ORF » Species Summary » Ailuropoda melanoleuca » DSCAML1 cDNA ORF clone

DSCAML1 cDNA ORF clone, Ailuropoda melanoleuca(giant panda)

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
OAc92994 XM_002919499.2
Latest version!		 Ailuropoda melanoleuca DS cell adhesion molecule like 1 (DSCAML1), mRNA. pcDNA3.1-C-(k)DYK or customized vector 24-26 $951.30
$1359.00

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** 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)
    DSCAML1 ( XM_002919499.2 ) cDNA ORF clone, Ailuropoda melanoleuca(giant panda) -> XP_002919545.2 Ailuropoda melanoleuca DS cell adhesion molecule like 1 (DSCAML1), mRNA.
    Price & Availability↑
    CloneID OAc92994
    Clone ID Related Accession (Same CDS sequence) XM_002919499.2
    Accession Version XM_002919499.2 Latest version! Documents for ORF clone product in default vector
    Sequence Information ORF Nucleotide Sequence (Length: 5778bp)
    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 1482768000000
    Organism Ailuropoda melanoleuca(giant panda)
    Product LOW QUALITY PROTEIN: Down syndrome cell adhesion molecule-like protein 1
    Comment Comment: MODEL REFSEQ: This record is predicted by automated computational analysis. This record is derived from a genomic sequence (NW_003217627.1) annotated using gene prediction method: Gnomon. Also see: Documentation of NCBI's Annotation Process On Dec 28, 2016 this sequence version replaced XM_002919499.1. ##Genome-Annotation-Data-START## Annotation Provider :: NCBI Annotation Status :: Full annotation Annotation Version :: Ailuropoda melanoleuca Annotation Release 102 Annotation Pipeline :: NCBI eukaryotic genome annotation pipeline Annotation Software Version :: 7.2 Annotation Method :: Best-placed RefSeq; Gnomon Features Annotated :: Gene; mRNA; CDS; ncRNA ##Genome-Annotation-Data-END## ##RefSeq-Attributes-START## ab initio :: 1% of CDS bases frameshifts :: corrected 1 indel ##RefSeq-Attributes-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
    ATGCCTCCGT TTGCTGCATG TGCACTGAGC ACCTTCTACG TGCCAGCCGT GTTCTGGAGC 
    TGGGATACGA AAATAACTCC TTGCTGTCAG CGAGAAACAC CACGTGCTCT GAAGACAAAC 
    AGGCAGGAAA ACAGGTTTTT TATTACTCAC CACGGCGGGC TGTACATCTC CGACGTGCAG 
    AAGGAGGACG CCCTCTCCAC CTACCGCTGC ATCACCAAGC ACAAGTATAG TGGGGAGACC 
    CGGCAGAGCA ATGGGGCCCG CCTCTCCGTG ACAGACCCTG CCGAGTCAAT CCCTACCATC 
    CTGGACGGCT TCCACTCCCA GGAAGTGTGG GCGGGCCACA CAGTGGAGCT GCCCTGCACG 
    GCCTCCGGCT ACCCCATCCC TGCCATCCGC TGGCTCAAGG ATGGCCGGCC CCTTCCGGCC 
    GACAGTCGCT GGACCAAGCA CATCACGGGG TTGACCATCA GTGACCTGCG GACAGAGGAC 
    AGCGGCGCCT ACATTTGTGA GGTCACCAAC ACCTTCGGCT CTGCAGAGGC CACCGGCACC 
    CTCACAGTCA TCGACCCCCT TCACGTGACC CTGACACCAA AGAAGCTGAA GACCGGGATC 
    GGCAGCACGG TTATCCTCTC CTGTGCCCTG CTGGGCTCCC CGGAATTCAC CCTCCGCTGG 
    TACCGCAACA CTGAGCTGGT GCTGCCCGAC GAGGCCGTCT CCATCCGCGG GCTCAGCAAC 
    GAGACTCTGC TCATCACCTC GGCCCAGAAG AGCCACTCCG GGGCCTACCA GTGCTTTGCC 
    ACCCGCAAGG CCCAGACCGC GCAGGACTTC GCCATCATTG TACTGGAGGA TGGCACGCCC 
    CGCATCATCT CGTCCTTCAG CGAGAAGGTG GTCAACCCCG GGGAGCAGTT CTCGCTGATG 
    TGTGCGGCCA AGGGCGCCCC ACCCCCCACT GTCACCTGGG CCCTGGACGA CGAGCCCATC 
    GTGCGGGACG GGAGCCACCG CACCAACCAG TATACCATGT CGGACGGCAC CACCATCAGC 
    CACATGAACG TCACAGGCCC CCAGATCCGC GACGGGGGCG TGTACCGGTG CACGGCGCGG 
    AACTCGGTGG GCAGTGCTGA ATATCAGGCG CGAATAAACG TAAGAGGCCC CCCCAGCATC 
    CGGGCGATGA GGAACATCAC GGCCGTTGCT GGGCGGGATG CCCTCATCAA CTGCAGGGTC 
    ATCGGCTACC CCTACTACTC CATCAAGTGG TATAAGGACG CCCTGCTGCT GCCCGACAAC 
    CACCGCCAGG TGGTGTTCGA GAACGGGACG CTGAAGCTGA CCGACGTGCA GAAGGGCATG 
    GACGAGGGGG AGTACCTGTG CAGCGTCCTC ATCCAGCCCC AGCTGTCCAT CAGCCAGAGC 
    GTCCACGTGG CCGTCAAAGT GCCCCCTCTA ATCCAGCCCT TTGAGTTCCC ACCTGCCTCC 
    ATCGGCCAGC TGCTCTATAT CCCCTGCGTG GTGTCCTCGG GGGACATGCC CATCCGCATC 
    ACCTGGAGGA AGGACGGACA GGTGATCATC TCAGGCTCGG GCGTGACCAT CGAGAGCAAG 
    GAATTCATGA GCTCCCTGCA GATCTCCAGC GTCTCCCTCA AGCACAATGG CAACTACACG 
    TGCATCGCCA GCAACGCGGC GGCCACTGTG AGCCGGGAGC GCCAGCTCAT CGTGCGTGTG 
    CCCCCGCGAT TTGTGGTGCA GCCCAACAAC CAGGACGGCA TCTACGGCAA AGCTGGTGTG 
    CTCAACTGCT CGGTGGATGG CTACCCCCCG CCCAAGGTCA TGTGGAAGCA TGCCAAGGGG 
    AGCGGGAGCC CGCAGCAGTA CCACCCGGTA CCCCTCACCG GCCGCACCCA GATCCTGGCC 
    AACAGCTCAC TGCTGATCCG CCACGTCCTG GAAGAGGACA TGGGCTACTA CCTCTGCCAG 
    GCCAGCAACG GCGTGGGCAC CGACATCAGC AAATCCATGT TCCTCACCGT CAAGATCCCA 
    GCCATGATCA CCTCCCATCC CAACACCACC ATCGCCATCA AGGGTCACGC AAAGGAGCTC 
    AACTGCACGG CGCGGGGTGA GAGGCCCATC ATCATCCGCT GGGAGAAGGG GGACACGGTC 
    ATCGACCCCG ACCGAGTCAT GCGGTACGCC ATCGCTACCA GGGACAACGG CGACGAGGTT 
    GTCTCCACGC TGAAGCTCAA GCCAGCTGAC CGTGGGGACT CTGTGTTCTT CAGCTGCCAT 
    GCCATCAACT CATATGGGGA GGACCGGGGC TTGATCCAAC TCACTGTACA AGAGCCCCCT 
    GACCCCCCAG AGCTGGAGAT CCGGGAGGTG AAGGCCCGGA GCATGAACCT GCGCTGGACC 
    CAGCGGTTCG ACGGGAACAG CATCATCACG GGCTTCGACA TTGAATACAA GAACAAGTCA 
    GATTCCTGGG ACTTCAGGCA GTCCACACGC AACATCTCCC CCACCATCAA CCAGGCCAAC 
    ATCGTGGACT TGCACCCGGC ATCTGTCTAC AGCATCCGCA TGTTCTCCTT CAACAAGATT 
    GGCCGCAGCG AGCCCAGCAA AGAGCTCACC GTCAGCACCG AGGAGGCCGC TCCCGACGGG 
    CCCCCCATGG ATGTCACCTT GCAGCCAGTC ACCTCACAGA GTATCCAAGT GACCTGGAAG 
    GCGCCCAAGA AGGAGCTGCA GAATGGCGTC ATACGAGGCT ACCAGATCGG CTACAGGGAG 
    AACAGCCCTG GCAGCAACGG GCAGTACAGC ATCGTGGAGA TGAAGGCCAC TGGGGACAGC 
    GAGGTCTACA CCCTGGACAA CCTCAAGAAG TTCGCCCAGT ATGGGGTGGT AGTCCAGGCC 
    TTCAATCGGG CCGGCACAGG GCCCTCATCC AGCGAGATCA ATGCCACCAC CCTGGAGGAT 
    GTGCCCAGCC AGCCCCCCGA GAACGTCCGG GCCCTGTCCA TCACCTCTGA TGTGGCCGTC 
    ATCTCCTGGT CGGAGCCCCC ACGCAGCACT CTCAATGGCG TCCTCAAAGG GTATCGGGTC 
    ATCTTCTGGT CACTCTACGT GGATGGGGAG TGGGGCGAAA TGCAGAACAT CACCACCACG 
    CGGGAGCGGG CAGAGCTGCG AGGGATGGAG AAGTTCACCA ACTACAGCGT GCAGGTGCTG 
    GCCTACACCC AAGCCGGCGA CGGCGTGCGC AGCAGCGTGC TGTACCTGCA GACCAAGGAG 
    GACGTTCCAG GTCCCCCTGC TGGCATCAAA GCTGTCCCTT CATCCGCCAG CAGTGTGGTC 
    GTGTCTTGGC TCCCCCCAAC CAAGCCCAAT GGGGTGATCC GCAAGTACAC CATCTTCTGC 
    TCCAGCCCTG GGTCTGGCCA GCCGGCCCCC AGCGAGTATG AGACGAGTCC AGAGCAGCTC 
    TTCTACCGGA TTGCGCACCT AAACCGCGGG CAGCAGTACC TCCTGTGGGT GGCTGCCGTC 
    ACCTCCGCTG GCCGGGGCAA CAGCAGCGAG AAAGTCACCA TTGAGCCTGC AGGCAAGGCC 
    CCAGCCAAGA TCATCTCATT TGGAGGCACC GTGACAACCC CCTGGATGAA AGATGTCCGA 
    CTGCCTTGCA ATTCAGTGGG CGATCCAGCC CCTGCTGTGA AGTGGACCAA GGACAGTGAA 
    GACTCGGCCA TCCCTGTGTC CATGGACGGG CACCGGCTCA TCCACACCAA TGGCACGCTG 
    CTGCTGCGCG CTGTGAAGGC TGAGGACTCG GGCTACTACA CCTGCACGGC CACCAACACT 
    GGGGGCTTCG ACACCATCAT CGTCAACCTT CTGGTGCAAG TTCCCCCGGA CCAGCCCCGC 
    CTCACTGTCT CTCAAACTTC TGCTTCGTCC ATCACCCTGA CCTGGATTCC AGGTGACAAC 
    GGGGGCAGCT CCATCCGAGG CTTCGTGCTG CAGTACTCGG TAGACAACAG CGAGGAGTGG 
    AAGGACGTGT TCATCAGCTC AGGCGAGCGG TCCTTCAAGC TGGACAGCCT CAGGTGTGGC 
    ACGTGGTACA AGGTGAAGCT GGCGGCCAAG AACAGCGTGG GCTCCGGGCG CATCAGCGAG 
    ATCATCGAGG CCAAGACCCA CGGGCGGGAG CCCGCCTTCA GCAAAGACCA GCACCTGTTC 
    ACCCACATCA ACTCCACGCA TGCTCGGCTT AACCTGCAGG GCTGGAACAA CGGGGGCTGC 
    CCGATCACAG CCATCGTGCT GGAGTACCGG CCCAAGGGCA CCTGGGCCTG GCAGGGGCTG 
    CGGGCCAACA GCTCCGGGGA GGTGTTTCTG ACCGAGCTGC GCGAGGCAAC GTGGTACGAG 
    CTGCGCATGC GGGCTTGCAA CAGCGCTGGC TGCGGCAACG AGACTGCCCA GTTCGCCACC 
    CTGGACTATG ATGGCAGTAC CATCCCCCCC ATCAAGTCTG CTCAAGGTGA GGGGGATGAC 
    GTGAAGAAGC TGTTCACCAT TGGCTGCCCG GTCATCCTGG CCACTCTGGG GGTGGCACTG 
    CTCTTCATCG TTCGCAAGAA GAGGAAGGAG AAGCGGCTGA AGCGTCTCCG AGATGCAAAG 
    AGTCTGGCAG AAATGTTGAT AAGCAAGAAC AACCGAAGTT TTGACACCCC TGTGAAGGGG 
    CCACCCCAGG GCCCGAGGCT ACACATTGAC ATCCCCAGGG TCCAGCTGCT CATCGAGGAC 
    AAGGAGGGCA TCAAGCAGCT GGGAGATGAC AAAGCCACCA TCCCCGTGAC GGACGCTGAG 
    TTCAGCCAAG CGGTCAACCC ACAGAGTTTC TGCACTGGTG TCTCCTTGCA CCACCCAGCC 
    CTCATCCAGA GCACGGGACC CCTCATCGAC ATGTCTGACA TCCGGCCAGG CACCAATCCC 
    GTGTCCAGGA AGAACGTGAA GTCAGCCCAC AGCACCCGGA ACCGGTACTC GAGCCAGTGG 
    ACTCTCACCA AGTGCCAGGC CTCCACACCC GCCCGCACCC TCACCTCAGA CTGGCGCACC 
    GTGGGGTCCC AGCATGGTGT CACCGTCACA GAGAGTGACA GCTACAGTGC CAGCCTCTCC 
    CAGGACACAG ACAAAGGACG GAACAGCATG GTGTCCACAG AGAGCGCCTC GTCCACCTAC 
    GAGGAGCTGG CCCGGGCCTA CGAGCACGCC AAGCTGGAGG AGCAGCTGCA GCACGCCAAG 
    TTCGAGATCA CCGAGTGCTT CATCTCGGAC AGCTCCTCCG ACCAGATGAC CACAGGCACC 
    AACGAGAACG CCGACAGCAT GACGTCCATG AGCACGCCCT CAGAGCCCGG CATCTGCCGC 
    TTCACCTCNN NNNCGCCCAA GCCCCAGGAC GCCGACCGAG GCAAGAACGT GGCTGTGCCC 
    ATCCCGCACC GGGCCAGCAA GAATGACTAC TGTAACCTGC CCCTGTATGC CAAGTCGGAG 
    GCCTTCTTCC GAAAGGCAGA TGGCCGTGAG CCCTGTCCCG TGGTTCCACC CCGAGAGGCT 
    TCCATCCGGA ACCTGGCTCG AACCTACCAC ACCCAGGCTC GCCACCTGAC CTTGGACCCT 
    GCCAGCAAGC CCTTGGGCCT CCCGCACCCA GGGGCCCCTG CTGCTGCCTC CACAGACACT 
    TTACCTCAGA GGACTCTGGC CATGCCGGCA CCCCCAGCCG GCCCGGCCCC GCCAGCTCCC 
    GGCCCCACCC CTGCCGAGCC CCCGGCTGCC CCCAGTGCTG CCCCTCCGGC CCCTAGCACC 
    GAGCCTCCGC GGGCCGGGGG CCCACACACC AAAATGGGGG GCTCCAGGGA CTCGCTTCTC 
    GAGATGAGCA CATCGGGGGT AGGGAGGTCT CAGAAGCAGG GGGCAGGGGC CTACTCCAAA 
    TCCTATACCC TGGTGTAG

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

    RefSeq XP_002919545.2
    CDS1..5778
    Translation

    Target ORF information:

    RefSeq Version XM_002919499.2
    Organism Ailuropoda melanoleuca(giant panda)
    Definition Ailuropoda melanoleuca 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
    		 XM_002919499.2

    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
    ATGCCTCCGT TTGCTGCATG TGCACTGAGC ACCTTCTACG TGCCAGCCGT GTTCTGGAGC 
    TGGGATACGA AAATAACTCC TTGCTGTCAG CGAGAAACAC CACGTGCTCT GAAGACAAAC 
    AGGCAGGAAA ACAGGTTTTT TATTACTCAC CACGGCGGGC TGTACATCTC CGACGTGCAG 
    AAGGAGGACG CCCTCTCCAC CTACCGCTGC ATCACCAAGC ACAAGTATAG TGGGGAGACC 
    CGGCAGAGCA ATGGGGCCCG CCTCTCCGTG ACAGACCCTG CCGAGTCAAT CCCTACCATC 
    CTGGACGGCT TCCACTCCCA GGAAGTGTGG GCGGGCCACA CAGTGGAGCT GCCCTGCACG 
    GCCTCCGGCT ACCCCATCCC TGCCATCCGC TGGCTCAAGG ATGGCCGGCC CCTTCCGGCC 
    GACAGTCGCT GGACCAAGCA CATCACGGGG TTGACCATCA GTGACCTGCG GACAGAGGAC 
    AGCGGCGCCT ACATTTGTGA GGTCACCAAC ACCTTCGGCT CTGCAGAGGC CACCGGCACC 
    CTCACAGTCA TCGACCCCCT TCACGTGACC CTGACACCAA AGAAGCTGAA GACCGGGATC 
    GGCAGCACGG TTATCCTCTC CTGTGCCCTG CTGGGCTCCC CGGAATTCAC CCTCCGCTGG 
    TACCGCAACA CTGAGCTGGT GCTGCCCGAC GAGGCCGTCT CCATCCGCGG GCTCAGCAAC 
    GAGACTCTGC TCATCACCTC GGCCCAGAAG AGCCACTCCG GGGCCTACCA GTGCTTTGCC 
    ACCCGCAAGG CCCAGACCGC GCAGGACTTC GCCATCATTG TACTGGAGGA TGGCACGCCC 
    CGCATCATCT CGTCCTTCAG CGAGAAGGTG GTCAACCCCG GGGAGCAGTT CTCGCTGATG 
    TGTGCGGCCA AGGGCGCCCC ACCCCCCACT GTCACCTGGG CCCTGGACGA CGAGCCCATC 
    GTGCGGGACG GGAGCCACCG CACCAACCAG TATACCATGT CGGACGGCAC CACCATCAGC 
    CACATGAACG TCACAGGCCC CCAGATCCGC GACGGGGGCG TGTACCGGTG CACGGCGCGG 
    AACTCGGTGG GCAGTGCTGA ATATCAGGCG CGAATAAACG TAAGAGGCCC CCCCAGCATC 
    CGGGCGATGA GGAACATCAC GGCCGTTGCT GGGCGGGATG CCCTCATCAA CTGCAGGGTC 
    ATCGGCTACC CCTACTACTC CATCAAGTGG TATAAGGACG CCCTGCTGCT GCCCGACAAC 
    CACCGCCAGG TGGTGTTCGA GAACGGGACG CTGAAGCTGA CCGACGTGCA GAAGGGCATG 
    GACGAGGGGG AGTACCTGTG CAGCGTCCTC ATCCAGCCCC AGCTGTCCAT CAGCCAGAGC 
    GTCCACGTGG CCGTCAAAGT GCCCCCTCTA ATCCAGCCCT TTGAGTTCCC ACCTGCCTCC 
    ATCGGCCAGC TGCTCTATAT CCCCTGCGTG GTGTCCTCGG GGGACATGCC CATCCGCATC 
    ACCTGGAGGA AGGACGGACA GGTGATCATC TCAGGCTCGG GCGTGACCAT CGAGAGCAAG 
    GAATTCATGA GCTCCCTGCA GATCTCCAGC GTCTCCCTCA AGCACAATGG CAACTACACG 
    TGCATCGCCA GCAACGCGGC GGCCACTGTG AGCCGGGAGC GCCAGCTCAT CGTGCGTGTG 
    CCCCCGCGAT TTGTGGTGCA GCCCAACAAC CAGGACGGCA TCTACGGCAA AGCTGGTGTG 
    CTCAACTGCT CGGTGGATGG CTACCCCCCG CCCAAGGTCA TGTGGAAGCA TGCCAAGGGG 
    AGCGGGAGCC CGCAGCAGTA CCACCCGGTA CCCCTCACCG GCCGCACCCA GATCCTGGCC 
    AACAGCTCAC TGCTGATCCG CCACGTCCTG GAAGAGGACA TGGGCTACTA CCTCTGCCAG 
    GCCAGCAACG GCGTGGGCAC CGACATCAGC AAATCCATGT TCCTCACCGT CAAGATCCCA 
    GCCATGATCA CCTCCCATCC CAACACCACC ATCGCCATCA AGGGTCACGC AAAGGAGCTC 
    AACTGCACGG CGCGGGGTGA GAGGCCCATC ATCATCCGCT GGGAGAAGGG GGACACGGTC 
    ATCGACCCCG ACCGAGTCAT GCGGTACGCC ATCGCTACCA GGGACAACGG CGACGAGGTT 
    GTCTCCACGC TGAAGCTCAA GCCAGCTGAC CGTGGGGACT CTGTGTTCTT CAGCTGCCAT 
    GCCATCAACT CATATGGGGA GGACCGGGGC TTGATCCAAC TCACTGTACA AGAGCCCCCT 
    GACCCCCCAG AGCTGGAGAT CCGGGAGGTG AAGGCCCGGA GCATGAACCT GCGCTGGACC 
    CAGCGGTTCG ACGGGAACAG CATCATCACG GGCTTCGACA TTGAATACAA GAACAAGTCA 
    GATTCCTGGG ACTTCAGGCA GTCCACACGC AACATCTCCC CCACCATCAA CCAGGCCAAC 
    ATCGTGGACT TGCACCCGGC ATCTGTCTAC AGCATCCGCA TGTTCTCCTT CAACAAGATT 
    GGCCGCAGCG AGCCCAGCAA AGAGCTCACC GTCAGCACCG AGGAGGCCGC TCCCGACGGG 
    CCCCCCATGG ATGTCACCTT GCAGCCAGTC ACCTCACAGA GTATCCAAGT GACCTGGAAG 
    GCGCCCAAGA AGGAGCTGCA GAATGGCGTC ATACGAGGCT ACCAGATCGG CTACAGGGAG 
    AACAGCCCTG GCAGCAACGG GCAGTACAGC ATCGTGGAGA TGAAGGCCAC TGGGGACAGC 
    GAGGTCTACA CCCTGGACAA CCTCAAGAAG TTCGCCCAGT ATGGGGTGGT AGTCCAGGCC 
    TTCAATCGGG CCGGCACAGG GCCCTCATCC AGCGAGATCA ATGCCACCAC CCTGGAGGAT 
    GTGCCCAGCC AGCCCCCCGA GAACGTCCGG GCCCTGTCCA TCACCTCTGA TGTGGCCGTC 
    ATCTCCTGGT CGGAGCCCCC ACGCAGCACT CTCAATGGCG TCCTCAAAGG GTATCGGGTC 
    ATCTTCTGGT CACTCTACGT GGATGGGGAG TGGGGCGAAA TGCAGAACAT CACCACCACG 
    CGGGAGCGGG CAGAGCTGCG AGGGATGGAG AAGTTCACCA ACTACAGCGT GCAGGTGCTG 
    GCCTACACCC AAGCCGGCGA CGGCGTGCGC AGCAGCGTGC TGTACCTGCA GACCAAGGAG 
    GACGTTCCAG GTCCCCCTGC TGGCATCAAA GCTGTCCCTT CATCCGCCAG CAGTGTGGTC 
    GTGTCTTGGC TCCCCCCAAC CAAGCCCAAT GGGGTGATCC GCAAGTACAC CATCTTCTGC 
    TCCAGCCCTG GGTCTGGCCA GCCGGCCCCC AGCGAGTATG AGACGAGTCC AGAGCAGCTC 
    TTCTACCGGA TTGCGCACCT AAACCGCGGG CAGCAGTACC TCCTGTGGGT GGCTGCCGTC 
    ACCTCCGCTG GCCGGGGCAA CAGCAGCGAG AAAGTCACCA TTGAGCCTGC AGGCAAGGCC 
    CCAGCCAAGA TCATCTCATT TGGAGGCACC GTGACAACCC CCTGGATGAA AGATGTCCGA 
    CTGCCTTGCA ATTCAGTGGG CGATCCAGCC CCTGCTGTGA AGTGGACCAA GGACAGTGAA 
    GACTCGGCCA TCCCTGTGTC CATGGACGGG CACCGGCTCA TCCACACCAA TGGCACGCTG 
    CTGCTGCGCG CTGTGAAGGC TGAGGACTCG GGCTACTACA CCTGCACGGC CACCAACACT 
    GGGGGCTTCG ACACCATCAT CGTCAACCTT CTGGTGCAAG TTCCCCCGGA CCAGCCCCGC 
    CTCACTGTCT CTCAAACTTC TGCTTCGTCC ATCACCCTGA CCTGGATTCC AGGTGACAAC 
    GGGGGCAGCT CCATCCGAGG CTTCGTGCTG CAGTACTCGG TAGACAACAG CGAGGAGTGG 
    AAGGACGTGT TCATCAGCTC AGGCGAGCGG TCCTTCAAGC TGGACAGCCT CAGGTGTGGC 
    ACGTGGTACA AGGTGAAGCT GGCGGCCAAG AACAGCGTGG GCTCCGGGCG CATCAGCGAG 
    ATCATCGAGG CCAAGACCCA CGGGCGGGAG CCCGCCTTCA GCAAAGACCA GCACCTGTTC 
    ACCCACATCA ACTCCACGCA TGCTCGGCTT AACCTGCAGG GCTGGAACAA CGGGGGCTGC 
    CCGATCACAG CCATCGTGCT GGAGTACCGG CCCAAGGGCA CCTGGGCCTG GCAGGGGCTG 
    CGGGCCAACA GCTCCGGGGA GGTGTTTCTG ACCGAGCTGC GCGAGGCAAC GTGGTACGAG 
    CTGCGCATGC GGGCTTGCAA CAGCGCTGGC TGCGGCAACG AGACTGCCCA GTTCGCCACC 
    CTGGACTATG ATGGCAGTAC CATCCCCCCC ATCAAGTCTG CTCAAGGTGA GGGGGATGAC 
    GTGAAGAAGC TGTTCACCAT TGGCTGCCCG GTCATCCTGG CCACTCTGGG GGTGGCACTG 
    CTCTTCATCG TTCGCAAGAA GAGGAAGGAG AAGCGGCTGA AGCGTCTCCG AGATGCAAAG 
    AGTCTGGCAG AAATGTTGAT AAGCAAGAAC AACCGAAGTT TTGACACCCC TGTGAAGGGG 
    CCACCCCAGG GCCCGAGGCT ACACATTGAC ATCCCCAGGG TCCAGCTGCT CATCGAGGAC 
    AAGGAGGGCA TCAAGCAGCT GGGAGATGAC AAAGCCACCA TCCCCGTGAC GGACGCTGAG 
    TTCAGCCAAG CGGTCAACCC ACAGAGTTTC TGCACTGGTG TCTCCTTGCA CCACCCAGCC 
    CTCATCCAGA GCACGGGACC CCTCATCGAC ATGTCTGACA TCCGGCCAGG CACCAATCCC 
    GTGTCCAGGA AGAACGTGAA GTCAGCCCAC AGCACCCGGA ACCGGTACTC GAGCCAGTGG 
    ACTCTCACCA AGTGCCAGGC CTCCACACCC GCCCGCACCC TCACCTCAGA CTGGCGCACC 
    GTGGGGTCCC AGCATGGTGT CACCGTCACA GAGAGTGACA GCTACAGTGC CAGCCTCTCC 
    CAGGACACAG ACAAAGGACG GAACAGCATG GTGTCCACAG AGAGCGCCTC GTCCACCTAC 
    GAGGAGCTGG CCCGGGCCTA CGAGCACGCC AAGCTGGAGG AGCAGCTGCA GCACGCCAAG 
    TTCGAGATCA CCGAGTGCTT CATCTCGGAC AGCTCCTCCG ACCAGATGAC CACAGGCACC 
    AACGAGAACG CCGACAGCAT GACGTCCATG AGCACGCCCT CAGAGCCCGG CATCTGCCGC 
    TTCACCTCNN NNNCGCCCAA GCCCCAGGAC GCCGACCGAG GCAAGAACGT GGCTGTGCCC 
    ATCCCGCACC GGGCCAGCAA GAATGACTAC TGTAACCTGC CCCTGTATGC CAAGTCGGAG 
    GCCTTCTTCC GAAAGGCAGA TGGCCGTGAG CCCTGTCCCG TGGTTCCACC CCGAGAGGCT 
    TCCATCCGGA ACCTGGCTCG AACCTACCAC ACCCAGGCTC GCCACCTGAC CTTGGACCCT 
    GCCAGCAAGC CCTTGGGCCT CCCGCACCCA GGGGCCCCTG CTGCTGCCTC CACAGACACT 
    TTACCTCAGA GGACTCTGGC CATGCCGGCA CCCCCAGCCG GCCCGGCCCC GCCAGCTCCC 
    GGCCCCACCC CTGCCGAGCC CCCGGCTGCC CCCAGTGCTG CCCCTCCGGC CCCTAGCACC 
    GAGCCTCCGC GGGCCGGGGG CCCACACACC AAAATGGGGG GCTCCAGGGA CTCGCTTCTC 
    GAGATGAGCA CATCGGGGGT AGGGAGGTCT CAGAAGCAGG GGGCAGGGGC CTACTCCAAA 
    TCCTATACCC TGGTGTAG

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

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