LOC102780035 cDNA ORF clone, Neolamprologus brichardi

The following LOC102780035 gene cDNA ORF clone sequences were retrieved from the NCBI Reference Sequence Database (RefSeq). These sequences represent the protein coding region of the LOC102780035 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
ONe76604 XM_006795408.1
Latest version!
Neolamprologus brichardi Down syndrome cell adhesion molecule-like protein 1 homolog (LOC102780035), transcript variant X1, mRNA. pcDNA3.1-C-(k)DYK or customized vector 24-26 $1021.30
$1459.00
ONe76605 XM_006795409.1
Latest version!
Neolamprologus brichardi Down syndrome cell adhesion molecule-like protein 1 homolog (LOC102780035), transcript variant X2, mRNA. pcDNA3.1-C-(k)DYK or customized vector 24-26 $881.30
$1259.00

ORF Online Only Promotion

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

*Business Day

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

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

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

  • Reference Sequences (Refseq)
    CloneID ONe76604
    Clone ID Related Accession (Same CDS sequence) XM_006795408.1
    Accession Version XM_006795408.1 Latest version! Documents for ORF clone product in default vector
    Sequence Information ORF Nucleotide Sequence (Length: 5886bp)
    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 2014-02-09
    Organism Neolamprologus brichardi
    Product Down syndrome cell adhesion molecule-like protein 1 homolog isoform X1
    Comment Comment: MODEL REFSEQ: This record is predicted by automated computational analysis. This record is derived from a genomic sequence (NW_006272038.1) annotated using gene prediction method: Gnomon. Also see: Documentation of NCBI's Annotation Process ##Genome-Annotation-Data-START## Annotation Provider :: NCBI Annotation Status :: Full annotation Annotation Version :: Neolamprologus brichardi Annotation Release 100 Annotation Pipeline :: NCBI eukaryotic genome annotation pipeline Annotation Software Version :: 5.2 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
    ATGCGGGGTA ATGTTGCCGT GTTCAAGTGC CTCATCCCCT CAGCTGTCCA GGAGTATGTC 
    AGCGTTGTTT CCTGGGAGAA AGACACCGTC GCCATTGTCC CTGGCAATCG ATTCTTCCTG
    ACCTCATTTG GCGCGCTGTA CATCTCAGAA GTGCAGAAGG AAGATGCCCT TTCCACCTAC
    CGCTGCATCA CAAAGCACAA GTACAGTGGA GAGACTCGTC AGAGCAACGG AGCCAGGCTC
    TCTGTTTTGG ACCCTACGGA GTCCACCCCG TCAGTGCTGG ACAGTTTCCA GTCCGGTGAG
    GTGCAGGTGG GGCATAATGT GGAGCTGCCC TGCATCGCCT CTGGATATCC AAACCCGACC
    ATCCGCTGGC TAAAGGATGG TCGACCATTA CCAGCAGACT CGCGCTGGAC ACGGCGCATC
    ACTGGTCTCA CCATTTCAGA CTTGAGACTC GAGGATAGCG GCAACTACAT CTGTGAGGTC
    ACCAACAGCT TTGGCTCCAA AGAGGTGACG GGTCACCTCA ACGTGATAGA GCCACTGCGG
    GTCACCTTGT CTCCCAAAAA TCTGAAGACA GGGATCAGCA GTACAGTCAT CCTCTCCTGT
    GCTGTTCAAG GTTCTCCTCA CTATATGGTG TCCTGGTACC GCAACACAGA ACCTGTTTTG
    CCTGATCAGC ACTTTTCCAT CCAGGGTGCT CACAATGAGA CACTGTTCAT TTCTGCTGCA
    CAAAAAAGAC ACTCGGGTGC TTACCAGTGC TTTGCCACAC GCAAAGGCCA GACTGCCCAG
    GACTTCTCCA TCATTCTCCT AGAAGATGGC ACACCCCGTA TTGTTGCCTC CTTCAGTGAG
    AGGGTGGTTG TCCCGGGTGA ACCGTTTTCC CTGATGTGTG CTGCCAAAGG AGCGCCTCCA
    CCCACTATCA CCTGGACCTT GGACGACGAG CCCGTGGCCA GAGATCTGTC GCGTGTCAGA
    GCCAGTCAGT ACACCCTGTC TGACGGCAGC ACCGTGAGCC ACGTGAATGT CAGCAACCCA
    CAGATTCGTG ATGGTGGAGT GTATCGGTGC GCCGCACGAA ACTCAGCCGG TAGTGCTGAG
    TACCAAGCGC GCATAAACGT AAGAGGTCCT CCAAGGATTC GGCCAATGAA GAATATCACC
    GCCGTAGCAG GAAGAAACAC TTTCATAAAC TGCCGTGTGA TTGGGTACCC TTATTACTCA
    ATAAACTGGT ACAAGGAGGG ACTTCTACTG CCTGACAACC ATCGCCAGGT GGTGTATGAG
    AACGGGACTC TAAAGCTCAG CGATGTTCAG AAAGGGATGG ACGAGGGGGC CTATGTCTGT
    AGCGTGCTCA TCCAACCGCA GCTCTTTATC ACACAGACTG TTTATGTTAC TGTCAAAGTT
    CCTCCACTGA TCCAGCCATT TGACTTTCCT CCGACTTCCA TCGGTAAATT GATGTACATT
    GCCTGCGTGG TGTCGTCTGG GGACATGCCC ATACGCATCA CATGGCGCAA GGACGGCCAG
    GAGATCGTTC CCTCTTCGGG CATCACTATC GACACGAAGG AGTTCATGAG CTCCCTCCAG
    ATATCCAAGG TGTCGCTCAA GCACAATGGC AACTACACCT GCATTGCCAG CAATGATGCT
    GCCACTGTCA GCACAGAGAG GCAGCTCACG GTTACAGTGC CTCCTCGGTT TGTGGTGCAG
    CCCAATAACC AGGATGGGAT CTATGGGAAG TCAGCTATCC TGAACTGTTC TGTTGATGGA
    TACCCTCCTC CTAAGGTCAT GTGGAAGCAT GCCAAAGGTG CATTAGCGGG TATTGGGAAC
    CCACAGCAGT ACCACCCTGT GCCTCTGACG GGCCGTATTC AGATCATGAA TAATGGCTCT
    TTACTTATCA GACATGTCCT GGAAGAGGAT CGGGGCTTCT ACCTCTGTCA GGCCTCCAAC
    GGCGTGGGCT CAGACATCAG CAAAAGCATG GTCCTCACAG TTAAGATCCC AGCAATGATC
    ACCAGTCACC CCAACACCAC CATGGCTAAG AAGGGTCACT TGAAGGAGTT GAACTGCACA
    GCCAGGGGAG AATGGCCCAT CATTATCCGC TGGGAAAGGG GTGACACCGT CATCGACCCT
    GATCGCAACC CCCGATACTC CATTACCACC AGTCCCAATG AAAAGACTGA TGAGGTGCTG
    TCAACACTCA AGCTCAAGCC AGCAGAGCGT GAGGATTCAG TCTTCTTCTC TTGTCATGCC
    ATCAACTCTT ACGGAGAGGG ACGAGGCCTT ATCCAGCTCA CTGTGCAAGA GCCTCCAGAC
    CCTCCAGAGC TAGAGGTGCG AGAAGTGAAA GATCGTAGCA TGAATCTCAG GTGGACACAG
    AGATTTGATG GGAACAGCGT AATTACATCA TACGATATCG AATACAAGAA CAAAACAGAT
    TCCTGGGAAC TAAAGCATGC CACCCGAAAT ATCTCTCCAA CCAACAACCA GGCCAACATA
    GTGGATCTTC ATCCTGCATC TGTCTACAGT ATCCGCATGT ACTCCTACAA TGCTATAGGG
    AAGAGCGAGG CTAGTAAGGA ACTCACTATC AGCACAGAGG AAGCACAGCC TGATGGTCCT
    CCAATGGATG TCATCCTGCA GCCTGTGACA TCTCAGAGTA TCAGGGTCAC ATGGAAGGCT
    CCAAGGAAGG AGCTGCAGAA CGGTGTCATC CGCGGTTACC AAATCGGTTA CAGAGAAAAT
    GGCCCAGGTA GTAATGGCCA GTACAGCATC GTGGAGATGA AGGCCACTGG AGACAGTGAG
    GTCTACACAC TGGACAACCT GAAGAAGTTT GCCCAGTATG GTGTGGTTGT CCAAGCTTTC
    AACAGAGCAG GCACAGGACC TTCCAGCTCA GAGATCAATG CTACAACACT AGAAGACGTA
    CCCAGTCAGC CTCCTCAGAA TGTGCGAGCC ATCTCTGTAA CATCTGACGA AGCAGTTATC
    ACATGGGCTG AACCTCCAAG ACTGACACTT CACGGTGTAT TGAAGGGATA TCGTGTTGTT
    TTTTGGGCTG TTTTCCCAGA TGGAGAGTGG GGGGAAATGC AGAACATCAC AACCACCAAA
    GAGCAAGTGG AGCTGAGAGG CCTCGAAAAG TTTACTAACT ACAGCATCCA AGTGCTGGCC
    TACACCCAGG CTGGGGATGG CGTCCGGAGC AACGTCCTTT ATATCCAAAC CCGTGAAGAC
    TACCCTGGAC CCCCAGCTGG CATCAAAGCT GTGCCCTCCT CTGCCAGCAG TGTCGTAGTG
    TCGTGGTTGC CCCCTCACAA GCCAAATGGA ATCATCCGCA AGTACACCAT TTACTGCTCC
    AGCCCCGGGT CAGGCCAACC GCTGCCAAGT GAGTATGAAG CTAATCCAGA GCTGCTGTTT
    TATCGAATCA CACACCTCAA CCACCGCCAG CAGTACCTGA TCTGGGCTGC AGCCGTCACC
    ACTGCAGGCC GAGGTAACTT CAGCGAAAAG GTCACTGTGG AGCCAGCAGC CAAAGCCCCA
    GCTAAAATCC TCTCATTTGG CGGTACCGTG ACCACTCCCT GGATGAAAGA GGTGCGACTG
    CCCTGTAGCT CAGTAGGAGA ACCTACACCT ACCATAAAAT GGACCAAAGA CAGTGAGGAC
    ACAGCCATAC CAGTTTCTCT AGATGGGCAG CGTCTCATTT TGGCTAATGG GACTCTGGTG
    CTGCGCTCTG TCAAAGCTGA GGATTCTGGT TACTACACCT GCACAGCCAC AAACACACTT
    GGCTTTGACA CTATTATAGT CAACCTTTTG GTGCAAGTAC CTCCAGATCA GCCACGTCTA
    ACCGTCTCTA CCACCTCCAC CTCCTCCATC ACTCTGGCTT GGATACCAGG AGACAATGGC
    GGCAGCTCTA TAAGAGGTTT TGTTCTGCAG TACTCTGTAG ACAACACAGA GGAATGGAAA
    GATGTTTTCA TCAGTTCTAG CGAGCGCTCT TTCAAATTGG ACAACCTGCG CTGTGGGACC
    TGGTACAAAG TCAAGCTGGC TGCCAAGAAC AGCGTTGGTG CTGGACGTAT CAGCGAGATC
    ATTGAGGCAA AGACTCACGG GCGAGAACCC CAGTTCAACA AAGACCAGCC TGTCTTCACC
    CACATTAACT CTAGCCATGC TCGCCTCAAC TTGCAAGGCT GGGCCAGTGG AGGCTGTCCA
    ATCACAGCTG TCACGCTAGA ATTTAGACCG AAAGGCACTT GGACATGGCA GAACGTGCGC
    ACCAATGCCA CCACAGATGT GTTCCTGGCA GAGCTGCGTG AGGCCACCTG GTATGAGTTA
    AAGATGAAAG CTTGTAACAG TGCTGGCTGT GGTAACCAGA GCTCCCAGTT TGCCACTCTA
    GACTATGATG GCAGCACAAT ACCGCCAATT AAATCCCCTC TGGAGAAGAA CGACGATGTC
    AAGAAGCTGT TTTCTATTGG CTGTCCTGTG ATCTTGGTCA CACTTGGTGT TGCGTTGCTC
    TTCATCATTC GCAAGAAACG CAAAGAAAAG AGACTAAAGA GACTGAGAGA TGCCAAAAGC
    TTAGCAGAGA TGCTGATCAG TAAAAACAAC CGCAGTTTCG ACACCCCGGT TAAAGGGCCT
    CCTCAGGGCC CACGGCTACA CATCGACATC CCCAGAGTCC AGCTGCTAAT TGAGGACAAA
    GAAGGCATCA AGCAAATCGG TGAGGACAAG GCCACTATCC CTGTGACAGA CACAGAGTTT
    AACCAAACTG GGAACCCTCA GAGCTTTTGC ACTGGTGTGT CTGTCCATCA TCCTGCCCTC
    ATCCAGAACA CTGGCCCTTT GATTGACATG TCTGACATCC GGCCAGGAAC CAATCCAGTG
    TCAAGGAAGA GTGTTAAGTC AGCCCACAGC ATCAGGAACC GCTACTCTAG TCAGTGGACT
    CTGACCAAGT GCCAGGCCTC TACGCCAGCC CGTACTCTCA CCTCAGACTG GCGCACAGTT
    GGCTCCCAGC ATGGCATCAC TGTCACAGAG AGTGACAGCT ACAGTGCCAG CCTCTCACAG
    GACACAGATA AAGGGCGCAA CAGCATGGTG TCAACAGAGA GCGCCTCCTC CACCTACGAG
    GAGCTGGCAA GAGCATATGA GCATGCCAAG CTGGAGGAAC ACCTGCAACA TGCTAAATTT
    GAGATTACAG AGTGCTTTAT TTCTGACAGC TCATCTGATC AGATGACTAC AGGTACCAAC
    GACAATGCAG ACAGCATGAC GTCCATGAGC ACACCGTCAG AGCCCGGCAT CTGCCGTTTT
    ACTGCCTCGC CACCTAAACC CCAAGACTAT GACCGTGGCA AGAATGTAGC TGTTCCCATT
    CCGCATCGCG CCAAGAGTGA CTACTGCAAC CTACCCCTCT ACATGAAGTC AGATCCCTTT
    TTTCGAAAGC AGGCAGAGCG TCATGACCCG TGTCCAGTGG TCCCACCACG TGAAGCCTCT
    ATTCGTGGCC TGGCCCAACG TGCATACCAC ACCCAGGGCC GTCATGTGAC TATGGACTCT
    GCAAAACAGC AGGCCCTAAC CATGGGCCAC TCTGGTCTGT CCAATCTCAC ATCCTCTGGG
    GCTTCCTCGG GAGGGGCAAC AGGAGGCGGT GGTTGTGGCA GTGGGAGTGG AGGGGCATCT
    GCTAGCTCTA GCAGCTCCAC ACTTCCCCAG AGGACTCTCA CAATGCCTGG CTCCTCTGCT
    GCAGGAGCCC AGAGTGCAGC GGCAGCTGCT GCTTCTGCTG CGGCTTCTGG GGCATCATCA
    TCCTCCGGTG GAGGTGGGGC AGTAGGGGCC ACAGGAGGGA CCCCTGGAGG TGCCTCTTCA
    TCTTCCTCCA AGATGGGAGG ATCCAGAGAC TCTCTCCTGG AGAGCAGCTC CTCGGGCTTA
    GGCAGACTAC AGAAGCAAAG GGATGGAGGG GCGGGGGCCT ACTCCAAGTC CTACACACTG
    GTGTAG

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

    RefSeq XP_006795471.1
    CDS47..5932
    Translation

    Target ORF information:

    RefSeq Version XM_006795408.1
    Organism Neolamprologus brichardi
    Definition Neolamprologus brichardi Down syndrome cell adhesion molecule-like protein 1 homolog (LOC102780035), transcript variant X1, mRNA.

    Target ORF information:

    Epitope DYKDDDDK
    Bacterial selection AMPR
    Mammalian selection NeoR
    Vector pcDNA3.1+/C-(K)DYK
    XM_006795408.1

    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
    ATGCGGGGTA ATGTTGCCGT GTTCAAGTGC CTCATCCCCT CAGCTGTCCA GGAGTATGTC 
    AGCGTTGTTT CCTGGGAGAA AGACACCGTC GCCATTGTCC CTGGCAATCG ATTCTTCCTG
    ACCTCATTTG GCGCGCTGTA CATCTCAGAA GTGCAGAAGG AAGATGCCCT TTCCACCTAC
    CGCTGCATCA CAAAGCACAA GTACAGTGGA GAGACTCGTC AGAGCAACGG AGCCAGGCTC
    TCTGTTTTGG ACCCTACGGA GTCCACCCCG TCAGTGCTGG ACAGTTTCCA GTCCGGTGAG
    GTGCAGGTGG GGCATAATGT GGAGCTGCCC TGCATCGCCT CTGGATATCC AAACCCGACC
    ATCCGCTGGC TAAAGGATGG TCGACCATTA CCAGCAGACT CGCGCTGGAC ACGGCGCATC
    ACTGGTCTCA CCATTTCAGA CTTGAGACTC GAGGATAGCG GCAACTACAT CTGTGAGGTC
    ACCAACAGCT TTGGCTCCAA AGAGGTGACG GGTCACCTCA ACGTGATAGA GCCACTGCGG
    GTCACCTTGT CTCCCAAAAA TCTGAAGACA GGGATCAGCA GTACAGTCAT CCTCTCCTGT
    GCTGTTCAAG GTTCTCCTCA CTATATGGTG TCCTGGTACC GCAACACAGA ACCTGTTTTG
    CCTGATCAGC ACTTTTCCAT CCAGGGTGCT CACAATGAGA CACTGTTCAT TTCTGCTGCA
    CAAAAAAGAC ACTCGGGTGC TTACCAGTGC TTTGCCACAC GCAAAGGCCA GACTGCCCAG
    GACTTCTCCA TCATTCTCCT AGAAGATGGC ACACCCCGTA TTGTTGCCTC CTTCAGTGAG
    AGGGTGGTTG TCCCGGGTGA ACCGTTTTCC CTGATGTGTG CTGCCAAAGG AGCGCCTCCA
    CCCACTATCA CCTGGACCTT GGACGACGAG CCCGTGGCCA GAGATCTGTC GCGTGTCAGA
    GCCAGTCAGT ACACCCTGTC TGACGGCAGC ACCGTGAGCC ACGTGAATGT CAGCAACCCA
    CAGATTCGTG ATGGTGGAGT GTATCGGTGC GCCGCACGAA ACTCAGCCGG TAGTGCTGAG
    TACCAAGCGC GCATAAACGT AAGAGGTCCT CCAAGGATTC GGCCAATGAA GAATATCACC
    GCCGTAGCAG GAAGAAACAC TTTCATAAAC TGCCGTGTGA TTGGGTACCC TTATTACTCA
    ATAAACTGGT ACAAGGAGGG ACTTCTACTG CCTGACAACC ATCGCCAGGT GGTGTATGAG
    AACGGGACTC TAAAGCTCAG CGATGTTCAG AAAGGGATGG ACGAGGGGGC CTATGTCTGT
    AGCGTGCTCA TCCAACCGCA GCTCTTTATC ACACAGACTG TTTATGTTAC TGTCAAAGTT
    CCTCCACTGA TCCAGCCATT TGACTTTCCT CCGACTTCCA TCGGTAAATT GATGTACATT
    GCCTGCGTGG TGTCGTCTGG GGACATGCCC ATACGCATCA CATGGCGCAA GGACGGCCAG
    GAGATCGTTC CCTCTTCGGG CATCACTATC GACACGAAGG AGTTCATGAG CTCCCTCCAG
    ATATCCAAGG TGTCGCTCAA GCACAATGGC AACTACACCT GCATTGCCAG CAATGATGCT
    GCCACTGTCA GCACAGAGAG GCAGCTCACG GTTACAGTGC CTCCTCGGTT TGTGGTGCAG
    CCCAATAACC AGGATGGGAT CTATGGGAAG TCAGCTATCC TGAACTGTTC TGTTGATGGA
    TACCCTCCTC CTAAGGTCAT GTGGAAGCAT GCCAAAGGTG CATTAGCGGG TATTGGGAAC
    CCACAGCAGT ACCACCCTGT GCCTCTGACG GGCCGTATTC AGATCATGAA TAATGGCTCT
    TTACTTATCA GACATGTCCT GGAAGAGGAT CGGGGCTTCT ACCTCTGTCA GGCCTCCAAC
    GGCGTGGGCT CAGACATCAG CAAAAGCATG GTCCTCACAG TTAAGATCCC AGCAATGATC
    ACCAGTCACC CCAACACCAC CATGGCTAAG AAGGGTCACT TGAAGGAGTT GAACTGCACA
    GCCAGGGGAG AATGGCCCAT CATTATCCGC TGGGAAAGGG GTGACACCGT CATCGACCCT
    GATCGCAACC CCCGATACTC CATTACCACC AGTCCCAATG AAAAGACTGA TGAGGTGCTG
    TCAACACTCA AGCTCAAGCC AGCAGAGCGT GAGGATTCAG TCTTCTTCTC TTGTCATGCC
    ATCAACTCTT ACGGAGAGGG ACGAGGCCTT ATCCAGCTCA CTGTGCAAGA GCCTCCAGAC
    CCTCCAGAGC TAGAGGTGCG AGAAGTGAAA GATCGTAGCA TGAATCTCAG GTGGACACAG
    AGATTTGATG GGAACAGCGT AATTACATCA TACGATATCG AATACAAGAA CAAAACAGAT
    TCCTGGGAAC TAAAGCATGC CACCCGAAAT ATCTCTCCAA CCAACAACCA GGCCAACATA
    GTGGATCTTC ATCCTGCATC TGTCTACAGT ATCCGCATGT ACTCCTACAA TGCTATAGGG
    AAGAGCGAGG CTAGTAAGGA ACTCACTATC AGCACAGAGG AAGCACAGCC TGATGGTCCT
    CCAATGGATG TCATCCTGCA GCCTGTGACA TCTCAGAGTA TCAGGGTCAC ATGGAAGGCT
    CCAAGGAAGG AGCTGCAGAA CGGTGTCATC CGCGGTTACC AAATCGGTTA CAGAGAAAAT
    GGCCCAGGTA GTAATGGCCA GTACAGCATC GTGGAGATGA AGGCCACTGG AGACAGTGAG
    GTCTACACAC TGGACAACCT GAAGAAGTTT GCCCAGTATG GTGTGGTTGT CCAAGCTTTC
    AACAGAGCAG GCACAGGACC TTCCAGCTCA GAGATCAATG CTACAACACT AGAAGACGTA
    CCCAGTCAGC CTCCTCAGAA TGTGCGAGCC ATCTCTGTAA CATCTGACGA AGCAGTTATC
    ACATGGGCTG AACCTCCAAG ACTGACACTT CACGGTGTAT TGAAGGGATA TCGTGTTGTT
    TTTTGGGCTG TTTTCCCAGA TGGAGAGTGG GGGGAAATGC AGAACATCAC AACCACCAAA
    GAGCAAGTGG AGCTGAGAGG CCTCGAAAAG TTTACTAACT ACAGCATCCA AGTGCTGGCC
    TACACCCAGG CTGGGGATGG CGTCCGGAGC AACGTCCTTT ATATCCAAAC CCGTGAAGAC
    TACCCTGGAC CCCCAGCTGG CATCAAAGCT GTGCCCTCCT CTGCCAGCAG TGTCGTAGTG
    TCGTGGTTGC CCCCTCACAA GCCAAATGGA ATCATCCGCA AGTACACCAT TTACTGCTCC
    AGCCCCGGGT CAGGCCAACC GCTGCCAAGT GAGTATGAAG CTAATCCAGA GCTGCTGTTT
    TATCGAATCA CACACCTCAA CCACCGCCAG CAGTACCTGA TCTGGGCTGC AGCCGTCACC
    ACTGCAGGCC GAGGTAACTT CAGCGAAAAG GTCACTGTGG AGCCAGCAGC CAAAGCCCCA
    GCTAAAATCC TCTCATTTGG CGGTACCGTG ACCACTCCCT GGATGAAAGA GGTGCGACTG
    CCCTGTAGCT CAGTAGGAGA ACCTACACCT ACCATAAAAT GGACCAAAGA CAGTGAGGAC
    ACAGCCATAC CAGTTTCTCT AGATGGGCAG CGTCTCATTT TGGCTAATGG GACTCTGGTG
    CTGCGCTCTG TCAAAGCTGA GGATTCTGGT TACTACACCT GCACAGCCAC AAACACACTT
    GGCTTTGACA CTATTATAGT CAACCTTTTG GTGCAAGTAC CTCCAGATCA GCCACGTCTA
    ACCGTCTCTA CCACCTCCAC CTCCTCCATC ACTCTGGCTT GGATACCAGG AGACAATGGC
    GGCAGCTCTA TAAGAGGTTT TGTTCTGCAG TACTCTGTAG ACAACACAGA GGAATGGAAA
    GATGTTTTCA TCAGTTCTAG CGAGCGCTCT TTCAAATTGG ACAACCTGCG CTGTGGGACC
    TGGTACAAAG TCAAGCTGGC TGCCAAGAAC AGCGTTGGTG CTGGACGTAT CAGCGAGATC
    ATTGAGGCAA AGACTCACGG GCGAGAACCC CAGTTCAACA AAGACCAGCC TGTCTTCACC
    CACATTAACT CTAGCCATGC TCGCCTCAAC TTGCAAGGCT GGGCCAGTGG AGGCTGTCCA
    ATCACAGCTG TCACGCTAGA ATTTAGACCG AAAGGCACTT GGACATGGCA GAACGTGCGC
    ACCAATGCCA CCACAGATGT GTTCCTGGCA GAGCTGCGTG AGGCCACCTG GTATGAGTTA
    AAGATGAAAG CTTGTAACAG TGCTGGCTGT GGTAACCAGA GCTCCCAGTT TGCCACTCTA
    GACTATGATG GCAGCACAAT ACCGCCAATT AAATCCCCTC TGGAGAAGAA CGACGATGTC
    AAGAAGCTGT TTTCTATTGG CTGTCCTGTG ATCTTGGTCA CACTTGGTGT TGCGTTGCTC
    TTCATCATTC GCAAGAAACG CAAAGAAAAG AGACTAAAGA GACTGAGAGA TGCCAAAAGC
    TTAGCAGAGA TGCTGATCAG TAAAAACAAC CGCAGTTTCG ACACCCCGGT TAAAGGGCCT
    CCTCAGGGCC CACGGCTACA CATCGACATC CCCAGAGTCC AGCTGCTAAT TGAGGACAAA
    GAAGGCATCA AGCAAATCGG TGAGGACAAG GCCACTATCC CTGTGACAGA CACAGAGTTT
    AACCAAACTG GGAACCCTCA GAGCTTTTGC ACTGGTGTGT CTGTCCATCA TCCTGCCCTC
    ATCCAGAACA CTGGCCCTTT GATTGACATG TCTGACATCC GGCCAGGAAC CAATCCAGTG
    TCAAGGAAGA GTGTTAAGTC AGCCCACAGC ATCAGGAACC GCTACTCTAG TCAGTGGACT
    CTGACCAAGT GCCAGGCCTC TACGCCAGCC CGTACTCTCA CCTCAGACTG GCGCACAGTT
    GGCTCCCAGC ATGGCATCAC TGTCACAGAG AGTGACAGCT ACAGTGCCAG CCTCTCACAG
    GACACAGATA AAGGGCGCAA CAGCATGGTG TCAACAGAGA GCGCCTCCTC CACCTACGAG
    GAGCTGGCAA GAGCATATGA GCATGCCAAG CTGGAGGAAC ACCTGCAACA TGCTAAATTT
    GAGATTACAG AGTGCTTTAT TTCTGACAGC TCATCTGATC AGATGACTAC AGGTACCAAC
    GACAATGCAG ACAGCATGAC GTCCATGAGC ACACCGTCAG AGCCCGGCAT CTGCCGTTTT
    ACTGCCTCGC CACCTAAACC CCAAGACTAT GACCGTGGCA AGAATGTAGC TGTTCCCATT
    CCGCATCGCG CCAAGAGTGA CTACTGCAAC CTACCCCTCT ACATGAAGTC AGATCCCTTT
    TTTCGAAAGC AGGCAGAGCG TCATGACCCG TGTCCAGTGG TCCCACCACG TGAAGCCTCT
    ATTCGTGGCC TGGCCCAACG TGCATACCAC ACCCAGGGCC GTCATGTGAC TATGGACTCT
    GCAAAACAGC AGGCCCTAAC CATGGGCCAC TCTGGTCTGT CCAATCTCAC ATCCTCTGGG
    GCTTCCTCGG GAGGGGCAAC AGGAGGCGGT GGTTGTGGCA GTGGGAGTGG AGGGGCATCT
    GCTAGCTCTA GCAGCTCCAC ACTTCCCCAG AGGACTCTCA CAATGCCTGG CTCCTCTGCT
    GCAGGAGCCC AGAGTGCAGC GGCAGCTGCT GCTTCTGCTG CGGCTTCTGG GGCATCATCA
    TCCTCCGGTG GAGGTGGGGC AGTAGGGGCC ACAGGAGGGA CCCCTGGAGG TGCCTCTTCA
    TCTTCCTCCA AGATGGGAGG ATCCAGAGAC TCTCTCCTGG AGAGCAGCTC CTCGGGCTTA
    GGCAGACTAC AGAAGCAAAG GGATGGAGGG GCGGGGGCCT ACTCCAAGTC CTACACACTG
    GTGTAG

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

    CloneID ONe76605
    Clone ID Related Accession (Same CDS sequence) XM_006795409.1
    Accession Version XM_006795409.1 Latest version! Documents for ORF clone product in default vector
    Sequence Information ORF Nucleotide Sequence (Length: 4761bp)
    Protein sequence
    SNP
    Vector pcDNA3.1-C-(k)DYK or customized vector User Manual
    Clone information Clone Map MSDS
    Tag on pcDNA3.1+/C-(K)DYK C terminal DYKDDDDK tags
    ORF Insert Method CloneEZ™ Seamless cloning technology
    Insert Structure linear
    Update Date 2014-02-09
    Organism Neolamprologus brichardi
    Product Down syndrome cell adhesion molecule-like protein 1 homolog isoform X2
    Comment Comment: MODEL REFSEQ: This record is predicted by automated computational analysis. This record is derived from a genomic sequence (NW_006272038.1) annotated using gene prediction method: Gnomon. Also see: Documentation of NCBI's Annotation Process ##Genome-Annotation-Data-START## Annotation Provider :: NCBI Annotation Status :: Full annotation Annotation Version :: Neolamprologus brichardi Annotation Release 100 Annotation Pipeline :: NCBI eukaryotic genome annotation pipeline Annotation Software Version :: 5.2 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
    ATGAAGAATA TCACCGCCGT AGCAGGAAGA AACACTTTCA TAAACTGCCG TGTGATTGGG 
    TACCCTTATT ACTCAATAAA CTGGTACAAG GAGGGACTTC TACTGCCTGA CAACCATCGC
    CAGGTGGTGT ATGAGAACGG GACTCTAAAG CTCAGCGATG TTCAGAAAGG GATGGACGAG
    GGGGCCTATG TCTGTAGCGT GCTCATCCAA CCGCAGCTCT TTATCACACA GACTGTTTAT
    GTTACTGTCA AAGTTCCTCC ACTGATCCAG CCATTTGACT TTCCTCCGAC TTCCATCGGT
    AAATTGATGT ACATTGCCTG CGTGGTGTCG TCTGGGGACA TGCCCATACG CATCACATGG
    CGCAAGGACG GCCAGGAGAT CGTTCCCTCT TCGGGCATCA CTATCGACAC GAAGGAGTTC
    ATGAGCTCCC TCCAGATATC CAAGGTGTCG CTCAAGCACA ATGGCAACTA CACCTGCATT
    GCCAGCAATG ATGCTGCCAC TGTCAGCACA GAGAGGCAGC TCACGGTTAC AGTGCCTCCT
    CGGTTTGTGG TGCAGCCCAA TAACCAGGAT GGGATCTATG GGAAGTCAGC TATCCTGAAC
    TGTTCTGTTG ATGGATACCC TCCTCCTAAG GTCATGTGGA AGCATGCCAA AGGTGCATTA
    GCGGGTATTG GGAACCCACA GCAGTACCAC CCTGTGCCTC TGACGGGCCG TATTCAGATC
    ATGAATAATG GCTCTTTACT TATCAGACAT GTCCTGGAAG AGGATCGGGG CTTCTACCTC
    TGTCAGGCCT CCAACGGCGT GGGCTCAGAC ATCAGCAAAA GCATGGTCCT CACAGTTAAG
    ATCCCAGCAA TGATCACCAG TCACCCCAAC ACCACCATGG CTAAGAAGGG TCACTTGAAG
    GAGTTGAACT GCACAGCCAG GGGAGAATGG CCCATCATTA TCCGCTGGGA AAGGGGTGAC
    ACCGTCATCG ACCCTGATCG CAACCCCCGA TACTCCATTA CCACCAGTCC CAATGAAAAG
    ACTGATGAGG TGCTGTCAAC ACTCAAGCTC AAGCCAGCAG AGCGTGAGGA TTCAGTCTTC
    TTCTCTTGTC ATGCCATCAA CTCTTACGGA GAGGGACGAG GCCTTATCCA GCTCACTGTG
    CAAGAGCCTC CAGACCCTCC AGAGCTAGAG GTGCGAGAAG TGAAAGATCG TAGCATGAAT
    CTCAGGTGGA CACAGAGATT TGATGGGAAC AGCGTAATTA CATCATACGA TATCGAATAC
    AAGAACAAAA CAGATTCCTG GGAACTAAAG CATGCCACCC GAAATATCTC TCCAACCAAC
    AACCAGGCCA ACATAGTGGA TCTTCATCCT GCATCTGTCT ACAGTATCCG CATGTACTCC
    TACAATGCTA TAGGGAAGAG CGAGGCTAGT AAGGAACTCA CTATCAGCAC AGAGGAAGCA
    CAGCCTGATG GTCCTCCAAT GGATGTCATC CTGCAGCCTG TGACATCTCA GAGTATCAGG
    GTCACATGGA AGGCTCCAAG GAAGGAGCTG CAGAACGGTG TCATCCGCGG TTACCAAATC
    GGTTACAGAG AAAATGGCCC AGGTAGTAAT GGCCAGTACA GCATCGTGGA GATGAAGGCC
    ACTGGAGACA GTGAGGTCTA CACACTGGAC AACCTGAAGA AGTTTGCCCA GTATGGTGTG
    GTTGTCCAAG CTTTCAACAG AGCAGGCACA GGACCTTCCA GCTCAGAGAT CAATGCTACA
    ACACTAGAAG ACGTACCCAG TCAGCCTCCT CAGAATGTGC GAGCCATCTC TGTAACATCT
    GACGAAGCAG TTATCACATG GGCTGAACCT CCAAGACTGA CACTTCACGG TGTATTGAAG
    GGATATCGTG TTGTTTTTTG GGCTGTTTTC CCAGATGGAG AGTGGGGGGA AATGCAGAAC
    ATCACAACCA CCAAAGAGCA AGTGGAGCTG AGAGGCCTCG AAAAGTTTAC TAACTACAGC
    ATCCAAGTGC TGGCCTACAC CCAGGCTGGG GATGGCGTCC GGAGCAACGT CCTTTATATC
    CAAACCCGTG AAGACTACCC TGGACCCCCA GCTGGCATCA AAGCTGTGCC CTCCTCTGCC
    AGCAGTGTCG TAGTGTCGTG GTTGCCCCCT CACAAGCCAA ATGGAATCAT CCGCAAGTAC
    ACCATTTACT GCTCCAGCCC CGGGTCAGGC CAACCGCTGC CAAGTGAGTA TGAAGCTAAT
    CCAGAGCTGC TGTTTTATCG AATCACACAC CTCAACCACC GCCAGCAGTA CCTGATCTGG
    GCTGCAGCCG TCACCACTGC AGGCCGAGGT AACTTCAGCG AAAAGGTCAC TGTGGAGCCA
    GCAGCCAAAG CCCCAGCTAA AATCCTCTCA TTTGGCGGTA CCGTGACCAC TCCCTGGATG
    AAAGAGGTGC GACTGCCCTG TAGCTCAGTA GGAGAACCTA CACCTACCAT AAAATGGACC
    AAAGACAGTG AGGACACAGC CATACCAGTT TCTCTAGATG GGCAGCGTCT CATTTTGGCT
    AATGGGACTC TGGTGCTGCG CTCTGTCAAA GCTGAGGATT CTGGTTACTA CACCTGCACA
    GCCACAAACA CACTTGGCTT TGACACTATT ATAGTCAACC TTTTGGTGCA AGTACCTCCA
    GATCAGCCAC GTCTAACCGT CTCTACCACC TCCACCTCCT CCATCACTCT GGCTTGGATA
    CCAGGAGACA ATGGCGGCAG CTCTATAAGA GGTTTTGTTC TGCAGTACTC TGTAGACAAC
    ACAGAGGAAT GGAAAGATGT TTTCATCAGT TCTAGCGAGC GCTCTTTCAA ATTGGACAAC
    CTGCGCTGTG GGACCTGGTA CAAAGTCAAG CTGGCTGCCA AGAACAGCGT TGGTGCTGGA
    CGTATCAGCG AGATCATTGA GGCAAAGACT CACGGGCGAG AACCCCAGTT CAACAAAGAC
    CAGCCTGTCT TCACCCACAT TAACTCTAGC CATGCTCGCC TCAACTTGCA AGGCTGGGCC
    AGTGGAGGCT GTCCAATCAC AGCTGTCACG CTAGAATTTA GACCGAAAGG CACTTGGACA
    TGGCAGAACG TGCGCACCAA TGCCACCACA GATGTGTTCC TGGCAGAGCT GCGTGAGGCC
    ACCTGGTATG AGTTAAAGAT GAAAGCTTGT AACAGTGCTG GCTGTGGTAA CCAGAGCTCC
    CAGTTTGCCA CTCTAGACTA TGATGGCAGC ACAATACCGC CAATTAAATC CCCTCTGGAG
    AAGAACGACG ATGTCAAGAA GCTGTTTTCT ATTGGCTGTC CTGTGATCTT GGTCACACTT
    GGTGTTGCGT TGCTCTTCAT CATTCGCAAG AAACGCAAAG AAAAGAGACT AAAGAGACTG
    AGAGATGCCA AAAGCTTAGC AGAGATGCTG ATCAGTAAAA ACAACCGCAG TTTCGACACC
    CCGGTTAAAG GGCCTCCTCA GGGCCCACGG CTACACATCG ACATCCCCAG AGTCCAGCTG
    CTAATTGAGG ACAAAGAAGG CATCAAGCAA ATCGGTGAGG ACAAGGCCAC TATCCCTGTG
    ACAGACACAG AGTTTAACCA AACTGGGAAC CCTCAGAGCT TTTGCACTGG TGTGTCTGTC
    CATCATCCTG CCCTCATCCA GAACACTGGC CCTTTGATTG ACATGTCTGA CATCCGGCCA
    GGAACCAATC CAGTGTCAAG GAAGAGTGTT AAGTCAGCCC ACAGCATCAG GAACCGCTAC
    TCTAGTCAGT GGACTCTGAC CAAGTGCCAG GCCTCTACGC CAGCCCGTAC TCTCACCTCA
    GACTGGCGCA CAGTTGGCTC CCAGCATGGC ATCACTGTCA CAGAGAGTGA CAGCTACAGT
    GCCAGCCTCT CACAGGACAC AGATAAAGGG CGCAACAGCA TGGTGTCAAC AGAGAGCGCC
    TCCTCCACCT ACGAGGAGCT GGCAAGAGCA TATGAGCATG CCAAGCTGGA GGAACACCTG
    CAACATGCTA AATTTGAGAT TACAGAGTGC TTTATTTCTG ACAGCTCATC TGATCAGATG
    ACTACAGGTA CCAACGACAA TGCAGACAGC ATGACGTCCA TGAGCACACC GTCAGAGCCC
    GGCATCTGCC GTTTTACTGC CTCGCCACCT AAACCCCAAG ACTATGACCG TGGCAAGAAT
    GTAGCTGTTC CCATTCCGCA TCGCGCCAAG AGTGACTACT GCAACCTACC CCTCTACATG
    AAGTCAGATC CCTTTTTTCG AAAGCAGGCA GAGCGTCATG ACCCGTGTCC AGTGGTCCCA
    CCACGTGAAG CCTCTATTCG TGGCCTGGCC CAACGTGCAT ACCACACCCA GGGCCGTCAT
    GTGACTATGG ACTCTGCAAA ACAGCAGGCC CTAACCATGG GCCACTCTGG TCTGTCCAAT
    CTCACATCCT CTGGGGCTTC CTCGGGAGGG GCAACAGGAG GCGGTGGTTG TGGCAGTGGG
    AGTGGAGGGG CATCTGCTAG CTCTAGCAGC TCCACACTTC CCCAGAGGAC TCTCACAATG
    CCTGGCTCCT CTGCTGCAGG AGCCCAGAGT GCAGCGGCAG CTGCTGCTTC TGCTGCGGCT
    TCTGGGGCAT CATCATCCTC CGGTGGAGGT GGGGCAGTAG GGGCCACAGG AGGGACCCCT
    GGAGGTGCCT CTTCATCTTC CTCCAAGATG GGAGGATCCA GAGACTCTCT CCTGGAGAGC
    AGCTCCTCGG GCTTAGGCAG ACTACAGAAG CAAAGGGATG GAGGGGCGGG GGCCTACTCC
    AAGTCCTACA CACTGGTGTA G

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

    RefSeq XP_006795472.1
    CDS104..4864
    Translation

    Target ORF information:

    RefSeq Version XM_006795409.1
    Organism Neolamprologus brichardi
    Definition Neolamprologus brichardi Down syndrome cell adhesion molecule-like protein 1 homolog (LOC102780035), transcript variant X2, mRNA.

    Target ORF information:

    Epitope DYKDDDDK
    Bacterial selection AMPR
    Mammalian selection NeoR
    Vector pcDNA3.1+/C-(K)DYK
    XM_006795409.1

    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
    ATGAAGAATA TCACCGCCGT AGCAGGAAGA AACACTTTCA TAAACTGCCG TGTGATTGGG 
    TACCCTTATT ACTCAATAAA CTGGTACAAG GAGGGACTTC TACTGCCTGA CAACCATCGC
    CAGGTGGTGT ATGAGAACGG GACTCTAAAG CTCAGCGATG TTCAGAAAGG GATGGACGAG
    GGGGCCTATG TCTGTAGCGT GCTCATCCAA CCGCAGCTCT TTATCACACA GACTGTTTAT
    GTTACTGTCA AAGTTCCTCC ACTGATCCAG CCATTTGACT TTCCTCCGAC TTCCATCGGT
    AAATTGATGT ACATTGCCTG CGTGGTGTCG TCTGGGGACA TGCCCATACG CATCACATGG
    CGCAAGGACG GCCAGGAGAT CGTTCCCTCT TCGGGCATCA CTATCGACAC GAAGGAGTTC
    ATGAGCTCCC TCCAGATATC CAAGGTGTCG CTCAAGCACA ATGGCAACTA CACCTGCATT
    GCCAGCAATG ATGCTGCCAC TGTCAGCACA GAGAGGCAGC TCACGGTTAC AGTGCCTCCT
    CGGTTTGTGG TGCAGCCCAA TAACCAGGAT GGGATCTATG GGAAGTCAGC TATCCTGAAC
    TGTTCTGTTG ATGGATACCC TCCTCCTAAG GTCATGTGGA AGCATGCCAA AGGTGCATTA
    GCGGGTATTG GGAACCCACA GCAGTACCAC CCTGTGCCTC TGACGGGCCG TATTCAGATC
    ATGAATAATG GCTCTTTACT TATCAGACAT GTCCTGGAAG AGGATCGGGG CTTCTACCTC
    TGTCAGGCCT CCAACGGCGT GGGCTCAGAC ATCAGCAAAA GCATGGTCCT CACAGTTAAG
    ATCCCAGCAA TGATCACCAG TCACCCCAAC ACCACCATGG CTAAGAAGGG TCACTTGAAG
    GAGTTGAACT GCACAGCCAG GGGAGAATGG CCCATCATTA TCCGCTGGGA AAGGGGTGAC
    ACCGTCATCG ACCCTGATCG CAACCCCCGA TACTCCATTA CCACCAGTCC CAATGAAAAG
    ACTGATGAGG TGCTGTCAAC ACTCAAGCTC AAGCCAGCAG AGCGTGAGGA TTCAGTCTTC
    TTCTCTTGTC ATGCCATCAA CTCTTACGGA GAGGGACGAG GCCTTATCCA GCTCACTGTG
    CAAGAGCCTC CAGACCCTCC AGAGCTAGAG GTGCGAGAAG TGAAAGATCG TAGCATGAAT
    CTCAGGTGGA CACAGAGATT TGATGGGAAC AGCGTAATTA CATCATACGA TATCGAATAC
    AAGAACAAAA CAGATTCCTG GGAACTAAAG CATGCCACCC GAAATATCTC TCCAACCAAC
    AACCAGGCCA ACATAGTGGA TCTTCATCCT GCATCTGTCT ACAGTATCCG CATGTACTCC
    TACAATGCTA TAGGGAAGAG CGAGGCTAGT AAGGAACTCA CTATCAGCAC AGAGGAAGCA
    CAGCCTGATG GTCCTCCAAT GGATGTCATC CTGCAGCCTG TGACATCTCA GAGTATCAGG
    GTCACATGGA AGGCTCCAAG GAAGGAGCTG CAGAACGGTG TCATCCGCGG TTACCAAATC
    GGTTACAGAG AAAATGGCCC AGGTAGTAAT GGCCAGTACA GCATCGTGGA GATGAAGGCC
    ACTGGAGACA GTGAGGTCTA CACACTGGAC AACCTGAAGA AGTTTGCCCA GTATGGTGTG
    GTTGTCCAAG CTTTCAACAG AGCAGGCACA GGACCTTCCA GCTCAGAGAT CAATGCTACA
    ACACTAGAAG ACGTACCCAG TCAGCCTCCT CAGAATGTGC GAGCCATCTC TGTAACATCT
    GACGAAGCAG TTATCACATG GGCTGAACCT CCAAGACTGA CACTTCACGG TGTATTGAAG
    GGATATCGTG TTGTTTTTTG GGCTGTTTTC CCAGATGGAG AGTGGGGGGA AATGCAGAAC
    ATCACAACCA CCAAAGAGCA AGTGGAGCTG AGAGGCCTCG AAAAGTTTAC TAACTACAGC
    ATCCAAGTGC TGGCCTACAC CCAGGCTGGG GATGGCGTCC GGAGCAACGT CCTTTATATC
    CAAACCCGTG AAGACTACCC TGGACCCCCA GCTGGCATCA AAGCTGTGCC CTCCTCTGCC
    AGCAGTGTCG TAGTGTCGTG GTTGCCCCCT CACAAGCCAA ATGGAATCAT CCGCAAGTAC
    ACCATTTACT GCTCCAGCCC CGGGTCAGGC CAACCGCTGC CAAGTGAGTA TGAAGCTAAT
    CCAGAGCTGC TGTTTTATCG AATCACACAC CTCAACCACC GCCAGCAGTA CCTGATCTGG
    GCTGCAGCCG TCACCACTGC AGGCCGAGGT AACTTCAGCG AAAAGGTCAC TGTGGAGCCA
    GCAGCCAAAG CCCCAGCTAA AATCCTCTCA TTTGGCGGTA CCGTGACCAC TCCCTGGATG
    AAAGAGGTGC GACTGCCCTG TAGCTCAGTA GGAGAACCTA CACCTACCAT AAAATGGACC
    AAAGACAGTG AGGACACAGC CATACCAGTT TCTCTAGATG GGCAGCGTCT CATTTTGGCT
    AATGGGACTC TGGTGCTGCG CTCTGTCAAA GCTGAGGATT CTGGTTACTA CACCTGCACA
    GCCACAAACA CACTTGGCTT TGACACTATT ATAGTCAACC TTTTGGTGCA AGTACCTCCA
    GATCAGCCAC GTCTAACCGT CTCTACCACC TCCACCTCCT CCATCACTCT GGCTTGGATA
    CCAGGAGACA ATGGCGGCAG CTCTATAAGA GGTTTTGTTC TGCAGTACTC TGTAGACAAC
    ACAGAGGAAT GGAAAGATGT TTTCATCAGT TCTAGCGAGC GCTCTTTCAA ATTGGACAAC
    CTGCGCTGTG GGACCTGGTA CAAAGTCAAG CTGGCTGCCA AGAACAGCGT TGGTGCTGGA
    CGTATCAGCG AGATCATTGA GGCAAAGACT CACGGGCGAG AACCCCAGTT CAACAAAGAC
    CAGCCTGTCT TCACCCACAT TAACTCTAGC CATGCTCGCC TCAACTTGCA AGGCTGGGCC
    AGTGGAGGCT GTCCAATCAC AGCTGTCACG CTAGAATTTA GACCGAAAGG CACTTGGACA
    TGGCAGAACG TGCGCACCAA TGCCACCACA GATGTGTTCC TGGCAGAGCT GCGTGAGGCC
    ACCTGGTATG AGTTAAAGAT GAAAGCTTGT AACAGTGCTG GCTGTGGTAA CCAGAGCTCC
    CAGTTTGCCA CTCTAGACTA TGATGGCAGC ACAATACCGC CAATTAAATC CCCTCTGGAG
    AAGAACGACG ATGTCAAGAA GCTGTTTTCT ATTGGCTGTC CTGTGATCTT GGTCACACTT
    GGTGTTGCGT TGCTCTTCAT CATTCGCAAG AAACGCAAAG AAAAGAGACT AAAGAGACTG
    AGAGATGCCA AAAGCTTAGC AGAGATGCTG ATCAGTAAAA ACAACCGCAG TTTCGACACC
    CCGGTTAAAG GGCCTCCTCA GGGCCCACGG CTACACATCG ACATCCCCAG AGTCCAGCTG
    CTAATTGAGG ACAAAGAAGG CATCAAGCAA ATCGGTGAGG ACAAGGCCAC TATCCCTGTG
    ACAGACACAG AGTTTAACCA AACTGGGAAC CCTCAGAGCT TTTGCACTGG TGTGTCTGTC
    CATCATCCTG CCCTCATCCA GAACACTGGC CCTTTGATTG ACATGTCTGA CATCCGGCCA
    GGAACCAATC CAGTGTCAAG GAAGAGTGTT AAGTCAGCCC ACAGCATCAG GAACCGCTAC
    TCTAGTCAGT GGACTCTGAC CAAGTGCCAG GCCTCTACGC CAGCCCGTAC TCTCACCTCA
    GACTGGCGCA CAGTTGGCTC CCAGCATGGC ATCACTGTCA CAGAGAGTGA CAGCTACAGT
    GCCAGCCTCT CACAGGACAC AGATAAAGGG CGCAACAGCA TGGTGTCAAC AGAGAGCGCC
    TCCTCCACCT ACGAGGAGCT GGCAAGAGCA TATGAGCATG CCAAGCTGGA GGAACACCTG
    CAACATGCTA AATTTGAGAT TACAGAGTGC TTTATTTCTG ACAGCTCATC TGATCAGATG
    ACTACAGGTA CCAACGACAA TGCAGACAGC ATGACGTCCA TGAGCACACC GTCAGAGCCC
    GGCATCTGCC GTTTTACTGC CTCGCCACCT AAACCCCAAG ACTATGACCG TGGCAAGAAT
    GTAGCTGTTC CCATTCCGCA TCGCGCCAAG AGTGACTACT GCAACCTACC CCTCTACATG
    AAGTCAGATC CCTTTTTTCG AAAGCAGGCA GAGCGTCATG ACCCGTGTCC AGTGGTCCCA
    CCACGTGAAG CCTCTATTCG TGGCCTGGCC CAACGTGCAT ACCACACCCA GGGCCGTCAT
    GTGACTATGG ACTCTGCAAA ACAGCAGGCC CTAACCATGG GCCACTCTGG TCTGTCCAAT
    CTCACATCCT CTGGGGCTTC CTCGGGAGGG GCAACAGGAG GCGGTGGTTG TGGCAGTGGG
    AGTGGAGGGG CATCTGCTAG CTCTAGCAGC TCCACACTTC CCCAGAGGAC TCTCACAATG
    CCTGGCTCCT CTGCTGCAGG AGCCCAGAGT GCAGCGGCAG CTGCTGCTTC TGCTGCGGCT
    TCTGGGGCAT CATCATCCTC CGGTGGAGGT GGGGCAGTAG GGGCCACAGG AGGGACCCCT
    GGAGGTGCCT CTTCATCTTC CTCCAAGATG GGAGGATCCA GAGACTCTCT CCTGGAGAGC
    AGCTCCTCGG GCTTAGGCAG ACTACAGAAG CAAAGGGATG GAGGGGCGGG GGCCTACTCC
    AAGTCCTACA CACTGGTGTA G

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