCAACCTGC CCCTGTATGC CAAGTCAGAG
    GCCTTCTTTC GAAAGGCAGA TGGACGTGAG CCCTGCCCCG TGGTCCCACC CCGTGAGGCC
    TCCATCCGGA ACCTGGCTCG AACCTACCAC ACCCAGGCTC GCCACCTGAC CCTGGACCCT
    GCCAGCAAGT CCTTGGGCCT TCCCCACCCA GGGGCCCCCG CTGCCGCCTC CACAGCCACC
    TTACCTCAGA GGACTCTGGC CATGCCAGCC CCCCCAGCCG GCACAGCCCC CCCAGCCCCC
    GGCCCCACCC CTGCTGAGCC ACCCACCGCC CCCAGCGCTG CCCCTCCGGC CCCCAGCACC
    GAGCCTCCAC GAGCCGGGGG CCCACACACC AAAATGGGGG GCTCCAGGGA CTCGCTTCTC
    GAGATGAGCA CATCGGGGGT AGGGAGGTCT CAGAAGCAGG GGGCCGGGGC CTACTCCAAA
    TCCTACACCC TGGTGTAG

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

    RefSeq XP_011541219.1
    CDS115..6312
    Translation

    Target ORF information:

    RefSeq Version XM_011542917.2
    Organism Homo sapiens(human)
    Definition Homo sapiens DS cell adhesion molecule like 1 (DSCAML1), transcript variant X1, mRNA.

    Target ORF information:

    Epitope DYKDDDDK
    Bacterial selection AMPR
    Mammalian selection NeoR
    Vector pcDNA3.1+/C-(K)DYK
    XM_011542917.2

    ORF Insert Sequence:

    1
    61
    121
    181
    241
    301
    361
    421
    481
    541
    601
    661
    721
    781
    841
    901
    961
    1021
    1081
    1141
    1201
    1261
    1321
    1381
    1441
    1501
    1561
    1621
    1681
    1741
    1801
    1861
    1921
    1981
    2041
    2101
    2161
    2221
    2281
    2341
    2401
    2461
    2521
    2581
    2641
    2701
    2761
    2821
    2881
    2941
    3001
    3061
    3121
    3181
    3241
    3301
    3361
    3421
    3481
    3541
    3601
    3661
    3721
    3781
    3841
    3901
    3961
    4021
    4081
    4141
    4201
    4261
    4321
    4381
    4441
    4501
    4561
    4621
    4681
    4741
    4801
    4861
    4921
    4981
    5041
    5101
    5161
    5221
    5281
    5341
    5401
    5461
    5521
    5581
    5641
    5701
    5761
    5821
    5881
    5941
    6001
    6061
    6121
    6181
    ATGTGGCTGG TAACTTTCCT CCTGCTCCTG GACTCTTTAC ACAAAGCCCG CCCTGAAGAT 
    GTTGGCACCA GCCTCTACTT TGTAAATGAC TCCTTGCAGC AGGTGACCTT TTCCAGCTCC
    GTGGGGGTGG TGGTGCCCTG CCCGGCCGCG GGCTCCCCCA GCGCGGCCCT TCGATGGTAC
    CTGGCCACAG GGGACGACAT CTACGACGTG CCGCACATCC GGCACGTCCA CGCCAACGGG
    ACGCTGCAGC TCTACCCCTT CTCCCCCTCC GCCTTCAATA GCTTTATCCA CGACAATGAC
    TACTTCTGCA CCGCGGAGAA CGCTGCCGGC AAGATCCGGA GCCCCAACAT CCGCGTCAAA
    GCAGTTTTCA GGGAACCCTA CACCGTCCGG GTGGAGGATC AAAGGTCAAT GCGTGGCAAC
    GTGGCCGTCT TCAAGTGCCT CATCCCCTCT TCAGTGCAGG AATATGTTAG CGTTGTATCT
    TGGGAGAAAG ACACAGTCTC CATCATCCCA GAACACAGGT TTTTTATTAC CTACCACGGC
    GGGCTGTACA TCTCTGACGT ACAGAAGGAG GACGCCCTCT CCACCTATCG CTGCATCACC
    AAGCACAAGT ATAGCGGGGA GACCCGGCAG AGCAATGGGG CACGCCTCTC TGTGACAGGG
    CTGGCCAGGG CTGCCGACCC TCTCTGCCTT CCAGACCCTG CTGAGTCGAT CCCCACCATC
    CTGGATGGCT TCCACTCCCA GGAAGTGTGG GCCGGCCACA CCGTGGAGCT GCCCTGCACC
    GCCTCGGGCT ACCCTATCCC CGCCATCCGC TGGCTCAAGG ATGGCCGGCC CCTCCCGGCT
    GACAGCCGCT GGACCAAGCG CATCACAGGG CTGACCATCA GCGACTTGCG GACCGAGGAC
    AGCGGCACCT ACATTTGTGA GGTCACCAAC ACCTTCGGTT CGGCAGAGGC CACAGGCATC
    CTCATGGTCA TTGATCCCCT TCATGTGACC CTGACACCAA AGAAGCTGAA GACCGGCATT
    GGCAGCACGG TCATCCTCTC CTGTGCCCTG ACGGGCTCCC CAGAGTTCAC CATCCGCTGG
    TATCGCAACA CGGAGCTGGT GCTGCCTGAC GAGGCCATCT CCATCCGCGG GCTCAGCAAC
    GAGACGCTGC TCATCACCTC GGCCCAGAAG AGCCATTCCG GGGCCTACCA GTGCTTCGCT
    ACCCGCAAGG CCCAGACCGC CCAGGACTTT GCCATCATTG CACTTGAGGA TGGCACGCCC
    CGCATCGTCT CGTCCTTCAG CGAGAAGGTG GTCAACCCCG GGGAGCAGTT CTCACTGATG
    TGTGCGGCCA AGGGCGCCCC GCCCCCCACG GTCACCTGGG CCCTCGACGA TGAGCCCATC
    GTGCGGGATG GCAGCCACCG CACCAACCAG TACACCATGT CGGACGGCAC CACCATCAGC
    CACATGAACG TCACAGGCCC CCAGATCCGC GACGGGGGCG TGTACCGGTG CACAGCGCGG
    AACTTGGTGG GCAGTGCTGA ATATCAGGCG CGAATAAACG TAAGAGGCCC ACCCAGCATC
    CGGGCTATGC GGAACATCAC AGCAGTCGCC GGGCGGGACA CCCTTATCAA CTGCAGGGTC
    ATCGGCTATC CCTACTACTC CATCAAGTGG TACAAGGATG CCCTGCTGCT GCCAGACAAC
    CACCGCCAGG TGGTGTTTGA GAATGGGACC CTCAAGCTGA CTGACGTGCA GAAGGGCATG
    GATGAGGGGG AGTACCTGTG CAGTGTCCTC ATCCAGCCCC AGCTCTCCAT CAGCCAGAGC
    GTTCACGTAG CCGTCAAAGT GCCCCCTCTG ATCCAGCCCT TCGAATTCCC ACCCGCCTCC
    ATCGGCCAGC TGCTCTACAT TCCCTGTGTG GTGTCCTCGG GGGACATGCC CATCCGTATC
    ACCTGGAGGA AGGACGGACA GGTGATCATC TCAGGCTCGG GCGTGACCAT CGAGAGCAAG
    GAATTCATGA GCTCCCTGCA GATCTCTAGC GTCTCCCTCA AGCACAACGG CAACTATACA
    TGCATCGCCA GCAACGCAGC CGCCACCGTG AGCCGGGAGC GCCAGCTCAT CGTGCGTGTG
    CCCCCTCGAT TTGTGGTGCA ACCCAACAAC CAGGATGGCA TCTACGGCAA AGCTGGTGTG
    CTCAACTGCT CGGTGGACGG CTACCCCCCA CCCAAGGTCA TGTGGAAGCA TGCCAAGGGG
    AGCGGGAACC CCCAGCAGTA CCACCCTGTG CCCCTCACTG GCCGCATCCA GATCCTGCCC
    AACAGCTCGC TGCTGATCCG CCACGTCCTA GAAGAGGACA TCGGCTACTA CCTCTGCCAG
    GCCAGCAACG GCGTAGGCAC CGACATCAGC AAGTCCATGT TCCTCACAGT CAAGATCCCG
    GCCATGATCA CTTCCCACCC CAACACCACC ATCGCCATCA AGGGCCATGC GAAGGAGCTA
    AACTGCACGG CACGGGGTGA GCGGCCCATC ATCATCCGCT GGGAGAAGGG GGACACAGTC
    ATCGACCCTG ACCGCGTCAT GCGGTATGCC ATCGCCACCA AGGACAACGG CGACGAGGTC
    GTCTCCACAC TGAAGCTCAA GCCCGCTGAC CGTGGGGACT CTGTGTTCTT CAGCTGCCAT
    GCCATCAACT CGTATGGGGA GGACCGGGGC TTGATCCAAC TCACTGTGCA AGAGCCCCCC
    GACCCCCCAG AGCTGGAGAT CCGGGAGGTG AAGGCCCGGA GCATGAACCT GCGCTGGACC
    CAGCGATTCG ACGGGAACAG CATCATCACG GGCTTCGACA TTGAATACAA GAACAAATCA
    GATTCCTGGG ACTTCAAGCA GTCCACACGC AACATCTCCC CCACCATCAA CCAGGCCAAC
    ATTGTGGACT TGCACCCGGC ATCTGTGTAC AGCATCCGCA TGTACTCTTT CAACAAGATT
    GGCCGCAGTG AACCAAGCAA GGAGCTCACC ATCAGCACTG AGGAGGCCGC TCCCGATGGG
    CCCCCCATGG ATGTTACCTT GCAGCCAGTG ACCTCACAGA GCATCCAGGT GACCTGGAAG
    GCACCCAAGA AGGAGCTGCA GAACGGTGTC ATCCGGGGCT ACCAGATTGG CTACAGAGAG
    AACAGCCCCG GCAGCAACGG GCAGTACAGC ATCGTGGAGA TGAAGGCCAC GGGGGACAGC
    GAGGTCTACA CCCTGGACAA CCTCAAGAAG TTCGCCCAGT ATGGGGTGGT GGTCCAAGCC
    TTCAATCGGG CTGGCACGGG GCCCTCTTCC AGCGAGATCA ATGCCACCAC TCTGGAGGAT
    GTGCCCAGCC AGCCCCCTGA GAACGTCCGG GCCCTGTCCA TCACTTCTGA CGTGGCCGTC
    ATCTCCTGGT CAGAGCCCCC GCGCAGCACC CTCAATGGCG TCCTCAAAGG CTATCGGGTC
    ATCTTCTGGT CCCTCTATGT TGATGGGGAG TGGGGCGAGA TGCAGAACAT CACCACCACG
    CGGGAGCGGG TGGAGCTGCG GGGCATGGAG AAGTTCACCA ACTACAGCGT CCAGGTGCTG
    GCCTACACCC AGGCTGGGGA CGGCGTACGC AGCAGTGTGC TCTACATCCA GACCAAGGAG
    GACGTTCCAG GTCCCCCTGC TGGCATCAAA GCTGTCCCTT CATCAGCTAG CAGTGTGGTT
    GTGTCTTGGC TCCCCCCTAC CAAGCCCAAC GGGGTGATCC GCAAGTACAC CATCTTCTGT
    TCCAGCCCCG GGTCTGGCCA GCCGGCTCCC AGCGAGTACG AGACGAGTCC AGAGCAGCTC
    TTCTACCGGA TCGCCCACCT AAACCGCGGT CAGCAGTATC TGCTGTGGGT GGCCGCCGTC
    ACCTCTGCCG GCCGGGGCAA CAGCAGCGAG AAGGTGACCA TCGAGCCTGC TGGCAAGGCC
    CCAGCAAAGA TCATCTCCTT TGGGGGCACC GTGACAACAC CTTGGATGAA AGATGTTCGG
    CTGCCTTGCA ATTCAGTGGG AGATCCAGCC CCTGCTGTGA AGTGGACCAA GGACAGTGAA
    GACTCGGCCA TTCCAGTGTC CATGGATGGG CACCGGCTCA TCCACACCAA TGGCACACTG
    CTGCTGCGTG CAGTGAAGGC TGAGGACTCT GGCTACTACA CGTGCACGGC CACCAACACT
    GGTGGCTTTG ACACCATCAT CGTCAACCTT CTGGTGCAAG TTCCCCCGGA CCAGCCCCGC
    CTCACTGTCT CCAAAACCTC AGCTTCGTCC ATCACCCTGA CCTGGATTCC AGGTGACAAT
    GGGGGCAGCT CCATCCGAGG CTTCGTGCTA CAGTACTCGG TGGACAACAG CGAGGAGTGG
    AAGGATGTGT TCATCAGCTC CAGCGAGCGC TCCTTCAAGC TGGACAGCCT CAAGTGTGGC
    ACGTGGTACA AGGTGAAGCT GGCAGCCAAG AACAGCGTGG GCTCTGGGCG CATCAGCGAG
    ATCATCGAGG CCAAGACCCA CGGGCGGGAG CCCTCCTTCA GCAAAGACCA ACACCTCTTC
    ACCCACATCA ACTCCACGCA TGCTCGGCTT AACCTGCAGG GCTGGAACAA TGGGGGCTGC
    CCTATCACAG CCATCGTTCT GGAGTACCGG CCCAAGGGGA CCTGGGCCTG GCAGGGCCTC
    CGGGCCAACA GCTCCGGGGA GGTGTTTCTG ACGGAACTGC GAGAGGCCAC GTGGTACGAG
    CTGCGCATGA GGGCTTGCAA CAGTGCGGGC TGCGGCAATG AAACAGCCCA GTTCGCCACC
    CTGGACTACG ATGGCAGCAC CATTCCACCC ATCAAGTCTG CTCAAGGTGA AGGGGATGAT
    GTGAAGAAGC TGTTCACCAT CGGCTGCCCT GTCATCCTGG CCACACTGGG GGTGGCACTG
    CTCTTCATCG TACGCAAGAA GAGGAAGGAG AAACGGCTGA AGCGACTCCG AGATGCAAAG
    AGTTTGGCAG AAATGTTGAT AAGCAAGAAC AATAGAAGCT TTGACACCCC TGTGAAAGGG
    CCACCCCAGG GCCCACGGCT ACACATTGAC ATCCCCAGGG TCCAGCTGCT CATCGAGGAC
    AAAGAAGGCA TCAAGCAACT GGGAGATGAC AAGGCCACCA TCCCTGTGAC AGATGCTGAG
    TTCAGCCAAG CTGTCAACCC ACAGAGCTTC TGTACTGGCG TCTCCTTGCA CCACCCAACC
    CTCATCCAGA GCACAGGACC CCTCATCGAC ATGTCTGACA TCCGGCCAGG AACCAATCCA
    GTGTCCAGGA AGAATGTGAA GTCAGCCCAC AGCACCCGGA ACCGGTACTC AAGCCAGTGG
    ACCCTGACCA AGTGCCAGGC CTCCACACCT GCCCGCACCC TCACCTCCGA CTGGCGCACC
    GTGGGCTCCC AGCATGGTGT CACGGTCACT GAGAGTGACA GCTACAGTGC CAGCCTGTCC
    CAGGACACAG ACAAAGGAAG GAACAGCATG GTGTCCACTG AGAGTGCCTC TTCCACCTAC
    GAGGAGCTGG CCCGGGCCTA TGAGCATGCC AAGCTGGAGG AGCAGCTGCA GCACGCCAAG
    TTTGAGATCA CCGAGTGCTT CATCTCTGAC AGTTCCTCTG ACCAGATGAC CACAGGCACC
    AACGAGAACG CCGACAGCAT GACATCCATG AGCACACCCT CAGAGCCTGG CATCTGCCGC
    TTTACCGCCT CACCACCCAA GCCCCAGGAT GCGGACCGGG GCAAAAACGT GGCTGTGCCC
    ATCCCTCACC GGGCCAACAA GAGTGACTAC TGCAACCTGC CCCTGTATGC CAAGTCAGAG
    GCCTTCTTTC GAAAGGCAGA TGGACGTGAG CCCTGCCCCG TGGTCCCACC CCGTGAGGCC
    TCCATCCGGA ACCTGGCTCG AACCTACCAC ACCCAGGCTC GCCACCTGAC CCTGGACCCT
    GCCAGCAAGT CCTTGGGCCT TCCCCACCCA GGGGCCCCCG CTGCCGCCTC CACAGCCACC
    TTACCTCAGA GGACTCTGGC CATGCCAGCC CCCCCAGCCG GCACAGCCCC CCCAGCCCCC
    GGCCCCACCC CTGCTGAGCC ACCCACCGCC CCCAGCGCTG CCCCTCCGGC CCCCAGCACC
    GAGCCTCCAC GAGCCGGGGG CCCACACACC AAAATGGGGG GCTCCAGGGA CTCGCTTCTC
    GAGATGAGCA CATCGGGGGT AGGGAGGTCT CAGAAGCAGG GGGCCGGGGC CTACTCCAAA
    TCCTACACCC TGGTGTAG

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

    CloneID OHu70457
    Clone ID Related Accession (Same CDS sequence) XM_011542917.2 , XM_011542917.1
    Accession Version XM_011542917.1 Documents for ORF clone product in default vector
    Sequence Information ORF Nucleotide Sequence (Length: 6198bp)
    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 Down syndrome cell adhesion molecule-like protein 1 isoform X1
    Comment Comment: MODEL REFSEQ: This record is predicted by automated computational analysis. This record is derived from a genomic sequence (NC_000011.10) annotated using gene prediction method: Gnomon, supported by EST evidence. Also see: Documentation of NCBI's Annotation Process ##Genome-Annotation-Data-START## Annotation Provider :: NCBI Annotation Status :: Full annotation Annotation Version :: Homo sapiens Annotation Release 108 Annotation Pipeline :: NCBI eukaryotic genome annotation pipeline Annotation Software Version :: 7.0 Annotation Method :: Best-placed RefSeq; Gnomon Features Annotated :: Gene; mRNA; CDS; ncRNA ##Genome-Annotation-Data-END##

    1
    61
    121
    181
    241
    301
    361
    421
    481
    541
    601
    661
    721
    781
    841
    901
    961
    1021
    1081
    1141
    1201
    1261
    1321
    1381
    1441
    1501
    1561
    1621
    1681
    1741
    1801
    1861
    1921
    1981
    2041
    2101
    2161
    2221
    2281
    2341
    2401
    2461
    2521
    2581
    2641
    2701
    2761
    2821
    2881
    2941
    3001
    3061
    3121
    3181
    3241
    3301
    3361
    3421
    3481
    3541
    3601
    3661
    3721
    3781
    3841
    3901
    3961
    4021
    4081
    4141
    4201
    4261
    4321
    4381
    4441
    4501
    4561
    4621
    4681
    4741
    4801
    4861
    4921
    4981
    5041
    5101
    5161
    5221
    5281
    5341
    5401
    5461
    5521
    5581
    5641
    5701
    5761
    5821
    5881
    5941
    6001
    6061
    6121
    6181
    ATGTGGCTGG TAACTTTCCT CCTGCTCCTG GACTCTTTAC ACAAAGCCCG CCCTGAAGAT 
    GTTGGCACCA GCCTCTACTT TGTAAATGAC TCCTTGCAGC AGGTGACCTT TTCCAGCTCC
    GTGGGGGTGG TGGTGCCCTG CCCGGCCGCG GGCTCCCCCA GCGCGGCCCT TCGATGGTAC
    CTGGCCACAG GGGACGACAT CTACGACGTG CCGCACATCC GGCACGTCCA CGCCAACGGG
    ACGCTGCAGC TCTACCCCTT CTCCCCCTCC GCCTTCAATA GCTTTATCCA CGACAATGAC
    TACTTCTGCA CCGCGGAGAA CGCTGCCGGC AAGATCCGGA GCCCCAACAT CCGCGTCAAA
    GCAGTTTTCA GGGAACCCTA CACCGTCCGG GTGGAGGATC AAAGGTCAAT GCGTGGCAAC
    GTGGCCGTCT TCAAGTGCCT CATCCCCTCT TCAGTGCAGG AATATGTTAG CGTTGTATCT
    TGGGAGAAAG ACACAGTCTC CATCATCCCA GAACACAGGT TTTTTATTAC CTACCACGGC
    GGGCTGTACA TCTCTGACGT ACAGAAGGAG GACGCCCTCT CCACCTATCG CTGCATCACC
    AAGCACAAGT ATAGCGGGGA GACCCGGCAG AGCAATGGGG CACGCCTCTC TGTGACAGGG
    CTGGCCAGGG CTGCCGACCC TCTCTGCCTT CCAGACCCTG CTGAGTCGAT CCCCACCATC
    CTGGATGGCT TCCACTCCCA GGAAGTGTGG GCCGGCCACA CCGTGGAGCT GCCCTGCACC
    GCCTCGGGCT ACCCTATCCC CGCCATCCGC TGGCTCAAGG ATGGCCGGCC CCTCCCGGCT
    GACAGCCGCT GGACCAAGCG CATCACAGGG CTGACCATCA GCGACTTGCG GACCGAGGAC
    AGCGGCACCT ACATTTGTGA GGTCACCAAC ACCTTCGGTT CGGCAGAGGC CACAGGCATC
    CTCATGGTCA TTGATCCCCT TCATGTGACC CTGACACCAA AGAAGCTGAA GACCGGCATT
    GGCAGCACGG TCATCCTCTC CTGTGCCCTG ACGGGCTCCC CAGAGTTCAC CATCCGCTGG
    TATCGCAACA CGGAGCTGGT GCTGCCTGAC GAGGCCATCT CCATCCGCGG GCTCAGCAAC
    GAGACGCTGC TCATCACCTC GGCCCAGAAG AGCCATTCCG GGGCCTACCA GTGCTTCGCT
    ACCCGCAAGG CCCAGACCGC CCAGGACTTT GCCATCATTG CACTTGAGGA TGGCACGCCC
    CGCATCGTCT CGTCCTTCAG CGAGAAGGTG GTCAACCCCG GGGAGCAGTT CTCACTGATG
    TGTGCGGCCA AGGGCGCCCC GCCCCCCACG GTCACCTGGG CCCTCGACGA TGAGCCCATC
    GTGCGGGATG GCAGCCACCG CACCAACCAG TACACCATGT CGGACGGCAC CACCATCAGC
    CACATGAACG TCACAGGCCC CCAGATCCGC GACGGGGGCG TGTACCGGTG CACAGCGCGG
    AACTTGGTGG GCAGTGCTGA ATATCAGGCG CGAATAAACG TAAGAGGCCC ACCCAGCATC
    CGGGCTATGC GGAACATCAC AGCAGTCGCC GGGCGGGACA CCCTTATCAA CTGCAGGGTC
    ATCGGCTATC CCTACTACTC CATCAAGTGG TACAAGGATG CCCTGCTGCT GCCAGACAAC
    CACCGCCAGG TGGTGTTTGA GAATGGGACC CTCAAGCTGA CTGACGTGCA GAAGGGCATG
    GATGAGGGGG AGTACCTGTG CAGTGTCCTC ATCCAGCCCC AGCTCTCCAT CAGCCAGAGC
    GTTCACGTAG CCGTCAAAGT GCCCCCTCTG ATCCAGCCCT TCGAATTCCC ACCCGCCTCC
    ATCGGCCAGC TGCTCTACAT TCCCTGTGTG GTGTCCTCGG GGGACATGCC CATCCGTATC
    ACCTGGAGGA AGGACGGACA GGTGATCATC TCAGGCTCGG GCGTGACCAT CGAGAGCAAG
    GAATTCATGA GCTCCCTGCA GATCTCTAGC GTCTCCCTCA AGCACAACGG CAACTATACA
    TGCATCGCCA GCAACGCAGC CGCCACCGTG AGCCGGGAGC GCCAGCTCAT CGTGCGTGTG
    CCCCCTCGAT TTGTGGTGCA ACCCAACAAC CAGGATGGCA TCTACGGCAA AGCTGGTGTG
    CTCAACTGCT CGGTGGACGG CTACCCCCCA CCCAAGGTCA TGTGGAAGCA TGCCAAGGGG
    AGCGGGAACC CCCAGCAGTA CCACCCTGTG CCCCTCACTG GCCGCATCCA GATCCTGCCC
    AACAGCTCGC TGCTGATCCG CCACGTCCTA GAAGAGGACA TCGGCTACTA CCTCTGCCAG
    GCCAGCAACG GCGTAGGCAC CGACATCAGC AAGTCCATGT TCCTCACAGT CAAGATCCCG
    GCCATGATCA CTTCCCACCC CAACACCACC ATCGCCATCA AGGGCCATGC GAAGGAGCTA
    AACTGCACGG CACGGGGTGA GCGGCCCATC ATCATCCGCT GGGAGAAGGG GGACACAGTC
    ATCGACCCTG ACCGCGTCAT GCGGTATGCC ATCGCCACCA AGGACAACGG CGACGAGGTC
    GTCTCCACAC TGAAGCTCAA GCCCGCTGAC CGTGGGGACT CTGTGTTCTT CAGCTGCCAT
    GCCATCAACT CGTATGGGGA GGACCGGGGC TTGATCCAAC TCACTGTGCA AGAGCCCCCC
    GACCCCCCAG AGCTGGAGAT CCGGGAGGTG AAGGCCCGGA GCATGAACCT GCGCTGGACC
    CAGCGATTCG ACGGGAACAG CATCATCACG GGCTTCGACA TTGAATACAA GAACAAATCA
    GATTCCTGGG ACTTCAAGCA GTCCACACGC AACATCTCCC CCACCATCAA CCAGGCCAAC
    ATTGTGGACT TGCACCCGGC ATCTGTGTAC AGCATCCGCA TGTACTCTTT CAACAAGATT
    GGCCGCAGTG AACCAAGCAA GGAGCTCACC ATCAGCACTG AGGAGGCCGC TCCCGATGGG
    CCCCCCATGG ATGTTACCTT GCAGCCAGTG ACCTCACAGA GCATCCAGGT GACCTGGAAG
    GCACCCAAGA AGGAGCTGCA GAACGGTGTC ATCCGGGGCT ACCAGATTGG CTACAGAGAG
    AACAGCCCCG GCAGCAACGG GCAGTACAGC ATCGTGGAGA TGAAGGCCAC GGGGGACAGC
    GAGGTCTACA CCCTGGACAA CCTCAAGAAG TTCGCCCAGT ATGGGGTGGT GGTCCAAGCC
    TTCAATCGGG CTGGCACGGG GCCCTCTTCC AGCGAGATCA ATGCCACCAC TCTGGAGGAT
    GTGCCCAGCC AGCCCCCTGA GAACGTCCGG GCCCTGTCCA TCACTTCTGA CGTGGCCGTC
    ATCTCCTGGT CAGAGCCCCC GCGCAGCACC CTCAATGGCG TCCTCAAAGG CTATCGGGTC
    ATCTTCTGGT CCCTCTATGT TGATGGGGAG TGGGGCGAGA TGCAGAACAT CACCACCACG
    CGGGAGCGGG TGGAGCTGCG GGGCATGGAG AAGTTCACCA ACTACAGCGT CCAGGTGCTG
    GCCTACACCC AGGCTGGGGA CGGCGTACGC AGCAGTGTGC TCTACATCCA GACCAAGGAG
    GACGTTCCAG GTCCCCCTGC TGGCATCAAA GCTGTCCCTT CATCAGCTAG CAGTGTGGTT
    GTGTCTTGGC TCCCCCCTAC CAAGCCCAAC GGGGTGATCC GCAAGTACAC CATCTTCTGT
    TCCAGCCCCG GGTCTGGCCA GCCGGCTCCC AGCGAGTACG AGACGAGTCC AGAGCAGCTC
    TTCTACCGGA TCGCCCACCT AAACCGCGGT CAGCAGTATC TGCTGTGGGT GGCCGCCGTC
    ACCTCTGCCG GCCGGGGCAA CAGCAGCGAG AAGGTGACCA TCGAGCCTGC TGGCAAGGCC
    CCAGCAAAGA TCATCTCCTT TGGGGGCACC GTGACAACAC CTTGGATGAA AGATGTTCGG
    CTGCCTTGCA ATTCAGTGGG AGATCCAGCC CCTGCTGTGA AGTGGACCAA GGACAGTGAA
    GACTCGGCCA TTCCAGTGTC CATGGATGGG CACCGGCTCA TCCACACCAA TGGCACACTG
    CTGCTGCGTG CAGTGAAGGC TGAGGACTCT GGCTACTACA CGTGCACGGC CACCAACACT
    GGTGGCTTTG ACACCATCAT CGTCAACCTT CTGGTGCAAG TTCCCCCGGA CCAGCCCCGC
    CTCACTGTCT CCAAAACCTC AGCTTCGTCC ATCACCCTGA CCTGGATTCC AGGTGACAAT
    GGGGGCAGCT CCATCCGAGG CTTCGTGCTA CAGTACTCGG TGGACAACAG CGAGGAGTGG
    AAGGATGTGT TCATCAGCTC CAGCGAGCGC TCCTTCAAGC TGGACAGCCT CAAGTGTGGC
    ACGTGGTACA AGGTGAAGCT GGCAGCCAAG AACAGCGTGG GCTCTGGGCG CATCAGCGAG
    ATCATCGAGG CCAAGACCCA CGGGCGGGAG CCCTCCTTCA GCAAAGACCA ACACCTCTTC
    ACCCACATCA ACTCCACGCA TGCTCGGCTT AACCTGCAGG GCTGGAACAA TGGGGGCTGC
    CCTATCACAG CCATCGTTCT GGAGTACCGG CCCAAGGGGA CCTGGGCCTG GCAGGGCCTC
    CGGGCCAACA GCTCCGGGGA GGTGTTTCTG ACGGAACTGC GAGAGGCCAC GTGGTACGAG
    CTGCGCATGA GGGCTTGCAA CAGTGCGGGC TGCGGCAATG AAACAGCCCA GTTCGCCACC
    CTGGACTACG ATGGCAGCAC CATTCCACCC ATCAAGTCTG CTCAAGGTGA AGGGGATGAT
    GTGAAGAAGC TGTTCACCAT CGGCTGCCCT GTCATCCTGG CCACACTGGG GGTGGCACTG
    CTCTTCATCG TACGCAAGAA GAGGAAGGAG AAACGGCTGA AGCGACTCCG AGATGCAAAG
    AGTTTGGCAG AAATGTTGAT AAGCAAGAAC AATAGAAGCT TTGACACCCC TGTGAAAGGG
    CCACCCCAGG GCCCACGGCT ACACATTGAC ATCCCCAGGG TCCAGCTGCT CATCGAGGAC
    AAAGAAGGCA TCAAGCAACT GGGAGATGAC AAGGCCACCA TCCCTGTGAC AGATGCTGAG
    TTCAGCCAAG CTGTCAACCC ACAGAGCTTC TGTACTGGCG TCTCCTTGCA CCACCCAACC
    CTCATCCAGA GCACAGGACC CCTCATCGAC ATGTCTGACA TCCGGCCAGG AACCAATCCA
    GTGTCCAGGA AGAATGTGAA GTCAGCCCAC AGCACCCGGA ACCGGTACTC AAGCCAGTGG
    ACCCTGACCA AGTGCCAGGC CTCCACACCT GCCCGCACCC TCACCTCCGA CTGGCGCACC
    GTGGGCTCCC AGCATGGTGT CACGGTCACT GAGAGTGACA GCTACAGTGC CAGCCTGTCC
    CAGGACACAG ACAAAGGAAG GAACAGCATG GTGTCCACTG AGAGTGCCTC TTCCACCTAC
    GAGGAGCTGG CCCGGGCCTA TGAGCATGCC AAGCTGGAGG AGCAGCTGCA GCACGCCAAG
    TTTGAGATCA CCGAGTGCTT CATCTCTGAC AGTTCCTCTG ACCAGATGAC CACAGGCACC
    AACGAGAACG CCGACAGCAT GACATCCATG AGCACACCCT CAGAGCCTGG CATCTGCCGC
    TTTACCGCCT CACCACCCAA GCCCCAGGAT GCGGACCGGG GCAAAAACGT GGCTGTGCCC
    ATCCCTCACC GGGCCAACAA GAGTGACTAC TGCAACCTGC CCCTGTATGC CAAGTCAGAG
    GCCTTCTTTC GAAAGGCAGA TGGACGTGAG CCCTGCCCCG TGGTCCCACC CCGTGAGGCC
    TCCATCCGGA ACCTGGCTCG AACCTACCAC ACCCAGGCTC GCCACCTGAC CCTGGACCCT
    GCCAGCAAGT CCTTGGGCCT TCCCCACCCA GGGGCCCCCG CTGCCGCCTC CACAGCCACC
    TTACCTCAGA GGACTCTGGC CATGCCAGCC CCCCCAGCCG GCACAGCCCC CCCAGCCCCC
    GGCCCCACCC CTGCTGAGCC ACCCACCGCC CCCAGCGCTG CCCCTCCGGC CCCCAGCACC
    GAGCCTCCAC GAGCCGGGGG CCCACACACC AAAATGGGGG GCTCCAGGGA CTCGCTTCTC
    GAGATGAGCA CATCGGGGGT AGGGAGGTCT CAGAAGCAGG GGGCCGGGGC CTACTCCAAA
    TCCTACACCC TGGTGTAG

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

    RefSeq XP_011541219.1
    CDS177..6374
    Translation

    Target ORF information:

    RefSeq Version XM_011542917.1
    Organism Homo sapiens(human)
    Definition Homo sapiens DS cell adhesion molecule like 1 (DSCAML1), transcript variant X1, mRNA.

    Target ORF information:

    Epitope DYKDDDDK
    Bacterial selection AMPR
    Mammalian selection NeoR
    Vector pcDNA3.1+/C-(K)DYK
    XM_011542917.1

    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
    4921
    4981
    5041
    5101
    5161
    5221
    5281
    5341
    5401
    5461
    5521
    5581
    5641
    5701
    5761
    5821
    5881
    5941
    6001
    6061
    6121
    6181
    ATGTGGCTGG TAACTTTCCT CCTGCTCCTG GACTCTTTAC ACAAAGCCCG CCCTGAAGAT 
    GTTGGCACCA GCCTCTACTT TGTAAATGAC TCCTTGCAGC AGGTGACCTT TTCCAGCTCC
    GTGGGGGTGG TGGTGCCCTG CCCGGCCGCG GGCTCCCCCA GCGCGGCCCT TCGATGGTAC
    CTGGCCACAG GGGACGACAT CTACGACGTG CCGCACATCC GGCACGTCCA CGCCAACGGG
    ACGCTGCAGC TCTACCCCTT CTCCCCCTCC GCCTTCAATA GCTTTATCCA CGACAATGAC
    TACTTCTGCA CCGCGGAGAA CGCTGCCGGC AAGATCCGGA GCCCCAACAT CCGCGTCAAA
    GCAGTTTTCA GGGAACCCTA CACCGTCCGG GTGGAGGATC AAAGGTCAAT GCGTGGCAAC
    GTGGCCGTCT TCAAGTGCCT CATCCCCTCT TCAGTGCAGG AATATGTTAG CGTTGTATCT
    TGGGAGAAAG ACACAGTCTC CATCATCCCA GAACACAGGT TTTTTATTAC CTACCACGGC
    GGGCTGTACA TCTCTGACGT ACAGAAGGAG GACGCCCTCT CCACCTATCG CTGCATCACC
    AAGCACAAGT ATAGCGGGGA GACCCGGCAG AGCAATGGGG CACGCCTCTC TGTGACAGGG
    CTGGCCAGGG CTGCCGACCC TCTCTGCCTT CCAGACCCTG CTGAGTCGAT CCCCACCATC
    CTGGATGGCT TCCACTCCCA GGAAGTGTGG GCCGGCCACA CCGTGGAGCT GCCCTGCACC
    GCCTCGGGCT ACCCTATCCC CGCCATCCGC TGGCTCAAGG ATGGCCGGCC CCTCCCGGCT
    GACAGCCGCT GGACCAAGCG CATCACAGGG CTGACCATCA GCGACTTGCG GACCGAGGAC
    AGCGGCACCT ACATTTGTGA GGTCACCAAC ACCTTCGGTT CGGCAGAGGC CACAGGCATC
    CTCATGGTCA TTGATCCCCT TCATGTGACC CTGACACCAA AGAAGCTGAA GACCGGCATT
    GGCAGCACGG TCATCCTCTC CTGTGCCCTG ACGGGCTCCC CAGAGTTCAC CATCCGCTGG
    TATCGCAACA CGGAGCTGGT GCTGCCTGAC GAGGCCATCT CCATCCGCGG GCTCAGCAAC
    GAGACGCTGC TCATCACCTC GGCCCAGAAG AGCCATTCCG GGGCCTACCA GTGCTTCGCT
    ACCCGCAAGG CCCAGACCGC CCAGGACTTT GCCATCATTG CACTTGAGGA TGGCACGCCC
    CGCATCGTCT CGTCCTTCAG CGAGAAGGTG GTCAACCCCG GGGAGCAGTT CTCACTGATG
    TGTGCGGCCA AGGGCGCCCC GCCCCCCACG GTCACCTGGG CCCTCGACGA TGAGCCCATC
    GTGCGGGATG GCAGCCACCG CACCAACCAG TACACCATGT CGGACGGCAC CACCATCAGC
    CACATGAACG TCACAGGCCC CCAGATCCGC GACGGGGGCG TGTACCGGTG CACAGCGCGG
    AACTTGGTGG GCAGTGCTGA ATATCAGGCG CGAATAAACG TAAGAGGCCC ACCCAGCATC
    CGGGCTATGC GGAACATCAC AGCAGTCGCC GGGCGGGACA CCCTTATCAA CTGCAGGGTC
    ATCGGCTATC CCTACTACTC CATCAAGTGG TACAAGGATG CCCTGCTGCT GCCAGACAAC
    CACCGCCAGG TGGTGTTTGA GAATGGGACC CTCAAGCTGA CTGACGTGCA GAAGGGCATG
    GATGAGGGGG AGTACCTGTG CAGTGTCCTC ATCCAGCCCC AGCTCTCCAT CAGCCAGAGC
    GTTCACGTAG CCGTCAAAGT GCCCCCTCTG ATCCAGCCCT TCGAATTCCC ACCCGCCTCC
    ATCGGCCAGC TGCTCTACAT TCCCTGTGTG GTGTCCTCGG GGGACATGCC CATCCGTATC
    ACCTGGAGGA AGGACGGACA GGTGATCATC TCAGGCTCGG GCGTGACCAT CGAGAGCAAG
    GAATTCATGA GCTCCCTGCA GATCTCTAGC GTCTCCCTCA AGCACAACGG CAACTATACA
    TGCATCGCCA GCAACGCAGC CGCCACCGTG AGCCGGGAGC GCCAGCTCAT CGTGCGTGTG
    CCCCCTCGAT TTGTGGTGCA ACCCAACAAC CAGGATGGCA TCTACGGCAA AGCTGGTGTG
    CTCAACTGCT CGGTGGACGG CTACCCCCCA CCCAAGGTCA TGTGGAAGCA TGCCAAGGGG
    AGCGGGAACC CCCAGCAGTA CCACCCTGTG CCCCTCACTG GCCGCATCCA GATCCTGCCC
    AACAGCTCGC TGCTGATCCG CCACGTCCTA GAAGAGGACA TCGGCTACTA CCTCTGCCAG
    GCCAGCAACG GCGTAGGCAC CGACATCAGC AAGTCCATGT TCCTCACAGT CAAGATCCCG
    GCCATGATCA CTTCCCACCC CAACACCACC ATCGCCATCA AGGGCCATGC GAAGGAGCTA
    AACTGCACGG CACGGGGTGA GCGGCCCATC ATCATCCGCT GGGAGAAGGG GGACACAGTC
    ATCGACCCTG ACCGCGTCAT GCGGTATGCC ATCGCCACCA AGGACAACGG CGACGAGGTC
    GTCTCCACAC TGAAGCTCAA GCCCGCTGAC CGTGGGGACT CTGTGTTCTT CAGCTGCCAT
    GCCATCAACT CGTATGGGGA GGACCGGGGC TTGATCCAAC TCACTGTGCA AGAGCCCCCC
    GACCCCCCAG AGCTGGAGAT CCGGGAGGTG AAGGCCCGGA GCATGAACCT GCGCTGGACC
    CAGCGATTCG ACGGGAACAG CATCATCACG GGCTTCGACA TTGAATACAA GAACAAATCA
    GATTCCTGGG ACTTCAAGCA GTCCACACGC AACATCTCCC CCACCATCAA CCAGGCCAAC
    ATTGTGGACT TGCACCCGGC ATCTGTGTAC AGCATCCGCA TGTACTCTTT CAACAAGATT
    GGCCGCAGTG AACCAAGCAA GGAGCTCACC ATCAGCACTG AGGAGGCCGC TCCCGATGGG
    CCCCCCATGG ATGTTACCTT GCAGCCAGTG ACCTCACAGA GCATCCAGGT GACCTGGAAG
    GCACCCAAGA AGGAGCTGCA GAACGGTGTC ATCCGGGGCT ACCAGATTGG CTACAGAGAG
    AACAGCCCCG GCAGCAACGG GCAGTACAGC ATCGTGGAGA TGAAGGCCAC GGGGGACAGC
    GAGGTCTACA CCCTGGACAA CCTCAAGAAG TTCGCCCAGT ATGGGGTGGT GGTCCAAGCC
    TTCAATCGGG CTGGCACGGG GCCCTCTTCC AGCGAGATCA ATGCCACCAC TCTGGAGGAT
    GTGCCCAGCC AGCCCCCTGA GAACGTCCGG GCCCTGTCCA TCACTTCTGA CGTGGCCGTC
    ATCTCCTGGT CAGAGCCCCC GCGCAGCACC CTCAATGGCG TCCTCAAAGG CTATCGGGTC
    ATCTTCTGGT CCCTCTATGT TGATGGGGAG TGGGGCGAGA TGCAGAACAT CACCACCACG
    CGGGAGCGGG TGGAGCTGCG GGGCATGGAG AAGTTCACCA ACTACAGCGT CCAGGTGCTG
    GCCTACACCC AGGCTGGGGA CGGCGTACGC AGCAGTGTGC TCTACATCCA GACCAAGGAG
    GACGTTCCAG GTCCCCCTGC TGGCATCAAA GCTGTCCCTT CATCAGCTAG CAGTGTGGTT
    GTGTCTTGGC TCCCCCCTAC CAAGCCCAAC GGGGTGATCC GCAAGTACAC CATCTTCTGT
    TCCAGCCCCG GGTCTGGCCA GCCGGCTCCC AGCGAGTACG AGACGAGTCC AGAGCAGCTC
    TTCTACCGGA TCGCCCACCT AAACCGCGGT CAGCAGTATC TGCTGTGGGT GGCCGCCGTC
    ACCTCTGCCG GCCGGGGCAA CAGCAGCGAG AAGGTGACCA TCGAGCCTGC TGGCAAGGCC
    CCAGCAAAGA TCATCTCCTT TGGGGGCACC GTGACAACAC CTTGGATGAA AGATGTTCGG
    CTGCCTTGCA ATTCAGTGGG AGATCCAGCC CCTGCTGTGA AGTGGACCAA GGACAGTGAA
    GACTCGGCCA TTCCAGTGTC CATGGATGGG CACCGGCTCA TCCACACCAA TGGCACACTG
    CTGCTGCGTG CAGTGAAGGC TGAGGACTCT GGCTACTACA CGTGCACGGC CACCAACACT
    GGTGGCTTTG ACACCATCAT CGTCAACCTT CTGGTGCAAG TTCCCCCGGA CCAGCCCCGC
    CTCACTGTCT CCAAAACCTC AGCTTCGTCC ATCACCCTGA CCTGGATTCC AGGTGACAAT
    GGGGGCAGCT CCATCCGAGG CTTCGTGCTA CAGTACTCGG TGGACAACAG CGAGGAGTGG
    AAGGATGTGT TCATCAGCTC CAGCGAGCGC TCCTTCAAGC TGGACAGCCT CAAGTGTGGC
    ACGTGGTACA AGGTGAAGCT GGCAGCCAAG AACAGCGTGG GCTCTGGGCG CATCAGCGAG
    ATCATCGAGG CCAAGACCCA CGGGCGGGAG CCCTCCTTCA GCAAAGACCA ACACCTCTTC
    ACCCACATCA ACTCCACGCA TGCTCGGCTT AACCTGCAGG GCTGGAACAA TGGGGGCTGC
    CCTATCACAG CCATCGTTCT GGAGTACCGG CCCAAGGGGA CCTGGGCCTG GCAGGGCCTC
    CGGGCCAACA GCTCCGGGGA GGTGTTTCTG ACGGAACTGC GAGAGGCCAC GTGGTACGAG
    CTGCGCATGA GGGCTTGCAA CAGTGCGGGC TGCGGCAATG AAACAGCCCA GTTCGCCACC
    CTGGACTACG ATGGCAGCAC CATTCCACCC ATCAAGTCTG CTCAAGGTGA AGGGGATGAT
    GTGAAGAAGC TGTTCACCAT CGGCTGCCCT GTCATCCTGG CCACACTGGG GGTGGCACTG
    CTCTTCATCG TACGCAAGAA GAGGAAGGAG AAACGGCTGA AGCGACTCCG AGATGCAAAG
    AGTTTGGCAG AAATGTTGAT AAGCAAGAAC AATAGAAGCT TTGACACCCC TGTGAAAGGG
    CCACCCCAGG GCCCACGGCT ACACATTGAC ATCCCCAGGG TCCAGCTGCT CATCGAGGAC
    AAAGAAGGCA TCAAGCAACT GGGAGATGAC AAGGCCACCA TCCCTGTGAC AGATGCTGAG
    TTCAGCCAAG CTGTCAACCC ACAGAGCTTC TGTACTGGCG TCTCCTTGCA CCACCCAACC
    CTCATCCAGA GCACAGGACC CCTCATCGAC ATGTCTGACA TCCGGCCAGG AACCAATCCA
    GTGTCCAGGA AGAATGTGAA GTCAGCCCAC AGCACCCGGA ACCGGTACTC AAGCCAGTGG
    ACCCTGACCA AGTGCCAGGC CTCCACACCT GCCCGCACCC TCACCTCCGA CTGGCGCACC
    GTGGGCTCCC AGCATGGTGT CACGGTCACT GAGAGTGACA GCTACAGTGC CAGCCTGTCC
    CAGGACACAG ACAAAGGAAG GAACAGCATG GTGTCCACTG AGAGTGCCTC TTCCACCTAC
    GAGGAGCTGG CCCGGGCCTA TGAGCATGCC AAGCTGGAGG AGCAGCTGCA GCACGCCAAG
    TTTGAGATCA CCGAGTGCTT CATCTCTGAC AGTTCCTCTG ACCAGATGAC CACAGGCACC
    AACGAGAACG CCGACAGCAT GACATCCATG AGCACACCCT CAGAGCCTGG CATCTGCCGC
    TTTACCGCCT CACCACCCAA GCCCCAGGAT GCGGACCGGG GCAAAAACGT GGCTGTGCCC
    ATCCCTCACC GGGCCAACAA GAGTGACTAC TGCAACCTGC CCCTGTATGC CAAGTCAGAG
    GCCTTCTTTC GAAAGGCAGA TGGACGTGAG CCCTGCCCCG TGGTCCCACC CCGTGAGGCC
    TCCATCCGGA ACCTGGCTCG AACCTACCAC ACCCAGGCTC GCCACCTGAC CCTGGACCCT
    GCCAGCAAGT CCTTGGGCCT TCCCCACCCA GGGGCCCCCG CTGCCGCCTC CACAGCCACC
    TTACCTCAGA GGACTCTGGC CATGCCAGCC CCCCCAGCCG GCACAGCCCC CCCAGCCCCC
    GGCCCCACCC CTGCTGAGCC ACCCACCGCC CCCAGCGCTG CCCCTCCGGC CCCCAGCACC
    GAGCCTCCAC GAGCCGGGGG CCCACACACC AAAATGGGGG GCTCCAGGGA CTCGCTTCTC
    GAGATGAGCA CATCGGGGGT AGGGAGGTCT CAGAAGCAGG GGGCCGGGGC CTACTCCAAA
    TCCTACACCC TGGTGTAG

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

    CloneID OHu70458
    Clone ID Related Accession (Same CDS sequence) XM_011542918.1
    Accession Version XM_011542918.1 Latest version! Documents for ORF clone product in default vector
    Sequence Information ORF Nucleotide Sequence (Length: 5934bp)
    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 Down syndrome cell adhesion molecule-like protein 1 isoform X2
    Comment Comment: MODEL REFSEQ: This record is predicted by automated computational analysis. This record is derived from a genomic sequence (NC_000011.10) 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
    4921
    4981
    5041
    5101
    5161
    5221
    5281
    5341
    5401
    5461
    5521
    5581
    5641
    5701
    5761
    5821
    5881
    ATGACTCCTT GCAGCAGCTT TATCCACGAC AATGACTACT TCTGCACCGC GGAGAACGCT 
    GCCGGCAAGA TCCGGAGCCC CAACATCCGC GTCAAAGCAG TTTTCAGGGA ACCCTACACC
    GTCCGGGTGG AGGATCAAAG GTCAATGCGT GGCAACGTGG CCGTCTTCAA GTGCCTCATC
    CCCTCTTCAG TGCAGGAATA TGTTAGCGTT GTATCTTGGG AGAAAGACAC AGTCTCCATC
    ATCCCAGAAC ACAGGTTTTT TATTACCTAC CACGGCGGGC TGTACATCTC TGACGTACAG
    AAGGAGGACG CCCTCTCCAC CTATCGCTGC ATCACCAAGC ACAAGTATAG CGGGGAGACC
    CGGCAGAGCA ATGGGGCACG CCTCTCTGTG ACAGGGCTGG CCAGGGCTGC CGACCCTCTC
    TGCCTTCCAG ACCCTGCTGA GTCGATCCCC ACCATCCTGG ATGGCTTCCA CTCCCAGGAA
    GTGTGGGCCG GCCACACCGT GGAGCTGCCC TGCACCGCCT CGGGCTACCC TATCCCCGCC
    ATCCGCTGGC TCAAGGATGG CCGGCCCCTC CCGGCTGACA GCCGCTGGAC CAAGCGCATC
    ACAGGGCTGA CCATCAGCGA CTTGCGGACC GAGGACAGCG GCACCTACAT TTGTGAGGTC
    ACCAACACCT TCGGTTCGGC AGAGGCCACA GGCATCCTCA TGGTCATTGA TCCCCTTCAT
    GTGACCCTGA CACCAAAGAA GCTGAAGACC GGCATTGGCA GCACGGTCAT CCTCTCCTGT
    GCCCTGACGG GCTCCCCAGA GTTCACCATC CGCTGGTATC GCAACACGGA GCTGGTGCTG
    CCTGACGAGG CCATCTCCAT CCGCGGGCTC AGCAACGAGA CGCTGCTCAT CACCTCGGCC
    CAGAAGAGCC ATTCCGGGGC CTACCAGTGC TTCGCTACCC GCAAGGCCCA GACCGCCCAG
    GACTTTGCCA TCATTGCACT TGAGGATGGC ACGCCCCGCA TCGTCTCGTC CTTCAGCGAG
    AAGGTGGTCA ACCCCGGGGA GCAGTTCTCA CTGATGTGTG CGGCCAAGGG CGCCCCGCCC
    CCCACGGTCA CCTGGGCCCT CGACGATGAG CCCATCGTGC GGGATGGCAG CCACCGCACC
    AACCAGTACA CCATGTCGGA CGGCACCACC ATCAGCCACA TGAACGTCAC AGGCCCCCAG
    ATCCGCGACG GGGGCGTGTA CCGGTGCACA GCGCGGAACT TGGTGGGCAG TGCTGAATAT
    CAGGCGCGAA TAAACGTAAG AGGCCCACCC AGCATCCGGG CTATGCGGAA CATCACAGCA
    GTCGCCGGGC GGGACACCCT TATCAACTGC AGGGTCATCG GCTATCCCTA CTACTCCATC
    AAGTGGTACA AGGATGCCCT GCTGCTGCCA GACAACCACC GCCAGGTGGT GTTTGAGAAT
    GGGACCCTCA AGCTGACTGA CGTGCAGAAG GGCATGGATG AGGGGGAGTA CCTGTGCAGT
    GTCCTCATCC AGCCCCAGCT CTCCATCAGC CAGAGCGTTC ACGTAGCCGT CAAAGTGCCC
    CCTCTGATCC AGCCCTTCGA ATTCCCACCC GCCTCCATCG GCCAGCTGCT CTACATTCCC
    TGTGTGGTGT CCTCGGGGGA CATGCCCATC CGTATCACCT GGAGGAAGGA CGGACAGGTG
    ATCATCTCAG GCTCGGGCGT GACCATCGAG AGCAAGGAAT TCATGAGCTC CCTGCAGATC
    TCTAGCGTCT CCCTCAAGCA CAACGGCAAC TATACATGCA TCGCCAGCAA CGCAGCCGCC
    ACCGTGAGCC GGGAGCGCCA GCTCATCGTG CGTGTGCCCC CTCGATTTGT GGTGCAACCC
    AACAACCAGG ATGGCATCTA CGGCAAAGCT GGTGTGCTCA ACTGCTCGGT GGACGGCTAC
    CCCCCACCCA AGGTCATGTG GAAGCATGCC AAGGGGAGCG GGAACCCCCA GCAGTACCAC
    CCTGTGCCCC TCACTGGCCG CATCCAGATC CTGCCCAACA GCTCGCTGCT GATCCGCCAC
    GTCCTAGAAG AGGACATCGG CTACTACCTC TGCCAGGCCA GCAACGGCGT AGGCACCGAC
    ATCAGCAAGT CCATGTTCCT CACAGTCAAG ATCCCGGCCA TGATCACTTC CCACCCCAAC
    ACCACCATCG CCATCAAGGG CCATGCGAAG GAGCTAAACT GCACGGCACG GGGTGAGCGG
    CCCATCATCA TCCGCTGGGA GAAGGGGGAC ACAGTCATCG ACCCTGACCG CGTCATGCGG
    TATGCCATCG CCACCAAGGA CAACGGCGAC GAGGTCGTCT CCACACTGAA GCTCAAGCCC
    GCTGACCGTG GGGACTCTGT GTTCTTCAGC TGCCATGCCA TCAACTCGTA TGGGGAGGAC
    CGGGGCTTGA TCCAACTCAC TGTGCAAGAG CCCCCCGACC CCCCAGAGCT GGAGATCCGG
    GAGGTGAAGG CCCGGAGCAT GAACCTGCGC TGGACCCAGC GATTCGACGG GAACAGCATC
    ATCACGGGCT TCGACATTGA ATACAAGAAC AAATCAGATT CCTGGGACTT CAAGCAGTCC
    ACACGCAACA TCTCCCCCAC CATCAACCAG GCCAACATTG TGGACTTGCA CCCGGCATCT
    GTGTACAGCA TCCGCATGTA CTCTTTCAAC AAGATTGGCC GCAGTGAACC AAGCAAGGAG
    CTCACCATCA GCACTGAGGA GGCCGCTCCC GATGGGCCCC CCATGGATGT TACCTTGCAG
    CCAGTGACCT CACAGAGCAT CCAGGTGACC TGGAAGGCAC CCAAGAAGGA GCTGCAGAAC
    GGTGTCATCC GGGGCTACCA GATTGGCTAC AGAGAGAACA GCCCCGGCAG CAACGGGCAG
    TACAGCATCG TGGAGATGAA GGCCACGGGG GACAGCGAGG TCTACACCCT GGACAACCTC
    AAGAAGTTCG CCCAGTATGG GGTGGTGGTC CAAGCCTTCA ATCGGGCTGG CACGGGGCCC
    TCTTCCAGCG AGATCAATGC CACCACTCTG GAGGATGTGC CCAGCCAGCC CCCTGAGAAC
    GTCCGGGCCC TGTCCATCAC TTCTGACGTG GCCGTCATCT CCTGGTCAGA GCCCCCGCGC
    AGCACCCTCA ATGGCGTCCT CAAAGGCTAT CGGGTCATCT TCTGGTCCCT CTATGTTGAT
    GGGGAGTGGG GCGAGATGCA GAACATCACC ACCACGCGGG AGCGGGTGGA GCTGCGGGGC
    ATGGAGAAGT TCACCAACTA CAGCGTCCAG GTGCTGGCCT ACACCCAGGC TGGGGACGGC
    GTACGCAGCA GTGTGCTCTA CATCCAGACC AAGGAGGACG TTCCAGGTCC CCCTGCTGGC
    ATCAAAGCTG TCCCTTCATC AGCTAGCAGT GTGGTTGTGT CTTGGCTCCC CCCTACCAAG
    CCCAACGGGG TGATCCGCAA GTACACCATC TTCTGTTCCA GCCCCGGGTC TGGCCAGCCG
    GCTCCCAGCG AGTACGAGAC GAGTCCAGAG CAGCTCTTCT ACCGGATCGC CCACCTAAAC
    CGCGGTCAGC AGTATCTGCT GTGGGTGGCC GCCGTCACCT CTGCCGGCCG GGGCAACAGC
    AGCGAGAAGG TGACCATCGA GCCTGCTGGC AAGGCCCCAG CAAAGATCAT CTCCTTTGGG
    GGCACCGTGA CAACACCTTG GATGAAAGAT GTTCGGCTGC CTTGCAATTC AGTGGGAGAT
    CCAGCCCCTG CTGTGAAGTG GACCAAGGAC AGTGAAGACT CGGCCATTCC AGTGTCCATG
    GATGGGCACC GGCTCATCCA CACCAATGGC ACACTGCTGC TGCGTGCAGT GAAGGCTGAG
    GACTCTGGCT ACTACACGTG CACGGCCACC AACACTGGTG GCTTTGACAC CATCATCGTC
    AACCTTCTGG TGCAAGTTCC CCCGGACCAG CCCCGCCTCA CTGTCTCCAA AACCTCAGCT
    TCGTCCATCA CCCTGACCTG GATTCCAGGT GACAATGGGG GCAGCTCCAT CCGAGGCTTC
    GTGCTACAGT ACTCGGTGGA CAACAGCGAG GAGTGGAAGG ATGTGTTCAT CAGCTCCAGC
    GAGCGCTCCT TCAAGCTGGA CAGCCTCAAG TGTGGCACGT GGTACAAGGT GAAGCTGGCA
    GCCAAGAACA GCGTGGGCTC TGGGCGCATC AGCGAGATCA TCGAGGCCAA GACCCACGGG
    CGGGAGCCCT CCTTCAGCAA AGACCAACAC CTCTTCACCC ACATCAACTC CACGCATGCT
    CGGCTTAACC TGCAGGGCTG GAACAATGGG GGCTGCCCTA TCACAGCCAT CGTTCTGGAG
    TACCGGCCCA AGGGGACCTG GGCCTGGCAG GGCCTCCGGG CCAACAGCTC CGGGGAGGTG
    TTTCTGACGG AACTGCGAGA GGCCACGTGG TACGAGCTGC GCATGAGGGC TTGCAACAGT
    GCGGGCTGCG GCAATGAAAC AGCCCAGTTC GCCACCCTGG ACTACGATGG CAGCACCATT
    CCACCCATCA AGTCTGCTCA AGGTGAAGGG GATGATGTGA AGAAGCTGTT CACCATCGGC
    TGCCCTGTCA TCCTGGCCAC ACTGGGGGTG GCACTGCTCT TCATCGTACG CAAGAAGAGG
    AAGGAGAAAC GGCTGAAGCG ACTCCGAGAT GCAAAGAGTT TGGCAGAAAT GTTGATAAGC
    AAGAACAATA GAAGCTTTGA CACCCCTGTG AAAGGGCCAC CCCAGGGCCC ACGGCTACAC
    ATTGACATCC CCAGGGTCCA GCTGCTCATC GAGGACAAAG AAGGCATCAA GCAACTGGGA
    GATGACAAGG CCACCATCCC TGTGACAGAT GCTGAGTTCA GCCAAGCTGT CAACCCACAG
    AGCTTCTGTA CTGGCGTCTC CTTGCACCAC CCAACCCTCA TCCAGAGCAC AGGACCCCTC
    ATCGACATGT CTGACATCCG GCCAGGAACC AATCCAGTGT CCAGGAAGAA TGTGAAGTCA
    GCCCACAGCA CCCGGAACCG GTACTCAAGC CAGTGGACCC TGACCAAGTG CCAGGCCTCC
    ACACCTGCCC GCACCCTCAC CTCCGACTGG CGCACCGTGG GCTCCCAGCA TGGTGTCACG
    GTCACTGAGA GTGACAGCTA CAGTGCCAGC CTGTCCCAGG ACACAGACAA AGGAAGGAAC
    AGCATGGTGT CCACTGAGAG TGCCTCTTCC ACCTACGAGG AGCTGGCCCG GGCCTATGAG
    CATGCCAAGC TGGAGGAGCA GCTGCAGCAC GCCAAGTTTG AGATCACCGA GTGCTTCATC
    TCTGACAGTT CCTCTGACCA GATGACCACA GGCACCAACG AGAACGCCGA CAGCATGACA
    TCCATGAGCA CACCCTCAGA GCCTGGCATC TGCCGCTTTA CCGCCTCACC ACCCAAGCCC
    CAGGATGCGG ACCGGGGCAA AAACGTGGCT GTGCCCATCC CTCACCGGGC CAACAAGAGT
    GACTACTGCA ACCTGCCCCT GTATGCCAAG TCAGAGGCCT TCTTTCGAAA GGCAGATGGA
    CGTGAGCCCT GCCCCGTGGT CCCACCCCGT GAGGCCTCCA TCCGGAACCT GGCTCGAACC
    TACCACACCC AGGCTCGCCA CCTGACCCTG GACCCTGCCA GCAAGTCCTT GGGCCTTCCC
    CACCCAGGGG CCCCCGCTGC CGCCTCCACA GCCACCTTAC CTCAGAGGAC TCTGGCCATG
    CCAGCCCCCC CAGCCGGCAC AGCCCCCCCA GCCCCCGGCC CCACCCCTGC TGAGCCACCC
    ACCGCCCCCA GCGCTGCCCC TCCGGCCCCC AGCACCGAGC CTCCACGAGC CGGGGGCCCA
    CACACCAAAA TGGGGGGCTC CAGGGACTCG CTTCTCGAGA TGAGCACATC GGGGGTAGGG
    AGGTCTCAGA AGCAGGGGGC CGGGGCCTAC TCCAAATCCT ACACCCTGGT GTAG

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

    RefSeq XP_011541220.1
    CDS129..6062
    Translation

    Target ORF information:

    RefSeq Version XM_011542918.1
    Organism Homo sapiens(human)
    Definition Homo sapiens DS cell adhesion molecule like 1 (DSCAML1), transcript variant X2, mRNA.

    Target ORF information:

    Epitope DYKDDDDK
    Bacterial selection AMPR
    Mammalian selection NeoR
    Vector pcDNA3.1+/C-(K)DYK
    XM_011542918.1

    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
    4921
    4981
    5041
    5101
    5161
    5221
    5281
    5341
    5401
    5461
    5521
    5581
    5641
    5701
    5761
    5821
    5881
    ATGACTCCTT GCAGCAGCTT TATCCACGAC AATGACTACT TCTGCACCGC GGAGAACGCT 
    GCCGGCAAGA TCCGGAGCCC CAACATCCGC GTCAAAGCAG TTTTCAGGGA ACCCTACACC
    GTCCGGGTGG AGGATCAAAG GTCAATGCGT GGCAACGTGG CCGTCTTCAA GTGCCTCATC
    CCCTCTTCAG TGCAGGAATA TGTTAGCGTT GTATCTTGGG AGAAAGACAC AGTCTCCATC
    ATCCCAGAAC ACAGGTTTTT TATTACCTAC CACGGCGGGC TGTACATCTC TGACGTACAG
    AAGGAGGACG CCCTCTCCAC CTATCGCTGC ATCACCAAGC ACAAGTATAG CGGGGAGACC
    CGGCAGAGCA ATGGGGCACG CCTCTCTGTG ACAGGGCTGG CCAGGGCTGC CGACCCTCTC
    TGCCTTCCAG ACCCTGCTGA GTCGATCCCC ACCATCCTGG ATGGCTTCCA CTCCCAGGAA
    GTGTGGGCCG GCCACACCGT GGAGCTGCCC TGCACCGCCT CGGGCTACCC TATCCCCGCC
    ATCCGCTGGC TCAAGGATGG CCGGCCCCTC CCGGCTGACA GCCGCTGGAC CAAGCGCATC
    ACAGGGCTGA CCATCAGCGA CTTGCGGACC GAGGACAGCG GCACCTACAT TTGTGAGGTC
    ACCAACACCT TCGGTTCGGC AGAGGCCACA GGCATCCTCA TGGTCATTGA TCCCCTTCAT
    GTGACCCTGA CACCAAAGAA GCTGAAGACC GGCATTGGCA GCACGGTCAT CCTCTCCTGT
    GCCCTGACGG GCTCCCCAGA GTTCACCATC CGCTGGTATC GCAACACGGA GCTGGTGCTG
    CCTGACGAGG CCATCTCCAT CCGCGGGCTC AGCAACGAGA CGCTGCTCAT CACCTCGGCC
    CAGAAGAGCC ATTCCGGGGC CTACCAGTGC TTCGCTACCC GCAAGGCCCA GACCGCCCAG
    GACTTTGCCA TCATTGCACT TGAGGATGGC ACGCCCCGCA TCGTCTCGTC CTTCAGCGAG
    AAGGTGGTCA ACCCCGGGGA GCAGTTCTCA CTGATGTGTG CGGCCAAGGG CGCCCCGCCC
    CCCACGGTCA CCTGGGCCCT CGACGATGAG CCCATCGTGC GGGATGGCAG CCACCGCACC
    AACCAGTACA CCATGTCGGA CGGCACCACC ATCAGCCACA TGAACGTCAC AGGCCCCCAG
    ATCCGCGACG GGGGCGTGTA CCGGTGCACA GCGCGGAACT TGGTGGGCAG TGCTGAATAT
    CAGGCGCGAA TAAACGTAAG AGGCCCACCC AGCATCCGGG CTATGCGGAA CATCACAGCA
    GTCGCCGGGC GGGACACCCT TATCAACTGC AGGGTCATCG GCTATCCCTA CTACTCCATC
    AAGTGGTACA AGGATGCCCT GCTGCTGCCA GACAACCACC GCCAGGTGGT GTTTGAGAAT
    GGGACCCTCA AGCTGACTGA CGTGCAGAAG GGCATGGATG AGGGGGAGTA CCTGTGCAGT
    GTCCTCATCC AGCCCCAGCT CTCCATCAGC CAGAGCGTTC ACGTAGCCGT CAAAGTGCCC
    CCTCTGATCC AGCCCTTCGA ATTCCCACCC GCCTCCATCG GCCAGCTGCT CTACATTCCC
    TGTGTGGTGT CCTCGGGGGA CATGCCCATC CGTATCACCT GGAGGAAGGA CGGACAGGTG
    ATCATCTCAG GCTCGGGCGT GACCATCGAG AGCAAGGAAT TCATGAGCTC CCTGCAGATC
    TCTAGCGTCT CCCTCAAGCA CAACGGCAAC TATACATGCA TCGCCAGCAA CGCAGCCGCC
    ACCGTGAGCC GGGAGCGCCA GCTCATCGTG CGTGTGCCCC CTCGATTTGT GGTGCAACCC
    AACAACCAGG ATGGCATCTA CGGCAAAGCT GGTGTGCTCA ACTGCTCGGT GGACGGCTAC
    CCCCCACCCA AGGTCATGTG GAAGCATGCC AAGGGGAGCG GGAACCCCCA GCAGTACCAC
    CCTGTGCCCC TCACTGGCCG CATCCAGATC CTGCCCAACA GCTCGCTGCT GATCCGCCAC
    GTCCTAGAAG AGGACATCGG CTACTACCTC TGCCAGGCCA GCAACGGCGT AGGCACCGAC
    ATCAGCAAGT CCATGTTCCT CACAGTCAAG ATCCCGGCCA TGATCACTTC CCACCCCAAC
    ACCACCATCG CCATCAAGGG CCATGCGAAG GAGCTAAACT GCACGGCACG GGGTGAGCGG
    CCCATCATCA TCCGCTGGGA GAAGGGGGAC ACAGTCATCG ACCCTGACCG CGTCATGCGG
    TATGCCATCG CCACCAAGGA CAACGGCGAC GAGGTCGTCT CCACACTGAA GCTCAAGCCC
    GCTGACCGTG GGGACTCTGT GTTCTTCAGC TGCCATGCCA TCAACTCGTA TGGGGAGGAC
    CGGGGCTTGA TCCAACTCAC TGTGCAAGAG CCCCCCGACC CCCCAGAGCT GGAGATCCGG
    GAGGTGAAGG CCCGGAGCAT GAACCTGCGC TGGACCCAGC GATTCGACGG GAACAGCATC
    ATCACGGGCT TCGACATTGA ATACAAGAAC AAATCAGATT CCTGGGACTT CAAGCAGTCC
    ACACGCAACA TCTCCCCCAC CATCAACCAG GCCAACATTG TGGACTTGCA CCCGGCATCT
    GTGTACAGCA TCCGCATGTA CTCTTTCAAC AAGATTGGCC GCAGTGAACC AAGCAAGGAG
    CTCACCATCA GCACTGAGGA GGCCGCTCCC GATGGGCCCC CCATGGATGT TACCTTGCAG
    CCAGTGACCT CACAGAGCAT CCAGGTGACC TGGAAGGCAC CCAAGAAGGA GCTGCAGAAC
    GGTGTCATCC GGGGCTACCA GATTGGCTAC AGAGAGAACA GCCCCGGCAG CAACGGGCAG
    TACAGCATCG TGGAGATGAA GGCCACGGGG GACAGCGAGG TCTACACCCT GGACAACCTC
    AAGAAGTTCG CCCAGTATGG GGTGGTGGTC CAAGCCTTCA ATCGGGCTGG CACGGGGCCC
    TCTTCCAGCG AGATCAATGC CACCACTCTG GAGGATGTGC CCAGCCAGCC CCCTGAGAAC
    GTCCGGGCCC TGTCCATCAC TTCTGACGTG GCCGTCATCT CCTGGTCAGA GCCCCCGCGC
    AGCACCCTCA ATGGCGTCCT CAAAGGCTAT CGGGTCATCT TCTGGTCCCT CTATGTTGAT
    GGGGAGTGGG GCGAGATGCA GAACATCACC ACCACGCGGG AGCGGGTGGA GCTGCGGGGC
    ATGGAGAAGT TCACCAACTA CAGCGTCCAG GTGCTGGCCT ACACCCAGGC TGGGGACGGC
    GTACGCAGCA GTGTGCTCTA CATCCAGACC AAGGAGGACG TTCCAGGTCC CCCTGCTGGC
    ATCAAAGCTG TCCCTTCATC AGCTAGCAGT GTGGTTGTGT CTTGGCTCCC CCCTACCAAG
    CCCAACGGGG TGATCCGCAA GTACACCATC TTCTGTTCCA GCCCCGGGTC TGGCCAGCCG
    GCTCCCAGCG AGTACGAGAC GAGTCCAGAG CAGCTCTTCT ACCGGATCGC CCACCTAAAC
    CGCGGTCAGC AGTATCTGCT GTGGGTGGCC GCCGTCACCT CTGCCGGCCG GGGCAACAGC
    AGCGAGAAGG TGACCATCGA GCCTGCTGGC AAGGCCCCAG CAAAGATCAT CTCCTTTGGG
    GGCACCGTGA CAACACCTTG GATGAAAGAT GTTCGGCTGC CTTGCAATTC AGTGGGAGAT
    CCAGCCCCTG CTGTGAAGTG GACCAAGGAC AGTGAAGACT CGGCCATTCC AGTGTCCATG
    GATGGGCACC GGCTCATCCA CACCAATGGC ACACTGCTGC TGCGTGCAGT GAAGGCTGAG
    GACTCTGGCT ACTACACGTG CACGGCCACC AACACTGGTG GCTTTGACAC CATCATCGTC
    AACCTTCTGG TGCAAGTTCC CCCGGACCAG CCCCGCCTCA CTGTCTCCAA AACCTCAGCT
    TCGTCCATCA CCCTGACCTG GATTCCAGGT GACAATGGGG GCAGCTCCAT CCGAGGCTTC
    GTGCTACAGT ACTCGGTGGA CAACAGCGAG GAGTGGAAGG ATGTGTTCAT CAGCTCCAGC
    GAGCGCTCCT TCAAGCTGGA CAGCCTCAAG TGTGGCACGT GGTACAAGGT GAAGCTGGCA
    GCCAAGAACA GCGTGGGCTC TGGGCGCATC AGCGAGATCA TCGAGGCCAA GACCCACGGG
    CGGGAGCCCT CCTTCAGCAA AGACCAACAC CTCTTCACCC ACATCAACTC CACGCATGCT
    CGGCTTAACC TGCAGGGCTG GAACAATGGG GGCTGCCCTA TCACAGCCAT CGTTCTGGAG
    TACCGGCCCA AGGGGACCTG GGCCTGGCAG GGCCTCCGGG CCAACAGCTC CGGGGAGGTG
    TTTCTGACGG AACTGCGAGA GGCCACGTGG TACGAGCTGC GCATGAGGGC TTGCAACAGT
    GCGGGCTGCG GCAATGAAAC AGCCCAGTTC GCCACCCTGG ACTACGATGG CAGCACCATT
    CCACCCATCA AGTCTGCTCA AGGTGAAGGG GATGATGTGA AGAAGCTGTT CACCATCGGC
    TGCCCTGTCA TCCTGGCCAC ACTGGGGGTG GCACTGCTCT TCATCGTACG CAAGAAGAGG
    AAGGAGAAAC GGCTGAAGCG ACTCCGAGAT GCAAAGAGTT TGGCAGAAAT GTTGATAAGC
    AAGAACAATA GAAGCTTTGA CACCCCTGTG AAAGGGCCAC CCCAGGGCCC ACGGCTACAC
    ATTGACATCC CCAGGGTCCA GCTGCTCATC GAGGACAAAG AAGGCATCAA GCAACTGGGA
    GATGACAAGG CCACCATCCC TGTGACAGAT GCTGAGTTCA GCCAAGCTGT CAACCCACAG
    AGCTTCTGTA CTGGCGTCTC CTTGCACCAC CCAACCCTCA TCCAGAGCAC AGGACCCCTC
    ATCGACATGT CTGACATCCG GCCAGGAACC AATCCAGTGT CCAGGAAGAA TGTGAAGTCA
    GCCCACAGCA CCCGGAACCG GTACTCAAGC CAGTGGACCC TGACCAAGTG CCAGGCCTCC
    ACACCTGCCC GCACCCTCAC CTCCGACTGG CGCACCGTGG GCTCCCAGCA TGGTGTCACG
    GTCACTGAGA GTGACAGCTA CAGTGCCAGC CTGTCCCAGG ACACAGACAA AGGAAGGAAC
    AGCATGGTGT CCACTGAGAG TGCCTCTTCC ACCTACGAGG AGCTGGCCCG GGCCTATGAG
    CATGCCAAGC TGGAGGAGCA GCTGCAGCAC GCCAAGTTTG AGATCACCGA GTGCTTCATC
    TCTGACAGTT CCTCTGACCA GATGACCACA GGCACCAACG AGAACGCCGA CAGCATGACA
    TCCATGAGCA CACCCTCAGA GCCTGGCATC TGCCGCTTTA CCGCCTCACC ACCCAAGCCC
    CAGGATGCGG ACCGGGGCAA AAACGTGGCT GTGCCCATCC CTCACCGGGC CAACAAGAGT
    GACTACTGCA ACCTGCCCCT GTATGCCAAG TCAGAGGCCT TCTTTCGAAA GGCAGATGGA
    CGTGAGCCCT GCCCCGTGGT CCCACCCCGT GAGGCCTCCA TCCGGAACCT GGCTCGAACC
    TACCACACCC AGGCTCGCCA CCTGACCCTG GACCCTGCCA GCAAGTCCTT GGGCCTTCCC
    CACCCAGGGG CCCCCGCTGC CGCCTCCACA GCCACCTTAC CTCAGAGGAC TCTGGCCATG
    CCAGCCCCCC CAGCCGGCAC AGCCCCCCCA GCCCCCGGCC CCACCCCTGC TGAGCCACCC
    ACCGCCCCCA GCGCTGCCCC TCCGGCCCCC AGCACCGAGC CTCCACGAGC CGGGGGCCCA
    CACACCAAAA TGGGGGGCTC CAGGGACTCG CTTCTCGAGA TGAGCACATC GGGGGTAGGG
    AGGTCTCAGA AGCAGGGGGC CGGGGCCTAC TCCAAATCCT ACACCCTGGT GTAG

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

    CloneID OHu70459
    Clone ID Related Accession (Same CDS sequence) XM_011542919.2
    Accession Version XM_011542919.2 Latest version! Documents for ORF clone product in default vector
    Sequence Information ORF Nucleotide Sequence (Length: 4881bp)
    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 Down syndrome cell adhesion molecule-like protein 1 isoform X3
    Comment Comment: MODEL REFSEQ: This record is predicted by automated computational analysis. This record is derived from a genomic sequence (NC_000011.10) annotated using gene prediction method: Gnomon, supported by EST evidence. Also see: Documentation of NCBI's Annotation Process On Jun 6, 2016 this sequence version replaced XM_011542919.1. ##Genome-Annotation-Data-START## Annotation Provider :: NCBI Annotation Status :: Updated annotation Annotation Name :: Homo sapiens Updated Annotation Release 109.20191205 Annotation Version :: 109.20191205 Annotation Pipeline :: NCBI eukaryotic genome annotation pipeline Annotation Software Version :: 8.3 Annotation Method :: Best-placed RefSeq; propagated RefSeq model Features Annotated :: Gene; mRNA; CDS; ncRNA ##Genome-Annotation-Data-END##

    1
    61
    121
    181
    241
    301
    361
    421
    481
    541
    601
    661
    721
    781
    841
    901
    961
    1021
    1081
    1141
    1201
    1261
    1321
    1381
    1441
    1501
    1561
    1621
    1681
    1741
    1801
    1861
    1921
    1981
    2041
    2101
    2161
    2221
    2281
    2341
    2401
    2461
    2521
    2581
    2641
    2701
    2761
    2821
    2881
    2941
    3001
    3061
    3121
    3181
    3241
    3301
    3361
    3421
    3481
    3541
    3601
    3661
    3721
    3781
    3841
    3901
    3961
    4021
    4081
    4141
    4201
    4261
    4321
    4381
    4441
    4501
    4561
    4621
    4681
    4741
    4801
    4861
    ATGTGTGCGG CCAAGGGCGC CCCGCCCCCC ACGGTCACCT GGGCCCTCGA CGATGAGCCC 
    ATCGTGCGGG ATGGCAGCCA CCGCACCAAC CAGTACACCA TGTCGGACGG CACCACCATC
    AGCCACATGA ACGTCACAGG CCCCCAGATC CGCGACGGGG GCGTGTACCG GTGCACAGCG
    CGGAACTTGG TGGGCAGTGC TGAATATCAG GCGCGAATAA ACGTAAGAGG CCCACCCAGC
    ATCCGGGCTA TGCGGAACAT CACAGCAGTC GCCGGGCGGG ACACCCTTAT CAACTGCAGG
    GTCATCGGCT ATCCCTACTA CTCCATCAAG TGGTACAAGG ATGCCCTGCT GCTGCCAGAC
    AACCACCGCC AGGTGGTGTT TGAGAATGGG ACCCTCAAGC TGACTGACGT GCAGAAGGGC
    ATGGATGAGG GGGAGTACCT GTGCAGTGTC CTCATCCAGC CCCAGCTCTC CATCAGCCAG
    AGCGTTCACG TAGCCGTCAA AGTGCCCCCT CTGATCCAGC CCTTCGAATT CCCACCCGCC
    TCCATCGGCC AGCTGCTCTA CATTCCCTGT GTGGTGTCCT CGGGGGACAT GCCCATCCGT
    ATCACCTGGA GGAAGGACGG ACAGGTGATC ATCTCAGGCT CGGGCGTGAC CATCGAGAGC
    AAGGAATTCA TGAGCTCCCT GCAGATCTCT AGCGTCTCCC TCAAGCACAA CGGCAACTAT
    ACATGCATCG CCAGCAACGC AGCCGCCACC GTGAGCCGGG AGCGCCAGCT CATCGTGCGT
    GTGCCCCCTC GATTTGTGGT GCAACCCAAC AACCAGGATG GCATCTACGG CAAAGCTGGT
    GTGCTCAACT GCTCGGTGGA CGGCTACCCC CCACCCAAGG TCATGTGGAA GCATGCCAAG
    GGGAGCGGGA ACCCCCAGCA GTACCACCCT GTGCCCCTCA CTGGCCGCAT CCAGATCCTG
    CCCAACAGCT CGCTGCTGAT CCGCCACGTC CTAGAAGAGG ACATCGGCTA CTACCTCTGC
    CAGGCCAGCA ACGGCGTAGG CACCGACATC AGCAAGTCCA TGTTCCTCAC AGTCAAGATC
    CCGGCCATGA TCACTTCCCA CCCCAACACC ACCATCGCCA TCAAGGGCCA TGCGAAGGAG
    CTAAACTGCA CGGCACGGGG TGAGCGGCCC ATCATCATCC GCTGGGAGAA GGGGGACACA
    GTCATCGACC CTGACCGCGT CATGCGGTAT GCCATCGCCA CCAAGGACAA CGGCGACGAG
    GTCGTCTCCA CACTGAAGCT CAAGCCCGCT GACCGTGGGG ACTCTGTGTT CTTCAGCTGC
    CATGCCATCA ACTCGTATGG GGAGGACCGG GGCTTGATCC AACTCACTGT GCAAGAGCCC
    CCCGACCCCC CAGAGCTGGA GATCCGGGAG GTGAAGGCCC GGAGCATGAA CCTGCGCTGG
    ACCCAGCGAT TCGACGGGAA CAGCATCATC ACGGGCTTCG ACATTGAATA CAAGAACAAA
    TCAGATTCCT GGGACTTCAA GCAGTCCACA CGCAACATCT CCCCCACCAT CAACCAGGCC
    AACATTGTGG ACTTGCACCC GGCATCTGTG TACAGCATCC GCATGTACTC TTTCAACAAG
    ATTGGCCGCA GTGAACCAAG CAAGGAGCTC ACCATCAGCA CTGAGGAGGC CGCTCCCGAT
    GGGCCCCCCA TGGATGTTAC CTTGCAGCCA GTGACCTCAC AGAGCATCCA GGTGACCTGG
    AAGGCACCCA AGAAGGAGCT GCAGAACGGT GTCATCCGGG GCTACCAGAT TGGCTACAGA
    GAGAACAGCC CCGGCAGCAA CGGGCAGTAC AGCATCGTGG AGATGAAGGC CACGGGGGAC
    AGCGAGGTCT ACACCCTGGA CAACCTCAAG AAGTTCGCCC AGTATGGGGT GGTGGTCCAA
    GCCTTCAATC GGGCTGGCAC GGGGCCCTCT TCCAGCGAGA TCAATGCCAC CACTCTGGAG
    GATGTGCCCA GCCAGCCCCC TGAGAACGTC CGGGCCCTGT CCATCACTTC TGACGTGGCC
    GTCATCTCCT GGTCAGAGCC CCCGCGCAGC ACCCTCAATG GCGTCCTCAA AGGCTATCGG
    GTCATCTTCT GGTCCCTCTA TGTTGATGGG GAGTGGGGCG AGATGCAGAA CATCACCACC
    ACGCGGGAGC GGGTGGAGCT GCGGGGCATG GAGAAGTTCA CCAACTACAG CGTCCAGGTG
    CTGGCCTACA CCCAGGCTGG GGACGGCGTA CGCAGCAGTG TGCTCTACAT CCAGACCAAG
    GAGGACGTTC CAGGTCCCCC TGCTGGCATC AAAGCTGTCC CTTCATCAGC TAGCAGTGTG
    GTTGTGTCTT GGCTCCCCCC TACCAAGCCC AACGGGGTGA TCCGCAAGTA CACCATCTTC
    TGTTCCAGCC CCGGGTCTGG CCAGCCGGCT CCCAGCGAGT ACGAGACGAG TCCAGAGCAG
    CTCTTCTACC GGATCGCCCA CCTAAACCGC GGTCAGCAGT ATCTGCTGTG GGTGGCCGCC
    GTCACCTCTG CCGGCCGGGG CAACAGCAGC GAGAAGGTGA CCATCGAGCC TGCTGGCAAG
    GCCCCAGCAA AGATCATCTC CTTTGGGGGC ACCGTGACAA CACCTTGGAT GAAAGATGTT
    CGGCTGCCTT GCAATTCAGT GGGAGATCCA GCCCCTGCTG TGAAGTGGAC CAAGGACAGT
    GAAGACTCGG CCATTCCAGT GTCCATGGAT GGGCACCGGC TCATCCACAC CAATGGCACA
    CTGCTGCTGC GTGCAGTGAA GGCTGAGGAC TCTGGCTACT ACACGTGCAC GGCCACCAAC
    ACTGGTGGCT TTGACACCAT CATCGTCAAC CTTCTGGTGC AAGTTCCCCC GGACCAGCCC
    CGCCTCACTG TCTCCAAAAC CTCAGCTTCG TCCATCACCC TGACCTGGAT TCCAGGTGAC
    AATGGGGGCA GCTCCATCCG AGGCTTCGTG CTACAGTACT CGGTGGACAA CAGCGAGGAG
    TGGAAGGATG TGTTCATCAG CTCCAGCGAG CGCTCCTTCA AGCTGGACAG CCTCAAGTGT
    GGCACGTGGT ACAAGGTGAA GCTGGCAGCC AAGAACAGCG TGGGCTCTGG GCGCATCAGC
    GAGATCATCG AGGCCAAGAC CCACGGGCGG GAGCCCTCCT TCAGCAAAGA CCAACACCTC
    TTCACCCACA TCAACTCCAC GCATGCTCGG CTTAACCTGC AGGGCTGGAA CAATGGGGGC
    TGCCCTATCA CAGCCATCGT TCTGGAGTAC CGGCCCAAGG GGACCTGGGC CTGGCAGGGC
    CTCCGGGCCA ACAGCTCCGG GGAGGTGTTT CTGACGGAAC TGCGAGAGGC CACGTGGTAC
    GAGCTGCGCA TGAGGGCTTG CAACAGTGCG GGCTGCGGCA ATGAAACAGC CCAGTTCGCC
    ACCCTGGACT ACGATGGCAG CACCATTCCA CCCATCAAGT CTGCTCAAGG TGAAGGGGAT
    GATGTGAAGA AGCTGTTCAC CATCGGCTGC CCTGTCATCC TGGCCACACT GGGGGTGGCA
    CTGCTCTTCA TCGTACGCAA GAAGAGGAAG GAGAAACGGC TGAAGCGACT CCGAGATGCA
    AAGAGTTTGG CAGAAATGTT GATAAGCAAG AACAATAGAA GCTTTGACAC CCCTGTGAAA
    GGGCCACCCC AGGGCCCACG GCTACACATT GACATCCCCA GGGTCCAGCT GCTCATCGAG
    GACAAAGAAG GCATCAAGCA ACTGGGAGAT GACAAGGCCA CCATCCCTGT GACAGATGCT
    GAGTTCAGCC AAGCTGTCAA CCCACAGAGC TTCTGTACTG GCGTCTCCTT GCACCACCCA
    ACCCTCATCC AGAGCACAGG ACCCCTCATC GACATGTCTG ACATCCGGCC AGGAACCAAT
    CCAGTGTCCA GGAAGAATGT GAAGTCAGCC CACAGCACCC GGAACCGGTA CTCAAGCCAG
    TGGACCCTGA CCAAGTGCCA GGCCTCCACA CCTGCCCGCA CCCTCACCTC CGACTGGCGC
    ACCGTGGGCT CCCAGCATGG TGTCACGGTC ACTGAGAGTG ACAGCTACAG TGCCAGCCTG
    TCCCAGGACA CAGACAAAGG AAGGAACAGC ATGGTGTCCA CTGAGAGTGC CTCTTCCACC
    TACGAGGAGC TGGCCCGGGC CTATGAGCAT GCCAAGCTGG AGGAGCAGCT GCAGCACGCC
    AAGTTTGAGA TCACCGAGTG CTTCATCTCT GACAGTTCCT CTGACCAGAT GACCACAGGC
    ACCAACGAGA ACGCCGACAG CATGACATCC ATGAGCACAC CCTCAGAGCC TGGCATCTGC
    CGCTTTACCG CCTCACCACC CAAGCCCCAG GATGCGGACC GGGGCAAAAA CGTGGCTGTG
    CCCATCCCTC ACCGGGCCAA CAAGAGTGAC TACTGCAACC TGCCCCTGTA TGCCAAGTCA
    GAGGCCTTCT TTCGAAAGGC AGATGGACGT GAGCCCTGCC CCGTGGTCCC ACCCCGTGAG
    GCCTCCATCC GGAACCTGGC TCGAACCTAC CACACCCAGG CTCGCCACCT GACCCTGGAC
    CCTGCCAGCA AGTCCTTGGG CCTTCCCCAC CCAGGGGCCC CCGCTGCCGC CTCCACAGCC
    ACCTTACCTC AGAGGACTCT GGCCATGCCA GCCCCCCCAG CCGGCACAGC CCCCCCAGCC
    CCCGGCCCCA CCCCTGCTGA GCCACCCACC GCCCCCAGCG CTGCCCCTCC GGCCCCCAGC
    ACCGAGCCTC CACGAGCCGG GGGCCCACAC ACCAAAATGG GGGGCTCCAG GGACTCGCTT
    CTCGAGATGA GCACATCGGG GGTAGGGAGG TCTCAGAAGC AGGGGGCCGG GGCCTACTCC
    AAATCCTACA CCCTGGTGTA G

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

    RefSeq XP_011541221.1
    CDS137..5017
    Translation

    Target ORF information:

    RefSeq Version XM_011542919.2
    Organism Homo sapiens(human)
    Definition Homo sapiens DS cell adhesion molecule like 1 (DSCAML1), transcript variant X3, mRNA.

    Target ORF information:

    Epitope DYKDDDDK
    Bacterial selection AMPR
    Mammalian selection NeoR
    Vector pcDNA3.1+/C-(K)DYK
    XM_011542919.2

    ORF Insert Sequence:

    1
    61
    121
    181
    241
    301
    361
    421
    481
    541
    601
    661
    721
    781
    841
    901
    961
    1021
    1081
    1141
    1201
    1261
    1321
    1381
    1441
    1501
    1561
    1621
    1681
    1741
    1801
    1861
    1921
    1981
    2041
    2101
    2161
    2221
    2281
    2341
    2401
    2461
    2521
    2581
    2641
    2701
    2761
    2821
    2881
    2941
    3001
    3061
    3121
    3181
    3241
    3301
    3361
    3421
    3481
    3541
    3601
    3661
    3721
    3781
    3841
    3901
    3961
    4021
    4081
    4141
    4201
    4261
    4321
    4381
    4441
    4501
    4561
    4621
    4681
    4741
    4801
    4861
    ATGTGTGCGG CCAAGGGCGC CCCGCCCCCC ACGGTCACCT GGGCCCTCGA CGATGAGCCC 
    ATCGTGCGGG ATGGCAGCCA CCGCACCAAC CAGTACACCA TGTCGGACGG CACCACCATC
    AGCCACATGA ACGTCACAGG CCCCCAGATC CGCGACGGGG GCGTGTACCG GTGCACAGCG
    CGGAACTTGG TGGGCAGTGC TGAATATCAG GCGCGAATAA ACGTAAGAGG CCCACCCAGC
    ATCCGGGCTA TGCGGAACAT CACAGCAGTC GCCGGGCGGG ACACCCTTAT CAACTGCAGG
    GTCATCGGCT ATCCCTACTA CTCCATCAAG TGGTACAAGG ATGCCCTGCT GCTGCCAGAC
    AACCACCGCC AGGTGGTGTT TGAGAATGGG ACCCTCAAGC TGACTGACGT GCAGAAGGGC
    ATGGATGAGG GGGAGTACCT GTGCAGTGTC CTCATCCAGC CCCAGCTCTC CATCAGCCAG
    AGCGTTCACG TAGCCGTCAA AGTGCCCCCT CTGATCCAGC CCTTCGAATT CCCACCCGCC
    TCCATCGGCC AGCTGCTCTA CATTCCCTGT GTGGTGTCCT CGGGGGACAT GCCCATCCGT
    ATCACCTGGA GGAAGGACGG ACAGGTGATC ATCTCAGGCT CGGGCGTGAC CATCGAGAGC
    AAGGAATTCA TGAGCTCCCT GCAGATCTCT AGCGTCTCCC TCAAGCACAA CGGCAACTAT
    ACATGCATCG CCAGCAACGC AGCCGCCACC GTGAGCCGGG AGCGCCAGCT CATCGTGCGT
    GTGCCCCCTC GATTTGTGGT GCAACCCAAC AACCAGGATG GCATCTACGG CAAAGCTGGT
    GTGCTCAACT GCTCGGTGGA CGGCTACCCC CCACCCAAGG TCATGTGGAA GCATGCCAAG
    GGGAGCGGGA ACCCCCAGCA GTACCACCCT GTGCCCCTCA CTGGCCGCAT CCAGATCCTG
    CCCAACAGCT CGCTGCTGAT CCGCCACGTC CTAGAAGAGG ACATCGGCTA CTACCTCTGC
    CAGGCCAGCA ACGGCGTAGG CACCGACATC AGCAAGTCCA TGTTCCTCAC AGTCAAGATC
    CCGGCCATGA TCACTTCCCA CCCCAACACC ACCATCGCCA TCAAGGGCCA TGCGAAGGAG
    CTAAACTGCA CGGCACGGGG TGAGCGGCCC ATCATCATCC GCTGGGAGAA GGGGGACACA
    GTCATCGACC CTGACCGCGT CATGCGGTAT GCCATCGCCA CCAAGGACAA CGGCGACGAG
    GTCGTCTCCA CACTGAAGCT CAAGCCCGCT GACCGTGGGG ACTCTGTGTT CTTCAGCTGC
    CATGCCATCA ACTCGTATGG GGAGGACCGG GGCTTGATCC AACTCACTGT GCAAGAGCCC
    CCCGACCCCC CAGAGCTGGA GATCCGGGAG GTGAAGGCCC GGAGCATGAA CCTGCGCTGG
    ACCCAGCGAT TCGACGGGAA CAGCATCATC ACGGGCTTCG ACATTGAATA CAAGAACAAA
    TCAGATTCCT GGGACTTCAA GCAGTCCACA CGCAACATCT CCCCCACCAT CAACCAGGCC
    AACATTGTGG ACTTGCACCC GGCATCTGTG TACAGCATCC GCATGTACTC TTTCAACAAG
    ATTGGCCGCA GTGAACCAAG CAAGGAGCTC ACCATCAGCA CTGAGGAGGC CGCTCCCGAT
    GGGCCCCCCA TGGATGTTAC CTTGCAGCCA GTGACCTCAC AGAGCATCCA GGTGACCTGG
    AAGGCACCCA AGAAGGAGCT GCAGAACGGT GTCATCCGGG GCTACCAGAT TGGCTACAGA
    GAGAACAGCC CCGGCAGCAA CGGGCAGTAC AGCATCGTGG AGATGAAGGC CACGGGGGAC
    AGCGAGGTCT ACACCCTGGA CAACCTCAAG AAGTTCGCCC AGTATGGGGT GGTGGTCCAA
    GCCTTCAATC GGGCTGGCAC GGGGCCCTCT TCCAGCGAGA TCAATGCCAC CACTCTGGAG
    GATGTGCCCA GCCAGCCCCC TGAGAACGTC CGGGCCCTGT CCATCACTTC TGACGTGGCC
    GTCATCTCCT GGTCAGAGCC CCCGCGCAGC ACCCTCAATG GCGTCCTCAA AGGCTATCGG
    GTCATCTTCT GGTCCCTCTA TGTTGATGGG GAGTGGGGCG AGATGCAGAA CATCACCACC
    ACGCGGGAGC GGGTGGAGCT GCGGGGCATG GAGAAGTTCA CCAACTACAG CGTCCAGGTG
    CTGGCCTACA CCCAGGCTGG GGACGGCGTA CGCAGCAGTG TGCTCTACAT CCAGACCAAG
    GAGGACGTTC CAGGTCCCCC TGCTGGCATC AAAGCTGTCC CTTCATCAGC TAGCAGTGTG
    GTTGTGTCTT GGCTCCCCCC TACCAAGCCC AACGGGGTGA TCCGCAAGTA CACCATCTTC
    TGTTCCAGCC CCGGGTCTGG CCAGCCGGCT CCCAGCGAGT ACGAGACGAG TCCAGAGCAG
    CTCTTCTACC GGATCGCCCA CCTAAACCGC GGTCAGCAGT ATCTGCTGTG GGTGGCCGCC
    GTCACCTCTG CCGGCCGGGG CAACAGCAGC GAGAAGGTGA CCATCGAGCC TGCTGGCAAG
    GCCCCAGCAA AGATCATCTC CTTTGGGGGC ACCGTGACAA CACCTTGGAT GAAAGATGTT
    CGGCTGCCTT GCAATTCAGT GGGAGATCCA GCCCCTGCTG TGAAGTGGAC CAAGGACAGT
    GAAGACTCGG CCATTCCAGT GTCCATGGAT GGGCACCGGC TCATCCACAC CAATGGCACA
    CTGCTGCTGC GTGCAGTGAA GGCTGAGGAC TCTGGCTACT ACACGTGCAC GGCCACCAAC
    ACTGGTGGCT TTGACACCAT CATCGTCAAC CTTCTGGTGC AAGTTCCCCC GGACCAGCCC
    CGCCTCACTG TCTCCAAAAC CTCAGCTTCG TCCATCACCC TGACCTGGAT TCCAGGTGAC
    AATGGGGGCA GCTCCATCCG AGGCTTCGTG CTACAGTACT CGGTGGACAA CAGCGAGGAG
    TGGAAGGATG TGTTCATCAG CTCCAGCGAG CGCTCCTTCA AGCTGGACAG CCTCAAGTGT
    GGCACGTGGT ACAAGGTGAA GCTGGCAGCC AAGAACAGCG TGGGCTCTGG GCGCATCAGC
    GAGATCATCG AGGCCAAGAC CCACGGGCGG GAGCCCTCCT TCAGCAAAGA CCAACACCTC
    TTCACCCACA TCAACTCCAC GCATGCTCGG CTTAACCTGC AGGGCTGGAA CAATGGGGGC
    TGCCCTATCA CAGCCATCGT TCTGGAGTAC CGGCCCAAGG GGACCTGGGC CTGGCAGGGC
    CTCCGGGCCA ACAGCTCCGG GGAGGTGTTT CTGACGGAAC TGCGAGAGGC CACGTGGTAC
    GAGCTGCGCA TGAGGGCTTG CAACAGTGCG GGCTGCGGCA ATGAAACAGC CCAGTTCGCC
    ACCCTGGACT ACGATGGCAG CACCATTCCA CCCATCAAGT CTGCTCAAGG TGAAGGGGAT
    GATGTGAAGA AGCTGTTCAC CATCGGCTGC CCTGTCATCC TGGCCACACT GGGGGTGGCA
    CTGCTCTTCA TCGTACGCAA GAAGAGGAAG GAGAAACGGC TGAAGCGACT CCGAGATGCA
    AAGAGTTTGG CAGAAATGTT GATAAGCAAG AACAATAGAA GCTTTGACAC CCCTGTGAAA
    GGGCCACCCC AGGGCCCACG GCTACACATT GACATCCCCA GGGTCCAGCT GCTCATCGAG
    GACAAAGAAG GCATCAAGCA ACTGGGAGAT GACAAGGCCA CCATCCCTGT GACAGATGCT
    GAGTTCAGCC AAGCTGTCAA CCCACAGAGC TTCTGTACTG GCGTCTCCTT GCACCACCCA
    ACCCTCATCC AGAGCACAGG ACCCCTCATC GACATGTCTG ACATCCGGCC AGGAACCAAT
    CCAGTGTCCA GGAAGAATGT GAAGTCAGCC CACAGCACCC GGAACCGGTA CTCAAGCCAG
    TGGACCCTGA CCAAGTGCCA GGCCTCCACA CCTGCCCGCA CCCTCACCTC CGACTGGCGC
    ACCGTGGGCT CCCAGCATGG TGTCACGGTC ACTGAGAGTG ACAGCTACAG TGCCAGCCTG
    TCCCAGGACA CAGACAAAGG AAGGAACAGC ATGGTGTCCA CTGAGAGTGC CTCTTCCACC
    TACGAGGAGC TGGCCCGGGC CTATGAGCAT GCCAAGCTGG AGGAGCAGCT GCAGCACGCC
    AAGTTTGAGA TCACCGAGTG CTTCATCTCT GACAGTTCCT CTGACCAGAT GACCACAGGC
    ACCAACGAGA ACGCCGACAG CATGACATCC ATGAGCACAC CCTCAGAGCC TGGCATCTGC
    CGCTTTACCG CCTCACCACC CAAGCCCCAG GATGCGGACC GGGGCAAAAA CGTGGCTGTG
    CCCATCCCTC ACCGGGCCAA CAAGAGTGAC TACTGCAACC TGCCCCTGTA TGCCAAGTCA
    GAGGCCTTCT TTCGAAAGGC AGATGGACGT GAGCCCTGCC CCGTGGTCCC ACCCCGTGAG
    GCCTCCATCC GGAACCTGGC TCGAACCTAC CACACCCAGG CTCGCCACCT GACCCTGGAC
    CCTGCCAGCA AGTCCTTGGG CCTTCCCCAC CCAGGGGCCC CCGCTGCCGC CTCCACAGCC
    ACCTTACCTC AGAGGACTCT GGCCATGCCA GCCCCCCCAG CCGGCACAGC CCCCCCAGCC
    CCCGGCCCCA CCCCTGCTGA GCCACCCACC GCCCCCAGCG CTGCCCCTCC GGCCCCCAGC
    ACCGAGCCTC CACGAGCCGG GGGCCCACAC ACCAAAATGG GGGGCTCCAG GGACTCGCTT
    CTCGAGATGA GCACATCGGG GGTAGGGAGG TCTCAGAAGC AGGGGGCCGG GGCCTACTCC
    AAATCCTACA CCCTGGTGTA G

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

    CloneID OHu70460
    Clone ID Related Accession (Same CDS sequence) XM_011542920.2
    Accession Version XM_011542920.2 Latest version! Documents for ORF clone product in default vector
    Sequence Information ORF Nucleotide Sequence (Length: 4632bp)
    Protein sequence
    SNP
    Vector pcDNA3.1-C-(k)DYK or customized vector User Manual
    Clone information Clone Map MSDS
    Tag on pcDNA3.1+/C-(K)DYK C terminal DYKDDDDK tags
    ORF Insert Method CloneEZ™ Seamless cloning technology
    Insert Structure linear
    Update Date 2019-12-05
    Organism Homo sapiens(human)
    Product Down syndrome cell adhesion molecule-like protein 1 isoform X4
    Comment Comment: MODEL REFSEQ: This record is predicted by automated computational analysis. This record is derived from a genomic sequence (NC_000011.10) annotated using gene prediction method: Gnomon, supported by EST evidence. Also see: Documentation of NCBI's Annotation Process On Jun 6, 2016 this sequence version replaced XM_011542920.1. ##Genome-Annotation-Data-START## Annotation Provider :: NCBI Annotation Status :: Updated annotation Annotation Name :: Homo sapiens Updated Annotation Release 109.20191205 Annotation Version :: 109.20191205 Annotation Pipeline :: NCBI eukaryotic genome annotation pipeline Annotation Software Version :: 8.3 Annotation Method :: Best-placed RefSeq; propagated RefSeq model Features Annotated :: Gene; mRNA; CDS; ncRNA ##Genome-Annotation-Data-END##

    1
    61
    121
    181
    241
    301
    361
    421
    481
    541
    601
    661
    721
    781
    841
    901
    961
    1021
    1081
    1141
    1201
    1261
    1321
    1381
    1441
    1501
    1561
    1621
    1681
    1741
    1801
    1861
    1921
    1981
    2041
    2101
    2161
    2221
    2281
    2341
    2401
    2461
    2521
    2581
    2641
    2701
    2761
    2821
    2881
    2941
    3001
    3061
    3121
    3181
    3241
    3301
    3361
    3421
    3481
    3541
    3601
    3661
    3721
    3781
    3841
    3901
    3961
    4021
    4081
    4141
    4201
    4261
    4321
    4381
    4441
    4501
    4561
    4621
    ATGCGGAACA TCACAGCAGT CGCCGGGCGG GACACCCTTA TCAACTGCAG GGTCATCGGC 
    TATCCCTACT ACTCCATCAA GTGGTACAAG GATGCCCTGC TGCTGCCAGA CAACCACCGC
    CAGGTGGTGT TTGAGAATGG GACCCTCAAG CTGACTGACG TGCAGAAGGG CATGGATGAG
    GGGGAGTACC TGTGCAGTGT CCTCATCCAG CCCCAGCTCT CCATCAGCCA GAGCGTTCAC
    GTAGCCGTCA AAGTGCCCCC TCTGATCCAG CCCTTCGAAT TCCCACCCGC CTCCATCGGC
    CAGCTGCTCT ACATTCCCTG TGTGGTGTCC TCGGGGGACA TGCCCATCCG TATCACCTGG
    AGGAAGGACG GACAGGTGAT CATCTCAGGC TCGGGCGTGA CCATCGAGAG CAAGGAATTC
    ATGAGCTCCC TGCAGATCTC TAGCGTCTCC CTCAAGCACA ACGGCAACTA TACATGCATC
    GCCAGCAACG CAGCCGCCAC CGTGAGCCGG GAGCGCCAGC TCATCGTGCG TGTGCCCCCT
    CGATTTGTGG TGCAACCCAA CAACCAGGAT GGCATCTACG GCAAAGCTGG TGTGCTCAAC
    TGCTCGGTGG ACGGCTACCC CCCACCCAAG GTCATGTGGA AGCATGCCAA GGGGAGCGGG
    AACCCCCAGC AGTACCACCC TGTGCCCCTC ACTGGCCGCA TCCAGATCCT GCCCAACAGC
    TCGCTGCTGA TCCGCCACGT CCTAGAAGAG GACATCGGCT ACTACCTCTG CCAGGCCAGC
    AACGGCGTAG GCACCGACAT CAGCAAGTCC ATGTTCCTCA CAGTCAAGAT CCCGGCCATG
    ATCACTTCCC ACCCCAACAC CACCATCGCC ATCAAGGGCC ATGCGAAGGA GCTAAACTGC
    ACGGCACGGG GTGAGCGGCC CATCATCATC CGCTGGGAGA AGGGGGACAC AGTCATCGAC
    CCTGACCGCG TCATGCGGTA TGCCATCGCC ACCAAGGACA ACGGCGACGA GGTCGTCTCC
    ACACTGAAGC TCAAGCCCGC TGACCGTGGG GACTCTGTGT TCTTCAGCTG CCATGCCATC
    AACTCGTATG GGGAGGACCG GGGCTTGATC CAACTCACTG TGCAAGAGCC CCCCGACCCC
    CCAGAGCTGG AGATCCGGGA GGTGAAGGCC CGGAGCATGA ACCTGCGCTG GACCCAGCGA
    TTCGACGGGA ACAGCATCAT CACGGGCTTC GACATTGAAT ACAAGAACAA ATCAGATTCC
    TGGGACTTCA AGCAGTCCAC ACGCAACATC TCCCCCACCA TCAACCAGGC CAACATTGTG
    GACTTGCACC CGGCATCTGT GTACAGCATC CGCATGTACT CTTTCAACAA GATTGGCCGC
    AGTGAACCAA GCAAGGAGCT CACCATCAGC ACTGAGGAGG CCGCTCCCGA TGGGCCCCCC
    ATGGATGTTA CCTTGCAGCC AGTGACCTCA CAGAGCATCC AGGTGACCTG GAAGGCACCC
    AAGAAGGAGC TGCAGAACGG TGTCATCCGG GGCTACCAGA TTGGCTACAG AGAGAACAGC
    CCCGGCAGCA ACGGGCAGTA CAGCATCGTG GAGATGAAGG CCACGGGGGA CAGCGAGGTC
    TACACCCTGG ACAACCTCAA GAAGTTCGCC CAGTATGGGG TGGTGGTCCA AGCCTTCAAT
    CGGGCTGGCA CGGGGCCCTC TTCCAGCGAG ATCAATGCCA CCACTCTGGA GGATGTGCCC
    AGCCAGCCCC CTGAGAACGT CCGGGCCCTG TCCATCACTT CTGACGTGGC CGTCATCTCC
    TGGTCAGAGC CCCCGCGCAG CACCCTCAAT GGCGTCCTCA AAGGCTATCG GGTCATCTTC
    TGGTCCCTCT ATGTTGATGG GGAGTGGGGC GAGATGCAGA ACATCACCAC CACGCGGGAG
    CGGGTGGAGC TGCGGGGCAT GGAGAAGTTC ACCAACTACA GCGTCCAGGT GCTGGCCTAC
    ACCCAGGCTG GGGACGGCGT ACGCAGCAGT GTGCTCTACA TCCAGACCAA GGAGGACGTT
    CCAGGTCCCC CTGCTGGCAT CAAAGCTGTC CCTTCATCAG CTAGCAGTGT GGTTGTGTCT
    TGGCTCCCCC CTACCAAGCC CAACGGGGTG ATCCGCAAGT ACACCATCTT CTGTTCCAGC
    CCCGGGTCTG GCCAGCCGGC TCCCAGCGAG TACGAGACGA GTCCAGAGCA GCTCTTCTAC
    CGGATCGCCC ACCTAAACCG CGGTCAGCAG TATCTGCTGT GGGTGGCCGC CGTCACCTCT
    GCCGGCCGGG GCAACAGCAG CGAGAAGGTG ACCATCGAGC CTGCTGGCAA GGCCCCAGCA
    AAGATCATCT CCTTTGGGGG CACCGTGACA ACACCTTGGA TGAAAGATGT TCGGCTGCCT
    TGCAATTCAG TGGGAGATCC AGCCCCTGCT GTGAAGTGGA CCAAGGACAG TGAAGACTCG
    GCCATTCCAG TGTCCATGGA TGGGCACCGG CTCATCCACA CCAATGGCAC ACTGCTGCTG
    CGTGCAGTGA AGGCTGAGGA CTCTGGCTAC TACACGTGCA CGGCCACCAA CACTGGTGGC
    TTTGACACCA TCATCGTCAA CCTTCTGGTG CAAGTTCCCC CGGACCAGCC CCGCCTCACT
    GTCTCCAAAA CCTCAGCTTC GTCCATCACC CTGACCTGGA TTCCAGGTGA CAATGGGGGC
    AGCTCCATCC GAGGCTTCGT GCTACAGTAC TCGGTGGACA ACAGCGAGGA GTGGAAGGAT
    GTGTTCATCA GCTCCAGCGA GCGCTCCTTC AAGCTGGACA GCCTCAAGTG TGGCACGTGG
    TACAAGGTGA AGCTGGCAGC CAAGAACAGC GTGGGCTCTG GGCGCATCAG CGAGATCATC
    GAGGCCAAGA CCCACGGGCG GGAGCCCTCC TTCAGCAAAG ACCAACACCT CTTCACCCAC
    ATCAACTCCA CGCATGCTCG GCTTAACCTG CAGGGCTGGA ACAATGGGGG CTGCCCTATC
    ACAGCCATCG TTCTGGAGTA CCGGCCCAAG GGGACCTGGG CCTGGCAGGG CCTCCGGGCC
    AACAGCTCCG GGGAGGTGTT TCTGACGGAA CTGCGAGAGG CCACGTGGTA CGAGCTGCGC
    ATGAGGGCTT GCAACAGTGC GGGCTGCGGC AATGAAACAG CCCAGTTCGC CACCCTGGAC
    TACGATGGCA GCACCATTCC ACCCATCAAG TCTGCTCAAG GTGAAGGGGA TGATGTGAAG
    AAGCTGTTCA CCATCGGCTG CCCTGTCATC CTGGCCACAC TGGGGGTGGC ACTGCTCTTC
    ATCGTACGCA AGAAGAGGAA GGAGAAACGG CTGAAGCGAC TCCGAGATGC AAAGAGTTTG
    GCAGAAATGT TGATAAGCAA GAACAATAGA AGCTTTGACA CCCCTGTGAA AGGGCCACCC
    CAGGGCCCAC GGCTACACAT TGACATCCCC AGGGTCCAGC TGCTCATCGA GGACAAAGAA
    GGCATCAAGC AACTGGGAGA TGACAAGGCC ACCATCCCTG TGACAGATGC TGAGTTCAGC
    CAAGCTGTCA ACCCACAGAG CTTCTGTACT GGCGTCTCCT TGCACCACCC AACCCTCATC
    CAGAGCACAG GACCCCTCAT CGACATGTCT GACATCCGGC CAGGAACCAA TCCAGTGTCC
    AGGAAGAATG TGAAGTCAGC CCACAGCACC CGGAACCGGT ACTCAAGCCA GTGGACCCTG
    ACCAAGTGCC AGGCCTCCAC ACCTGCCCGC ACCCTCACCT CCGACTGGCG CACCGTGGGC
    TCCCAGCATG GTGTCACGGT CACTGAGAGT GACAGCTACA GTGCCAGCCT GTCCCAGGAC
    ACAGACAAAG GAAGGAACAG CATGGTGTCC ACTGAGAGTG CCTCTTCCAC CTACGAGGAG
    CTGGCCCGGG CCTATGAGCA TGCCAAGCTG GAGGAGCAGC TGCAGCACGC CAAGTTTGAG
    ATCACCGAGT GCTTCATCTC TGACAGTTCC TCTGACCAGA TGACCACAGG CACCAACGAG
    AACGCCGACA GCATGACATC CATGAGCACA CCCTCAGAGC CTGGCATCTG CCGCTTTACC
    GCCTCACCAC CCAAGCCCCA GGATGCGGAC CGGGGCAAAA ACGTGGCTGT GCCCATCCCT
    CACCGGGCCA ACAAGAGTGA CTACTGCAAC CTGCCCCTGT ATGCCAAGTC AGAGGCCTTC
    TTTCGAAAGG CAGATGGACG TGAGCCCTGC CCCGTGGTCC CACCCCGTGA GGCCTCCATC
    CGGAACCTGG CTCGAACCTA CCACACCCAG GCTCGCCACC TGACCCTGGA CCCTGCCAGC
    AAGTCCTTGG GCCTTCCCCA CCCAGGGGCC CCCGCTGCCG CCTCCACAGC CACCTTACCT
    CAGAGGACTC TGGCCATGCC AGCCCCCCCA GCCGGCACAG CCCCCCCAGC CCCCGGCCCC
    ACCCCTGCTG AGCCACCCAC CGCCCCCAGC GCTGCCCCTC CGGCCCCCAG CACCGAGCCT
    CCACGAGCCG GGGGCCCACA CACCAAAATG GGGGGCTCCA GGGACTCGCT TCTCGAGATG
    AGCACATCGG GGGTAGGGAG GTCTCAGAAG CAGGGGGCCG GGGCCTACTC CAAATCCTAC
    ACCCTGGTGT AG

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

    RefSeq XP_011541222.1
    CDS433..5064
    Translation

    Target ORF information:

    RefSeq Version XM_011542920.2
    Organism Homo sapiens(human)
    Definition Homo sapiens DS cell adhesion molecule like 1 (DSCAML1), transcript variant X4, mRNA.

    Target ORF information:

    Epitope DYKDDDDK
    Bacterial selection AMPR
    Mammalian selection NeoR
    Vector pcDNA3.1+/C-(K)DYK
    XM_011542920.2

    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
    ATGCGGAACA TCACAGCAGT CGCCGGGCGG GACACCCTTA TCAACTGCAG GGTCATCGGC 
    TATCCCTACT ACTCCATCAA GTGGTACAAG GATGCCCTGC TGCTGCCAGA CAACCACCGC
    CAGGTGGTGT TTGAGAATGG GACCCTCAAG CTGACTGACG TGCAGAAGGG CATGGATGAG
    GGGGAGTACC TGTGCAGTGT CCTCATCCAG CCCCAGCTCT CCATCAGCCA GAGCGTTCAC
    GTAGCCGTCA AAGTGCCCCC TCTGATCCAG CCCTTCGAAT TCCCACCCGC CTCCATCGGC
    CAGCTGCTCT ACATTCCCTG TGTGGTGTCC TCGGGGGACA TGCCCATCCG TATCACCTGG
    AGGAAGGACG GACAGGTGAT CATCTCAGGC TCGGGCGTGA CCATCGAGAG CAAGGAATTC
    ATGAGCTCCC TGCAGATCTC TAGCGTCTCC CTCAAGCACA ACGGCAACTA TACATGCATC
    GCCAGCAACG CAGCCGCCAC CGTGAGCCGG GAGCGCCAGC TCATCGTGCG TGTGCCCCCT
    CGATTTGTGG TGCAACCCAA CAACCAGGAT GGCATCTACG GCAAAGCTGG TGTGCTCAAC
    TGCTCGGTGG ACGGCTACCC CCCACCCAAG GTCATGTGGA AGCATGCCAA GGGGAGCGGG
    AACCCCCAGC AGTACCACCC TGTGCCCCTC ACTGGCCGCA TCCAGATCCT GCCCAACAGC
    TCGCTGCTGA TCCGCCACGT CCTAGAAGAG GACATCGGCT ACTACCTCTG CCAGGCCAGC
    AACGGCGTAG GCACCGACAT CAGCAAGTCC ATGTTCCTCA CAGTCAAGAT CCCGGCCATG
    ATCACTTCCC ACCCCAACAC CACCATCGCC ATCAAGGGCC ATGCGAAGGA GCTAAACTGC
    ACGGCACGGG GTGAGCGGCC CATCATCATC CGCTGGGAGA AGGGGGACAC AGTCATCGAC
    CCTGACCGCG TCATGCGGTA TGCCATCGCC ACCAAGGACA ACGGCGACGA GGTCGTCTCC
    ACACTGAAGC TCAAGCCCGC TGACCGTGGG GACTCTGTGT TCTTCAGCTG CCATGCCATC
    AACTCGTATG GGGAGGACCG GGGCTTGATC CAACTCACTG TGCAAGAGCC CCCCGACCCC
    CCAGAGCTGG AGATCCGGGA GGTGAAGGCC CGGAGCATGA ACCTGCGCTG GACCCAGCGA
    TTCGACGGGA ACAGCATCAT CACGGGCTTC GACATTGAAT ACAAGAACAA ATCAGATTCC
    TGGGACTTCA AGCAGTCCAC ACGCAACATC TCCCCCACCA TCAACCAGGC CAACATTGTG
    GACTTGCACC CGGCATCTGT GTACAGCATC CGCATGTACT CTTTCAACAA GATTGGCCGC
    AGTGAACCAA GCAAGGAGCT CACCATCAGC ACTGAGGAGG CCGCTCCCGA TGGGCCCCCC
    ATGGATGTTA CCTTGCAGCC AGTGACCTCA CAGAGCATCC AGGTGACCTG GAAGGCACCC
    AAGAAGGAGC TGCAGAACGG TGTCATCCGG GGCTACCAGA TTGGCTACAG AGAGAACAGC
    CCCGGCAGCA ACGGGCAGTA CAGCATCGTG GAGATGAAGG CCACGGGGGA CAGCGAGGTC
    TACACCCTGG ACAACCTCAA GAAGTTCGCC CAGTATGGGG TGGTGGTCCA AGCCTTCAAT
    CGGGCTGGCA CGGGGCCCTC TTCCAGCGAG ATCAATGCCA CCACTCTGGA GGATGTGCCC
    AGCCAGCCCC CTGAGAACGT CCGGGCCCTG TCCATCACTT CTGACGTGGC CGTCATCTCC
    TGGTCAGAGC CCCCGCGCAG CACCCTCAAT GGCGTCCTCA AAGGCTATCG GGTCATCTTC
    TGGTCCCTCT ATGTTGATGG GGAGTGGGGC GAGATGCAGA ACATCACCAC CACGCGGGAG
    CGGGTGGAGC TGCGGGGCAT GGAGAAGTTC ACCAACTACA GCGTCCAGGT GCTGGCCTAC
    ACCCAGGCTG GGGACGGCGT ACGCAGCAGT GTGCTCTACA TCCAGACCAA GGAGGACGTT
    CCAGGTCCCC CTGCTGGCAT CAAAGCTGTC CCTTCATCAG CTAGCAGTGT GGTTGTGTCT
    TGGCTCCCCC CTACCAAGCC CAACGGGGTG ATCCGCAAGT ACACCATCTT CTGTTCCAGC
    CCCGGGTCTG GCCAGCCGGC TCCCAGCGAG TACGAGACGA GTCCAGAGCA GCTCTTCTAC
    CGGATCGCCC ACCTAAACCG CGGTCAGCAG TATCTGCTGT GGGTGGCCGC CGTCACCTCT
    GCCGGCCGGG GCAACAGCAG CGAGAAGGTG ACCATCGAGC CTGCTGGCAA GGCCCCAGCA
    AAGATCATCT CCTTTGGGGG CACCGTGACA ACACCTTGGA TGAAAGATGT TCGGCTGCCT
    TGCAATTCAG TGGGAGATCC AGCCCCTGCT GTGAAGTGGA CCAAGGACAG TGAAGACTCG
    GCCATTCCAG TGTCCATGGA TGGGCACCGG CTCATCCACA CCAATGGCAC ACTGCTGCTG
    CGTGCAGTGA AGGCTGAGGA CTCTGGCTAC TACACGTGCA CGGCCACCAA CACTGGTGGC
    TTTGACACCA TCATCGTCAA CCTTCTGGTG CAAGTTCCCC CGGACCAGCC CCGCCTCACT
    GTCTCCAAAA CCTCAGCTTC GTCCATCACC CTGACCTGGA TTCCAGGTGA CAATGGGGGC
    AGCTCCATCC GAGGCTTCGT GCTACAGTAC TCGGTGGACA ACAGCGAGGA GTGGAAGGAT
    GTGTTCATCA GCTCCAGCGA GCGCTCCTTC AAGCTGGACA GCCTCAAGTG TGGCACGTGG
    TACAAGGTGA AGCTGGCAGC CAAGAACAGC GTGGGCTCTG GGCGCATCAG CGAGATCATC
    GAGGCCAAGA CCCACGGGCG GGAGCCCTCC TTCAGCAAAG ACCAACACCT CTTCACCCAC
    ATCAACTCCA CGCATGCTCG GCTTAACCTG CAGGGCTGGA ACAATGGGGG CTGCCCTATC
    ACAGCCATCG TTCTGGAGTA CCGGCCCAAG GGGACCTGGG CCTGGCAGGG CCTCCGGGCC
    AACAGCTCCG GGGAGGTGTT TCTGACGGAA CTGCGAGAGG CCACGTGGTA CGAGCTGCGC
    ATGAGGGCTT GCAACAGTGC GGGCTGCGGC AATGAAACAG CCCAGTTCGC CACCCTGGAC
    TACGATGGCA GCACCATTCC ACCCATCAAG TCTGCTCAAG GTGAAGGGGA TGATGTGAAG
    AAGCTGTTCA CCATCGGCTG CCCTGTCATC CTGGCCACAC TGGGGGTGGC ACTGCTCTTC
    ATCGTACGCA AGAAGAGGAA GGAGAAACGG CTGAAGCGAC TCCGAGATGC AAAGAGTTTG
    GCAGAAATGT TGATAAGCAA GAACAATAGA AGCTTTGACA CCCCTGTGAA AGGGCCACCC
    CAGGGCCCAC GGCTACACAT TGACATCCCC AGGGTCCAGC TGCTCATCGA GGACAAAGAA
    GGCATCAAGC AACTGGGAGA TGACAAGGCC ACCATCCCTG TGACAGATGC TGAGTTCAGC
    CAAGCTGTCA ACCCACAGAG CTTCTGTACT GGCGTCTCCT TGCACCACCC AACCCTCATC
    CAGAGCACAG GACCCCTCAT CGACATGTCT GACATCCGGC CAGGAACCAA TCCAGTGTCC
    AGGAAGAATG TGAAGTCAGC CCACAGCACC CGGAACCGGT ACTCAAGCCA GTGGACCCTG
    ACCAAGTGCC AGGCCTCCAC ACCTGCCCGC ACCCTCACCT CCGACTGGCG CACCGTGGGC
    TCCCAGCATG GTGTCACGGT CACTGAGAGT GACAGCTACA GTGCCAGCCT GTCCCAGGAC
    ACAGACAAAG GAAGGAACAG CATGGTGTCC ACTGAGAGTG CCTCTTCCAC CTACGAGGAG
    CTGGCCCGGG CCTATGAGCA TGCCAAGCTG GAGGAGCAGC TGCAGCACGC CAAGTTTGAG
    ATCACCGAGT GCTTCATCTC TGACAGTTCC TCTGACCAGA TGACCACAGG CACCAACGAG
    AACGCCGACA GCATGACATC CATGAGCACA CCCTCAGAGC CTGGCATCTG CCGCTTTACC
    GCCTCACCAC CCAAGCCCCA GGATGCGGAC CGGGGCAAAA ACGTGGCTGT GCCCATCCCT
    CACCGGGCCA ACAAGAGTGA CTACTGCAAC CTGCCCCTGT ATGCCAAGTC AGAGGCCTTC
    TTTCGAAAGG CAGATGGACG TGAGCCCTGC CCCGTGGTCC CACCCCGTGA GGCCTCCATC
    CGGAACCTGG CTCGAACCTA CCACACCCAG GCTCGCCACC TGACCCTGGA CCCTGCCAGC
    AAGTCCTTGG GCCTTCCCCA CCCAGGGGCC CCCGCTGCCG CCTCCACAGC CACCTTACCT
    CAGAGGACTC TGGCCATGCC AGCCCCCCCA GCCGGCACAG CCCCCCCAGC CCCCGGCCCC
    ACCCCTGCTG AGCCACCCAC CGCCCCCAGC GCTGCCCCTC CGGCCCCCAG CACCGAGCCT
    CCACGAGCCG GGGGCCCACA CACCAAAATG GGGGGCTCCA GGGACTCGCT TCTCGAGATG
    AGCACATCGG GGGTAGGGAG GTCTCAGAAG CAGGGGGCCG GGGCCTACTC CAAATCCTAC
    ACCCTGGTGT AG

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

    CloneID OHu70461
    Clone ID Related Accession (Same CDS sequence) XM_011542921.2
    Accession Version XM_011542921.2 Latest version! Documents for ORF clone product in default vector
    Sequence Information ORF Nucleotide Sequence (Length: 4035bp)
    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 Down syndrome cell adhesion molecule-like protein 1 isoform X5
    Comment Comment: MODEL REFSEQ: This record is predicted by automated computational analysis. This record is derived from a genomic sequence (NC_000011.10) annotated using gene prediction method: Gnomon, supported by EST evidence. Also see: Documentation of NCBI's Annotation Process On Jun 6, 2016 this sequence version replaced XM_011542921.1. ##Genome-Annotation-Data-START## Annotation Provider :: NCBI Annotation Status :: Updated annotation Annotation Name :: Homo sapiens Updated Annotation Release 109.20191205 Annotation Version :: 109.20191205 Annotation Pipeline :: NCBI eukaryotic genome annotation pipeline Annotation Software Version :: 8.3 Annotation Method :: Best-placed RefSeq; propagated RefSeq model Features Annotated :: Gene; mRNA; CDS; ncRNA ##Genome-Annotation-Data-END##

    1
    61
    121
    181
    241
    301
    361
    421
    481
    541
    601
    661
    721
    781
    841
    901
    961
    1021
    1081
    1141
    1201
    1261
    1321
    1381
    1441
    1501
    1561
    1621
    1681
    1741
    1801
    1861
    1921
    1981
    2041
    2101
    2161
    2221
    2281
    2341
    2401
    2461
    2521
    2581
    2641
    2701
    2761
    2821
    2881
    2941
    3001
    3061
    3121
    3181
    3241
    3301
    3361
    3421
    3481
    3541
    3601
    3661
    3721
    3781
    3841
    3901
    3961
    4021
    ATGGACTATG CTTTCCCTGA TGCCCCTCAG TCAAAGTTAA TGTCTCCTAA CCCTTTGATG 
    AAACACTCAT CAGATTTTCC TCCAGTTCAT GTTGCCGGTG CAGCGACAGA ATGCAGCAAT
    AGCAGCCCCG TGACTGTCAC CAGCAGAAAT CCTCGGATAT GCTCCCATCA CATCACAGTG
    ATTGCAAATA TCTCAAAATA TCACTTATAC GCAGCACTAT TACAGGATCA TGTCCCGGCC
    ATGATCACTT CCCACCCCAA CACCACCATC GCCATCAAGG GCCATGCGAA GGAGCTAAAC
    TGCACGGCAC GGGGTGAGCG GCCCATCATC ATCCGCTGGG AGAAGGGGGA CACAGTCATC
    GACCCTGACC GCGTCATGCG GTATGCCATC GCCACCAAGG ACAACGGCGA CGAGGTCGTC
    TCCACACTGA AGCTCAAGCC CGCTGACCGT GGGGACTCTG TGTTCTTCAG CTGCCATGCC
    ATCAACTCGT ATGGGGAGGA CCGGGGCTTG ATCCAACTCA CTGTGCAAGA GCCCCCCGAC
    CCCCCAGAGC TGGAGATCCG GGAGGTGAAG GCCCGGAGCA TGAACCTGCG CTGGACCCAG
    CGATTCGACG GGAACAGCAT CATCACGGGC TTCGACATTG AATACAAGAA CAAATCAGAT
    TCCTGGGACT TCAAGCAGTC CACACGCAAC ATCTCCCCCA CCATCAACCA GGCCAACATT
    GTGGACTTGC ACCCGGCATC TGTGTACAGC ATCCGCATGT ACTCTTTCAA CAAGATTGGC
    CGCAGTGAAC CAAGCAAGGA GCTCACCATC AGCACTGAGG AGGCCGCTCC CGATGGGCCC
    CCCATGGATG TTACCTTGCA GCCAGTGACC TCACAGAGCA TCCAGGTGAC CTGGAAGGCA
    CCCAAGAAGG AGCTGCAGAA CGGTGTCATC CGGGGCTACC AGATTGGCTA CAGAGAGAAC
    AGCCCCGGCA GCAACGGGCA GTACAGCATC GTGGAGATGA AGGCCACGGG GGACAGCGAG
    GTCTACACCC TGGACAACCT CAAGAAGTTC GCCCAGTATG GGGTGGTGGT CCAAGCCTTC
    AATCGGGCTG GCACGGGGCC CTCTTCCAGC GAGATCAATG CCACCACTCT GGAGGATGTG
    CCCAGCCAGC CCCCTGAGAA CGTCCGGGCC CTGTCCATCA CTTCTGACGT GGCCGTCATC
    TCCTGGTCAG AGCCCCCGCG CAGCACCCTC AATGGCGTCC TCAAAGGCTA TCGGGTCATC
    TTCTGGTCCC TCTATGTTGA TGGGGAGTGG GGCGAGATGC AGAACATCAC CACCACGCGG
    GAGCGGGTGG AGCTGCGGGG CATGGAGAAG TTCACCAACT ACAGCGTCCA GGTGCTGGCC
    TACACCCAGG CTGGGGACGG CGTACGCAGC AGTGTGCTCT ACATCCAGAC CAAGGAGGAC
    GTTCCAGGTC CCCCTGCTGG CATCAAAGCT GTCCCTTCAT CAGCTAGCAG TGTGGTTGTG
    TCTTGGCTCC CCCCTACCAA GCCCAACGGG GTGATCCGCA AGTACACCAT CTTCTGTTCC
    AGCCCCGGGT CTGGCCAGCC GGCTCCCAGC GAGTACGAGA CGAGTCCAGA GCAGCTCTTC
    TACCGGATCG CCCACCTAAA CCGCGGTCAG CAGTATCTGC TGTGGGTGGC CGCCGTCACC
    TCTGCCGGCC GGGGCAACAG CAGCGAGAAG GTGACCATCG AGCCTGCTGG CAAGGCCCCA
    GCAAAGATCA TCTCCTTTGG GGGCACCGTG ACAACACCTT GGATGAAAGA TGTTCGGCTG
    CCTTGCAATT CAGTGGGAGA TCCAGCCCCT GCTGTGAAGT GGACCAAGGA CAGTGAAGAC
    TCGGCCATTC CAGTGTCCAT GGATGGGCAC CGGCTCATCC ACACCAATGG CACACTGCTG
    CTGCGTGCAG TGAAGGCTGA GGACTCTGGC TACTACACGT GCACGGCCAC CAACACTGGT
    GGCTTTGACA CCATCATCGT CAACCTTCTG GTGCAAGTTC CCCCGGACCA GCCCCGCCTC
    ACTGTCTCCA AAACCTCAGC TTCGTCCATC ACCCTGACCT GGATTCCAGG TGACAATGGG
    GGCAGCTCCA TCCGAGGCTT CGTGCTACAG TACTCGGTGG ACAACAGCGA GGAGTGGAAG
    GATGTGTTCA TCAGCTCCAG CGAGCGCTCC TTCAAGCTGG ACAGCCTCAA GTGTGGCACG
    TGGTACAAGG TGAAGCTGGC AGCCAAGAAC AGCGTGGGCT CTGGGCGCAT CAGCGAGATC
    ATCGAGGCCA AGACCCACGG GCGGGAGCCC TCCTTCAGCA AAGACCAACA CCTCTTCACC
    CACATCAACT CCACGCATGC TCGGCTTAAC CTGCAGGGCT GGAACAATGG GGGCTGCCCT
    ATCACAGCCA TCGTTCTGGA GTACCGGCCC AAGGGGACCT GGGCCTGGCA GGGCCTCCGG
    GCCAACAGCT CCGGGGAGGT GTTTCTGACG GAACTGCGAG AGGCCACGTG GTACGAGCTG
    CGCATGAGGG CTTGCAACAG TGCGGGCTGC GGCAATGAAA CAGCCCAGTT CGCCACCCTG
    GACTACGATG GCAGCACCAT TCCACCCATC AAGTCTGCTC AAGGTGAAGG GGATGATGTG
    AAGAAGCTGT TCACCATCGG CTGCCCTGTC ATCCTGGCCA CACTGGGGGT GGCACTGCTC
    TTCATCGTAC GCAAGAAGAG GAAGGAGAAA CGGCTGAAGC GACTCCGAGA TGCAAAGAGT
    TTGGCAGAAA TGTTGATAAG CAAGAACAAT AGAAGCTTTG ACACCCCTGT GAAAGGGCCA
    CCCCAGGGCC CACGGCTACA CATTGACATC CCCAGGGTCC AGCTGCTCAT CGAGGACAAA
    GAAGGCATCA AGCAACTGGG AGATGACAAG GCCACCATCC CTGTGACAGA TGCTGAGTTC
    AGCCAAGCTG TCAACCCACA GAGCTTCTGT ACTGGCGTCT CCTTGCACCA CCCAACCCTC
    ATCCAGAGCA CAGGACCCCT CATCGACATG TCTGACATCC GGCCAGGAAC CAATCCAGTG
    TCCAGGAAGA ATGTGAAGTC AGCCCACAGC ACCCGGAACC GGTACTCAAG CCAGTGGACC
    CTGACCAAGT GCCAGGCCTC CACACCTGCC CGCACCCTCA CCTCCGACTG GCGCACCGTG
    GGCTCCCAGC ATGGTGTCAC GGTCACTGAG AGTGACAGCT ACAGTGCCAG CCTGTCCCAG
    GACACAGACA AAGGAAGGAA CAGCATGGTG TCCACTGAGA GTGCCTCTTC CACCTACGAG
    GAGCTGGCCC GGGCCTATGA GCATGCCAAG CTGGAGGAGC AGCTGCAGCA CGCCAAGTTT
    GAGATCACCG AGTGCTTCAT CTCTGACAGT TCCTCTGACC AGATGACCAC AGGCACCAAC
    GAGAACGCCG ACAGCATGAC ATCCATGAGC ACACCCTCAG AGCCTGGCAT CTGCCGCTTT
    ACCGCCTCAC CACCCAAGCC CCAGGATGCG GACCGGGGCA AAAACGTGGC TGTGCCCATC
    CCTCACCGGG CCAACAAGAG TGACTACTGC AACCTGCCCC TGTATGCCAA GTCAGAGGCC
    TTCTTTCGAA AGGCAGATGG ACGTGAGCCC TGCCCCGTGG TCCCACCCCG TGAGGCCTCC
    ATCCGGAACC TGGCTCGAAC CTACCACACC CAGGCTCGCC ACCTGACCCT GGACCCTGCC
    AGCAAGTCCT TGGGCCTTCC CCACCCAGGG GCCCCCGCTG CCGCCTCCAC AGCCACCTTA
    CCTCAGAGGA CTCTGGCCAT GCCAGCCCCC CCAGCCGGCA CAGCCCCCCC AGCCCCCGGC
    CCCACCCCTG CTGAGCCACC CACCGCCCCC AGCGCTGCCC CTCCGGCCCC CAGCACCGAG
    CCTCCACGAG CCGGGGGCCC ACACACCAAA ATGGGGGGCT CCAGGGACTC GCTTCTCGAG
    ATGAGCACAT CGGGGGTAGG GAGGTCTCAG AAGCAGGGGG CCGGGGCCTA CTCCAAATCC
    TACACCCTGG TGTAG

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

    RefSeq XP_011541223.1
    CDS587..4621
    Translation

    Target ORF information:

    RefSeq Version XM_011542921.2
    Organism Homo sapiens(human)
    Definition Homo sapiens DS cell adhesion molecule like 1 (DSCAML1), transcript variant X5, mRNA.

    Target ORF information:

    Epitope DYKDDDDK
    Bacterial selection AMPR
    Mammalian selection NeoR
    Vector pcDNA3.1+/C-(K)DYK
    XM_011542921.2

    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
    ATGGACTATG CTTTCCCTGA TGCCCCTCAG TCAAAGTTAA TGTCTCCTAA CCCTTTGATG 
    AAACACTCAT CAGATTTTCC TCCAGTTCAT GTTGCCGGTG CAGCGACAGA ATGCAGCAAT
    AGCAGCCCCG TGACTGTCAC CAGCAGAAAT CCTCGGATAT GCTCCCATCA CATCACAGTG
    ATTGCAAATA TCTCAAAATA TCACTTATAC GCAGCACTAT TACAGGATCA TGTCCCGGCC
    ATGATCACTT CCCACCCCAA CACCACCATC GCCATCAAGG GCCATGCGAA GGAGCTAAAC
    TGCACGGCAC GGGGTGAGCG GCCCATCATC ATCCGCTGGG AGAAGGGGGA CACAGTCATC
    GACCCTGACC GCGTCATGCG GTATGCCATC GCCACCAAGG ACAACGGCGA CGAGGTCGTC
    TCCACACTGA AGCTCAAGCC CGCTGACCGT GGGGACTCTG TGTTCTTCAG CTGCCATGCC
    ATCAACTCGT ATGGGGAGGA CCGGGGCTTG ATCCAACTCA CTGTGCAAGA GCCCCCCGAC
    CCCCCAGAGC TGGAGATCCG GGAGGTGAAG GCCCGGAGCA TGAACCTGCG CTGGACCCAG
    CGATTCGACG GGAACAGCAT CATCACGGGC TTCGACATTG AATACAAGAA CAAATCAGAT
    TCCTGGGACT TCAAGCAGTC CACACGCAAC ATCTCCCCCA CCATCAACCA GGCCAACATT
    GTGGACTTGC ACCCGGCATC TGTGTACAGC ATCCGCATGT ACTCTTTCAA CAAGATTGGC
    CGCAGTGAAC CAAGCAAGGA GCTCACCATC AGCACTGAGG AGGCCGCTCC CGATGGGCCC
    CCCATGGATG TTACCTTGCA GCCAGTGACC TCACAGAGCA TCCAGGTGAC CTGGAAGGCA
    CCCAAGAAGG AGCTGCAGAA CGGTGTCATC CGGGGCTACC AGATTGGCTA CAGAGAGAAC
    AGCCCCGGCA GCAACGGGCA GTACAGCATC GTGGAGATGA AGGCCACGGG GGACAGCGAG
    GTCTACACCC TGGACAACCT CAAGAAGTTC GCCCAGTATG GGGTGGTGGT CCAAGCCTTC
    AATCGGGCTG GCACGGGGCC CTCTTCCAGC GAGATCAATG CCACCACTCT GGAGGATGTG
    CCCAGCCAGC CCCCTGAGAA CGTCCGGGCC CTGTCCATCA CTTCTGACGT GGCCGTCATC
    TCCTGGTCAG AGCCCCCGCG CAGCACCCTC AATGGCGTCC TCAAAGGCTA TCGGGTCATC
    TTCTGGTCCC TCTATGTTGA TGGGGAGTGG GGCGAGATGC AGAACATCAC CACCACGCGG
    GAGCGGGTGG AGCTGCGGGG CATGGAGAAG TTCACCAACT ACAGCGTCCA GGTGCTGGCC
    TACACCCAGG CTGGGGACGG CGTACGCAGC AGTGTGCTCT ACATCCAGAC CAAGGAGGAC
    GTTCCAGGTC CCCCTGCTGG CATCAAAGCT GTCCCTTCAT CAGCTAGCAG TGTGGTTGTG
    TCTTGGCTCC CCCCTACCAA GCCCAACGGG GTGATCCGCA AGTACACCAT CTTCTGTTCC
    AGCCCCGGGT CTGGCCAGCC GGCTCCCAGC GAGTACGAGA CGAGTCCAGA GCAGCTCTTC
    TACCGGATCG CCCACCTAAA CCGCGGTCAG CAGTATCTGC TGTGGGTGGC CGCCGTCACC
    TCTGCCGGCC GGGGCAACAG CAGCGAGAAG GTGACCATCG AGCCTGCTGG CAAGGCCCCA
    GCAAAGATCA TCTCCTTTGG GGGCACCGTG ACAACACCTT GGATGAAAGA TGTTCGGCTG
    CCTTGCAATT CAGTGGGAGA TCCAGCCCCT GCTGTGAAGT GGACCAAGGA CAGTGAAGAC
    TCGGCCATTC CAGTGTCCAT GGATGGGCAC CGGCTCATCC ACACCAATGG CACACTGCTG
    CTGCGTGCAG TGAAGGCTGA GGACTCTGGC TACTACACGT GCACGGCCAC CAACACTGGT
    GGCTTTGACA CCATCATCGT CAACCTTCTG GTGCAAGTTC CCCCGGACCA GCCCCGCCTC
    ACTGTCTCCA AAACCTCAGC TTCGTCCATC ACCCTGACCT GGATTCCAGG TGACAATGGG
    GGCAGCTCCA TCCGAGGCTT CGTGCTACAG TACTCGGTGG ACAACAGCGA GGAGTGGAAG
    GATGTGTTCA TCAGCTCCAG CGAGCGCTCC TTCAAGCTGG ACAGCCTCAA GTGTGGCACG
    TGGTACAAGG TGAAGCTGGC AGCCAAGAAC AGCGTGGGCT CTGGGCGCAT CAGCGAGATC
    ATCGAGGCCA AGACCCACGG GCGGGAGCCC TCCTTCAGCA AAGACCAACA CCTCTTCACC
    CACATCAACT CCACGCATGC TCGGCTTAAC CTGCAGGGCT GGAACAATGG GGGCTGCCCT
    ATCACAGCCA TCGTTCTGGA GTACCGGCCC AAGGGGACCT GGGCCTGGCA GGGCCTCCGG
    GCCAACAGCT CCGGGGAGGT GTTTCTGACG GAACTGCGAG AGGCCACGTG GTACGAGCTG
    CGCATGAGGG CTTGCAACAG TGCGGGCTGC GGCAATGAAA CAGCCCAGTT CGCCACCCTG
    GACTACGATG GCAGCACCAT TCCACCCATC AAGTCTGCTC AAGGTGAAGG GGATGATGTG
    AAGAAGCTGT TCACCATCGG CTGCCCTGTC ATCCTGGCCA CACTGGGGGT GGCACTGCTC
    TTCATCGTAC GCAAGAAGAG GAAGGAGAAA CGGCTGAAGC GACTCCGAGA TGCAAAGAGT
    TTGGCAGAAA TGTTGATAAG CAAGAACAAT AGAAGCTTTG ACACCCCTGT GAAAGGGCCA
    CCCCAGGGCC CACGGCTACA CATTGACATC CCCAGGGTCC AGCTGCTCAT CGAGGACAAA
    GAAGGCATCA AGCAACTGGG AGATGACAAG GCCACCATCC CTGTGACAGA TGCTGAGTTC
    AGCCAAGCTG TCAACCCACA GAGCTTCTGT ACTGGCGTCT CCTTGCACCA CCCAACCCTC
    ATCCAGAGCA CAGGACCCCT CATCGACATG TCTGACATCC GGCCAGGAAC CAATCCAGTG
    TCCAGGAAGA ATGTGAAGTC AGCCCACAGC ACCCGGAACC GGTACTCAAG CCAGTGGACC
    CTGACCAAGT GCCAGGCCTC CACACCTGCC CGCACCCTCA CCTCCGACTG GCGCACCGTG
    GGCTCCCAGC ATGGTGTCAC GGTCACTGAG AGTGACAGCT ACAGTGCCAG CCTGTCCCAG
    GACACAGACA AAGGAAGGAA CAGCATGGTG TCCACTGAGA GTGCCTCTTC CACCTACGAG
    GAGCTGGCCC GGGCCTATGA GCATGCCAAG CTGGAGGAGC AGCTGCAGCA CGCCAAGTTT
    GAGATCACCG AGTGCTTCAT CTCTGACAGT TCCTCTGACC AGATGACCAC AGGCACCAAC
    GAGAACGCCG ACAGCATGAC ATCCATGAGC ACACCCTCAG AGCCTGGCAT CTGCCGCTTT
    ACCGCCTCAC CACCCAAGCC CCAGGATGCG GACCGGGGCA AAAACGTGGC TGTGCCCATC
    CCTCACCGGG CCAACAAGAG TGACTACTGC AACCTGCCCC TGTATGCCAA GTCAGAGGCC
    TTCTTTCGAA AGGCAGATGG ACGTGAGCCC TGCCCCGTGG TCCCACCCCG TGAGGCCTCC
    ATCCGGAACC TGGCTCGAAC CTACCACACC CAGGCTCGCC ACCTGACCCT GGACCCTGCC
    AGCAAGTCCT TGGGCCTTCC CCACCCAGGG GCCCCCGCTG CCGCCTCCAC AGCCACCTTA
    CCTCAGAGGA CTCTGGCCAT GCCAGCCCCC CCAGCCGGCA CAGCCCCCCC AGCCCCCGGC
    CCCACCCCTG CTGAGCCACC CACCGCCCCC AGCGCTGCCC CTCCGGCCCC CAGCACCGAG
    CCTCCACGAG CCGGGGGCCC ACACACCAAA ATGGGGGGCT CCAGGGACTC GCTTCTCGAG
    ATGAGCACAT CGGGGGTAGG GAGGTCTCAG AAGCAGGGGG CCGGGGCCTA CTCCAAATCC
    TACACCCTGG TGTAG

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

    CloneID OHu70464
    Clone ID Related Accession (Same CDS sequence) XM_011542924.2
    Accession Version XM_011542924.2 Latest version! Documents for ORF clone product in default vector
    Sequence Information ORF Nucleotide Sequence (Length: 3813bp)
    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 Down syndrome cell adhesion molecule-like protein 1 isoform X6
    Comment Comment: MODEL REFSEQ: This record is predicted by automated computational analysis. This record is derived from a genomic sequence (NC_000011.10) annotated using gene prediction method: Gnomon, supported by EST evidence. Also see: Documentation of NCBI's Annotation Process On Jun 6, 2016 this sequence version replaced XM_011542924.1. ##Genome-Annotation-Data-START## Annotation Provider :: NCBI Annotation Status :: Updated annotation Annotation Name :: Homo sapiens Updated Annotation Release 109.20191205 Annotation Version :: 109.20191205 Annotation Pipeline :: NCBI eukaryotic genome annotation pipeline Annotation Software Version :: 8.3 Annotation Method :: Best-placed RefSeq; propagated RefSeq model Features Annotated :: Gene; mRNA; CDS; ncRNA ##Genome-Annotation-Data-END##

    1
    61
    121
    181
    241
    301
    361
    421
    481
    541
    601
    661
    721
    781
    841
    901
    961
    1021
    1081
    1141
    1201
    1261
    1321
    1381
    1441
    1501
    1561
    1621
    1681
    1741
    1801
    1861
    1921
    1981
    2041
    2101
    2161
    2221
    2281
    2341
    2401
    2461
    2521
    2581
    2641
    2701
    2761
    2821
    2881
    2941
    3001
    3061
    3121
    3181
    3241
    3301
    3361
    3421
    3481
    3541
    3601
    3661
    3721
    3781
    ATGGAGTCTG TCCCGGCCAT GATCACTTCC CACCCCAACA CCACCATCGC CATCAAGGGC 
    CATGCGAAGG AGCTAAACTG CACGGCACGG GGTGAGCGGC CCATCATCAT CCGCTGGGAG
    AAGGGGGACA CAGTCATCGA CCCTGACCGC GTCATGCGGT ATGCCATCGC CACCAAGGAC
    AACGGCGACG AGGTCGTCTC CACACTGAAG CTCAAGCCCG CTGACCGTGG GGACTCTGTG
    TTCTTCAGCT GCCATGCCAT CAACTCGTAT GGGGAGGACC GGGGCTTGAT CCAACTCACT
    GTGCAAGAGC CCCCCGACCC CCCAGAGCTG GAGATCCGGG AGGTGAAGGC CCGGAGCATG
    AACCTGCGCT GGACCCAGCG ATTCGACGGG AACAGCATCA TCACGGGCTT CGACATTGAA
    TACAAGAACA AATCAGATTC CTGGGACTTC AAGCAGTCCA CACGCAACAT CTCCCCCACC
    ATCAACCAGG CCAACATTGT GGACTTGCAC CCGGCATCTG TGTACAGCAT CCGCATGTAC
    TCTTTCAACA AGATTGGCCG CAGTGAACCA AGCAAGGAGC TCACCATCAG CACTGAGGAG
    GCCGCTCCCG ATGGGCCCCC CATGGATGTT ACCTTGCAGC CAGTGACCTC ACAGAGCATC
    CAGGTGACCT GGAAGGCACC CAAGAAGGAG CTGCAGAACG GTGTCATCCG GGGCTACCAG
    ATTGGCTACA GAGAGAACAG CCCCGGCAGC AACGGGCAGT ACAGCATCGT GGAGATGAAG
    GCCACGGGGG ACAGCGAGGT CTACACCCTG GACAACCTCA AGAAGTTCGC CCAGTATGGG
    GTGGTGGTCC AAGCCTTCAA TCGGGCTGGC ACGGGGCCCT CTTCCAGCGA GATCAATGCC
    ACCACTCTGG AGGATGTGCC CAGCCAGCCC CCTGAGAACG TCCGGGCCCT GTCCATCACT
    TCTGACGTGG CCGTCATCTC CTGGTCAGAG CCCCCGCGCA GCACCCTCAA TGGCGTCCTC
    AAAGGCTATC GGGTCATCTT CTGGTCCCTC TATGTTGATG GGGAGTGGGG CGAGATGCAG
    AACATCACCA CCACGCGGGA GCGGGTGGAG CTGCGGGGCA TGGAGAAGTT CACCAACTAC
    AGCGTCCAGG TGCTGGCCTA CACCCAGGCT GGGGACGGCG TACGCAGCAG TGTGCTCTAC
    ATCCAGACCA AGGAGGACGT TCCAGGTCCC CCTGCTGGCA TCAAAGCTGT CCCTTCATCA
    GCTAGCAGTG TGGTTGTGTC TTGGCTCCCC CCTACCAAGC CCAACGGGGT GATCCGCAAG
    TACACCATCT TCTGTTCCAG CCCCGGGTCT GGCCAGCCGG CTCCCAGCGA GTACGAGACG
    AGTCCAGAGC AGCTCTTCTA CCGGATCGCC CACCTAAACC GCGGTCAGCA GTATCTGCTG
    TGGGTGGCCG CCGTCACCTC TGCCGGCCGG GGCAACAGCA GCGAGAAGGT GACCATCGAG
    CCTGCTGGCA AGGCCCCAGC AAAGATCATC TCCTTTGGGG GCACCGTGAC AACACCTTGG
    ATGAAAGATG TTCGGCTGCC TTGCAATTCA GTGGGAGATC CAGCCCCTGC TGTGAAGTGG
    ACCAAGGACA GTGAAGACTC GGCCATTCCA GTGTCCATGG ATGGGCACCG GCTCATCCAC
    ACCAATGGCA CACTGCTGCT GCGTGCAGTG AAGGCTGAGG ACTCTGGCTA CTACACGTGC
    ACGGCCACCA ACACTGGTGG CTTTGACACC ATCATCGTCA ACCTTCTGGT GCAAGTTCCC
    CCGGACCAGC CCCGCCTCAC TGTCTCCAAA ACCTCAGCTT CGTCCATCAC CCTGACCTGG
    ATTCCAGGTG ACAATGGGGG CAGCTCCATC CGAGGCTTCG TGCTACAGTA CTCGGTGGAC
    AACAGCGAGG AGTGGAAGGA TGTGTTCATC AGCTCCAGCG AGCGCTCCTT CAAGCTGGAC
    AGCCTCAAGT GTGGCACGTG GTACAAGGTG AAGCTGGCAG CCAAGAACAG CGTGGGCTCT
    GGGCGCATCA GCGAGATCAT CGAGGCCAAG ACCCACGGGC GGGAGCCCTC CTTCAGCAAA
    GACCAACACC TCTTCACCCA CATCAACTCC ACGCATGCTC GGCTTAACCT GCAGGGCTGG
    AACAATGGGG GCTGCCCTAT CACAGCCATC GTTCTGGAGT ACCGGCCCAA GGGGACCTGG
    GCCTGGCAGG GCCTCCGGGC CAACAGCTCC GGGGAGGTGT TTCTGACGGA ACTGCGAGAG
    GCCACGTGGT ACGAGCTGCG CATGAGGGCT TGCAACAGTG CGGGCTGCGG CAATGAAACA
    GCCCAGTTCG CCACCCTGGA CTACGATGGC AGCACCATTC CACCCATCAA GTCTGCTCAA
    GGTGAAGGGG ATGATGTGAA GAAGCTGTTC ACCATCGGCT GCCCTGTCAT CCTGGCCACA
    CTGGGGGTGG CACTGCTCTT CATCGTACGC AAGAAGAGGA AGGAGAAACG GCTGAAGCGA
    CTCCGAGATG CAAAGAGTTT GGCAGAAATG TTGATAAGCA AGAACAATAG AAGCTTTGAC
    ACCCCTGTGA AAGGGCCACC CCAGGGCCCA CGGCTACACA TTGACATCCC CAGGGTCCAG
    CTGCTCATCG AGGACAAAGA AGGCATCAAG CAACTGGGAG ATGACAAGGC CACCATCCCT
    GTGACAGATG CTGAGTTCAG CCAAGCTGTC AACCCACAGA GCTTCTGTAC TGGCGTCTCC
    TTGCACCACC CAACCCTCAT CCAGAGCACA GGACCCCTCA TCGACATGTC TGACATCCGG
    CCAGGAACCA ATCCAGTGTC CAGGAAGAAT GTGAAGTCAG CCCACAGCAC CCGGAACCGG
    TACTCAAGCC AGTGGACCCT GACCAAGTGC CAGGCCTCCA CACCTGCCCG CACCCTCACC
    TCCGACTGGC GCACCGTGGG CTCCCAGCAT GGTGTCACGG TCACTGAGAG TGACAGCTAC
    AGTGCCAGCC TGTCCCAGGA CACAGACAAA GGAAGGAACA GCATGGTGTC CACTGAGAGT
    GCCTCTTCCA CCTACGAGGA GCTGGCCCGG GCCTATGAGC ATGCCAAGCT GGAGGAGCAG
    CTGCAGCACG CCAAGTTTGA GATCACCGAG TGCTTCATCT CTGACAGTTC CTCTGACCAG
    ATGACCACAG GCACCAACGA GAACGCCGAC AGCATGACAT CCATGAGCAC ACCCTCAGAG
    CCTGGCATCT GCCGCTTTAC CGCCTCACCA CCCAAGCCCC AGGATGCGGA CCGGGGCAAA
    AACGTGGCTG TGCCCATCCC TCACCGGGCC AACAAGAGTG ACTACTGCAA CCTGCCCCTG
    TATGCCAAGT CAGAGGCCTT CTTTCGAAAG GCAGATGGAC GTGAGCCCTG CCCCGTGGTC
    CCACCCCGTG AGGCCTCCAT CCGGAACCTG GCTCGAACCT ACCACACCCA GGCTCGCCAC
    CTGACCCTGG ACCCTGCCAG CAAGTCCTTG GGCCTTCCCC ACCCAGGGGC CCCCGCTGCC
    GCCTCCACAG CCACCTTACC TCAGAGGACT CTGGCCATGC CAGCCCCCCC AGCCGGCACA
    GCCCCCCCAG CCCCCGGCCC CACCCCTGCT GAGCCACCCA CCGCCCCCAG CGCTGCCCCT
    CCGGCCCCCA GCACCGAGCC TCCACGAGCC GGGGGCCCAC ACACCAAAAT GGGGGGCTCC
    AGGGACTCGC TTCTCGAGAT GAGCACATCG GGGGTAGGGA GGTCTCAGAA GCAGGGGGCC
    GGGGCCTACT CCAAATCCTA CACCCTGGTG TAG

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

    RefSeq XP_011541226.1
    CDS727..4539
    Translation

    Target ORF information:

    RefSeq Version XM_011542924.2
    Organism Homo sapiens(human)
    Definition Homo sapiens DS cell adhesion molecule like 1 (DSCAML1), transcript variant X6, mRNA.

    Target ORF information:

    Epitope DYKDDDDK
    Bacterial selection AMPR
    Mammalian selection NeoR
    Vector pcDNA3.1+/C-(K)DYK
    XM_011542924.2

    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
    ATGGAGTCTG TCCCGGCCAT GATCACTTCC CACCCCAACA CCACCATCGC CATCAAGGGC 
    CATGCGAAGG AGCTAAACTG CACGGCACGG GGTGAGCGGC CCATCATCAT CCGCTGGGAG
    AAGGGGGACA CAGTCATCGA CCCTGACCGC GTCATGCGGT ATGCCATCGC CACCAAGGAC
    AACGGCGACG AGGTCGTCTC CACACTGAAG CTCAAGCCCG CTGACCGTGG GGACTCTGTG
    TTCTTCAGCT GCCATGCCAT CAACTCGTAT GGGGAGGACC GGGGCTTGAT CCAACTCACT
    GTGCAAGAGC CCCCCGACCC CCCAGAGCTG GAGATCCGGG AGGTGAAGGC CCGGAGCATG
    AACCTGCGCT GGACCCAGCG ATTCGACGGG AACAGCATCA TCACGGGCTT CGACATTGAA
    TACAAGAACA AATCAGATTC CTGGGACTTC AAGCAGTCCA CACGCAACAT CTCCCCCACC
    ATCAACCAGG CCAACATTGT GGACTTGCAC CCGGCATCTG TGTACAGCAT CCGCATGTAC
    TCTTTCAACA AGATTGGCCG CAGTGAACCA AGCAAGGAGC TCACCATCAG CACTGAGGAG
    GCCGCTCCCG ATGGGCCCCC CATGGATGTT ACCTTGCAGC CAGTGACCTC ACAGAGCATC
    CAGGTGACCT GGAAGGCACC CAAGAAGGAG CTGCAGAACG GTGTCATCCG GGGCTACCAG
    ATTGGCTACA GAGAGAACAG CCCCGGCAGC AACGGGCAGT ACAGCATCGT GGAGATGAAG
    GCCACGGGGG ACAGCGAGGT CTACACCCTG GACAACCTCA AGAAGTTCGC CCAGTATGGG
    GTGGTGGTCC AAGCCTTCAA TCGGGCTGGC ACGGGGCCCT CTTCCAGCGA GATCAATGCC
    ACCACTCTGG AGGATGTGCC CAGCCAGCCC CCTGAGAACG TCCGGGCCCT GTCCATCACT
    TCTGACGTGG CCGTCATCTC CTGGTCAGAG CCCCCGCGCA GCACCCTCAA TGGCGTCCTC
    AAAGGCTATC GGGTCATCTT CTGGTCCCTC TATGTTGATG GGGAGTGGGG CGAGATGCAG
    AACATCACCA CCACGCGGGA GCGGGTGGAG CTGCGGGGCA TGGAGAAGTT CACCAACTAC
    AGCGTCCAGG TGCTGGCCTA CACCCAGGCT GGGGACGGCG TACGCAGCAG TGTGCTCTAC
    ATCCAGACCA AGGAGGACGT TCCAGGTCCC CCTGCTGGCA TCAAAGCTGT CCCTTCATCA
    GCTAGCAGTG TGGTTGTGTC TTGGCTCCCC CCTACCAAGC CCAACGGGGT GATCCGCAAG
    TACACCATCT TCTGTTCCAG CCCCGGGTCT GGCCAGCCGG CTCCCAGCGA GTACGAGACG
    AGTCCAGAGC AGCTCTTCTA CCGGATCGCC CACCTAAACC GCGGTCAGCA GTATCTGCTG
    TGGGTGGCCG CCGTCACCTC TGCCGGCCGG GGCAACAGCA GCGAGAAGGT GACCATCGAG
    CCTGCTGGCA AGGCCCCAGC AAAGATCATC TCCTTTGGGG GCACCGTGAC AACACCTTGG
    ATGAAAGATG TTCGGCTGCC TTGCAATTCA GTGGGAGATC CAGCCCCTGC TGTGAAGTGG
    ACCAAGGACA GTGAAGACTC GGCCATTCCA GTGTCCATGG ATGGGCACCG GCTCATCCAC
    ACCAATGGCA CACTGCTGCT GCGTGCAGTG AAGGCTGAGG ACTCTGGCTA CTACACGTGC
    ACGGCCACCA ACACTGGTGG CTTTGACACC ATCATCGTCA ACCTTCTGGT GCAAGTTCCC
    CCGGACCAGC CCCGCCTCAC TGTCTCCAAA ACCTCAGCTT CGTCCATCAC CCTGACCTGG
    ATTCCAGGTG ACAATGGGGG CAGCTCCATC CGAGGCTTCG TGCTACAGTA CTCGGTGGAC
    AACAGCGAGG AGTGGAAGGA TGTGTTCATC AGCTCCAGCG AGCGCTCCTT CAAGCTGGAC
    AGCCTCAAGT GTGGCACGTG GTACAAGGTG AAGCTGGCAG CCAAGAACAG CGTGGGCTCT
    GGGCGCATCA GCGAGATCAT CGAGGCCAAG ACCCACGGGC GGGAGCCCTC CTTCAGCAAA
    GACCAACACC TCTTCACCCA CATCAACTCC ACGCATGCTC GGCTTAACCT GCAGGGCTGG
    AACAATGGGG GCTGCCCTAT CACAGCCATC GTTCTGGAGT ACCGGCCCAA GGGGACCTGG
    GCCTGGCAGG GCCTCCGGGC CAACAGCTCC GGGGAGGTGT TTCTGACGGA ACTGCGAGAG
    GCCACGTGGT ACGAGCTGCG CATGAGGGCT TGCAACAGTG CGGGCTGCGG CAATGAAACA
    GCCCAGTTCG CCACCCTGGA CTACGATGGC AGCACCATTC CACCCATCAA GTCTGCTCAA
    GGTGAAGGGG ATGATGTGAA GAAGCTGTTC ACCATCGGCT GCCCTGTCAT CCTGGCCACA
    CTGGGGGTGG CACTGCTCTT CATCGTACGC AAGAAGAGGA AGGAGAAACG GCTGAAGCGA
    CTCCGAGATG CAAAGAGTTT GGCAGAAATG TTGATAAGCA AGAACAATAG AAGCTTTGAC
    ACCCCTGTGA AAGGGCCACC CCAGGGCCCA CGGCTACACA TTGACATCCC CAGGGTCCAG
    CTGCTCATCG AGGACAAAGA AGGCATCAAG CAACTGGGAG ATGACAAGGC CACCATCCCT
    GTGACAGATG CTGAGTTCAG CCAAGCTGTC AACCCACAGA GCTTCTGTAC TGGCGTCTCC
    TTGCACCACC CAACCCTCAT CCAGAGCACA GGACCCCTCA TCGACATGTC TGACATCCGG
    CCAGGAACCA ATCCAGTGTC CAGGAAGAAT GTGAAGTCAG CCCACAGCAC CCGGAACCGG
    TACTCAAGCC AGTGGACCCT GACCAAGTGC CAGGCCTCCA CACCTGCCCG CACCCTCACC
    TCCGACTGGC GCACCGTGGG CTCCCAGCAT GGTGTCACGG TCACTGAGAG TGACAGCTAC
    AGTGCCAGCC TGTCCCAGGA CACAGACAAA GGAAGGAACA GCATGGTGTC CACTGAGAGT
    GCCTCTTCCA CCTACGAGGA GCTGGCCCGG GCCTATGAGC ATGCCAAGCT GGAGGAGCAG
    CTGCAGCACG CCAAGTTTGA GATCACCGAG TGCTTCATCT CTGACAGTTC CTCTGACCAG
    ATGACCACAG GCACCAACGA GAACGCCGAC AGCATGACAT CCATGAGCAC ACCCTCAGAG
    CCTGGCATCT GCCGCTTTAC CGCCTCACCA CCCAAGCCCC AGGATGCGGA CCGGGGCAAA
    AACGTGGCTG TGCCCATCCC TCACCGGGCC AACAAGAGTG ACTACTGCAA CCTGCCCCTG
    TATGCCAAGT CAGAGGCCTT CTTTCGAAAG GCAGATGGAC GTGAGCCCTG CCCCGTGGTC
    CCACCCCGTG AGGCCTCCAT CCGGAACCTG GCTCGAACCT ACCACACCCA GGCTCGCCAC
    CTGACCCTGG ACCCTGCCAG CAAGTCCTTG GGCCTTCCCC ACCCAGGGGC CCCCGCTGCC
    GCCTCCACAG CCACCTTACC TCAGAGGACT CTGGCCATGC CAGCCCCCCC AGCCGGCACA
    GCCCCCCCAG CCCCCGGCCC CACCCCTGCT GAGCCACCCA CCGCCCCCAG CGCTGCCCCT
    CCGGCCCCCA GCACCGAGCC TCCACGAGCC GGGGGCCCAC ACACCAAAAT GGGGGGCTCC
    AGGGACTCGC TTCTCGAGAT GAGCACATCG GGGGTAGGGA GGTCTCAGAA GCAGGGGGCC
    GGGGCCTACT CCAAATCCTA CACCCTGGTG TAG

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

    CloneID OHu70465
    Clone ID Related Accession (Same CDS sequence) XM_011542925.2
    Accession Version XM_011542925.2 Latest version! Documents for ORF clone product in default vector
    Sequence Information ORF Nucleotide Sequence (Length: 3795bp)
    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 Down syndrome cell adhesion molecule-like protein 1 isoform X7
    Comment Comment: MODEL REFSEQ: This record is predicted by automated computational analysis. This record is derived from a genomic sequence (NC_000011.10) annotated using gene prediction method: Gnomon, supported by EST evidence. Also see: Documentation of NCBI's Annotation Process On Jun 6, 2016 this sequence version replaced XM_011542925.1. ##Genome-Annotation-Data-START## Annotation Provider :: NCBI Annotation Status :: Updated annotation Annotation Name :: Homo sapiens Updated Annotation Release 109.20191205 Annotation Version :: 109.20191205 Annotation Pipeline :: NCBI eukaryotic genome annotation pipeline Annotation Software Version :: 8.3 Annotation Method :: Best-placed RefSeq; propagated RefSeq model Features Annotated :: Gene; mRNA; CDS; ncRNA ##Genome-Annotation-Data-END##

    1
    61
    121
    181
    241
    301
    361
    421
    481
    541
    601
    661
    721
    781
    841
    901
    961
    1021
    1081
    1141
    1201
    1261
    1321
    1381
    1441
    1501
    1561
    1621
    1681
    1741
    1801
    1861
    1921
    1981
    2041
    2101
    2161
    2221
    2281
    2341
    2401
    2461
    2521
    2581
    2641
    2701
    2761
    2821
    2881
    2941
    3001
    3061
    3121
    3181
    3241
    3301
    3361
    3421
    3481
    3541
    3601
    3661
    3721
    3781
    ATGATCACTT CCCACCCCAA CACCACCATC GCCATCAAGG GCCATGCGAA GGAGCTAAAC 
    TGCACGGCAC GGGGTGAGCG GCCCATCATC ATCCGCTGGG AGAAGGGGGA CACAGTCATC
    GACCCTGACC GCGTCATGCG GTATGCCATC GCCACCAAGG ACAACGGCGA CGAGGTCGTC
    TCCACACTGA AGCTCAAGCC CGCTGACCGT GGGGACTCTG TGTTCTTCAG CTGCCATGCC
    ATCAACTCGT ATGGGGAGGA CCGGGGCTTG ATCCAACTCA CTGTGCAAGA GCCCCCCGAC
    CCCCCAGAGC TGGAGATCCG GGAGGTGAAG GCCCGGAGCA TGAACCTGCG CTGGACCCAG
    CGATTCGACG GGAACAGCAT CATCACGGGC TTCGACATTG AATACAAGAA CAAATCAGAT
    TCCTGGGACT TCAAGCAGTC CACACGCAAC ATCTCCCCCA CCATCAACCA GGCCAACATT
    GTGGACTTGC ACCCGGCATC TGTGTACAGC ATCCGCATGT ACTCTTTCAA CAAGATTGGC
    CGCAGTGAAC CAAGCAAGGA GCTCACCATC AGCACTGAGG AGGCCGCTCC CGATGGGCCC
    CCCATGGATG TTACCTTGCA GCCAGTGACC TCACAGAGCA TCCAGGTGAC CTGGAAGGCA
    CCCAAGAAGG AGCTGCAGAA CGGTGTCATC CGGGGCTACC AGATTGGCTA CAGAGAGAAC
    AGCCCCGGCA GCAACGGGCA GTACAGCATC GTGGAGATGA AGGCCACGGG GGACAGCGAG
    GTCTACACCC TGGACAACCT CAAGAAGTTC GCCCAGTATG GGGTGGTGGT CCAAGCCTTC
    AATCGGGCTG GCACGGGGCC CTCTTCCAGC GAGATCAATG CCACCACTCT GGAGGATGTG
    CCCAGCCAGC CCCCTGAGAA CGTCCGGGCC CTGTCCATCA CTTCTGACGT GGCCGTCATC
    TCCTGGTCAG AGCCCCCGCG CAGCACCCTC AATGGCGTCC TCAAAGGCTA TCGGGTCATC
    TTCTGGTCCC TCTATGTTGA TGGGGAGTGG GGCGAGATGC AGAACATCAC CACCACGCGG
    GAGCGGGTGG AGCTGCGGGG CATGGAGAAG TTCACCAACT ACAGCGTCCA GGTGCTGGCC
    TACACCCAGG CTGGGGACGG CGTACGCAGC AGTGTGCTCT ACATCCAGAC CAAGGAGGAC
    GTTCCAGGTC CCCCTGCTGG CATCAAAGCT GTCCCTTCAT CAGCTAGCAG TGTGGTTGTG
    TCTTGGCTCC CCCCTACCAA GCCCAACGGG GTGATCCGCA AGTACACCAT CTTCTGTTCC
    AGCCCCGGGT CTGGCCAGCC GGCTCCCAGC GAGTACGAGA CGAGTCCAGA GCAGCTCTTC
    TACCGGATCG CCCACCTAAA CCGCGGTCAG CAGTATCTGC TGTGGGTGGC CGCCGTCACC
    TCTGCCGGCC GGGGCAACAG CAGCGAGAAG GTGACCATCG AGCCTGCTGG CAAGGCCCCA
    GCAAAGATCA TCTCCTTTGG GGGCACCGTG ACAACACCTT GGATGAAAGA TGTTCGGCTG
    CCTTGCAATT CAGTGGGAGA TCCAGCCCCT GCTGTGAAGT GGACCAAGGA CAGTGAAGAC
    TCGGCCATTC CAGTGTCCAT GGATGGGCAC CGGCTCATCC ACACCAATGG CACACTGCTG
    CTGCGTGCAG TGAAGGCTGA GGACTCTGGC TACTACACGT GCACGGCCAC CAACACTGGT
    GGCTTTGACA CCATCATCGT CAACCTTCTG GTGCAAGTTC CCCCGGACCA GCCCCGCCTC
    ACTGTCTCCA AAACCTCAGC TTCGTCCATC ACCCTGACCT GGATTCCAGG TGACAATGGG
    GGCAGCTCCA TCCGAGGCTT CGTGCTACAG TACTCGGTGG ACAACAGCGA GGAGTGGAAG
    GATGTGTTCA TCAGCTCCAG CGAGCGCTCC TTCAAGCTGG ACAGCCTCAA GTGTGGCACG
    TGGTACAAGG TGAAGCTGGC AGCCAAGAAC AGCGTGGGCT CTGGGCGCAT CAGCGAGATC
    ATCGAGGCCA AGACCCACGG GCGGGAGCCC TCCTTCAGCA AAGACCAACA CCTCTTCACC
    CACATCAACT CCACGCATGC TCGGCTTAAC CTGCAGGGCT GGAACAATGG GGGCTGCCCT
    ATCACAGCCA TCGTTCTGGA GTACCGGCCC AAGGGGACCT GGGCCTGGCA GGGCCTCCGG
    GCCAACAGCT CCGGGGAGGT GTTTCTGACG GAACTGCGAG AGGCCACGTG GTACGAGCTG
    CGCATGAGGG CTTGCAACAG TGCGGGCTGC GGCAATGAAA CAGCCCAGTT CGCCACCCTG
    GACTACGATG GCAGCACCAT TCCACCCATC AAGTCTGCTC AAGGTGAAGG GGATGATGTG
    AAGAAGCTGT TCACCATCGG CTGCCCTGTC ATCCTGGCCA CACTGGGGGT GGCACTGCTC
    TTCATCGTAC GCAAGAAGAG GAAGGAGAAA CGGCTGAAGC GACTCCGAGA TGCAAAGAGT
    TTGGCAGAAA TGTTGATAAG CAAGAACAAT AGAAGCTTTG ACACCCCTGT GAAAGGGCCA
    CCCCAGGGCC CACGGCTACA CATTGACATC CCCAGGGTCC AGCTGCTCAT CGAGGACAAA
    GAAGGCATCA AGCAACTGGG AGATGACAAG GCCACCATCC CTGTGACAGA TGCTGAGTTC
    AGCCAAGCTG TCAACCCACA GAGCTTCTGT ACTGGCGTCT CCTTGCACCA CCCAACCCTC
    ATCCAGAGCA CAGGACCCCT CATCGACATG TCTGACATCC GGCCAGGAAC CAATCCAGTG
    TCCAGGAAGA ATGTGAAGTC AGCCCACAGC ACCCGGAACC GGTACTCAAG CCAGTGGACC
    CTGACCAAGT GCCAGGCCTC CACACCTGCC CGCACCCTCA CCTCCGACTG GCGCACCGTG
    GGCTCCCAGC ATGGTGTCAC GGTCACTGAG AGTGACAGCT ACAGTGCCAG CCTGTCCCAG
    GACACAGACA AAGGAAGGAA CAGCATGGTG TCCACTGAGA GTGCCTCTTC CACCTACGAG
    GAGCTGGCCC GGGCCTATGA GCATGCCAAG CTGGAGGAGC AGCTGCAGCA CGCCAAGTTT
    GAGATCACCG AGTGCTTCAT CTCTGACAGT TCCTCTGACC AGATGACCAC AGGCACCAAC
    GAGAACGCCG ACAGCATGAC ATCCATGAGC ACACCCTCAG AGCCTGGCAT CTGCCGCTTT
    ACCGCCTCAC CACCCAAGCC CCAGGATGCG GACCGGGGCA AAAACGTGGC TGTGCCCATC
    CCTCACCGGG CCAACAAGAG TGACTACTGC AACCTGCCCC TGTATGCCAA GTCAGAGGCC
    TTCTTTCGAA AGGCAGATGG ACGTGAGCCC TGCCCCGTGG TCCCACCCCG TGAGGCCTCC
    ATCCGGAACC TGGCTCGAAC CTACCACACC CAGGCTCGCC ACCTGACCCT GGACCCTGCC
    AGCAAGTCCT TGGGCCTTCC CCACCCAGGG GCCCCCGCTG CCGCCTCCAC AGCCACCTTA
    CCTCAGAGGA CTCTGGCCAT GCCAGCCCCC CCAGCCGGCA CAGCCCCCCC AGCCCCCGGC
    CCCACCCCTG CTGAGCCACC CACCGCCCCC AGCGCTGCCC CTCCGGCCCC CAGCACCGAG
    CCTCCACGAG CCGGGGGCCC ACACACCAAA ATGGGGGGCT CCAGGGACTC GCTTCTCGAG
    ATGAGCACAT CGGGGGTAGG GAGGTCTCAG AAGCAGGGGG CCGGGGCCTA CTCCAAATCC
    TACACCCTGG TGTAG

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

    RefSeq XP_011541227.1
    CDS1419..5213
    Translation

    Target ORF information:

    RefSeq Version XM_011542925.2
    Organism Homo sapiens(human)
    Definition Homo sapiens DS cell adhesion molecule like 1 (DSCAML1), transcript variant X7, mRNA.

    Target ORF information:

    Epitope DYKDDDDK
    Bacterial selection AMPR
    Mammalian selection NeoR
    Vector pcDNA3.1+/C-(K)DYK
    XM_011542925.2

    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
    ATGATCACTT CCCACCCCAA CACCACCATC GCCATCAAGG GCCATGCGAA GGAGCTAAAC 
    TGCACGGCAC GGGGTGAGCG GCCCATCATC ATCCGCTGGG AGAAGGGGGA CACAGTCATC
    GACCCTGACC GCGTCATGCG GTATGCCATC GCCACCAAGG ACAACGGCGA CGAGGTCGTC
    TCCACACTGA AGCTCAAGCC CGCTGACCGT GGGGACTCTG TGTTCTTCAG CTGCCATGCC
    ATCAACTCGT ATGGGGAGGA CCGGGGCTTG ATCCAACTCA CTGTGCAAGA GCCCCCCGAC
    CCCCCAGAGC TGGAGATCCG GGAGGTGAAG GCCCGGAGCA TGAACCTGCG CTGGACCCAG
    CGATTCGACG GGAACAGCAT CATCACGGGC TTCGACATTG AATACAAGAA CAAATCAGAT
    TCCTGGGACT TCAAGCAGTC CACACGCAAC ATCTCCCCCA CCATCAACCA GGCCAACATT
    GTGGACTTGC ACCCGGCATC TGTGTACAGC ATCCGCATGT ACTCTTTCAA CAAGATTGGC
    CGCAGTGAAC CAAGCAAGGA GCTCACCATC AGCACTGAGG AGGCCGCTCC CGATGGGCCC
    CCCATGGATG TTACCTTGCA GCCAGTGACC TCACAGAGCA TCCAGGTGAC CTGGAAGGCA
    CCCAAGAAGG AGCTGCAGAA CGGTGTCATC CGGGGCTACC AGATTGGCTA CAGAGAGAAC
    AGCCCCGGCA GCAACGGGCA GTACAGCATC GTGGAGATGA AGGCCACGGG GGACAGCGAG
    GTCTACACCC TGGACAACCT CAAGAAGTTC GCCCAGTATG GGGTGGTGGT CCAAGCCTTC
    AATCGGGCTG GCACGGGGCC CTCTTCCAGC GAGATCAATG CCACCACTCT GGAGGATGTG
    CCCAGCCAGC CCCCTGAGAA CGTCCGGGCC CTGTCCATCA CTTCTGACGT GGCCGTCATC
    TCCTGGTCAG AGCCCCCGCG CAGCACCCTC AATGGCGTCC TCAAAGGCTA TCGGGTCATC
    TTCTGGTCCC TCTATGTTGA TGGGGAGTGG GGCGAGATGC AGAACATCAC CACCACGCGG
    GAGCGGGTGG AGCTGCGGGG CATGGAGAAG TTCACCAACT ACAGCGTCCA GGTGCTGGCC
    TACACCCAGG CTGGGGACGG CGTACGCAGC AGTGTGCTCT ACATCCAGAC CAAGGAGGAC
    GTTCCAGGTC CCCCTGCTGG CATCAAAGCT GTCCCTTCAT CAGCTAGCAG TGTGGTTGTG
    TCTTGGCTCC CCCCTACCAA GCCCAACGGG GTGATCCGCA AGTACACCAT CTTCTGTTCC
    AGCCCCGGGT CTGGCCAGCC GGCTCCCAGC GAGTACGAGA CGAGTCCAGA GCAGCTCTTC
    TACCGGATCG CCCACCTAAA CCGCGGTCAG CAGTATCTGC TGTGGGTGGC CGCCGTCACC
    TCTGCCGGCC GGGGCAACAG CAGCGAGAAG GTGACCATCG AGCCTGCTGG CAAGGCCCCA
    GCAAAGATCA TCTCCTTTGG GGGCACCGTG ACAACACCTT GGATGAAAGA TGTTCGGCTG
    CCTTGCAATT CAGTGGGAGA TCCAGCCCCT GCTGTGAAGT GGACCAAGGA CAGTGAAGAC
    TCGGCCATTC CAGTGTCCAT GGATGGGCAC CGGCTCATCC ACACCAATGG CACACTGCTG
    CTGCGTGCAG TGAAGGCTGA GGACTCTGGC TACTACACGT GCACGGCCAC CAACACTGGT
    GGCTTTGACA CCATCATCGT CAACCTTCTG GTGCAAGTTC CCCCGGACCA GCCCCGCCTC
    ACTGTCTCCA AAACCTCAGC TTCGTCCATC ACCCTGACCT GGATTCCAGG TGACAATGGG
    GGCAGCTCCA TCCGAGGCTT CGTGCTACAG TACTCGGTGG ACAACAGCGA GGAGTGGAAG
    GATGTGTTCA TCAGCTCCAG CGAGCGCTCC TTCAAGCTGG ACAGCCTCAA GTGTGGCACG
    TGGTACAAGG TGAAGCTGGC AGCCAAGAAC AGCGTGGGCT CTGGGCGCAT CAGCGAGATC
    ATCGAGGCCA AGACCCACGG GCGGGAGCCC TCCTTCAGCA AAGACCAACA CCTCTTCACC
    CACATCAACT CCACGCATGC TCGGCTTAAC CTGCAGGGCT GGAACAATGG GGGCTGCCCT
    ATCACAGCCA TCGTTCTGGA GTACCGGCCC AAGGGGACCT GGGCCTGGCA GGGCCTCCGG
    GCCAACAGCT CCGGGGAGGT GTTTCTGACG GAACTGCGAG AGGCCACGTG GTACGAGCTG
    CGCATGAGGG CTTGCAACAG TGCGGGCTGC GGCAATGAAA CAGCCCAGTT CGCCACCCTG
    GACTACGATG GCAGCACCAT TCCACCCATC AAGTCTGCTC AAGGTGAAGG GGATGATGTG
    AAGAAGCTGT TCACCATCGG CTGCCCTGTC ATCCTGGCCA CACTGGGGGT GGCACTGCTC
    TTCATCGTAC GCAAGAAGAG GAAGGAGAAA CGGCTGAAGC GACTCCGAGA TGCAAAGAGT
    TTGGCAGAAA TGTTGATAAG CAAGAACAAT AGAAGCTTTG ACACCCCTGT GAAAGGGCCA
    CCCCAGGGCC CACGGCTACA CATTGACATC CCCAGGGTCC AGCTGCTCAT CGAGGACAAA
    GAAGGCATCA AGCAACTGGG AGATGACAAG GCCACCATCC CTGTGACAGA TGCTGAGTTC
    AGCCAAGCTG TCAACCCACA GAGCTTCTGT ACTGGCGTCT CCTTGCACCA CCCAACCCTC
    ATCCAGAGCA CAGGACCCCT CATCGACATG TCTGACATCC GGCCAGGAAC CAATCCAGTG
    TCCAGGAAGA ATGTGAAGTC AGCCCACAGC ACCCGGAACC GGTACTCAAG CCAGTGGACC
    CTGACCAAGT GCCAGGCCTC CACACCTGCC CGCACCCTCA CCTCCGACTG GCGCACCGTG
    GGCTCCCAGC ATGGTGTCAC GGTCACTGAG AGTGACAGCT ACAGTGCCAG CCTGTCCCAG
    GACACAGACA AAGGAAGGAA CAGCATGGTG TCCACTGAGA GTGCCTCTTC CACCTACGAG
    GAGCTGGCCC GGGCCTATGA GCATGCCAAG CTGGAGGAGC AGCTGCAGCA CGCCAAGTTT
    GAGATCACCG AGTGCTTCAT CTCTGACAGT TCCTCTGACC AGATGACCAC AGGCACCAAC
    GAGAACGCCG ACAGCATGAC ATCCATGAGC ACACCCTCAG AGCCTGGCAT CTGCCGCTTT
    ACCGCCTCAC CACCCAAGCC CCAGGATGCG GACCGGGGCA AAAACGTGGC TGTGCCCATC
    CCTCACCGGG CCAACAAGAG TGACTACTGC AACCTGCCCC TGTATGCCAA GTCAGAGGCC
    TTCTTTCGAA AGGCAGATGG ACGTGAGCCC TGCCCCGTGG TCCCACCCCG TGAGGCCTCC
    ATCCGGAACC TGGCTCGAAC CTACCACACC CAGGCTCGCC ACCTGACCCT GGACCCTGCC
    AGCAAGTCCT TGGGCCTTCC CCACCCAGGG GCCCCCGCTG CCGCCTCCAC AGCCACCTTA
    CCTCAGAGGA CTCTGGCCAT GCCAGCCCCC CCAGCCGGCA CAGCCCCCCC AGCCCCCGGC
    CCCACCCCTG CTGAGCCACC CACCGCCCCC AGCGCTGCCC CTCCGGCCCC CAGCACCGAG
    CCTCCACGAG CCGGGGGCCC ACACACCAAA ATGGGGGGCT CCAGGGACTC GCTTCTCGAG
    ATGAGCACAT CGGGGGTAGG GAGGTCTCAG AAGCAGGGGG CCGGGGCCTA CTCCAAATCC
    TACACCCTGG TGTAG

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