| Gene Symbol | ACTN1 |
| Entrez Gene ID | 100460195 |
| Full Name | actinin alpha 1 |
| Gene Type | protein-coding |
| Organism | Pongo abelii(Sumatran orangutan) |
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ACTN1 cDNA ORF clone, Pongo abelii(Sumatran orangutan)
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Gene
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Clones
gRNAs
The following ACTN1 gene cDNA ORF clone sequences were retrieved from the NCBI Reference Sequence Database (RefSeq). These sequences represent the protein coding region of the ACTN1 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.
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Reference Sequences (Refseq)
CloneID OSa169434 Clone ID Related Accession (Same CDS sequence) XM_024231896.1 Accession Version XM_024231896.1 Latest version! Documents for ORF clone product in default vector Sequence Information ORF Nucleotide Sequence (Length: 2484bp)
Protein sequence
SNPVector pcDNA3.1-C-(k)DYK or customized vector 
User ManualClone information Clone Map MSDSTag on pcDNA3.1+/C-(K)DYK C terminal DYKDDDDK tags ORF Insert Method CloneEZ™ Seamless cloning technology Insert Structure linear Update Date 1519660800000 Organism Pongo abelii(Sumatran orangutan) Product alpha-actinin-1 isoform X3 Comment Comment: MODEL REFSEQ: This record is predicted by automated computational analysis. This record is derived from a genomic sequence (NC_036917.1) annotated using gene prediction method: Gnomon, supported by mRNA and EST evidence. Also see: Documentation of NCBI's Annotation Process ##Genome-Annotation-Data-START## Annotation Provider :: NCBI Annotation Status :: Full annotation Annotation Name :: Pongo abelii Annotation Release 103 Annotation Version :: 103 Annotation Pipeline :: NCBI eukaryotic genome annotation pipeline Annotation Software Version :: 8.0 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
2461ATGCTGCTGC TGGAGGTCAT CTCAGGTGAA CGCTTGGCTA AGCCAGAGCG AGGCAAGATG
AGAGTGCACA AGATCTCCAA CGTCAACAAG GCCCTGGATT TCATAGCTAG CAAAGGCGTC
AAACTGGTGT CCATCGGAGC CGAAGAAATC GTGGATGGGA ATGTGAAGAT GACCCTGGGC
ATGATCTGGA CCATCATCCT GCGCTTTGCC ATCCAGGACA TCTCTGTGGA AGAGACTTCA
GCTAAGGAAG GGCTGCTCCT GTGGTGTCAG AGAAAGACAG CCCCTTACAA AAACGTCAAC
ATCCAGAACT TCCACATAAG CTGGAAGGAT GGCCTCGGCT TCTGTGCCTT GATTCACCGA
CACCGGCCCG AGCTGATTGA CTACGGGAAG CTGCGGAAGG ATGATCCACT CACAAATCTG
AATACGGCTT TTGACGTGGC AGAGAAGTAC CTGGACATCC CTAAGATGCT GGATGCCGAA
GACATCGTTG GAACTGCCCG ACCGGATGAG AAAGCCATCA TGACTTATGT GTCTAGCTTC
TACCACGCCT TCTCTGGAGC CCAGAAGGCG GAGACAGCAG CCAATCGCAT CTGCAAGGTG
TTGGCCGTCA ACCAGGAGAA CGAGCAGCTT ATGGAAGACT ACGAGAAGTT GGCCAGTGAT
CTGTTGGAGT GGATCCGCCG CACAATCCCG TGGCTGGAGA ACCGGGTGCC CGAGAACACC
ATGCATGCCA TGCAGCAGAA GCTGGAGGAT TTCCGGGACT ACCGGCGCCT GCACAAGCCG
CCCAAGGTGC AGGAGAAGTG CCAGCTGGAG ATCAACTTCA ACACGCTGCA GACCAAGCTG
CGGCTCAGCA ACCGGCCTGC CTTCATGCCC TCTGAGGGCA GGATGGTCTC GGACATCAAC
AATGCCTGGG GCTGCCTGGA GCAGGTGGAG AAGGGCTATG AGGAGTGGTT GCTGAACGAG
ATCCGGAGGC TGGAGCGACT GGACCACCTG GCAGAGAAGT TCCGGCAGAA GGCCTCCATC
CACGAGGCCT GGACTGACGG CAAAGAGGCC ATGCTGCGAC AGAAGGACTA TGAGACAGCC
ACCCTCTCGG AGATCAAGGC CCTGCTCAAG AAGCATGAGG CCTTCGAGAG TGACCTGGCT
GCCCACCAGG ACCGCGTGGA GCAGATTGCC GCCATCGCAC AGGAGCTCAA TGAGCTGGAC
TATTATGACT CACCCAGTGT CAACGCCCGT TGCCAAAAGA TCTGTGACCA GTGGGACAAT
CTGGGGGCCC TAACTCAGAA GCGAAGGGAA GCTCTGGAGC GGACCGAGAA ACTGCTGGAG
ACCATTGACC AGCTGTACTT GGAGTATGCC AAGCGGGCTG CACCCTTCAA CAACTGGATG
GAGGGGGCCA TGGAGGACCT GCAGGACACC TTCATTGTGC ACACCATTGA GGAGATCCAG
GGACTGACCA CAGCCCATGA GCAGTTCAAG GCCACCCTCC CTGATGCCGA CAAGGAGCGC
CTGGCCATAC TGGGCATCCA CAACGAGGTG TCCAAGATTG TCCAGACCTA CCACGTCAAT
ATGGCGGGCA CCAACCCCTA CACAACCATC ACGCCTCAGG AGATCAATGG CAAATGGGAC
CACGTGCGGC AGCTGGTGCC ACGGAGGGAC CAAGCTCTGA CGGAGGAGCA TGCCCGACAG
CAGCACAATG AGAGGCTACG CAAGCAGTTT GGGGCCCAGG CCAATGTCAT CGGGCCCTGG
ATCCAGACCA AGATGGAGGA GATCGGGAGG ATCTCCATTG AGATGCACGG GACCCTGGAG
GACCAGCTCA GCCACCTGCG GCAGTATGAG AAGAGTATCG TCAACTACAA GCCAAAGATT
GATCAGCTGG AGGGCGACCA CCAGCTCATC CAGGAGGCAC TCATCTTTGA CAACAAGCAC
ACCAACTACA CCATGGAGCA CATCCGTGTG GGCTGGGAGC AGCTGCTCAC CACCATCGCC
AGGACCATCA ATGAGGTGGA GAACCAGATC CTGACCCGGG ATGCCAAGGG CATTAGCCAG
GAGCAGATGA ATGAGTTCCG GGCCTCCTTC AACCACTTTG ACCGGGATCA CTCCGGCACA
CTGGGTCCCG AGGAGTTCAA AGCCTGCCTC ATCAGCTTGG GTTATGATAT TGGCAACGAC
CCCCAGGGAG AAGCAGAATT TGCCCGCATC ATGAGCATTG TGGACCCCAA CCGCCTGGGG
GTAGTGACAT TCCAGGCCTT CATTGACTTC ATGTCCCGCG AGACAGCCGA CACAGATACA
GCAGACCAAG TCATGGCTTC CTTCAAGATC CTGGCCGGGG ACAAGAACTA CATTACCATG
GACGAGCTGC GCCGCGAGCT GCCGCCCGAC CAGGCTGAGT ACTGCATCGC GCGGATGGCC
CCCTACACCG GCCCCGACTC CGTGCCAGGT GCTCTGGACT ACATGTCCTT CTCCACGGCG
CTGTACGGCG AGAGTGACCT CTAAThe stop codons will be deleted if pcDNA3.1+/C-(K)DYK vector is selected.
RefSeq XP_024087664.1 CDS 619..3102 Translation 
Target ORF information:
RefSeq Version XM_024231896.1 Organism Pongo abelii(Sumatran orangutan) Definition Pongo abelii actinin alpha 1 (ACTN1), transcript variant X3, mRNA. Target ORF information:
Epitope DYKDDDDK Bacterial selection AMPR Mammalian selection NeoR Vector pcDNA3.1+/C-(K)DYK 
XM_024231896.1
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
2461ATGCTGCTGC TGGAGGTCAT CTCAGGTGAA CGCTTGGCTA AGCCAGAGCG AGGCAAGATG
AGAGTGCACA AGATCTCCAA CGTCAACAAG GCCCTGGATT TCATAGCTAG CAAAGGCGTC
AAACTGGTGT CCATCGGAGC CGAAGAAATC GTGGATGGGA ATGTGAAGAT GACCCTGGGC
ATGATCTGGA CCATCATCCT GCGCTTTGCC ATCCAGGACA TCTCTGTGGA AGAGACTTCA
GCTAAGGAAG GGCTGCTCCT GTGGTGTCAG AGAAAGACAG CCCCTTACAA AAACGTCAAC
ATCCAGAACT TCCACATAAG CTGGAAGGAT GGCCTCGGCT TCTGTGCCTT GATTCACCGA
CACCGGCCCG AGCTGATTGA CTACGGGAAG CTGCGGAAGG ATGATCCACT CACAAATCTG
AATACGGCTT TTGACGTGGC AGAGAAGTAC CTGGACATCC CTAAGATGCT GGATGCCGAA
GACATCGTTG GAACTGCCCG ACCGGATGAG AAAGCCATCA TGACTTATGT GTCTAGCTTC
TACCACGCCT TCTCTGGAGC CCAGAAGGCG GAGACAGCAG CCAATCGCAT CTGCAAGGTG
TTGGCCGTCA ACCAGGAGAA CGAGCAGCTT ATGGAAGACT ACGAGAAGTT GGCCAGTGAT
CTGTTGGAGT GGATCCGCCG CACAATCCCG TGGCTGGAGA ACCGGGTGCC CGAGAACACC
ATGCATGCCA TGCAGCAGAA GCTGGAGGAT TTCCGGGACT ACCGGCGCCT GCACAAGCCG
CCCAAGGTGC AGGAGAAGTG CCAGCTGGAG ATCAACTTCA ACACGCTGCA GACCAAGCTG
CGGCTCAGCA ACCGGCCTGC CTTCATGCCC TCTGAGGGCA GGATGGTCTC GGACATCAAC
AATGCCTGGG GCTGCCTGGA GCAGGTGGAG AAGGGCTATG AGGAGTGGTT GCTGAACGAG
ATCCGGAGGC TGGAGCGACT GGACCACCTG GCAGAGAAGT TCCGGCAGAA GGCCTCCATC
CACGAGGCCT GGACTGACGG CAAAGAGGCC ATGCTGCGAC AGAAGGACTA TGAGACAGCC
ACCCTCTCGG AGATCAAGGC CCTGCTCAAG AAGCATGAGG CCTTCGAGAG TGACCTGGCT
GCCCACCAGG ACCGCGTGGA GCAGATTGCC GCCATCGCAC AGGAGCTCAA TGAGCTGGAC
TATTATGACT CACCCAGTGT CAACGCCCGT TGCCAAAAGA TCTGTGACCA GTGGGACAAT
CTGGGGGCCC TAACTCAGAA GCGAAGGGAA GCTCTGGAGC GGACCGAGAA ACTGCTGGAG
ACCATTGACC AGCTGTACTT GGAGTATGCC AAGCGGGCTG CACCCTTCAA CAACTGGATG
GAGGGGGCCA TGGAGGACCT GCAGGACACC TTCATTGTGC ACACCATTGA GGAGATCCAG
GGACTGACCA CAGCCCATGA GCAGTTCAAG GCCACCCTCC CTGATGCCGA CAAGGAGCGC
CTGGCCATAC TGGGCATCCA CAACGAGGTG TCCAAGATTG TCCAGACCTA CCACGTCAAT
ATGGCGGGCA CCAACCCCTA CACAACCATC ACGCCTCAGG AGATCAATGG CAAATGGGAC
CACGTGCGGC AGCTGGTGCC ACGGAGGGAC CAAGCTCTGA CGGAGGAGCA TGCCCGACAG
CAGCACAATG AGAGGCTACG CAAGCAGTTT GGGGCCCAGG CCAATGTCAT CGGGCCCTGG
ATCCAGACCA AGATGGAGGA GATCGGGAGG ATCTCCATTG AGATGCACGG GACCCTGGAG
GACCAGCTCA GCCACCTGCG GCAGTATGAG AAGAGTATCG TCAACTACAA GCCAAAGATT
GATCAGCTGG AGGGCGACCA CCAGCTCATC CAGGAGGCAC TCATCTTTGA CAACAAGCAC
ACCAACTACA CCATGGAGCA CATCCGTGTG GGCTGGGAGC AGCTGCTCAC CACCATCGCC
AGGACCATCA ATGAGGTGGA GAACCAGATC CTGACCCGGG ATGCCAAGGG CATTAGCCAG
GAGCAGATGA ATGAGTTCCG GGCCTCCTTC AACCACTTTG ACCGGGATCA CTCCGGCACA
CTGGGTCCCG AGGAGTTCAA AGCCTGCCTC ATCAGCTTGG GTTATGATAT TGGCAACGAC
CCCCAGGGAG AAGCAGAATT TGCCCGCATC ATGAGCATTG TGGACCCCAA CCGCCTGGGG
GTAGTGACAT TCCAGGCCTT CATTGACTTC ATGTCCCGCG AGACAGCCGA CACAGATACA
GCAGACCAAG TCATGGCTTC CTTCAAGATC CTGGCCGGGG ACAAGAACTA CATTACCATG
GACGAGCTGC GCCGCGAGCT GCCGCCCGAC CAGGCTGAGT ACTGCATCGC GCGGATGGCC
CCCTACACCG GCCCCGACTC CGTGCCAGGT GCTCTGGACT ACATGTCCTT CTCCACGGCG
CTGTACGGCG AGAGTGACCT CTAAThe stop codons will be deleted if pcDNA3.1+/C-(K)DYK vector is selected.
CloneID OSa35168 Clone ID Related Accession (Same CDS sequence) XM_009249208.1 Accession Version XM_009249208.1 Latest version! Documents for ORF clone product in default vector Sequence Information ORF Nucleotide Sequence (Length: 2898bp)
Protein sequence
SNPVector pcDNA3.1-C-(k)DYK or customized vector User ManualClone information Clone Map MSDSTag on pcDNA3.1+/C-(K)DYK C terminal DYKDDDDK tags ORF Insert Method CloneEZ™ Seamless cloning technology Insert Structure linear Update Date 1411315200000 Organism Pongo abelii(Sumatran orangutan) Product alpha-actinin-1 Comment Comment: MODEL REFSEQ: This record is predicted by automated computational analysis. This record is derived from a genomic sequence (NW_002887277.1) annotated using gene prediction method: Gnomon, supported by mRNA and EST evidence. Also see: Documentation of NCBI's Annotation Process ##Genome-Annotation-Data-START## Annotation Provider :: NCBI Annotation Status :: Full annotation Annotation Version :: Pongo abelii Annotation Release 102 Annotation Pipeline :: NCBI eukaryotic genome annotation pipeline Annotation Software Version :: 6.1 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
2881ATGCCAAGAA TTCCCAATGA GAGGCGATGG GGGGAAGTTT GGGCAACTCG GCCTGGCCAA
TGGAGAGCCT CGGGAGGGCT CTGCCCCTTC CCCCCGCCCC CGCCCGCCTC GGCTCACGCA
GCGCTAGTGT GTCCGCCTAG CTCAGTGTGC GTGGAGATTA GGTCCAAGCG CCCGCCCAGA
GGCAGGCAGT CCGCGAGCCC AGCCGCCGCT GTCGCCGCCA GTAGCAGCCT TCGCCAGCAG
CGCCGCGGCG GAACCGGGCG CAGGGGAGCG AGCCCGGCCC CGCCAGCCCA GCCCAGCCCT
ACTCCCTCCC CACGCCAGGG CAGCAGCCGT TGCTCAGAGA GAAGGTGGAG GAAGAAATCC
AGACCCCAGC ACGCGCGCAC CATCATGGAC CATTATGATT CTCAGCAAAC CAACGATTAC
ATGCAGCCAG AAGAGGACTG GGACCGGGAC CTGCTCCTGG ACCCGGCCTG GGAGAAGCAG
CAGAGAAAGA CATTCACGGC ATGGTGTAAC TCCCACCTCC GGAAGGCGGG GACACAGATC
GAGAACATCG AAGAGGACTT CCGGGATGGC CTGAAGCTCA TGCTGCTGCT GGAGGTCATC
TCAGGTGAAC GCTTGGCTAA GCCAGAGCGA GGCAAGATGA GAGTGCACAA GATCTCCAAC
GTCAACAAGG CCCTGGATTT CATAGCTAGC AAAGGCGTCA AACTGGTGTC CATCGGAGCC
GAAGAAATCG TGGATGGGAA TGTGAAGATG ACCCTGGGCA TGATCTGGAC CATCATCCTG
CGCTTTGCCA TCCAGGACAT CTCTGTGGAA GAGACTTCAG CTAAGGAAGG GCTGCTCCTG
TGGTGTCAGA GAAAGACAGC CCCTTACAAA AACGTCAACA TCCAGAACTT CCACATAAGC
TGGAAGGATG GCCTCGGCTT CTGTGCCTTG ATTCACCGAC ACCGGCCCGA GCTGATTGAC
TACGGGAAGC TGCGGAAGGA TGATCCACTC ACAAATCTGA ATACGGCTTT TGACGTGGCA
GAGAAGTACC TGGACATCCC TAAGATGCTG GATGCCGAAG ACATCGTTGG AACTGCCCGA
CCGGATGAGA AAGCCATCAT GACTTATGTG TCTAGCTTCT ACCACGCCTT CTCTGGAGCC
CAGAAGGCGG AGACAGCAGC CAATCGCATC TGCAAGGTGT TGGCCGTCAA CCAGGAGAAC
GAGCAGCTTA TGGAAGACTA CGAGAAGTTG GCCAGTGATG ACATCAACAA TGCCTGGGGC
TGCCTGGAGC AGGTGGAGAA GGGCTATGAG GAGTGGTTGC TGAACGAGAT CCGGAGGCTG
GAGCGACTGG ACCACCTGGC AGAGAAGTTC CGGCAGAAGG CCTCCATCCA CGAGGCCTGG
ACTGACGGCA AAGAGGCCAT GCTGCGACAG AAGGACTATG AGACAGCCAC CCTCTCGGAG
ATCAAGGCCC TGCTCAAGAA GCATGAGGCC TTCGAGAGTG ACCTGGCTGC CCACCAGGAC
CGCGTGGAGC AGATTGCCGC CATCGCACAG GAGCTCAATG AGCTGGACTA TTATGACTCA
CCCAGTGTCA ACGCCCGTTG CCAAAAGATC TGTGACCAGT GGGACAATCT GGGGGCCCTA
ACTCAGAAGC GAAGGGAAGC TCTGGAGCGG ACCGAGAAAC TGCTGGAGAC CATTGACCAG
CTGTACTTGG AGTATGCCAA GCGGGCTGCA CCCTTCAACA ACTGGATGGA GGGGGCCATG
GAGGACCTGC AGGACACCTT CATTGTGCAC ACCATTGAGG AGATCCAGGG ACTGACCACA
GCCCATGAGC AGTTCAAGGC CACCCTCCCT GATGCCGACA AGGAGCGCCT GGCCATACTG
GGCATCCACA ACGAGGTGTC CAAGATTGTC CAGACCTACC ACGTCAATAT GGCGGGCACC
AACCCCTACA CAACCATCAC GCCTCAGGAG ATCAATGGCA AATGGGACCA CGTGCGGCAG
CTGGTGCCAC GGAGGGACCA AGCTCTGACG GAGGAGCATG CCCGACAGCA GCACAATGAG
AGGCTACGCA AGCAGTTTGG GGCCCAGGCC AATGTCATCG GGCCCTGGAT CCAGACCAAG
ATGGAGGAGA TCGGGAGGAT CTCCATTGAG ATGCACGGGA CCCTGGAGGA CCAGCTCAGC
CACCTGCGGC AGTATGAGAA GAGTATCGTC AACTACAAGC CAAAGATTGA TCAGCTGGAG
GGCGACCACC AGCTCATCCA GGAGGCACTC ATCTTTGACA ACAAGCACAC CAACTACACC
ATGGAGCACA TCCGTGTGGG CTGGGAGCAG CTGCTCACCA CCATCGCCAG GACCATCAAT
GAGGTGGAGA ACCAGATCCT GACCCGGGAT GCCAAGGGCA TTAGCCAGGA GCAGATGAAT
GAGTTCCGGG CCTCCTTCAA CCACTTTGAC CGGGATCACT CCGGCACACT GGGTCCCGAG
GAGTTCAAAG CCTGCCTCAT CAGCTTGGGT TATGATATTG GCAACGACCC CCAGAAGAAG
ACAGGCATGA TGGACACGGA TGATTTCCGC GCCTGCCTGA TCTCCATGGG TTACAACATG
GGAGAAGCAG AATTTGCCCG CATCATGAGC ATTGTGGACC CCAACCGCCT GGGGGTAGTG
ACATTCCAGG CCTTCATTGA CTTCATGTCC CGCGAGACAG CCGACACAGA TACAGCAGAC
CAAGTCATGG CTTCCTTCAA GATCCTGGCC GGGGACAAGA ACTACATTAC CATGGACGAG
CTGCGCCGCG AGCTGCCGCC CGACCAGGCT GAGTACTGCA TCGCGCGGAT GGCCCCCTAC
ACCGGCCCCG ACTCCGTGCC AGGTGCTCTG GACTACATGT CCTTCTCCAC GGCGCTGTAC
GGCGAGAGTG ACCTCTAAThe stop codons will be deleted if pcDNA3.1+/C-(K)DYK vector is selected.
RefSeq XP_009247483.1 CDS 74..2971 Translation
Target ORF information:
RefSeq Version XM_009249208.1 Organism Pongo abelii(Sumatran orangutan) Definition Pongo abelii actinin, alpha 1 (ACTN1), mRNA. Target ORF information:
Epitope DYKDDDDK Bacterial selection AMPR Mammalian selection NeoR Vector pcDNA3.1+/C-(K)DYK XM_009249208.1
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
2881ATGCCAAGAA TTCCCAATGA GAGGCGATGG GGGGAAGTTT GGGCAACTCG GCCTGGCCAA
TGGAGAGCCT CGGGAGGGCT CTGCCCCTTC CCCCCGCCCC CGCCCGCCTC GGCTCACGCA
GCGCTAGTGT GTCCGCCTAG CTCAGTGTGC GTGGAGATTA GGTCCAAGCG CCCGCCCAGA
GGCAGGCAGT CCGCGAGCCC AGCCGCCGCT GTCGCCGCCA GTAGCAGCCT TCGCCAGCAG
CGCCGCGGCG GAACCGGGCG CAGGGGAGCG AGCCCGGCCC CGCCAGCCCA GCCCAGCCCT
ACTCCCTCCC CACGCCAGGG CAGCAGCCGT TGCTCAGAGA GAAGGTGGAG GAAGAAATCC
AGACCCCAGC ACGCGCGCAC CATCATGGAC CATTATGATT CTCAGCAAAC CAACGATTAC
ATGCAGCCAG AAGAGGACTG GGACCGGGAC CTGCTCCTGG ACCCGGCCTG GGAGAAGCAG
CAGAGAAAGA CATTCACGGC ATGGTGTAAC TCCCACCTCC GGAAGGCGGG GACACAGATC
GAGAACATCG AAGAGGACTT CCGGGATGGC CTGAAGCTCA TGCTGCTGCT GGAGGTCATC
TCAGGTGAAC GCTTGGCTAA GCCAGAGCGA GGCAAGATGA GAGTGCACAA GATCTCCAAC
GTCAACAAGG CCCTGGATTT CATAGCTAGC AAAGGCGTCA AACTGGTGTC CATCGGAGCC
GAAGAAATCG TGGATGGGAA TGTGAAGATG ACCCTGGGCA TGATCTGGAC CATCATCCTG
CGCTTTGCCA TCCAGGACAT CTCTGTGGAA GAGACTTCAG CTAAGGAAGG GCTGCTCCTG
TGGTGTCAGA GAAAGACAGC CCCTTACAAA AACGTCAACA TCCAGAACTT CCACATAAGC
TGGAAGGATG GCCTCGGCTT CTGTGCCTTG ATTCACCGAC ACCGGCCCGA GCTGATTGAC
TACGGGAAGC TGCGGAAGGA TGATCCACTC ACAAATCTGA ATACGGCTTT TGACGTGGCA
GAGAAGTACC TGGACATCCC TAAGATGCTG GATGCCGAAG ACATCGTTGG AACTGCCCGA
CCGGATGAGA AAGCCATCAT GACTTATGTG TCTAGCTTCT ACCACGCCTT CTCTGGAGCC
CAGAAGGCGG AGACAGCAGC CAATCGCATC TGCAAGGTGT TGGCCGTCAA CCAGGAGAAC
GAGCAGCTTA TGGAAGACTA CGAGAAGTTG GCCAGTGATG ACATCAACAA TGCCTGGGGC
TGCCTGGAGC AGGTGGAGAA GGGCTATGAG GAGTGGTTGC TGAACGAGAT CCGGAGGCTG
GAGCGACTGG ACCACCTGGC AGAGAAGTTC CGGCAGAAGG CCTCCATCCA CGAGGCCTGG
ACTGACGGCA AAGAGGCCAT GCTGCGACAG AAGGACTATG AGACAGCCAC CCTCTCGGAG
ATCAAGGCCC TGCTCAAGAA GCATGAGGCC TTCGAGAGTG ACCTGGCTGC CCACCAGGAC
CGCGTGGAGC AGATTGCCGC CATCGCACAG GAGCTCAATG AGCTGGACTA TTATGACTCA
CCCAGTGTCA ACGCCCGTTG CCAAAAGATC TGTGACCAGT GGGACAATCT GGGGGCCCTA
ACTCAGAAGC GAAGGGAAGC TCTGGAGCGG ACCGAGAAAC TGCTGGAGAC CATTGACCAG
CTGTACTTGG AGTATGCCAA GCGGGCTGCA CCCTTCAACA ACTGGATGGA GGGGGCCATG
GAGGACCTGC AGGACACCTT CATTGTGCAC ACCATTGAGG AGATCCAGGG ACTGACCACA
GCCCATGAGC AGTTCAAGGC CACCCTCCCT GATGCCGACA AGGAGCGCCT GGCCATACTG
GGCATCCACA ACGAGGTGTC CAAGATTGTC CAGACCTACC ACGTCAATAT GGCGGGCACC
AACCCCTACA CAACCATCAC GCCTCAGGAG ATCAATGGCA AATGGGACCA CGTGCGGCAG
CTGGTGCCAC GGAGGGACCA AGCTCTGACG GAGGAGCATG CCCGACAGCA GCACAATGAG
AGGCTACGCA AGCAGTTTGG GGCCCAGGCC AATGTCATCG GGCCCTGGAT CCAGACCAAG
ATGGAGGAGA TCGGGAGGAT CTCCATTGAG ATGCACGGGA CCCTGGAGGA CCAGCTCAGC
CACCTGCGGC AGTATGAGAA GAGTATCGTC AACTACAAGC CAAAGATTGA TCAGCTGGAG
GGCGACCACC AGCTCATCCA GGAGGCACTC ATCTTTGACA ACAAGCACAC CAACTACACC
ATGGAGCACA TCCGTGTGGG CTGGGAGCAG CTGCTCACCA CCATCGCCAG GACCATCAAT
GAGGTGGAGA ACCAGATCCT GACCCGGGAT GCCAAGGGCA TTAGCCAGGA GCAGATGAAT
GAGTTCCGGG CCTCCTTCAA CCACTTTGAC CGGGATCACT CCGGCACACT GGGTCCCGAG
GAGTTCAAAG CCTGCCTCAT CAGCTTGGGT TATGATATTG GCAACGACCC CCAGAAGAAG
ACAGGCATGA TGGACACGGA TGATTTCCGC GCCTGCCTGA TCTCCATGGG TTACAACATG
GGAGAAGCAG AATTTGCCCG CATCATGAGC ATTGTGGACC CCAACCGCCT GGGGGTAGTG
ACATTCCAGG CCTTCATTGA CTTCATGTCC CGCGAGACAG CCGACACAGA TACAGCAGAC
CAAGTCATGG CTTCCTTCAA GATCCTGGCC GGGGACAAGA ACTACATTAC CATGGACGAG
CTGCGCCGCG AGCTGCCGCC CGACCAGGCT GAGTACTGCA TCGCGCGGAT GGCCCCCTAC
ACCGGCCCCG ACTCCGTGCC AGGTGCTCTG GACTACATGT CCTTCTCCAC GGCGCTGTAC
GGCGAGAGTG ACCTCTAAThe stop codons will be deleted if pcDNA3.1+/C-(K)DYK vector is selected.
CloneID OSa169432 Clone ID Related Accession (Same CDS sequence) XM_024231894.1 Accession Version XM_024231894.1 Latest version! Documents for ORF clone product in default vector Sequence Information ORF Nucleotide Sequence (Length: 3063bp)
Protein sequence
SNPVector pcDNA3.1-C-(k)DYK or customized vector User ManualClone information Clone Map MSDSTag on pcDNA3.1+/C-(K)DYK C terminal DYKDDDDK tags ORF Insert Method CloneEZ™ Seamless cloning technology Insert Structure linear Update Date 1519660800000 Organism Pongo abelii(Sumatran orangutan) Product alpha-actinin-1 isoform X1 Comment Comment: MODEL REFSEQ: This record is predicted by automated computational analysis. This record is derived from a genomic sequence (NC_036917.1) annotated using gene prediction method: Gnomon, supported by mRNA and EST evidence. Also see: Documentation of NCBI's Annotation Process ##Genome-Annotation-Data-START## Annotation Provider :: NCBI Annotation Status :: Full annotation Annotation Name :: Pongo abelii Annotation Release 103 Annotation Version :: 103 Annotation Pipeline :: NCBI eukaryotic genome annotation pipeline Annotation Software Version :: 8.0 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
3061ATGCCAGGAA TTCCCAATGA GAGGCGATGG GGGGAAGTTT GGGCAACTCG GCCTGGCCAA
TGGAGAGCCT CGGGAGGGCT CTGCCCCTTC CCCCCGCCCC CGCCCGCCTC GGCTCACGCA
GCGCTAGTGT GTCCGCCTAG CTCAGTGTGC GTGGAGATTA GGTCCAAGCG CCCGCCCAGA
GGCAGGCAGT CCGCGAGCCC AGCCGCCGCT GTCGCCGCCA GTAGCAGCCT TCGCCAGCAG
CGCCGCGGCG GAACCGGGCG CAGGGGAGCG AGCCCGGCCC CGCCAGCCCA GCCCAGCCCT
ACTCCCTCCC CACGCCAGGG CAGCAGCCGT TGCTCAGAGA GAAGGTGGAG GAAGAAATCC
AGACCCCAGC ACGCGCGCAC CATCATGGAC CATTATGATT CTCAGCAAAC CAACGATTAC
ATGCAGCCAG AAGAGGACTG GGACCGGGAC CTGCTCCTGG ACCCGGCCTG GGAGAAGCAG
CAGAGAAAGA CATTCACGGC ATGGTGTAAC TCCCACCTCC GGAAGGCGGG GACACAGATC
GAGAACATCG AAGAGGACTT CCGGGATGGC CTGAAGCTCA TGCTGCTGCT GGAGGTCATC
TCAGGTGAAC GCTTGGCTAA GCCAGAGCGA GGCAAGATGA GAGTGCACAA GATCTCCAAC
GTCAACAAGG CCCTGGATTT CATAGCTAGC AAAGGCGTCA AACTGGTGTC CATCGGAGCC
GAAGAAATCG TGGATGGGAA TGTGAAGATG ACCCTGGGCA TGATCTGGAC CATCATCCTG
CGCTTTGCCA TCCAGGACAT CTCTGTGGAA GAGACTTCAG CTAAGGAAGG GCTGCTCCTG
TGGTGTCAGA GAAAGACAGC CCCTTACAAA AACGTCAACA TCCAGAACTT CCACATAAGC
TGGAAGGATG GCCTCGGCTT CTGTGCCTTG ATTCACCGAC ACCGGCCCGA GCTGATTGAC
TACGGGAAGC TGCGGAAGGA TGATCCACTC ACAAATCTGA ATACGGCTTT TGACGTGGCA
GAGAAGTACC TGGACATCCC TAAGATGCTG GATGCCGAAG ACATCGTTGG AACTGCCCGA
CCGGATGAGA AAGCCATCAT GACTTATGTG TCTAGCTTCT ACCACGCCTT CTCTGGAGCC
CAGAAGGCGG AGACAGCAGC CAATCGCATC TGCAAGGTGT TGGCCGTCAA CCAGGAGAAC
GAGCAGCTTA TGGAAGACTA CGAGAAGTTG GCCAGTGATC TGTTGGAGTG GATCCGCCGC
ACAATCCCGT GGCTGGAGAA CCGGGTGCCC GAGAACACCA TGCATGCCAT GCAGCAGAAG
CTGGAGGATT TCCGGGACTA CCGGCGCCTG CACAAGCCGC CCAAGGTGCA GGAGAAGTGC
CAGCTGGAGA TCAACTTCAA CACGCTGCAG ACCAAGCTGC GGCTCAGCAA CCGGCCTGCC
TTCATGCCCT CTGAGGGCAG GATGGTCTCG GACATCAACA ATGCCTGGGG CTGCCTGGAG
CAGGTGGAGA AGGGCTATGA GGAGTGGTTG CTGAACGAGA TCCGGAGGCT GGAGCGACTG
GACCACCTGG CAGAGAAGTT CCGGCAGAAG GCCTCCATCC ACGAGGCCTG GACTGACGGC
AAAGAGGCCA TGCTGCGACA GAAGGACTAT GAGACAGCCA CCCTCTCGGA GATCAAGGCC
CTGCTCAAGA AGCATGAGGC CTTCGAGAGT GACCTGGCTG CCCACCAGGA CCGCGTGGAG
CAGATTGCCG CCATCGCACA GGAGCTCAAT GAGCTGGACT ATTATGACTC ACCCAGTGTC
AACGCCCGTT GCCAAAAGAT CTGTGACCAG TGGGACAATC TGGGGGCCCT AACTCAGAAG
CGAAGGGAAG CTCTGGAGCG GACCGAGAAA CTGCTGGAGA CCATTGACCA GCTGTACTTG
GAGTATGCCA AGCGGGCTGC ACCCTTCAAC AACTGGATGG AGGGGGCCAT GGAGGACCTG
CAGGACACCT TCATTGTGCA CACCATTGAG GAGATCCAGG GACTGACCAC AGCCCATGAG
CAGTTCAAGG CCACCCTCCC TGATGCCGAC AAGGAGCGCC TGGCCATACT GGGCATCCAC
AACGAGGTGT CCAAGATTGT CCAGACCTAC CACGTCAATA TGGCGGGCAC CAACCCCTAC
ACAACCATCA CGCCTCAGGA GATCAATGGC AAATGGGACC ACGTGCGGCA GCTGGTGCCA
CGGAGGGACC AAGCTCTGAC GGAGGAGCAT GCCCGACAGC AGCACAATGA GAGGCTACGC
AAGCAGTTTG GGGCCCAGGC CAATGTCATC GGGCCCTGGA TCCAGACCAA GATGGAGGAG
ATCGGGAGGA TCTCCATTGA GATGCACGGG ACCCTGGAGG ACCAGCTCAG CCACCTGCGG
CAGTATGAGA AGAGTATCGT CAACTACAAG CCAAAGATTG ATCAGCTGGA GGGCGACCAC
CAGCTCATCC AGGAGGCACT CATCTTTGAC AACAAGCACA CCAACTACAC CATGGAGCAC
ATCCGTGTGG GCTGGGAGCA GCTGCTCACC ACCATCGCCA GGACCATCAA TGAGGTGGAG
AACCAGATCC TGACCCGGGA TGCCAAGGGC ATTAGCCAGG AGCAGATGAA TGAGTTCCGG
GCCTCCTTCA ACCACTTTGA CCGGGATCAC TCCGGCACAC TGGGTCCCGA GGAGTTCAAA
GCCTGCCTCA TCAGCTTGGG TTATGATATT GGCAACGACC CCCAGGGAGA AGCAGAATTT
GCCCGCATCA TGAGCATTGT GGACCCCAAC CGCCTGGGGG TAGTGACATT CCAGGCCTTC
ATTGACTTCA TGTCCCGCGA GACAGCCGAC ACAGATACAG CAGACCAAGT CATGGCTTCC
TTCAAGATCC TGGCCGGGGA CAAGAACTAC ATTACCATGG ACGAGCTGCG CCGCGAGCTG
CCGCCCGACC AGGCTGAGTA CTGCATCGCG CGGATGGCCC CCTACACCGG CCCCGACTCC
GTGCCAGGTG CTCTGGACTA CATGTCCTTC TCCACGGCGC TGTACGGCGA GAGTGACCTC
TAAThe stop codons will be deleted if pcDNA3.1+/C-(K)DYK vector is selected.
RefSeq XP_024087662.1 CDS 74..3136 Translation
Target ORF information:
RefSeq Version XM_024231894.1 Organism Pongo abelii(Sumatran orangutan) Definition Pongo abelii actinin alpha 1 (ACTN1), transcript variant X1, mRNA. Target ORF information:
Epitope DYKDDDDK Bacterial selection AMPR Mammalian selection NeoR Vector pcDNA3.1+/C-(K)DYK XM_024231894.1
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
3061ATGCCAGGAA TTCCCAATGA GAGGCGATGG GGGGAAGTTT GGGCAACTCG GCCTGGCCAA
TGGAGAGCCT CGGGAGGGCT CTGCCCCTTC CCCCCGCCCC CGCCCGCCTC GGCTCACGCA
GCGCTAGTGT GTCCGCCTAG CTCAGTGTGC GTGGAGATTA GGTCCAAGCG CCCGCCCAGA
GGCAGGCAGT CCGCGAGCCC AGCCGCCGCT GTCGCCGCCA GTAGCAGCCT TCGCCAGCAG
CGCCGCGGCG GAACCGGGCG CAGGGGAGCG AGCCCGGCCC CGCCAGCCCA GCCCAGCCCT
ACTCCCTCCC CACGCCAGGG CAGCAGCCGT TGCTCAGAGA GAAGGTGGAG GAAGAAATCC
AGACCCCAGC ACGCGCGCAC CATCATGGAC CATTATGATT CTCAGCAAAC CAACGATTAC
ATGCAGCCAG AAGAGGACTG GGACCGGGAC CTGCTCCTGG ACCCGGCCTG GGAGAAGCAG
CAGAGAAAGA CATTCACGGC ATGGTGTAAC TCCCACCTCC GGAAGGCGGG GACACAGATC
GAGAACATCG AAGAGGACTT CCGGGATGGC CTGAAGCTCA TGCTGCTGCT GGAGGTCATC
TCAGGTGAAC GCTTGGCTAA GCCAGAGCGA GGCAAGATGA GAGTGCACAA GATCTCCAAC
GTCAACAAGG CCCTGGATTT CATAGCTAGC AAAGGCGTCA AACTGGTGTC CATCGGAGCC
GAAGAAATCG TGGATGGGAA TGTGAAGATG ACCCTGGGCA TGATCTGGAC CATCATCCTG
CGCTTTGCCA TCCAGGACAT CTCTGTGGAA GAGACTTCAG CTAAGGAAGG GCTGCTCCTG
TGGTGTCAGA GAAAGACAGC CCCTTACAAA AACGTCAACA TCCAGAACTT CCACATAAGC
TGGAAGGATG GCCTCGGCTT CTGTGCCTTG ATTCACCGAC ACCGGCCCGA GCTGATTGAC
TACGGGAAGC TGCGGAAGGA TGATCCACTC ACAAATCTGA ATACGGCTTT TGACGTGGCA
GAGAAGTACC TGGACATCCC TAAGATGCTG GATGCCGAAG ACATCGTTGG AACTGCCCGA
CCGGATGAGA AAGCCATCAT GACTTATGTG TCTAGCTTCT ACCACGCCTT CTCTGGAGCC
CAGAAGGCGG AGACAGCAGC CAATCGCATC TGCAAGGTGT TGGCCGTCAA CCAGGAGAAC
GAGCAGCTTA TGGAAGACTA CGAGAAGTTG GCCAGTGATC TGTTGGAGTG GATCCGCCGC
ACAATCCCGT GGCTGGAGAA CCGGGTGCCC GAGAACACCA TGCATGCCAT GCAGCAGAAG
CTGGAGGATT TCCGGGACTA CCGGCGCCTG CACAAGCCGC CCAAGGTGCA GGAGAAGTGC
CAGCTGGAGA TCAACTTCAA CACGCTGCAG ACCAAGCTGC GGCTCAGCAA CCGGCCTGCC
TTCATGCCCT CTGAGGGCAG GATGGTCTCG GACATCAACA ATGCCTGGGG CTGCCTGGAG
CAGGTGGAGA AGGGCTATGA GGAGTGGTTG CTGAACGAGA TCCGGAGGCT GGAGCGACTG
GACCACCTGG CAGAGAAGTT CCGGCAGAAG GCCTCCATCC ACGAGGCCTG GACTGACGGC
AAAGAGGCCA TGCTGCGACA GAAGGACTAT GAGACAGCCA CCCTCTCGGA GATCAAGGCC
CTGCTCAAGA AGCATGAGGC CTTCGAGAGT GACCTGGCTG CCCACCAGGA CCGCGTGGAG
CAGATTGCCG CCATCGCACA GGAGCTCAAT GAGCTGGACT ATTATGACTC ACCCAGTGTC
AACGCCCGTT GCCAAAAGAT CTGTGACCAG TGGGACAATC TGGGGGCCCT AACTCAGAAG
CGAAGGGAAG CTCTGGAGCG GACCGAGAAA CTGCTGGAGA CCATTGACCA GCTGTACTTG
GAGTATGCCA AGCGGGCTGC ACCCTTCAAC AACTGGATGG AGGGGGCCAT GGAGGACCTG
CAGGACACCT TCATTGTGCA CACCATTGAG GAGATCCAGG GACTGACCAC AGCCCATGAG
CAGTTCAAGG CCACCCTCCC TGATGCCGAC AAGGAGCGCC TGGCCATACT GGGCATCCAC
AACGAGGTGT CCAAGATTGT CCAGACCTAC CACGTCAATA TGGCGGGCAC CAACCCCTAC
ACAACCATCA CGCCTCAGGA GATCAATGGC AAATGGGACC ACGTGCGGCA GCTGGTGCCA
CGGAGGGACC AAGCTCTGAC GGAGGAGCAT GCCCGACAGC AGCACAATGA GAGGCTACGC
AAGCAGTTTG GGGCCCAGGC CAATGTCATC GGGCCCTGGA TCCAGACCAA GATGGAGGAG
ATCGGGAGGA TCTCCATTGA GATGCACGGG ACCCTGGAGG ACCAGCTCAG CCACCTGCGG
CAGTATGAGA AGAGTATCGT CAACTACAAG CCAAAGATTG ATCAGCTGGA GGGCGACCAC
CAGCTCATCC AGGAGGCACT CATCTTTGAC AACAAGCACA CCAACTACAC CATGGAGCAC
ATCCGTGTGG GCTGGGAGCA GCTGCTCACC ACCATCGCCA GGACCATCAA TGAGGTGGAG
AACCAGATCC TGACCCGGGA TGCCAAGGGC ATTAGCCAGG AGCAGATGAA TGAGTTCCGG
GCCTCCTTCA ACCACTTTGA CCGGGATCAC TCCGGCACAC TGGGTCCCGA GGAGTTCAAA
GCCTGCCTCA TCAGCTTGGG TTATGATATT GGCAACGACC CCCAGGGAGA AGCAGAATTT
GCCCGCATCA TGAGCATTGT GGACCCCAAC CGCCTGGGGG TAGTGACATT CCAGGCCTTC
ATTGACTTCA TGTCCCGCGA GACAGCCGAC ACAGATACAG CAGACCAAGT CATGGCTTCC
TTCAAGATCC TGGCCGGGGA CAAGAACTAC ATTACCATGG ACGAGCTGCG CCGCGAGCTG
CCGCCCGACC AGGCTGAGTA CTGCATCGCG CGGATGGCCC CCTACACCGG CCCCGACTCC
GTGCCAGGTG CTCTGGACTA CATGTCCTTC TCCACGGCGC TGTACGGCGA GAGTGACCTC
TAAThe stop codons will be deleted if pcDNA3.1+/C-(K)DYK vector is selected.
CloneID OSa169433 Clone ID Related Accession (Same CDS sequence) XM_024231895.1 Accession Version XM_024231895.1 Latest version! Documents for ORF clone product in default vector Sequence Information ORF Nucleotide Sequence (Length: 3048bp)
Protein sequence
SNPVector pcDNA3.1-C-(k)DYK or customized vector User ManualClone information Clone Map MSDSTag on pcDNA3.1+/C-(K)DYK C terminal DYKDDDDK tags ORF Insert Method CloneEZ™ Seamless cloning technology Insert Structure linear Update Date 1519660800000 Organism Pongo abelii(Sumatran orangutan) Product alpha-actinin-1 isoform X2 Comment Comment: MODEL REFSEQ: This record is predicted by automated computational analysis. This record is derived from a genomic sequence (NC_036917.1) annotated using gene prediction method: Gnomon, supported by mRNA and EST evidence. Also see: Documentation of NCBI's Annotation Process ##Genome-Annotation-Data-START## Annotation Provider :: NCBI Annotation Status :: Full annotation Annotation Name :: Pongo abelii Annotation Release 103 Annotation Version :: 103 Annotation Pipeline :: NCBI eukaryotic genome annotation pipeline Annotation Software Version :: 8.0 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
3001ATGCCAGGAA TTCCCAATGA GAGGCGATGG GGGGAAGTTT GGGCAACTCG GCCTGGCCAA
TGGAGAGCCT CGGGAGGGCT CTGCCCCTTC CCCCCGCCCC CGCCCGCCTC GGCTCACGCA
GCGCTAGTGT GTCCGCCTAG CTCAGTGTGC GTGGAGATTA GGTCCAAGCG CCCGCCCAGA
GGCAGGCAGT CCGCGAGCCC AGCCGCCGCT GTCGCCGCCA GTAGCAGCCT TCGCCAGCAG
CGCCGCGGCG GAACCGGGCG CAGGGGAGCG AGCCCGGCCC CGCCAGCCCA GCCCAGCCCT
ACTCCCTCCC CACGCCAGGG CAGCAGCCGT TGCTCAGAGA GAAGGTGGAG GAAGAAATCC
AGACCCCAGC ACGCGCGCAC CATCATGGAC CATTATGATT CTCAGCAAAC CAACGATTAC
ATGCAGCCAG AAGAGGACTG GGACCGGGAC CTGCTCCTGG ACCCGGCCTG GGAGAAGCAG
CAGAGAAAGA CATTCACGGC ATGGTGTAAC TCCCACCTCC GGAAGGCGGG GACACAGATC
GAGAACATCG AAGAGGACTT CCGGGATGGC CTGAAGCTCA TGCTGCTGCT GGAGGTCATC
TCAGGTGAAC GCTTGGCTAA GCCAGAGCGA GGCAAGATGA GAGTGCACAA GATCTCCAAC
GTCAACAAGG CCCTGGATTT CATAGCTAGC AAAGGCGTCA AACTGGTGTC CATCGGAGCC
GAAGAAATCG TGGATGGGAA TGTGAAGATG ACCCTGGGCA TGATCTGGAC CATCATCCTG
CGCTTTGCCA TCCAGGACAT CTCTGTGGAA GAGACTTCAG CTAAGGAAGG GCTGCTCCTG
TGGTGTCAGA GAAAGACAGC CCCTTACAAA AACGTCAACA TCCAGAACTT CCACATAAGC
TGGAAGGATG GCCTCGGCTT CTGTGCCTTG ATTCACCGAC ACCGGCCCGA GCTGATTGAC
TACGGGAAGC TGCGGAAGGA TGATCCACTC ACAAATCTGA ATACGGCTTT TGACGTGGCA
GAGAAGTACC TGGACATCCC TAAGATGCTG GATGCCGAAG ACATCGTTGG AACTGCCCGA
CCGGATGAGA AAGCCATCAT GACTTATGTG TCTAGCTTCT ACCACGCCTT CTCTGGAGCC
CAGAAGGCGG AGACAGCAGC CAATCGCATC TGCAAGGTGT TGGCCGTCAA CCAGGAGAAC
GAGCAGCTTA TGGAAGACTA CGAGAAGTTG GCCAGTGATC TGTTGGAGTG GATCCGCCGC
ACAATCCCGT GGCTGGAGAA CCGGGTGCCC GAGAACACCA TGCATGCCAT GCAGCAGAAG
CTGGAGGATT TCCGGGACTA CCGGCGCCTG CACAAGCCGC CCAAGGTGCA GGAGAAGTGC
CAGCTGGAGA TCAACTTCAA CACGCTGCAG ACCAAGCTGC GGCTCAGCAA CCGGCCTGCC
TTCATGCCCT CTGAGGGCAG GATGGTCTCG GACATCAACA ATGCCTGGGG CTGCCTGGAG
CAGGTGGAGA AGGGCTATGA GGAGTGGTTG CTGAACGAGA TCCGGAGGCT GGAGCGACTG
GACCACCTGG CAGAGAAGTT CCGGCAGAAG GCCTCCATCC ACGAGGCCTG GACTGACGGC
AAAGAGGCCA TGCTGCGACA GAAGGACTAT GAGACAGCCA CCCTCTCGGA GATCAAGGCC
CTGCTCAAGA AGCATGAGGC CTTCGAGAGT GACCTGGCTG CCCACCAGGA CCGCGTGGAG
CAGATTGCCG CCATCGCACA GGAGCTCAAT GAGCTGGACT ATTATGACTC ACCCAGTGTC
AACGCCCGTT GCCAAAAGAT CTGTGACCAG TGGGACAATC TGGGGGCCCT AACTCAGAAG
CGAAGGGAAG CTCTGGAGCG GACCGAGAAA CTGCTGGAGA CCATTGACCA GCTGTACTTG
GAGTATGCCA AGCGGGCTGC ACCCTTCAAC AACTGGATGG AGGGGGCCAT GGAGGACCTG
CAGGACACCT TCATTGTGCA CACCATTGAG GAGATCCAGG GACTGACCAC AGCCCATGAG
CAGTTCAAGG CCACCCTCCC TGATGCCGAC AAGGAGCGCC TGGCCATACT GGGCATCCAC
AACGAGGTGT CCAAGATTGT CCAGACCTAC CACGTCAATA TGGCGGGCAC CAACCCCTAC
ACAACCATCA CGCCTCAGGA GATCAATGGC AAATGGGACC ACGTGCGGCA GCTGGTGCCA
CGGAGGGACC AAGCTCTGAC GGAGGAGCAT GCCCGACAGC AGCACAATGA GAGGCTACGC
AAGCAGTTTG GGGCCCAGGC CAATGTCATC GGGCCCTGGA TCCAGACCAA GATGGAGGAG
ATCGGGAGGA TCTCCATTGA GATGCACGGG ACCCTGGAGG ACCAGCTCAG CCACCTGCGG
CAGTATGAGA AGAGTATCGT CAACTACAAG CCAAAGATTG ATCAGCTGGA GGGCGACCAC
CAGCTCATCC AGGAGGCACT CATCTTTGAC AACAAGCACA CCAACTACAC CATGGAGCAC
ATCCGTGTGG GCTGGGAGCA GCTGCTCACC ACCATCGCCA GGACCATCAA TGAGGTGGAG
AACCAGATCC TGACCCGGGA TGCCAAGGGC ATTAGCCAGG AGCAGATGAA TGAGTTCCGG
GCCTCCTTCA ACCACTTTGA CCGGAAGAAG ACAGGCATGA TGGACACGGA TGATTTCCGC
GCCTGCCTGA TCTCCATGGG TTACAACATG GGAGAAGCAG AATTTGCCCG CATCATGAGC
ATTGTGGACC CCAACCGCCT GGGGGTAGTG ACATTCCAGG CCTTCATTGA CTTCATGTCC
CGCGAGACAG CCGACACAGA TACAGCAGAC CAAGTCATGG CTTCCTTCAA GATCCTGGCC
GGGGACAAGA ACTACATTAC CATGGACGAG CTGCGCCGCG AGCTGCCGCC CGACCAGGCT
GAGTACTGCA TCGCGCGGAT GGCCCCCTAC ACCGGCCCCG ACTCCGTGCC AGGTGCTCTG
GACTACATGT CCTTCTCCAC GGCGCTGTAC GGCGAGAGTG ACCTCTAAThe stop codons will be deleted if pcDNA3.1+/C-(K)DYK vector is selected.
RefSeq XP_024087663.1 CDS 74..3121 Translation
Target ORF information:
RefSeq Version XM_024231895.1 Organism Pongo abelii(Sumatran orangutan) Definition Pongo abelii actinin alpha 1 (ACTN1), transcript variant X2, mRNA. Target ORF information:
Epitope DYKDDDDK Bacterial selection AMPR Mammalian selection NeoR Vector pcDNA3.1+/C-(K)DYK XM_024231895.1
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
3001ATGCCAGGAA TTCCCAATGA GAGGCGATGG GGGGAAGTTT GGGCAACTCG GCCTGGCCAA
TGGAGAGCCT CGGGAGGGCT CTGCCCCTTC CCCCCGCCCC CGCCCGCCTC GGCTCACGCA
GCGCTAGTGT GTCCGCCTAG CTCAGTGTGC GTGGAGATTA GGTCCAAGCG CCCGCCCAGA
GGCAGGCAGT CCGCGAGCCC AGCCGCCGCT GTCGCCGCCA GTAGCAGCCT TCGCCAGCAG
CGCCGCGGCG GAACCGGGCG CAGGGGAGCG AGCCCGGCCC CGCCAGCCCA GCCCAGCCCT
ACTCCCTCCC CACGCCAGGG CAGCAGCCGT TGCTCAGAGA GAAGGTGGAG GAAGAAATCC
AGACCCCAGC ACGCGCGCAC CATCATGGAC CATTATGATT CTCAGCAAAC CAACGATTAC
ATGCAGCCAG AAGAGGACTG GGACCGGGAC CTGCTCCTGG ACCCGGCCTG GGAGAAGCAG
CAGAGAAAGA CATTCACGGC ATGGTGTAAC TCCCACCTCC GGAAGGCGGG GACACAGATC
GAGAACATCG AAGAGGACTT CCGGGATGGC CTGAAGCTCA TGCTGCTGCT GGAGGTCATC
TCAGGTGAAC GCTTGGCTAA GCCAGAGCGA GGCAAGATGA GAGTGCACAA GATCTCCAAC
GTCAACAAGG CCCTGGATTT CATAGCTAGC AAAGGCGTCA AACTGGTGTC CATCGGAGCC
GAAGAAATCG TGGATGGGAA TGTGAAGATG ACCCTGGGCA TGATCTGGAC CATCATCCTG
CGCTTTGCCA TCCAGGACAT CTCTGTGGAA GAGACTTCAG CTAAGGAAGG GCTGCTCCTG
TGGTGTCAGA GAAAGACAGC CCCTTACAAA AACGTCAACA TCCAGAACTT CCACATAAGC
TGGAAGGATG GCCTCGGCTT CTGTGCCTTG ATTCACCGAC ACCGGCCCGA GCTGATTGAC
TACGGGAAGC TGCGGAAGGA TGATCCACTC ACAAATCTGA ATACGGCTTT TGACGTGGCA
GAGAAGTACC TGGACATCCC TAAGATGCTG GATGCCGAAG ACATCGTTGG AACTGCCCGA
CCGGATGAGA AAGCCATCAT GACTTATGTG TCTAGCTTCT ACCACGCCTT CTCTGGAGCC
CAGAAGGCGG AGACAGCAGC CAATCGCATC TGCAAGGTGT TGGCCGTCAA CCAGGAGAAC
GAGCAGCTTA TGGAAGACTA CGAGAAGTTG GCCAGTGATC TGTTGGAGTG GATCCGCCGC
ACAATCCCGT GGCTGGAGAA CCGGGTGCCC GAGAACACCA TGCATGCCAT GCAGCAGAAG
CTGGAGGATT TCCGGGACTA CCGGCGCCTG CACAAGCCGC CCAAGGTGCA GGAGAAGTGC
CAGCTGGAGA TCAACTTCAA CACGCTGCAG ACCAAGCTGC GGCTCAGCAA CCGGCCTGCC
TTCATGCCCT CTGAGGGCAG GATGGTCTCG GACATCAACA ATGCCTGGGG CTGCCTGGAG
CAGGTGGAGA AGGGCTATGA GGAGTGGTTG CTGAACGAGA TCCGGAGGCT GGAGCGACTG
GACCACCTGG CAGAGAAGTT CCGGCAGAAG GCCTCCATCC ACGAGGCCTG GACTGACGGC
AAAGAGGCCA TGCTGCGACA GAAGGACTAT GAGACAGCCA CCCTCTCGGA GATCAAGGCC
CTGCTCAAGA AGCATGAGGC CTTCGAGAGT GACCTGGCTG CCCACCAGGA CCGCGTGGAG
CAGATTGCCG CCATCGCACA GGAGCTCAAT GAGCTGGACT ATTATGACTC ACCCAGTGTC
AACGCCCGTT GCCAAAAGAT CTGTGACCAG TGGGACAATC TGGGGGCCCT AACTCAGAAG
CGAAGGGAAG CTCTGGAGCG GACCGAGAAA CTGCTGGAGA CCATTGACCA GCTGTACTTG
GAGTATGCCA AGCGGGCTGC ACCCTTCAAC AACTGGATGG AGGGGGCCAT GGAGGACCTG
CAGGACACCT TCATTGTGCA CACCATTGAG GAGATCCAGG GACTGACCAC AGCCCATGAG
CAGTTCAAGG CCACCCTCCC TGATGCCGAC AAGGAGCGCC TGGCCATACT GGGCATCCAC
AACGAGGTGT CCAAGATTGT CCAGACCTAC CACGTCAATA TGGCGGGCAC CAACCCCTAC
ACAACCATCA CGCCTCAGGA GATCAATGGC AAATGGGACC ACGTGCGGCA GCTGGTGCCA
CGGAGGGACC AAGCTCTGAC GGAGGAGCAT GCCCGACAGC AGCACAATGA GAGGCTACGC
AAGCAGTTTG GGGCCCAGGC CAATGTCATC GGGCCCTGGA TCCAGACCAA GATGGAGGAG
ATCGGGAGGA TCTCCATTGA GATGCACGGG ACCCTGGAGG ACCAGCTCAG CCACCTGCGG
CAGTATGAGA AGAGTATCGT CAACTACAAG CCAAAGATTG ATCAGCTGGA GGGCGACCAC
CAGCTCATCC AGGAGGCACT CATCTTTGAC AACAAGCACA CCAACTACAC CATGGAGCAC
ATCCGTGTGG GCTGGGAGCA GCTGCTCACC ACCATCGCCA GGACCATCAA TGAGGTGGAG
AACCAGATCC TGACCCGGGA TGCCAAGGGC ATTAGCCAGG AGCAGATGAA TGAGTTCCGG
GCCTCCTTCA ACCACTTTGA CCGGAAGAAG ACAGGCATGA TGGACACGGA TGATTTCCGC
GCCTGCCTGA TCTCCATGGG TTACAACATG GGAGAAGCAG AATTTGCCCG CATCATGAGC
ATTGTGGACC CCAACCGCCT GGGGGTAGTG ACATTCCAGG CCTTCATTGA CTTCATGTCC
CGCGAGACAG CCGACACAGA TACAGCAGAC CAAGTCATGG CTTCCTTCAA GATCCTGGCC
GGGGACAAGA ACTACATTAC CATGGACGAG CTGCGCCGCG AGCTGCCGCC CGACCAGGCT
GAGTACTGCA TCGCGCGGAT GGCCCCCTAC ACCGGCCCCG ACTCCGTGCC AGGTGCTCTG
GACTACATGT CCTTCTCCAC GGCGCTGTAC GGCGAGAGTG ACCTCTAAThe stop codons will be deleted if pcDNA3.1+/C-(K)DYK vector is selected.
CloneID OSa169435 Clone ID Related Accession (Same CDS sequence) XM_024231897.1 Accession Version XM_024231897.1 Latest version! Documents for ORF clone product in default vector Sequence Information ORF Nucleotide Sequence (Length: 3129bp)
Protein sequence
SNPVector pcDNA3.1-C-(k)DYK or customized vector User ManualClone information Clone Map MSDSTag on pcDNA3.1+/C-(K)DYK C terminal DYKDDDDK tags ORF Insert Method CloneEZ™ Seamless cloning technology Insert Structure linear Update Date 1519660800000 Organism Pongo abelii(Sumatran orangutan) Product alpha-actinin-1 isoform X4 Comment Comment: MODEL REFSEQ: This record is predicted by automated computational analysis. This record is derived from a genomic sequence (NC_036917.1) annotated using gene prediction method: Gnomon, supported by mRNA and EST evidence. Also see: Documentation of NCBI's Annotation Process ##Genome-Annotation-Data-START## Annotation Provider :: NCBI Annotation Status :: Full annotation Annotation Name :: Pongo abelii Annotation Release 103 Annotation Version :: 103 Annotation Pipeline :: NCBI eukaryotic genome annotation pipeline Annotation Software Version :: 8.0 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
3121ATGCCAGGAA TTCCCAATGA GAGGCGATGG GGGGAAGTTT GGGCAACTCG GCCTGGCCAA
TGGAGAGCCT CGGGAGGGCT CTGCCCCTTC CCCCCGCCCC CGCCCGCCTC GGCTCACGCA
GCGCTAGTGT GTCCGCCTAG CTCAGTGTGC GTGGAGATTA GGTCCAAGCG CCCGCCCAGA
GGCAGGCAGT CCGCGAGCCC AGCCGCCGCT GTCGCCGCCA GTAGCAGCCT TCGCCAGCAG
CGCCGCGGCG GAACCGGGCG CAGGGGAGCG AGCCCGGCCC CGCCAGCCCA GCCCAGCCCT
ACTCCCTCCC CACGCCAGGG CAGCAGCCGT TGCTCAGAGA GAAGGTGGAG GAAGAAATCC
AGACCCCAGC ACGCGCGCAC CATCATGGAC CATTATGATT CTCAGCAAAC CAACGATTAC
ATGCAGCCAG AAGAGGACTG GGACCGGGAC CTGCTCCTGG ACCCGGCCTG GGAGAAGCAG
CAGAGAAAGA CATTCACGGC ATGGTGTAAC TCCCACCTCC GGAAGGCGGG GACACAGATC
GAGAACATCG AAGAGGACTT CCGGGATGGC CTGAAGCTCA TGCTGCTGCT GGAGGTCATC
TCAGGTGAAC GCTTGGCTAA GCCAGAGCGA GGCAAGATGA GAGTGCACAA GATCTCCAAC
GTCAACAAGG CCCTGGATTT CATAGCTAGC AAAGGCGTCA AACTGGTGTC CATCGGAGCC
GAAGAAATCG TGGATGGGAA TGTGAAGATG ACCCTGGGCA TGATCTGGAC CATCATCCTG
CGCTTTGCCA TCCAGGACAT CTCTGTGGAA GAGACTTCAG CTAAGGAAGG GCTGCTCCTG
TGGTGTCAGA GAAAGACAGC CCCTTACAAA AACGTCAACA TCCAGAACTT CCACATAAGC
TGGAAGGATG GCCTCGGCTT CTGTGCCTTG ATTCACCGAC ACCGGCCCGA GCTGATTGAC
TACGGGAAGC TGCGGAAGGA TGATCCACTC ACAAATCTGA ATACGGCTTT TGACGTGGCA
GAGAAGTACC TGGACATCCC TAAGATGCTG GATGCCGAAG ACATCGTTGG AACTGCCCGA
CCGGATGAGA AAGCCATCAT GACTTATGTG TCTAGCTTCT ACCACGCCTT CTCTGGAGCC
CAGAAGGCGG AGACAGCAGC CAATCGCATC TGCAAGGTGT TGGCCGTCAA CCAGGAGAAC
GAGCAGCTTA TGGAAGACTA CGAGAAGTTG GCCAGTGATC TGTTGGAGTG GATCCGCCGC
ACAATCCCGT GGCTGGAGAA CCGGGTGCCC GAGAACACCA TGCATGCCAT GCAGCAGAAG
CTGGAGGATT TCCGGGACTA CCGGCGCCTG CACAAGCCGC CCAAGGTGCA GGAGAAGTGC
CAGCTGGAGA TCAACTTCAA CACGCTGCAG ACCAAGCTGC GGCTCAGCAA CCGGCCTGCC
TTCATGCCCT CTGAGGGCAG GATGGTCTCG GACATCAACA ATGCCTGGGG CTGCCTGGAG
CAGGTGGAGA AGGGCTATGA GGAGTGGTTG CTGAACGAGA TCCGGAGGCT GGAGCGACTG
GACCACCTGG CAGAGAAGTT CCGGCAGAAG GCCTCCATCC ACGAGGCCTG GACTGACGGC
AAAGAGGCCA TGCTGCGACA GAAGGACTAT GAGACAGCCA CCCTCTCGGA GATCAAGGCC
CTGCTCAAGA AGCATGAGGC CTTCGAGAGT GACCTGGCTG CCCACCAGGA CCGCGTGGAG
CAGATTGCCG CCATCGCACA GGAGCTCAAT GAGCTGGACT ATTATGACTC ACCCAGTGTC
AACGCCCGTT GCCAAAAGAT CTGTGACCAG TGGGACAATC TGGGGGCCCT AACTCAGAAG
CGAAGGGAAG CTCTGGAGCG GACCGAGAAA CTGCTGGAGA CCATTGACCA GCTGTACTTG
GAGTATGCCA AGCGGGCTGC ACCCTTCAAC AACTGGATGG AGGGGGCCAT GGAGGACCTG
CAGGACACCT TCATTGTGCA CACCATTGAG GAGATCCAGG GACTGACCAC AGCCCATGAG
CAGTTCAAGG CCACCCTCCC TGATGCCGAC AAGGAGCGCC TGGCCATACT GGGCATCCAC
AACGAGGTGT CCAAGATTGT CCAGACCTAC CACGTCAATA TGGCGGGCAC CAACCCCTAC
ACAACCATCA CGCCTCAGGA GATCAATGGC AAATGGGACC ACGTGCGGCA GCTGGTGCCA
CGGAGGGACC AAGCTCTGAC GGAGGAGCAT GCCCGACAGC AGCACAATGA GAGGCTACGC
AAGCAGTTTG GGGCCCAGGC CAATGTCATC GGGCCCTGGA TCCAGACCAA GATGGAGGAG
ATCGGGAGGA TCTCCATTGA GATGCACGGG ACCCTGGAGG ACCAGCTCAG CCACCTGCGG
CAGTATGAGA AGAGTATCGT CAACTACAAG CCAAAGATTG ATCAGCTGGA GGGCGACCAC
CAGCTCATCC AGGAGGCACT CATCTTTGAC AACAAGCACA CCAACTACAC CATGGAGCAC
ATCCGTGTGG GCTGGGAGCA GCTGCTCACC ACCATCGCCA GGACCATCAA TGAGGTGGAG
AACCAGATCC TGACCCGGGA TGCCAAGGGC ATTAGCCAGG AGCAGATGAA TGAGTTCCGG
GCCTCCTTCA ACCACTTTGA CCGGGATCAC TCCGGCACAC TGGGTCCCGA GGAGTTCAAA
GCCTGCCTCA TCAGCTTGGG TTATGATATT GGCAACGACC CCCAGAAGAA GACAGGCATG
ATGGACACGG ATGATTTCCG CGCCTGCCTG ATCTCCATGG GTTACAACAT GGGAGAAGCA
GAATTTGCCC GCATCATGAG CATTGTGGAC CCCAACCGCC TGGGGGTAGT GACATTCCAG
GCCTTCATTG ACTTCATGTC CCGCGAGACA GCCGACACAG ATACAGCAGA CCAAGTCATG
GCTTCCTTCA AGATCCTGGC CGGGGACAAG AACTACATTA CCATGGACGA GCTGCGCCGC
GAGCTGCCGC CCGACCAGGC TGAGTACTGC ATCGCGCGGA TGGCCCCCTA CACCGGCCCC
GACTCCGTGC CAGGTGCTCT GGACTACATG TCCTTCTCCA CGGCGCTGTA CGGCGAGAGT
GACCTCTAAThe stop codons will be deleted if pcDNA3.1+/C-(K)DYK vector is selected.
RefSeq XP_024087665.1 CDS 74..3202 Translation
Target ORF information:
RefSeq Version XM_024231897.1 Organism Pongo abelii(Sumatran orangutan) Definition Pongo abelii actinin alpha 1 (ACTN1), transcript variant X4, mRNA. Target ORF information:
Epitope DYKDDDDK Bacterial selection AMPR Mammalian selection NeoR Vector pcDNA3.1+/C-(K)DYK XM_024231897.1
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
3121ATGCCAGGAA TTCCCAATGA GAGGCGATGG GGGGAAGTTT GGGCAACTCG GCCTGGCCAA
TGGAGAGCCT CGGGAGGGCT CTGCCCCTTC CCCCCGCCCC CGCCCGCCTC GGCTCACGCA
GCGCTAGTGT GTCCGCCTAG CTCAGTGTGC GTGGAGATTA GGTCCAAGCG CCCGCCCAGA
GGCAGGCAGT CCGCGAGCCC AGCCGCCGCT GTCGCCGCCA GTAGCAGCCT TCGCCAGCAG
CGCCGCGGCG GAACCGGGCG CAGGGGAGCG AGCCCGGCCC CGCCAGCCCA GCCCAGCCCT
ACTCCCTCCC CACGCCAGGG CAGCAGCCGT TGCTCAGAGA GAAGGTGGAG GAAGAAATCC
AGACCCCAGC ACGCGCGCAC CATCATGGAC CATTATGATT CTCAGCAAAC CAACGATTAC
ATGCAGCCAG AAGAGGACTG GGACCGGGAC CTGCTCCTGG ACCCGGCCTG GGAGAAGCAG
CAGAGAAAGA CATTCACGGC ATGGTGTAAC TCCCACCTCC GGAAGGCGGG GACACAGATC
GAGAACATCG AAGAGGACTT CCGGGATGGC CTGAAGCTCA TGCTGCTGCT GGAGGTCATC
TCAGGTGAAC GCTTGGCTAA GCCAGAGCGA GGCAAGATGA GAGTGCACAA GATCTCCAAC
GTCAACAAGG CCCTGGATTT CATAGCTAGC AAAGGCGTCA AACTGGTGTC CATCGGAGCC
GAAGAAATCG TGGATGGGAA TGTGAAGATG ACCCTGGGCA TGATCTGGAC CATCATCCTG
CGCTTTGCCA TCCAGGACAT CTCTGTGGAA GAGACTTCAG CTAAGGAAGG GCTGCTCCTG
TGGTGTCAGA GAAAGACAGC CCCTTACAAA AACGTCAACA TCCAGAACTT CCACATAAGC
TGGAAGGATG GCCTCGGCTT CTGTGCCTTG ATTCACCGAC ACCGGCCCGA GCTGATTGAC
TACGGGAAGC TGCGGAAGGA TGATCCACTC ACAAATCTGA ATACGGCTTT TGACGTGGCA
GAGAAGTACC TGGACATCCC TAAGATGCTG GATGCCGAAG ACATCGTTGG AACTGCCCGA
CCGGATGAGA AAGCCATCAT GACTTATGTG TCTAGCTTCT ACCACGCCTT CTCTGGAGCC
CAGAAGGCGG AGACAGCAGC CAATCGCATC TGCAAGGTGT TGGCCGTCAA CCAGGAGAAC
GAGCAGCTTA TGGAAGACTA CGAGAAGTTG GCCAGTGATC TGTTGGAGTG GATCCGCCGC
ACAATCCCGT GGCTGGAGAA CCGGGTGCCC GAGAACACCA TGCATGCCAT GCAGCAGAAG
CTGGAGGATT TCCGGGACTA CCGGCGCCTG CACAAGCCGC CCAAGGTGCA GGAGAAGTGC
CAGCTGGAGA TCAACTTCAA CACGCTGCAG ACCAAGCTGC GGCTCAGCAA CCGGCCTGCC
TTCATGCCCT CTGAGGGCAG GATGGTCTCG GACATCAACA ATGCCTGGGG CTGCCTGGAG
CAGGTGGAGA AGGGCTATGA GGAGTGGTTG CTGAACGAGA TCCGGAGGCT GGAGCGACTG
GACCACCTGG CAGAGAAGTT CCGGCAGAAG GCCTCCATCC ACGAGGCCTG GACTGACGGC
AAAGAGGCCA TGCTGCGACA GAAGGACTAT GAGACAGCCA CCCTCTCGGA GATCAAGGCC
CTGCTCAAGA AGCATGAGGC CTTCGAGAGT GACCTGGCTG CCCACCAGGA CCGCGTGGAG
CAGATTGCCG CCATCGCACA GGAGCTCAAT GAGCTGGACT ATTATGACTC ACCCAGTGTC
AACGCCCGTT GCCAAAAGAT CTGTGACCAG TGGGACAATC TGGGGGCCCT AACTCAGAAG
CGAAGGGAAG CTCTGGAGCG GACCGAGAAA CTGCTGGAGA CCATTGACCA GCTGTACTTG
GAGTATGCCA AGCGGGCTGC ACCCTTCAAC AACTGGATGG AGGGGGCCAT GGAGGACCTG
CAGGACACCT TCATTGTGCA CACCATTGAG GAGATCCAGG GACTGACCAC AGCCCATGAG
CAGTTCAAGG CCACCCTCCC TGATGCCGAC AAGGAGCGCC TGGCCATACT GGGCATCCAC
AACGAGGTGT CCAAGATTGT CCAGACCTAC CACGTCAATA TGGCGGGCAC CAACCCCTAC
ACAACCATCA CGCCTCAGGA GATCAATGGC AAATGGGACC ACGTGCGGCA GCTGGTGCCA
CGGAGGGACC AAGCTCTGAC GGAGGAGCAT GCCCGACAGC AGCACAATGA GAGGCTACGC
AAGCAGTTTG GGGCCCAGGC CAATGTCATC GGGCCCTGGA TCCAGACCAA GATGGAGGAG
ATCGGGAGGA TCTCCATTGA GATGCACGGG ACCCTGGAGG ACCAGCTCAG CCACCTGCGG
CAGTATGAGA AGAGTATCGT CAACTACAAG CCAAAGATTG ATCAGCTGGA GGGCGACCAC
CAGCTCATCC AGGAGGCACT CATCTTTGAC AACAAGCACA CCAACTACAC CATGGAGCAC
ATCCGTGTGG GCTGGGAGCA GCTGCTCACC ACCATCGCCA GGACCATCAA TGAGGTGGAG
AACCAGATCC TGACCCGGGA TGCCAAGGGC ATTAGCCAGG AGCAGATGAA TGAGTTCCGG
GCCTCCTTCA ACCACTTTGA CCGGGATCAC TCCGGCACAC TGGGTCCCGA GGAGTTCAAA
GCCTGCCTCA TCAGCTTGGG TTATGATATT GGCAACGACC CCCAGAAGAA GACAGGCATG
ATGGACACGG ATGATTTCCG CGCCTGCCTG ATCTCCATGG GTTACAACAT GGGAGAAGCA
GAATTTGCCC GCATCATGAG CATTGTGGAC CCCAACCGCC TGGGGGTAGT GACATTCCAG
GCCTTCATTG ACTTCATGTC CCGCGAGACA GCCGACACAG ATACAGCAGA CCAAGTCATG
GCTTCCTTCA AGATCCTGGC CGGGGACAAG AACTACATTA CCATGGACGA GCTGCGCCGC
GAGCTGCCGC CCGACCAGGC TGAGTACTGC ATCGCGCGGA TGGCCCCCTA CACCGGCCCC
GACTCCGTGC CAGGTGCTCT GGACTACATG TCCTTCTCCA CGGCGCTGTA CGGCGAGAGT
GACCTCTAAThe stop codons will be deleted if pcDNA3.1+/C-(K)DYK vector is selected.
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