ORF » Species Summary » Monodelphis domestica » CACNA1S cDNA ORF clone

CACNA1S cDNA ORF clone, Monodelphis domestica(gray short-tailed opossum)

The following CACNA1S gene cDNA ORF clone sequences were retrieved from the NCBI Reference Sequence Database (RefSeq). These sequences represent the protein coding region of the CACNA1S 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
OMc09152 XM_001368020.4
Latest version!		 Monodelphis domestica calcium voltage-gated channel subunit alpha1 S (CACNA1S), transcript variant X1, mRNA. pcDNA3.1-C-(k)DYK or customized vector 24-26 $951.30
$1359.00
OMc09153 XM_007481120.2
Latest version!		 Monodelphis domestica calcium voltage-gated channel subunit alpha1 S (CACNA1S), transcript variant X2, mRNA. pcDNA3.1-C-(k)DYK or customized vector 24-26 $951.30
$1359.00

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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)
    CACNA1S ( XM_001368020.4 ) cDNA ORF clone, Monodelphis domestica(gray short-tailed opossum) -> XP_001368057.2 Monodelphis domestica calcium voltage-gated channel subunit alpha1 S (CACNA1S), transcript variant X1, mRNA.
    Price & Availability↑
    CloneID OMc09152
    Clone ID Related Accession (Same CDS sequence) XM_001368020.4
    Accession Version XM_001368020.4 Latest version! Documents for ORF clone product in default vector
    Sequence Information ORF Nucleotide Sequence (Length: 5625bp)
    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 1461600000000
    Organism Monodelphis domestica(gray short-tailed opossum)
    Product voltage-dependent L-type calcium channel subunit alpha-1S isoform X1
    Comment Comment: MODEL REFSEQ: This record is predicted by automated computational analysis. This record is derived from a genomic sequence (NC_008802.1) annotated using gene prediction method: Gnomon. Also see: Documentation of NCBI's Annotation Process On Apr 27, 2016 this sequence version replaced XM_001368020.3. ##Genome-Annotation-Data-START## Annotation Provider :: NCBI Annotation Status :: Full annotation Annotation Version :: Monodelphis domestica Annotation Release 103 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
    ATGGAGCCCT CCTCGCCCCA GGACGAGAAC CAGAAGAAGA AGCAACCTAA GAAGCCAGCT 
    CCTGATGAGA TCCCGCCCCG ACCACCCCGG GCTCTATTCT GCCTCACCCT CCAAAACCCC 
    TTGAGGAAGG CCTGCATCAG CATTGTAGAA TGGAAACCCT TTGAGACAAT CATCTTGCTC 
    ACCATCTTTG TCAACTGTGT GGCTCTGGCT GTGTACTTAC CCATGCCTGA GGATGACAAC 
    AACTCCCTCA ATCTTGGCCT GGAGAAATTG GAGTATTTCT TCCTCATCGT CTTTTCGATT 
    GAAGCTGCCA TGAAGATCAT TGCTTATGGC TTCCTTTTCC ATCAAGATGC CTATCTGCGC 
    AGTGGCTGGA ACATTCTAGA TTTCATCATT GTCTTCCTTG GGGTTTCCAC TGTGATTCTG 
    GAAGAGATCA ACTTGATCCA AAGCAATTCG ACTCCAATGA GCAGCAAAGG AGCTGGTTTG 
    GATGTCAAAG CCCTGAGAGC CTTCCGTGTC CTCAGACCCC TTCGACTGGT GTCAGGGGTT 
    CCAAGTCTTC AGGTTGTTCT CAATTCCATC ATCAAGGCCA TGATCCCTCT GTTCCACATT 
    GCCCTTCTGG TTCTCTTCAT GGTCATCATC TATGCCATTA TTGGACTGGA ACTCTTCAAA 
    GGAAAAATGC ACAAGACCTG CTACTTCATT GGGACAGATA TTGTGGCCAC AGTAGATATG 
    GAGAAGCCAT CCCCTTGTGC CAGGACAGGC TCTGGACGCC CATGTACCAT CAATGGCAGT 
    GAATGTAGAG GTGGCTGGCC AGGTCCCAAT AATGGCATCA CAAAATTTGA CAACTTTGGC 
    TTTGCCATGC TCACTGTATA CCAGTGCATC ACTATGGAGG GCTGGACCGA TGTCCTCTAC 
    TGGGTCAATG ATGCCATTGG GAACGAGTGG CCCTGGATCT ATTTTGTCAG CCTCATTCTC 
    CTGGGATCCT TCTTCATCCT CAACCTAGTT CTTGGTGTCC TGAGTGGTGA ATTCACCAAA 
    GAACGAGAAA AGGCTAAGTC TCGAGGAACC TTTCAGAAGC TCAGAGAAAA GCAACAACTT 
    GAGGAAGACT TGAAGGGTTA TATGAATTGG ATCACCCAAG GAGAAGTCAT GGATATTGAT 
    GACATAAGAG AAAGGAAGCT GTCATCAGAT GAAGGAGGTT CAGACACAGA GAGCCTCTAT 
    GAAATTGAAG GCTTGAATAA ATTTATCCAA TTTCTTCGTC ACTGGAGACA ATGGAATCGC 
    ATCTTCCGCC GCAAATGTCA AGAGGTTGTG AAATCCAAGA CCTTTTATTG GCTGGTGATC 
    CTCATTGTGG CCCTCAATAC TCTGTCCATT GCCTCAGAAC ACCATCTCCA GCCTCTTTGG 
    TTGACCCATT TGCAAGATGT GGCCAATCGA GTGCTCCTGA CTCTCTTCAC CATTGAGATG 
    CTGATGAAGA TGTATGGGCT GGGGTTTCGA CAGTATTTCA TGTCTGTCTT CAATCGCTTC 
    GACTGCTTTG TGGTGTGCAG TGGGATCATT GAGATCATCC TGGTGGAGTC GGGGATCATG 
    ACACCCCTTG GCATCTCCGT CCTCCGATGC ATCCGCCTTC TAAGGCTCTT TAAGATCACC 
    AAGTATTGGA CATCTTTGAG CAATTTGGTG GCCTCTCTGC TCAATTCCAT CCGCTCCATT 
    GCCTCCCTGC TCCTCCTGCT CTTCCTCTTC ATCATCATCT TTGCCCTCTT GGGCATGCAA 
    CTCTTTGGGG GCAAGTATGA CTTTGAGGAC ACAGAGGTGA GACGGAGCAC CTTCGATAAC 
    TTCCCCCAGG CCCTCATCAG TGTCTTCCAG ATCCTGACCG GTGAAGACTG GAACTCCATC 
    ATGTACAATG GCATCATGGC TTATGGTGGA CCCTCCTATC CCGGTGTGCT AGTCTGCATC 
    TATTTCATCA TCCTTTTCAT CTGTGGTAAC TATATCCTGC TCAATGTCTT CTTGGCCATT 
    GCTGTGGATA ACCTGGCTGA GGCAGAGAGC CTGACATCCG CTCAGAAAGC CAAGGCTGAA 
    GAGAAGAAAC GCAGGAAGAT GTCCAAGGGT CTCCCAGACA AGTCTGAGGA AGAGAAGTTG 
    ATGTTGGCCA AGAAGTTAGA ACAGAAAGCC AGGGGAGAAG GTATCCCCAC CACAGCCAAG 
    CTGAAAGTGG ATGAGTTTGA ATCCAATGTC AATGAAGTAA AGGATCCATA CCCATCAGCT 
    GATTTTCCAG GAGACGATGA GGAAGAAGAG CCAGAGATCC CACTCAGCCC TCGGCCACGT 
    CCCTTGGCAG AGCTACAGCT AAAAGAAAAA GCAGTGCCCA TGCCCGAAGC CAGCTCATTC 
    TTCATCTTCA GCCCTACCAA TAAGATCCGA GTACTATGTC ACCGAATTGT CAATGCCACC 
    TGGTTCACCA ACTTCATTCT GCTGTTCATT CTGCTCAGCA GTATCTCTCT GGCAGCAGAG 
    GATCCCATCC AAGCAGATTC CTTCAGGAAC AAGATCCTGG GCTACTTTGA CATCGCCTTC 
    ACTACTGTCT TTACTATTGA AATTGTGCTC AAGATGACAA CTTATGGTGC CATTCTTCAC 
    AAAGGCTCTT TCTGTCGCAA CTACTTTAAT ATCCTGGACC TGCTGGTCGT GGCTGTGTCC 
    CTCATCTCCA CAGGCATTGA ATCCAGTGCC ATCTCTGTGG TGAAGATCCT CAGGGTGCTA 
    AGGGTGCTCC GACCTCTCCG AGCCATCAAC AGGGCGAAAG GGTTGAAGCA CGTGGTTCAG 
    TGTGTGTTTG TGGCCATCCG CACCATTGGG AACATTGTTT TGGTCACCAC CCTCCTGCAG 
    TTCATGTTTG CCTGCATTGG AGTCCAGCTC TTCAAGGGGA AGTTCTACAG CTGTAATGAC 
    TTATCTAAGA TGACAGAACC TGAGTGCAAG GGCTATTACT ATGTGTACAA AGATGGGGAC 
    CCTAACCAGA TGCAAGTATA TCCCCGAGAG TGGCTACACA ATGACTTCAA CTTCGACAAT 
    GTGCTGTCTG CCATGTTGGC ACTCTTCACT GTCTCTACCT TCGAGGGATG GCCCCAGCTA 
    CTCTACAAAG CTATTGACAC ACATGCTGAG GACATGGGCC CCATCTACAA CAACCATGTG 
    GAGATGGCCA TCTTCTTCAT CGTTTACATC ATCCTCATCG CCTTCTTCAT GATGAATATC 
    TTTGTGGGCT TTATCATAGT CACCTTCCAG GAGCAGGGTG AGACTGAATA CAAGAACTGT 
    GAGCTCGACA AGAACCAGCG CCAGTGTGTG CAGTATGCCC TGAAAGCCCG CCCACTGAGA 
    TGCTACATCC CTAAGAACCC CTATCAGTAC AAGGTGTGGT ACATCGTCAC TTCCTCCTAC 
    TTTGAGTACC TGATGTTTGC CCTCATCATG CTCAACACCA TCTGCCTGGG CATGCAGCAT 
    TACAACCAGT CAGAAGAAAT GAACCACATT TCAGACATCC TCAACGTGGC CTTCACAATC 
    ATCTTTACTT TGGAGATGAT CCTTAAGCTC ATAGCCTTCA AGGCCAAGGG CTACTTTGGA 
    GACCCCTGGA ACGTGTTTGA CTTCCTGATC GTCATTGGAA GCATCATCGA CGTCATCCTA 
    AGCGAGATTG ATACTTTCCT GGCTTCCAGT GGAGGACTAT ACTGCCTGGG AGGAGGCTGC 
    GCCAACACTG ACCCCGATGA GAGCGCACGA ATATCCAGTG CCTTTTTCCG CCTGTTCCGA 
    GTAATGAGAC TAATTAAGCT GTTGAGCCGG GGTGAGGGTG TCCGAACATT GCTGTGGACC 
    TTCATCAAGT CCTTCCAGGC TTTGCCATAT GTGGCCCTGC TGATCGTCAT GCTCTTTTTC 
    ATCTATGCAG TTATTGGGAT GCAGATGTTT GGGAAAATTG CCATGGTAGA TGGGACACAA 
    ATCAATCGCA ATAATAACTT CCAGACGTTC CCACAAGCTG TGCTTCTACT CTTCAGGTGT 
    GCAACAGGAG AGGCATGGCA GGAGATCTTG CTGGCCTGCA GCTATGGAAA GCTCTGTGAC 
    CCCAAGTCGG ACGCTAGTGT TGGGGAGGAG TATACCTGTG GCACAGGCTT TGCCTATTTC 
    TACTTCATCA GCTTCTACAT GCTCTGTGCC TTCCTGATCA TTAACCTTTT TGTTGCTGTC 
    ATTATGGACA ACTTTGACTA CCTCACCCGA GATTGGTCCA TTCTGGGCCC GCATCATCTG 
    GATGAGTTCA AGAAGATCTG GGCTGAGTAC GATCCTGAAG CTAAGGGCAG AATCAAACAT 
    CTGGATGTTG TGACCCTGTT GAGACGAATC CAACCCCCTT TGGGCTTTGG GAAGTTCTGC 
    CCTCACCGGG TGGCGTGCAA GCGATTAGTA GGCATGAACA TGCCCCTGAA CAGTGATGGC 
    ACTGTCACCT TCAATGCTAC TCTCTTCGCT CTGGTCCGAA CAGCTCTCAA GATCAAGACA 
    GAAGGTAACT TTGAACAGGC CAATGAGGAA CTAAGAGCCA TCATCAAGAA GATTTGGAAG 
    AGAACTAGTA TGAAGCTCCT GGACCAAGTC ATTCCACCTA TTGGAGATGA TGAAGTGACC 
    GTAGGAAAAT TCTATGCCAC CTTCCTCATC CAAGAGCATT TCCGGAAGTT TATGAAGCGC 
    CAGGAGGAGT ACTATGGATA TCGACCCAAA AAAGACACTG TGCAAATCCA GGCTGGGCTT 
    CGGAGCATTG AAGAGGAAGC AGCTCCTGAG ATCCACCGAG CCATCTCTGG AGACCTGACA 
    GCTGAGGAAG AGCTAGAAAG GGCCATGGTG GAGGCTGCCA TGGAGGAGGG GATCTACAGG 
    AGGACAGGAG GCCTTTTTGG CCAGGTGGAC ACCTTCCTAG AGAGGACCGA CTCCTTGCCA 
    CCCAATGTTG CCAGCCAGAG GCCCCTGCAG TTCACAGAGA TGGAAATGGA AGATATTGAC 
    TCCCCTGTCT TCCTCGATGA CTTCCCTCCA GAACCACCTA CCAACCCTCT GGCCAGGACT 
    CACGCCAACA CAAATGCCAG CAACGCCAAT ACCAACAATG CCAACAGCTG TGTGCTCTCC 
    AGGATCCATC ATGAGAATGA GCTCCCAGGA TCTCTTTCTC CAAAGAGGAA TGGCCTTGGC 
    CACCCTCATT CTCCCCCAGT AGAACGTCAA GGTGCCGTCT ATCCAGAAAA GCAGAACATC 
    AGAAGGACCA AGAGGCAGCC AGTCAGACTG GCGGCATCCT CAGAGGCCCA AGCTGCCTCT 
    TCCCCTGACC AGCCTCACAG GAAGGAAGAT GGCATCTCCA GGGAGAGAGC GAGTCCCATG 
    CCGGAGTCCC AGTGTAAAGA AACAACAGGT GACTCAGAAG CTCCTGCACC TTCTACGCCA 
    GCTACCACCC TGCTGATCCG GAAGGCTTTG ACTCGGGGTG GCCTGGGTAC CCTGGCTGTC 
    GACAGCAGCT TTGTGATGGC AACAGGGCAG GCATTAGCTG ATGCCTGCCA GATGGAACCA 
    GAGGAAGTGG AGGAAGCAGC GAATGAGCTC CTGAAAGGAC AGGAGTGTCC AGAAGACAGG 
    AACAGAAGCC CTTCACCCCT GGAGCCTCAG CCCATAGGGC CCTCCCCAGG CAGCTACAAT 
    GGGTCATGGG GCTCCCGAGA AGCCCTCATC TCCACCCAGC TGTGA

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

    RefSeq XP_001368057.2
    CDS86..5710
    Translation

    Target ORF information:

    RefSeq Version XM_001368020.4
    Organism Monodelphis domestica(gray short-tailed opossum)
    Definition Monodelphis domestica calcium voltage-gated channel subunit alpha1 S (CACNA1S), transcript variant X1, mRNA.

    Target ORF information:

    Epitope DYKDDDDK
    Bacterial selection AMPR
    Mammalian selection NeoR
    Vector pcDNA3.1+/C-(K)DYK
    		 XM_001368020.4

    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
    ATGGAGCCCT CCTCGCCCCA GGACGAGAAC CAGAAGAAGA AGCAACCTAA GAAGCCAGCT 
    CCTGATGAGA TCCCGCCCCG ACCACCCCGG GCTCTATTCT GCCTCACCCT CCAAAACCCC 
    TTGAGGAAGG CCTGCATCAG CATTGTAGAA TGGAAACCCT TTGAGACAAT CATCTTGCTC 
    ACCATCTTTG TCAACTGTGT GGCTCTGGCT GTGTACTTAC CCATGCCTGA GGATGACAAC 
    AACTCCCTCA ATCTTGGCCT GGAGAAATTG GAGTATTTCT TCCTCATCGT CTTTTCGATT 
    GAAGCTGCCA TGAAGATCAT TGCTTATGGC TTCCTTTTCC ATCAAGATGC CTATCTGCGC 
    AGTGGCTGGA ACATTCTAGA TTTCATCATT GTCTTCCTTG GGGTTTCCAC TGTGATTCTG 
    GAAGAGATCA ACTTGATCCA AAGCAATTCG ACTCCAATGA GCAGCAAAGG AGCTGGTTTG 
    GATGTCAAAG CCCTGAGAGC CTTCCGTGTC CTCAGACCCC TTCGACTGGT GTCAGGGGTT 
    CCAAGTCTTC AGGTTGTTCT CAATTCCATC ATCAAGGCCA TGATCCCTCT GTTCCACATT 
    GCCCTTCTGG TTCTCTTCAT GGTCATCATC TATGCCATTA TTGGACTGGA ACTCTTCAAA 
    GGAAAAATGC ACAAGACCTG CTACTTCATT GGGACAGATA TTGTGGCCAC AGTAGATATG 
    GAGAAGCCAT CCCCTTGTGC CAGGACAGGC TCTGGACGCC CATGTACCAT CAATGGCAGT 
    GAATGTAGAG GTGGCTGGCC AGGTCCCAAT AATGGCATCA CAAAATTTGA CAACTTTGGC 
    TTTGCCATGC TCACTGTATA CCAGTGCATC ACTATGGAGG GCTGGACCGA TGTCCTCTAC 
    TGGGTCAATG ATGCCATTGG GAACGAGTGG CCCTGGATCT ATTTTGTCAG CCTCATTCTC 
    CTGGGATCCT TCTTCATCCT CAACCTAGTT CTTGGTGTCC TGAGTGGTGA ATTCACCAAA 
    GAACGAGAAA AGGCTAAGTC TCGAGGAACC TTTCAGAAGC TCAGAGAAAA GCAACAACTT 
    GAGGAAGACT TGAAGGGTTA TATGAATTGG ATCACCCAAG GAGAAGTCAT GGATATTGAT 
    GACATAAGAG AAAGGAAGCT GTCATCAGAT GAAGGAGGTT CAGACACAGA GAGCCTCTAT 
    GAAATTGAAG GCTTGAATAA ATTTATCCAA TTTCTTCGTC ACTGGAGACA ATGGAATCGC 
    ATCTTCCGCC GCAAATGTCA AGAGGTTGTG AAATCCAAGA CCTTTTATTG GCTGGTGATC 
    CTCATTGTGG CCCTCAATAC TCTGTCCATT GCCTCAGAAC ACCATCTCCA GCCTCTTTGG 
    TTGACCCATT TGCAAGATGT GGCCAATCGA GTGCTCCTGA CTCTCTTCAC CATTGAGATG 
    CTGATGAAGA TGTATGGGCT GGGGTTTCGA CAGTATTTCA TGTCTGTCTT CAATCGCTTC 
    GACTGCTTTG TGGTGTGCAG TGGGATCATT GAGATCATCC TGGTGGAGTC GGGGATCATG 
    ACACCCCTTG GCATCTCCGT CCTCCGATGC ATCCGCCTTC TAAGGCTCTT TAAGATCACC 
    AAGTATTGGA CATCTTTGAG CAATTTGGTG GCCTCTCTGC TCAATTCCAT CCGCTCCATT 
    GCCTCCCTGC TCCTCCTGCT CTTCCTCTTC ATCATCATCT TTGCCCTCTT GGGCATGCAA 
    CTCTTTGGGG GCAAGTATGA CTTTGAGGAC ACAGAGGTGA GACGGAGCAC CTTCGATAAC 
    TTCCCCCAGG CCCTCATCAG TGTCTTCCAG ATCCTGACCG GTGAAGACTG GAACTCCATC 
    ATGTACAATG GCATCATGGC TTATGGTGGA CCCTCCTATC CCGGTGTGCT AGTCTGCATC 
    TATTTCATCA TCCTTTTCAT CTGTGGTAAC TATATCCTGC TCAATGTCTT CTTGGCCATT 
    GCTGTGGATA ACCTGGCTGA GGCAGAGAGC CTGACATCCG CTCAGAAAGC CAAGGCTGAA 
    GAGAAGAAAC GCAGGAAGAT GTCCAAGGGT CTCCCAGACA AGTCTGAGGA AGAGAAGTTG 
    ATGTTGGCCA AGAAGTTAGA ACAGAAAGCC AGGGGAGAAG GTATCCCCAC CACAGCCAAG 
    CTGAAAGTGG ATGAGTTTGA ATCCAATGTC AATGAAGTAA AGGATCCATA CCCATCAGCT 
    GATTTTCCAG GAGACGATGA GGAAGAAGAG CCAGAGATCC CACTCAGCCC TCGGCCACGT 
    CCCTTGGCAG AGCTACAGCT AAAAGAAAAA GCAGTGCCCA TGCCCGAAGC CAGCTCATTC 
    TTCATCTTCA GCCCTACCAA TAAGATCCGA GTACTATGTC ACCGAATTGT CAATGCCACC 
    TGGTTCACCA ACTTCATTCT GCTGTTCATT CTGCTCAGCA GTATCTCTCT GGCAGCAGAG 
    GATCCCATCC AAGCAGATTC CTTCAGGAAC AAGATCCTGG GCTACTTTGA CATCGCCTTC 
    ACTACTGTCT TTACTATTGA AATTGTGCTC AAGATGACAA CTTATGGTGC CATTCTTCAC 
    AAAGGCTCTT TCTGTCGCAA CTACTTTAAT ATCCTGGACC TGCTGGTCGT GGCTGTGTCC 
    CTCATCTCCA CAGGCATTGA ATCCAGTGCC ATCTCTGTGG TGAAGATCCT CAGGGTGCTA 
    AGGGTGCTCC GACCTCTCCG AGCCATCAAC AGGGCGAAAG GGTTGAAGCA CGTGGTTCAG 
    TGTGTGTTTG TGGCCATCCG CACCATTGGG AACATTGTTT TGGTCACCAC CCTCCTGCAG 
    TTCATGTTTG CCTGCATTGG AGTCCAGCTC TTCAAGGGGA AGTTCTACAG CTGTAATGAC 
    TTATCTAAGA TGACAGAACC TGAGTGCAAG GGCTATTACT ATGTGTACAA AGATGGGGAC 
    CCTAACCAGA TGCAAGTATA TCCCCGAGAG TGGCTACACA ATGACTTCAA CTTCGACAAT 
    GTGCTGTCTG CCATGTTGGC ACTCTTCACT GTCTCTACCT TCGAGGGATG GCCCCAGCTA 
    CTCTACAAAG CTATTGACAC ACATGCTGAG GACATGGGCC CCATCTACAA CAACCATGTG 
    GAGATGGCCA TCTTCTTCAT CGTTTACATC ATCCTCATCG CCTTCTTCAT GATGAATATC 
    TTTGTGGGCT TTATCATAGT CACCTTCCAG GAGCAGGGTG AGACTGAATA CAAGAACTGT 
    GAGCTCGACA AGAACCAGCG CCAGTGTGTG CAGTATGCCC TGAAAGCCCG CCCACTGAGA 
    TGCTACATCC CTAAGAACCC CTATCAGTAC AAGGTGTGGT ACATCGTCAC TTCCTCCTAC 
    TTTGAGTACC TGATGTTTGC CCTCATCATG CTCAACACCA TCTGCCTGGG CATGCAGCAT 
    TACAACCAGT CAGAAGAAAT GAACCACATT TCAGACATCC TCAACGTGGC CTTCACAATC 
    ATCTTTACTT TGGAGATGAT CCTTAAGCTC ATAGCCTTCA AGGCCAAGGG CTACTTTGGA 
    GACCCCTGGA ACGTGTTTGA CTTCCTGATC GTCATTGGAA GCATCATCGA CGTCATCCTA 
    AGCGAGATTG ATACTTTCCT GGCTTCCAGT GGAGGACTAT ACTGCCTGGG AGGAGGCTGC 
    GCCAACACTG ACCCCGATGA GAGCGCACGA ATATCCAGTG CCTTTTTCCG CCTGTTCCGA 
    GTAATGAGAC TAATTAAGCT GTTGAGCCGG GGTGAGGGTG TCCGAACATT GCTGTGGACC 
    TTCATCAAGT CCTTCCAGGC TTTGCCATAT GTGGCCCTGC TGATCGTCAT GCTCTTTTTC 
    ATCTATGCAG TTATTGGGAT GCAGATGTTT GGGAAAATTG CCATGGTAGA TGGGACACAA 
    ATCAATCGCA ATAATAACTT CCAGACGTTC CCACAAGCTG TGCTTCTACT CTTCAGGTGT 
    GCAACAGGAG AGGCATGGCA GGAGATCTTG CTGGCCTGCA GCTATGGAAA GCTCTGTGAC 
    CCCAAGTCGG ACGCTAGTGT TGGGGAGGAG TATACCTGTG GCACAGGCTT TGCCTATTTC 
    TACTTCATCA GCTTCTACAT GCTCTGTGCC TTCCTGATCA TTAACCTTTT TGTTGCTGTC 
    ATTATGGACA ACTTTGACTA CCTCACCCGA GATTGGTCCA TTCTGGGCCC GCATCATCTG 
    GATGAGTTCA AGAAGATCTG GGCTGAGTAC GATCCTGAAG CTAAGGGCAG AATCAAACAT 
    CTGGATGTTG TGACCCTGTT GAGACGAATC CAACCCCCTT TGGGCTTTGG GAAGTTCTGC 
    CCTCACCGGG TGGCGTGCAA GCGATTAGTA GGCATGAACA TGCCCCTGAA CAGTGATGGC 
    ACTGTCACCT TCAATGCTAC TCTCTTCGCT CTGGTCCGAA CAGCTCTCAA GATCAAGACA 
    GAAGGTAACT TTGAACAGGC CAATGAGGAA CTAAGAGCCA TCATCAAGAA GATTTGGAAG 
    AGAACTAGTA TGAAGCTCCT GGACCAAGTC ATTCCACCTA TTGGAGATGA TGAAGTGACC 
    GTAGGAAAAT TCTATGCCAC CTTCCTCATC CAAGAGCATT TCCGGAAGTT TATGAAGCGC 
    CAGGAGGAGT ACTATGGATA TCGACCCAAA AAAGACACTG TGCAAATCCA GGCTGGGCTT 
    CGGAGCATTG AAGAGGAAGC AGCTCCTGAG ATCCACCGAG CCATCTCTGG AGACCTGACA 
    GCTGAGGAAG AGCTAGAAAG GGCCATGGTG GAGGCTGCCA TGGAGGAGGG GATCTACAGG 
    AGGACAGGAG GCCTTTTTGG CCAGGTGGAC ACCTTCCTAG AGAGGACCGA CTCCTTGCCA 
    CCCAATGTTG CCAGCCAGAG GCCCCTGCAG TTCACAGAGA TGGAAATGGA AGATATTGAC 
    TCCCCTGTCT TCCTCGATGA CTTCCCTCCA GAACCACCTA CCAACCCTCT GGCCAGGACT 
    CACGCCAACA CAAATGCCAG CAACGCCAAT ACCAACAATG CCAACAGCTG TGTGCTCTCC 
    AGGATCCATC ATGAGAATGA GCTCCCAGGA TCTCTTTCTC CAAAGAGGAA TGGCCTTGGC 
    CACCCTCATT CTCCCCCAGT AGAACGTCAA GGTGCCGTCT ATCCAGAAAA GCAGAACATC 
    AGAAGGACCA AGAGGCAGCC AGTCAGACTG GCGGCATCCT CAGAGGCCCA AGCTGCCTCT 
    TCCCCTGACC AGCCTCACAG GAAGGAAGAT GGCATCTCCA GGGAGAGAGC GAGTCCCATG 
    CCGGAGTCCC AGTGTAAAGA AACAACAGGT GACTCAGAAG CTCCTGCACC TTCTACGCCA 
    GCTACCACCC TGCTGATCCG GAAGGCTTTG ACTCGGGGTG GCCTGGGTAC CCTGGCTGTC 
    GACAGCAGCT TTGTGATGGC AACAGGGCAG GCATTAGCTG ATGCCTGCCA GATGGAACCA 
    GAGGAAGTGG AGGAAGCAGC GAATGAGCTC CTGAAAGGAC AGGAGTGTCC AGAAGACAGG 
    AACAGAAGCC CTTCACCCCT GGAGCCTCAG CCCATAGGGC CCTCCCCAGG CAGCTACAAT 
    GGGTCATGGG GCTCCCGAGA AGCCCTCATC TCCACCCAGC TGTGA

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

    CACNA1S ( XM_007481120.2 ) cDNA ORF clone, Monodelphis domestica(gray short-tailed opossum) -> XP_007481182.1 Monodelphis domestica calcium voltage-gated channel subunit alpha1 S (CACNA1S), transcript variant X2, mRNA.
    Price & Availability↑
    CloneID OMc09153
    Clone ID Related Accession (Same CDS sequence) XM_007481120.2
    Accession Version XM_007481120.2 Latest version! Documents for ORF clone product in default vector
    Sequence Information ORF Nucleotide Sequence (Length: 5622bp)
    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 1461600000000
    Organism Monodelphis domestica(gray short-tailed opossum)
    Product voltage-dependent L-type calcium channel subunit alpha-1S isoform X2
    Comment Comment: MODEL REFSEQ: This record is predicted by automated computational analysis. This record is derived from a genomic sequence (NC_008802.1) annotated using gene prediction method: Gnomon. Also see: Documentation of NCBI's Annotation Process On Apr 27, 2016 this sequence version replaced XM_007481120.1. ##Genome-Annotation-Data-START## Annotation Provider :: NCBI Annotation Status :: Full annotation Annotation Version :: Monodelphis domestica Annotation Release 103 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
    ATGGAGCCCT CCTCGCCCCA GGACGAGAAC CAGAAGAAGA AGCAACCTAA GAAGCCAGCT 
    CCTGATGAGA TCCCGCCCCG ACCACCCCGG GCTCTATTCT GCCTCACCCT CCAAAACCCC 
    TTGAGGAAGG CCTGCATCAG CATTGTAGAA TGGAAACCCT TTGAGACAAT CATCTTGCTC 
    ACCATCTTTG TCAACTGTGT GGCTCTGGCT GTGTACTTAC CCATGCCTGA GGATGACAAC 
    AACTCCCTCA ATCTTGGCCT GGAGAAATTG GAGTATTTCT TCCTCATCGT CTTTTCGATT 
    GAAGCTGCCA TGAAGATCAT TGCTTATGGC TTCCTTTTCC ATCAAGATGC CTATCTGCGC 
    AGTGGCTGGA ACATTCTAGA TTTCATCATT GTCTTCCTTG GGGTTTCCAC TGTGATTCTG 
    GAAGAGATCA ACTTGATCCA AAGCAATTCG ACTCCAATGA GCAGCAAAGG AGCTGGTTTG 
    GATGTCAAAG CCCTGAGAGC CTTCCGTGTC CTCAGACCCC TTCGACTGGT GTCAGGGGTT 
    CCAAGTCTTC AGGTTGTTCT CAATTCCATC ATCAAGGCCA TGATCCCTCT GTTCCACATT 
    GCCCTTCTGG TTCTCTTCAT GGTCATCATC TATGCCATTA TTGGACTGGA ACTCTTCAAA 
    GGAAAAATGC ACAAGACCTG CTACTTCATT GGGACAGATA TTGTGGCCAC AGTAGATATG 
    GAGAAGCCAT CCCCTTGTGC CAGGACAGGC TCTGGACGCC CATGTACCAT CAATGGCAGT 
    GAATGTAGAG GTGGCTGGCC AGGTCCCAAT AATGGCATCA CAAAATTTGA CAACTTTGGC 
    TTTGCCATGC TCACTGTATA CCAGTGCATC ACTATGGAGG GCTGGACCGA TGTCCTCTAC 
    TGGGTCAATG ATGCCATTGG GAACGAGTGG CCCTGGATCT ATTTTGTCAG CCTCATTCTC 
    CTGGGATCCT TCTTCATCCT CAACCTAGTT CTTGGTGTCC TGAGTGGTGA ATTCACCAAA 
    GAACGAGAAA AGGCTAAGTC TCGAGGAACC TTTCAGAAGC TCAGAGAAAA GCAACAACTT 
    GAGGAAGACT TGAAGGGTTA TATGAATTGG ATCACCCAAG GAGAAGTCAT GGATATTGAT 
    GACATAAGAG AAAGGAAGCT GTCATCAGAT GAAGGAGGTT CAGACACAGA GAGCCTCTAT 
    GAAATTGAAG GCTTGAATAA ATTTATCCAA TTTCTTCGTC ACTGGAGACA ATGGAATCGC 
    ATCTTCCGCC GCAAATGTCA AGAGGTTGTG AAATCCAAGA CCTTTTATTG GCTGGTGATC 
    CTCATTGTGG CCCTCAATAC TCTGTCCATT GCCTCAGAAC ACCATCTCCA GCCTCTTTGG 
    TTGACCCATT TGCAAGATGT GGCCAATCGA GTGCTCCTGA CTCTCTTCAC CATTGAGATG 
    CTGATGAAGA TGTATGGGCT GGGGTTTCGA CAGTATTTCA TGTCTGTCTT CAATCGCTTC 
    GACTGCTTTG TGGTGTGCAG TGGGATCATT GAGATCATCC TGGTGGAGTC GGGGATCATG 
    ACACCCCTTG GCATCTCCGT CCTCCGATGC ATCCGCCTTC TAAGGCTCTT TAAGATCACC 
    AAGTATTGGA CATCTTTGAG CAATTTGGTG GCCTCTCTGC TCAATTCCAT CCGCTCCATT 
    GCCTCCCTGC TCCTCCTGCT CTTCCTCTTC ATCATCATCT TTGCCCTCTT GGGCATGCAA 
    CTCTTTGGGG GCAAGTATGA CTTTGAGGAC ACAGAGGTGA GACGGAGCAC CTTCGATAAC 
    TTCCCCCAGG CCCTCATCAG TGTCTTCCAG ATCCTGACCG GTGAAGACTG GAACTCCATC 
    ATGTACAATG GCATCATGGC TTATGGTGGA CCCTCCTATC CCGGTGTGCT AGTCTGCATC 
    TATTTCATCA TCCTTTTCAT CTGTGGTAAC TATATCCTGC TCAATGTCTT CTTGGCCATT 
    GCTGTGGATA ACCTGGCTGA GGCAGAGAGC CTGACATCCG CTCAGAAAGC CAAGGCTGAA 
    GAGAAGAAAC GCAGGAAGAT GTCCAAGGGT CTCCCAGACA AGTCTGAGGA AGAGAAGTTG 
    ATGTTGGCCA AGAAGTTAGA ACAGAAAGCC AGGGGAGAAG GTATCCCCAC CACAGCCAAG 
    CTGAAAGTGG ATGAGTTTGA ATCCAATGTC AATGAAGTAA AGGATCCATA CCCATCAGCT 
    GATTTTCCAG GAGACGATGA GGAAGAAGAG CCAGAGATCC CACTCAGCCC TCGGCCACGT 
    CCCTTGGCAG AGCTACAGCT AAAAGAAAAA GCAGTGCCCA TGCCCGAAGC CAGCTCATTC 
    TTCATCTTCA GCCCTACCAA TAAGATCCGA GTACTATGTC ACCGAATTGT CAATGCCACC 
    TGGTTCACCA ACTTCATTCT GCTGTTCATT CTGCTCAGCA GTATCTCTCT GGCAGCAGAG 
    GATCCCATCC AAGCAGATTC CTTCAGGAAC AAGATCCTGG GCTACTTTGA CATCGCCTTC 
    ACTACTGTCT TTACTATTGA AATTGTGCTC AAGATGACAA CTTATGGTGC CATTCTTCAC 
    AAAGGCTCTT TCTGTCGCAA CTACTTTAAT ATCCTGGACC TGCTGGTCGT GGCTGTGTCC 
    CTCATCTCCA CAGGCATTGA ATCCAGTGCC ATCTCTGTGG TGAAGATCCT CAGGGTGCTA 
    AGGGTGCTCC GACCTCTCCG AGCCATCAAC AGGGCGAAAG GGTTGAAGCA CGTGGTTCAG 
    TGTGTGTTTG TGGCCATCCG CACCATTGGG AACATTGTTT TGGTCACCAC CCTCCTGCAG 
    TTCATGTTTG CCTGCATTGG AGTCCAGCTC TTCAAGGGGA AGTTCTACAG CTGTAATGAC 
    TTATCTAAGA TGACAGAACC TGAGTGCAAG GGCTATTACT ATGTGTACAA AGATGGGGAC 
    CCTAACCAGA TGCAAGTATA TCCCCGAGAG TGGCTACACA ATGACTTCAA CTTCGACAAT 
    GTGCTGTCTG CCATGTTGGC ACTCTTCACT GTCTCTACCT TCGAGGGATG GCCCCAGCTA 
    CTCTACAAAG CTATTGACAC ACATGCTGAG GACATGGGCC CCATCTACAA CAACCATGTG 
    GAGATGGCCA TCTTCTTCAT CGTTTACATC ATCCTCATCG CCTTCTTCAT GATGAATATC 
    TTTGTGGGCT TTATCATAGT CACCTTCCAG GAGCAGGGTG AGACTGAATA CAAGAACTGT 
    GAGCTCGACA AGAACCAGCG CCAGTGTGTG CAGTATGCCC TGAAAGCCCG CCCACTGAGA 
    TGCTACATCC CTAAGAACCC CTATCAGTAC AAGGTGTGGT ACATCGTCAC TTCCTCCTAC 
    TTTGAGTACC TGATGTTTGC CCTCATCATG CTCAACACCA TCTGCCTGGG CATGCAGCAT 
    TACAACCAGT CAGAAGAAAT GAACCACATT TCAGACATCC TCAACGTGGC CTTCACAATC 
    ATCTTTACTT TGGAGATGAT CCTTAAGCTC ATAGCCTTCA AGGCCAAGGG CTACTTTGGA 
    GACCCCTGGA ACGTGTTTGA CTTCCTGATC GTCATTGGAA GCATCATCGA CGTCATCCTA 
    AGCGAGATTG ATACTTTCCT GGCTTCCAGT GGAGGACTAT ACTGCCTGGG AGGAGGCTGC 
    GCCAACACTG ACCCCGATGA GAGCGCACGA ATATCCAGTG CCTTTTTCCG CCTGTTCCGA 
    GTAATGAGAC TAATTAAGCT GTTGAGCCGG GGTGAGGGTG TCCGAACATT GCTGTGGACC 
    TTCATCAAGT CCTTCCAGGC TTTGCCATAT GTGGCCCTGC TGATCGTCAT GCTCTTTTTC 
    ATCTATGCAG TTATTGGGAT GCAGATGTTT GGGAAAATTG CCATGGTAGA TGGGACACAA 
    ATCAATCGCA ATAATAACTT CCAGACGTTC CCACAAGCTG TGCTTCTACT CTTCAGGTGT 
    GCAACAGGAG AGGCATGGCA GGAGATCTTG CTGGCCTGCA GCTATGGAAA GCTCTGTGAC 
    CCCAAGTCGG ACGCTAGTGT TGGGGAGGAG TATACCTGTG GCACAGGCTT TGCCTATTTC 
    TACTTCATCA GCTTCTACAT GCTCTGTGCC TTCCTGATCA TTAACCTTTT TGTTGCTGTC 
    ATTATGGACA ACTTTGACTA CCTCACCCGA GATTGGTCCA TTCTGGGCCC GCATCATCTG 
    GATGAGTTCA AGAAGATCTG GGCTGAGTAC GATCCTGAAG CTAAGGGCAG AATCAAACAT 
    CTGGATGTTG TGACCCTGTT GAGACGAATC CAACCCCCTT TGGGCTTTGG GAAGTTCTGC 
    CCTCACCGGG TGGCGTGCAA GCGATTAGTA GGCATGAACA TGCCCCTGAA CAGTGATGGC 
    ACTGTCACCT TCAATGCTAC TCTCTTCGCT CTGGTCCGAA CAGCTCTCAA GATCAAGACA 
    GAAGGTAACT TTGAACAGGC CAATGAGGAA CTAAGAGCCA TCATCAAGAA GATTTGGAAG 
    AGAACTAGTA TGAAGCTCCT GGACCAAGTC ATTCCACCTA TTGGAGATGA TGAAGTGACC 
    GTAGGAAAAT TCTATGCCAC CTTCCTCATC CAAGAGCATT TCCGGAAGTT TATGAAGCGC 
    CAGGAGGAGT ACTATGGATA TCGACCCAAA AAAGACACTG TGCAAATCCA GGCTGGGCTT 
    CGGAGCATTG AAGAGGAAGC AGCTCCTGAG ATCCACCGAG CCATCTCTGG AGACCTGACA 
    GCTGAGGAAG AGCTAGAAAG GGCCATGGTG GAGGCTGCCA TGGAGGAGGG GATCTACAGG 
    AGGACAGGAG GCCTTTTTGG CCAGGTGGAC ACCTTCCTAG AGAGGACCGA CTCCTTGCCA 
    CCCAATGTTG CCAGCCAGAG GCCCCTGCAG TTCACAGAGA TGGAAATGGA AGATATTGAC 
    TCCCCTGTCT TCCTCGATGA CTTCCCTCCA GAACCACCTA CCAACCCTCT GGCCAGGACT 
    CACGCCAACA CAAATGCCAG CAACGCCAAT ACCAACAATG CCAACAGCTG TGTGCTCTCC 
    AGGATCCATC ATGAGAATGA GCTCCCAGGA TCTCTTTCTC CAAAGAGGAA TGGCCTTGGC 
    CACCCTCATT CTCCCCCAGA ACGTCAAGGT GCCGTCTATC CAGAAAAGCA GAACATCAGA 
    AGGACCAAGA GGCAGCCAGT CAGACTGGCG GCATCCTCAG AGGCCCAAGC TGCCTCTTCC 
    CCTGACCAGC CTCACAGGAA GGAAGATGGC ATCTCCAGGG AGAGAGCGAG TCCCATGCCG 
    GAGTCCCAGT GTAAAGAAAC AACAGGTGAC TCAGAAGCTC CTGCACCTTC TACGCCAGCT 
    ACCACCCTGC TGATCCGGAA GGCTTTGACT CGGGGTGGCC TGGGTACCCT GGCTGTCGAC 
    AGCAGCTTTG TGATGGCAAC AGGGCAGGCA TTAGCTGATG CCTGCCAGAT GGAACCAGAG 
    GAAGTGGAGG AAGCAGCGAA TGAGCTCCTG AAAGGACAGG AGTGTCCAGA AGACAGGAAC 
    AGAAGCCCTT CACCCCTGGA GCCTCAGCCC ATAGGGCCCT CCCCAGGCAG CTACAATGGG 
    TCATGGGGCT CCCGAGAAGC CCTCATCTCC ACCCAGCTGT GA

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

    RefSeq XP_007481182.1
    CDS86..5707
    Translation

    Target ORF information:

    RefSeq Version XM_007481120.2
    Organism Monodelphis domestica(gray short-tailed opossum)
    Definition Monodelphis domestica calcium voltage-gated channel subunit alpha1 S (CACNA1S), transcript variant X2, mRNA.

    Target ORF information:

    Epitope DYKDDDDK
    Bacterial selection AMPR
    Mammalian selection NeoR
    Vector pcDNA3.1+/C-(K)DYK
    		 XM_007481120.2

    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
    ATGGAGCCCT CCTCGCCCCA GGACGAGAAC CAGAAGAAGA AGCAACCTAA GAAGCCAGCT 
    CCTGATGAGA TCCCGCCCCG ACCACCCCGG GCTCTATTCT GCCTCACCCT CCAAAACCCC 
    TTGAGGAAGG CCTGCATCAG CATTGTAGAA TGGAAACCCT TTGAGACAAT CATCTTGCTC 
    ACCATCTTTG TCAACTGTGT GGCTCTGGCT GTGTACTTAC CCATGCCTGA GGATGACAAC 
    AACTCCCTCA ATCTTGGCCT GGAGAAATTG GAGTATTTCT TCCTCATCGT CTTTTCGATT 
    GAAGCTGCCA TGAAGATCAT TGCTTATGGC TTCCTTTTCC ATCAAGATGC CTATCTGCGC 
    AGTGGCTGGA ACATTCTAGA TTTCATCATT GTCTTCCTTG GGGTTTCCAC TGTGATTCTG 
    GAAGAGATCA ACTTGATCCA AAGCAATTCG ACTCCAATGA GCAGCAAAGG AGCTGGTTTG 
    GATGTCAAAG CCCTGAGAGC CTTCCGTGTC CTCAGACCCC TTCGACTGGT GTCAGGGGTT 
    CCAAGTCTTC AGGTTGTTCT CAATTCCATC ATCAAGGCCA TGATCCCTCT GTTCCACATT 
    GCCCTTCTGG TTCTCTTCAT GGTCATCATC TATGCCATTA TTGGACTGGA ACTCTTCAAA 
    GGAAAAATGC ACAAGACCTG CTACTTCATT GGGACAGATA TTGTGGCCAC AGTAGATATG 
    GAGAAGCCAT CCCCTTGTGC CAGGACAGGC TCTGGACGCC CATGTACCAT CAATGGCAGT 
    GAATGTAGAG GTGGCTGGCC AGGTCCCAAT AATGGCATCA CAAAATTTGA CAACTTTGGC 
    TTTGCCATGC TCACTGTATA CCAGTGCATC ACTATGGAGG GCTGGACCGA TGTCCTCTAC 
    TGGGTCAATG ATGCCATTGG GAACGAGTGG CCCTGGATCT ATTTTGTCAG CCTCATTCTC 
    CTGGGATCCT TCTTCATCCT CAACCTAGTT CTTGGTGTCC TGAGTGGTGA ATTCACCAAA 
    GAACGAGAAA AGGCTAAGTC TCGAGGAACC TTTCAGAAGC TCAGAGAAAA GCAACAACTT 
    GAGGAAGACT TGAAGGGTTA TATGAATTGG ATCACCCAAG GAGAAGTCAT GGATATTGAT 
    GACATAAGAG AAAGGAAGCT GTCATCAGAT GAAGGAGGTT CAGACACAGA GAGCCTCTAT 
    GAAATTGAAG GCTTGAATAA ATTTATCCAA TTTCTTCGTC ACTGGAGACA ATGGAATCGC 
    ATCTTCCGCC GCAAATGTCA AGAGGTTGTG AAATCCAAGA CCTTTTATTG GCTGGTGATC 
    CTCATTGTGG CCCTCAATAC TCTGTCCATT GCCTCAGAAC ACCATCTCCA GCCTCTTTGG 
    TTGACCCATT TGCAAGATGT GGCCAATCGA GTGCTCCTGA CTCTCTTCAC CATTGAGATG 
    CTGATGAAGA TGTATGGGCT GGGGTTTCGA CAGTATTTCA TGTCTGTCTT CAATCGCTTC 
    GACTGCTTTG TGGTGTGCAG TGGGATCATT GAGATCATCC TGGTGGAGTC GGGGATCATG 
    ACACCCCTTG GCATCTCCGT CCTCCGATGC ATCCGCCTTC TAAGGCTCTT TAAGATCACC 
    AAGTATTGGA CATCTTTGAG CAATTTGGTG GCCTCTCTGC TCAATTCCAT CCGCTCCATT 
    GCCTCCCTGC TCCTCCTGCT CTTCCTCTTC ATCATCATCT TTGCCCTCTT GGGCATGCAA 
    CTCTTTGGGG GCAAGTATGA CTTTGAGGAC ACAGAGGTGA GACGGAGCAC CTTCGATAAC 
    TTCCCCCAGG CCCTCATCAG TGTCTTCCAG ATCCTGACCG GTGAAGACTG GAACTCCATC 
    ATGTACAATG GCATCATGGC TTATGGTGGA CCCTCCTATC CCGGTGTGCT AGTCTGCATC 
    TATTTCATCA TCCTTTTCAT CTGTGGTAAC TATATCCTGC TCAATGTCTT CTTGGCCATT 
    GCTGTGGATA ACCTGGCTGA GGCAGAGAGC CTGACATCCG CTCAGAAAGC CAAGGCTGAA 
    GAGAAGAAAC GCAGGAAGAT GTCCAAGGGT CTCCCAGACA AGTCTGAGGA AGAGAAGTTG 
    ATGTTGGCCA AGAAGTTAGA ACAGAAAGCC AGGGGAGAAG GTATCCCCAC CACAGCCAAG 
    CTGAAAGTGG ATGAGTTTGA ATCCAATGTC AATGAAGTAA AGGATCCATA CCCATCAGCT 
    GATTTTCCAG GAGACGATGA GGAAGAAGAG CCAGAGATCC CACTCAGCCC TCGGCCACGT 
    CCCTTGGCAG AGCTACAGCT AAAAGAAAAA GCAGTGCCCA TGCCCGAAGC CAGCTCATTC 
    TTCATCTTCA GCCCTACCAA TAAGATCCGA GTACTATGTC ACCGAATTGT CAATGCCACC 
    TGGTTCACCA ACTTCATTCT GCTGTTCATT CTGCTCAGCA GTATCTCTCT GGCAGCAGAG 
    GATCCCATCC AAGCAGATTC CTTCAGGAAC AAGATCCTGG GCTACTTTGA CATCGCCTTC 
    ACTACTGTCT TTACTATTGA AATTGTGCTC AAGATGACAA CTTATGGTGC CATTCTTCAC 
    AAAGGCTCTT TCTGTCGCAA CTACTTTAAT ATCCTGGACC TGCTGGTCGT GGCTGTGTCC 
    CTCATCTCCA CAGGCATTGA ATCCAGTGCC ATCTCTGTGG TGAAGATCCT CAGGGTGCTA 
    AGGGTGCTCC GACCTCTCCG AGCCATCAAC AGGGCGAAAG GGTTGAAGCA CGTGGTTCAG 
    TGTGTGTTTG TGGCCATCCG CACCATTGGG AACATTGTTT TGGTCACCAC CCTCCTGCAG 
    TTCATGTTTG CCTGCATTGG AGTCCAGCTC TTCAAGGGGA AGTTCTACAG CTGTAATGAC 
    TTATCTAAGA TGACAGAACC TGAGTGCAAG GGCTATTACT ATGTGTACAA AGATGGGGAC 
    CCTAACCAGA TGCAAGTATA TCCCCGAGAG TGGCTACACA ATGACTTCAA CTTCGACAAT 
    GTGCTGTCTG CCATGTTGGC ACTCTTCACT GTCTCTACCT TCGAGGGATG GCCCCAGCTA 
    CTCTACAAAG CTATTGACAC ACATGCTGAG GACATGGGCC CCATCTACAA CAACCATGTG 
    GAGATGGCCA TCTTCTTCAT CGTTTACATC ATCCTCATCG CCTTCTTCAT GATGAATATC 
    TTTGTGGGCT TTATCATAGT CACCTTCCAG GAGCAGGGTG AGACTGAATA CAAGAACTGT 
    GAGCTCGACA AGAACCAGCG CCAGTGTGTG CAGTATGCCC TGAAAGCCCG CCCACTGAGA 
    TGCTACATCC CTAAGAACCC CTATCAGTAC AAGGTGTGGT ACATCGTCAC TTCCTCCTAC 
    TTTGAGTACC TGATGTTTGC CCTCATCATG CTCAACACCA TCTGCCTGGG CATGCAGCAT 
    TACAACCAGT CAGAAGAAAT GAACCACATT TCAGACATCC TCAACGTGGC CTTCACAATC 
    ATCTTTACTT TGGAGATGAT CCTTAAGCTC ATAGCCTTCA AGGCCAAGGG CTACTTTGGA 
    GACCCCTGGA ACGTGTTTGA CTTCCTGATC GTCATTGGAA GCATCATCGA CGTCATCCTA 
    AGCGAGATTG ATACTTTCCT GGCTTCCAGT GGAGGACTAT ACTGCCTGGG AGGAGGCTGC 
    GCCAACACTG ACCCCGATGA GAGCGCACGA ATATCCAGTG CCTTTTTCCG CCTGTTCCGA 
    GTAATGAGAC TAATTAAGCT GTTGAGCCGG GGTGAGGGTG TCCGAACATT GCTGTGGACC 
    TTCATCAAGT CCTTCCAGGC TTTGCCATAT GTGGCCCTGC TGATCGTCAT GCTCTTTTTC 
    ATCTATGCAG TTATTGGGAT GCAGATGTTT GGGAAAATTG CCATGGTAGA TGGGACACAA 
    ATCAATCGCA ATAATAACTT CCAGACGTTC CCACAAGCTG TGCTTCTACT CTTCAGGTGT 
    GCAACAGGAG AGGCATGGCA GGAGATCTTG CTGGCCTGCA GCTATGGAAA GCTCTGTGAC 
    CCCAAGTCGG ACGCTAGTGT TGGGGAGGAG TATACCTGTG GCACAGGCTT TGCCTATTTC 
    TACTTCATCA GCTTCTACAT GCTCTGTGCC TTCCTGATCA TTAACCTTTT TGTTGCTGTC 
    ATTATGGACA ACTTTGACTA CCTCACCCGA GATTGGTCCA TTCTGGGCCC GCATCATCTG 
    GATGAGTTCA AGAAGATCTG GGCTGAGTAC GATCCTGAAG CTAAGGGCAG AATCAAACAT 
    CTGGATGTTG TGACCCTGTT GAGACGAATC CAACCCCCTT TGGGCTTTGG GAAGTTCTGC 
    CCTCACCGGG TGGCGTGCAA GCGATTAGTA GGCATGAACA TGCCCCTGAA CAGTGATGGC 
    ACTGTCACCT TCAATGCTAC TCTCTTCGCT CTGGTCCGAA CAGCTCTCAA GATCAAGACA 
    GAAGGTAACT TTGAACAGGC CAATGAGGAA CTAAGAGCCA TCATCAAGAA GATTTGGAAG 
    AGAACTAGTA TGAAGCTCCT GGACCAAGTC ATTCCACCTA TTGGAGATGA TGAAGTGACC 
    GTAGGAAAAT TCTATGCCAC CTTCCTCATC CAAGAGCATT TCCGGAAGTT TATGAAGCGC 
    CAGGAGGAGT ACTATGGATA TCGACCCAAA AAAGACACTG TGCAAATCCA GGCTGGGCTT 
    CGGAGCATTG AAGAGGAAGC AGCTCCTGAG ATCCACCGAG CCATCTCTGG AGACCTGACA 
    GCTGAGGAAG AGCTAGAAAG GGCCATGGTG GAGGCTGCCA TGGAGGAGGG GATCTACAGG 
    AGGACAGGAG GCCTTTTTGG CCAGGTGGAC ACCTTCCTAG AGAGGACCGA CTCCTTGCCA 
    CCCAATGTTG CCAGCCAGAG GCCCCTGCAG TTCACAGAGA TGGAAATGGA AGATATTGAC 
    TCCCCTGTCT TCCTCGATGA CTTCCCTCCA GAACCACCTA CCAACCCTCT GGCCAGGACT 
    CACGCCAACA CAAATGCCAG CAACGCCAAT ACCAACAATG CCAACAGCTG TGTGCTCTCC 
    AGGATCCATC ATGAGAATGA GCTCCCAGGA TCTCTTTCTC CAAAGAGGAA TGGCCTTGGC 
    CACCCTCATT CTCCCCCAGA ACGTCAAGGT GCCGTCTATC CAGAAAAGCA GAACATCAGA 
    AGGACCAAGA GGCAGCCAGT CAGACTGGCG GCATCCTCAG AGGCCCAAGC TGCCTCTTCC 
    CCTGACCAGC CTCACAGGAA GGAAGATGGC ATCTCCAGGG AGAGAGCGAG TCCCATGCCG 
    GAGTCCCAGT GTAAAGAAAC AACAGGTGAC TCAGAAGCTC CTGCACCTTC TACGCCAGCT 
    ACCACCCTGC TGATCCGGAA GGCTTTGACT CGGGGTGGCC TGGGTACCCT GGCTGTCGAC 
    AGCAGCTTTG TGATGGCAAC AGGGCAGGCA TTAGCTGATG CCTGCCAGAT GGAACCAGAG 
    GAAGTGGAGG AAGCAGCGAA TGAGCTCCTG AAAGGACAGG AGTGTCCAGA AGACAGGAAC 
    AGAAGCCCTT CACCCCTGGA GCCTCAGCCC ATAGGGCCCT CCCCAGGCAG CTACAATGGG 
    TCATGGGGCT CCCGAGAAGC CCTCATCTCC ACCCAGCTGT GA

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

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