| Gene Symbol | ABCA9 |
| Entrez Gene ID | 100971060 |
| Full Name | ATP binding cassette subfamily A member 9 |
| Gene Type | protein-coding |
| Organism | Pan paniscus(pygmy chimpanzee) |
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ABCA9 cDNA ORF clone, Pan paniscus(pygmy chimpanzee)
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Gene
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Clones
gRNAs
The following ABCA9 gene cDNA ORF clone sequences were retrieved from the NCBI Reference Sequence Database (RefSeq). These sequences represent the protein coding region of the ABCA9 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 OPa69665 Clone ID Related Accession (Same CDS sequence) XM_008961091.2 , XM_008961091.1 Accession Version XM_008961091.2 Latest version! Documents for ORF clone product in default vector Sequence Information ORF Nucleotide Sequence (Length: 4875bp)
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 1525017600000 Organism Pan paniscus(pygmy chimpanzee) Product ATP-binding cassette sub-family A member 9 Comment Comment: MODEL REFSEQ: This record is predicted by automated computational analysis. This record is derived from a genomic sequence (NC_027885.1) annotated using gene prediction method: Gnomon, supported by mRNA and EST evidence. Also see: Documentation of NCBI's Annotation Process On May 1, 2018 this sequence version replaced XM_008961091.1. ##Genome-Annotation-Data-START## Annotation Provider :: NCBI Annotation Status :: Full annotation Annotation Name :: Pan paniscus 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
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
4861ATGAGCAAGA GATGCATGAG CGTGGGTCAG CAAACGTGGG CTCTTCTCTG CAAGAACTGT
CTCAAAAAAT GGAGAATGAA AAGACAGACC TTGTTGGAAT GGCTCTTTTC ATTTCTTCTG
GTACTGTTTC TGTACCTATT TTTCTCCAAT TTACATCAAG TTCATGACAC TCCTCAAATG
TCTTCAATGG ATCTGGGACG TGTAGATAGT TTTAATGATA CTAATTATGT TATTGCATTT
GCACCTGAAT CCAAAACTAC CCAAGAGATA ATGAACAAAG TGGCTTCAGC CCCATTCCTA
AAAGGAAGAA CAATCATGGG GTGGCCTGAT GAAAAAAGCA TGGATGAATT GGATTTGAAC
TATTCAATAG ACGCAGTGAG AGTCATCTTT ACTGATACCT TCTCCTACCA TTTGAAGTTT
TCTTGGGGAC ATAGAATCCC CATGATGAAA GAGCACAGAG ACCATTCAGC TCACTGTCAA
GCAGTGAATG AAAAAATGAA GTGTGAAGGT TCAGAGTTCT GGGAGAAAGG CTTTGTAGCT
TTTCAAGCTG CCATTAATGC TGCTATCATA GAAATCACAA CAAATCATTC AGTGATGGAA
CAGCTGATGT CAGTTACTGG TGTACATATG AAGATATTAC CTTTTGTTGC CCAAGGAGGA
GTTGCAACTG ATTTTTTCAT TTTCTTTTGC ATTATTTCTT TTTCTACATT TATATACTAT
GTATCAGTCA ATGTTACACA AGAAAGACAA TACATTACGT CATTGATGAC AATGATGGGA
CTCCGAGAGT CAGCATTCTG GCTTTCCTGG GGTTTGATGT ATGCTGGCTT CATCCTTATC
ATGGCCACTT TAATGGCTCT TATTGTAAAA TCTGCACAAA TTGTCGTCCT GACTGGTTTT
GTGATGGTCT TCACCCTCTT TCTCCTCTAT GGCCTGTCTT TGATAACTTT AGCTTTCCTG
ATGAGTGTGT TGATAAAGAA ACCTTTCCTT ACGGGCTTGG TTGTGTTTCT CCTTATTGTC
TTTTGGGGGA TCCTGGGATT CCCAGCATTG TATACACATC TTCCTGCATT TTTGGAATGG
ACTTTGTGTC TTCTTAGCCC CTTTGCCTTC ACTGTTGGGA TGGCCCAGCT TATACATTTG
GACTATGATG TGAATTCTAA TGCCCACTTG GATTCTTCAC AAAATCTATA CCTCATAATA
GCTACTCTTT TCATGTTGGT TTTTGACACC CTTCTGTATT TGGTATTGAC ATTATATTTT
GACAAAATTT TGCCCGCTGA ATATGGACAT CGATGTTCTC CCTTGTTTTT CCTGAAATCC
TGTTTTTGGT TTCAACACGG AAGGGCTAAT CATGTGGTCC TTGAGAATGA AACAGATTCT
GATCCTACAC CTAATGACTG TTTTGAACCA GTGTCTCCAG AATTCTGTGG GAAAGAAGCC
ATCAGAATCA AAAATCTTAA AAAAGAATAT GCAGGGAAGT GTGAGAAAGT AGAAGCTTTG
AAAGGTGTGG TGTTTGACAT ATATGAAGGC CAGATCACTG CCCTCCTTGG TCACAGTGGA
GCTGGAAAAA CTACCCTGTT AAACATACTT AGTGGGCTGT CAGTTCCAAC ATCAGGTTCA
GTCACTGTCT ATAATCACAC ACTTTCAAGA ATGGCTGATA TAGAAAATAT CAGCAAGTTC
ACTGGATTTT GTCCACAATC CAATGTGCAA TTTGGATTTC TCACTGTGAA AGAAAACCTC
CGGCTGTTTG CTAAAATAAA AGGGATTTTG CCACATGAAG TGGAGAAAGA GGTACAACGA
GTTGTACAGG AATTAGAAAT GGAAAATATT CAAGACATCC TTGCTCAAAA CTTAAGTGGT
GGACAAAATA GGAAACTAAC TTTTGGGATT GCCATTTTAG GAGATCCTCA AGTTTTGCTA
TTGGATGAAC CGACTGCTGG ATTGGATCCT CTTTCAAGGC ACCGAATATG GAATCTCCTG
AAAGAGGGGA AATCAGACAG AGTAATTCTC TTCAGCACCC AGTTTATAGA TGAGGCTGAC
ATTCTGGCGG ACAGGAAGGT GTTCATATCC AATGGGAAGC TGAAGTGTGC AGGCTCTTCT
CTGTTCCTTA AGAAGAAATG GGGCATAGGC TACCATTTAA GTTTGCATCT GAATGAAAGG
TGTGATCCAG AGAGTATAAC ATCACTGGTT AAGCAGCACA TCTCTGATGC CAAATTGACA
GCACAAAGTG AAGAAAAACT TGTATATATT TTGCCTTTGG AAAGGACAAA CAAATTTCCA
GAACTTTACA GGGATCTTGA TAGATGTTCT AACCAAGGCA TTGAGGATTA TGGTGTTTCC
ATAACAACTT TGAATGAGGT GTTTCTGAAA TTAGAAGGAA AATCAACTAT TGATGAATCA
GATATTGGAA TTTGGGGACA ATTACAAACT GATGGGGCAA AAGATATAGG AAGCCTTGTT
GAGCTGGAAC AAGTTTTGTC TTCCTTCCAC GAAACAAGGA AAACAATCAG TGGCGTGGCG
CTCTGGAGGC AGCAGGTCTG TGCAATAGCA AAAGTTCGCT TCCTAAAGTT AAAGAAAGAA
AGAAAAAGTC TGTTGACTAT ATTATTGCTT TTTGGTATTA GCTTTATCCC TCAACTTTTG
GAACATCTAT TCTACGAGTC ATATCAGAAA AGTTACCCGT GGGAACTGTC TCCAAATACA
TACTTCCTCT CACCAGGACA ACAACCACAG GATCCTCTGA CCCATTTACT GGTCATCAAT
AAGACAGGGT CAACCATTGA TAACTTTTTA CATTCACTGA GGCGACAAAA CATAGCTATA
GAAGTGGATG CCTTTGGAAC TAGAAATGGC ACAGATGACC CATCTTACAA TGGTGCTATC
ATTGTGTCAG GTGATGAAAA GGATCACAGA TTTTCAATAG CATGTAATAC AAAACGGTTG
AATTGCTTTC CTGTCCTCCT GGATGTCATT AGCAATGGAC TACTTGGAAT TTTTAATTCG
TCAGAACACA TTCAGACTGA CAGAAGCACA TTTTTTGAAG AGCATATGGA TTATGAGTAT
GGGTACCGAA GTAACACCTT CTTCTGGATA CCGATGGCAG CCTCTTTCAC TCCATACATT
GCAATGAGCA GCATCGGTGA CTACAAAAAA AAAGCTCATT CCCAGCTATG GATTTCAGGC
CTCTACCCTT CTGCATACTG GTTTGGCCAA GCACTGGTGG ATGTTTCCCT GTACTTTTTG
ATCCTCCTGC TAATGCAAAT AATGGATTAT ATTTTTAGCC CAGAGGAGAT TATATTTATA
ATTCAAAACC TGTTAATTCA AATCCTGTGT AGTATTGGCT ATGTCTCATC TCTTGTTTTC
TTGACATATG TGATTTCATT CATTTTTCGC AATGGGAGAA AAAATAGTGG CATTTGGTCA
TTTTTCTTCT TAATTGTGGT CATCTTCTCG ATAGTTGCTA CTGATCTAAA TGAATATGGA
TTTATAGGGC TATTTTTTGG CACCATGTTA ATACCTCCCT TCACATTGAT TGGCTCTCTA
TTAATTTTTT CTGAGATTTC TCCTGATTCC ATGGATTACT TAGGAGCTTC AGAATCTGAA
ATTGTATACC TGGCACTGCT AATACCTTAC CTTCATTTTC TCATTTTTCT TTTCATTCTG
CGATGCCTAG AAATGAACTG CAGGAAGAAA CTAATGAGAA AGGATCCTGT GTTCAGAATT
TCTCCAAGAA GCAACGCTGT TTTTCCAAAC CCAGAAGAGC CTGAAGGAGA GGAGGAAGAT
ATCCAGATGG AAAGAATGAG AACAGTGAAT GCTATGGCTG TGCGAGACTT TGATGAGACA
CCCGTCATCA TTGCCAGCTG TCTACGGAAG GAATATGCAG GCAAAAAGAA AAATTGCTTT
TCTAAAAGGA AGAAAAAAAT TGCCACAAGA AATGTCTCTT TTTGTGTTAA AAAAGGCGAA
GTTATAGGAC TGTTAGGACA CAATGGAGCT GGTAAAAGTA CAACTATTAA GATGATAACT
GGAGACACAA AACCAACTGC AGGACAGGTG ATTTTGAAAG GCAGCGGCGG AGGGGAACCC
CTGGGCTTCC TGGGGTACTG CCCTCAGGAG AATGTGCTGT GGCCCAACCT GACAGTGAGG
CAGCACCTGG AGGTGTACGC TGCCGTGAAA GGGCTCAGGA AAGGGGACGC AATGATCGCC
ATCACACGGT TAGTGGATGC GCTCAAGCTG CAGGACCAGC TGAAGGCTCC TGTGAAGACC
TTGTCAGAGG GAATAAAGCG AAAGCTGTGC TTCGTGCTGA GCATCCTGGG GAACCCGTCA
GTGGTGCTTC TGGATGAGCC GTCGACTGGG ATGGACCCCG AGGGGCAGCA GCAAATGTGG
CAGGTGATTC GGGCCACCTT TAGAAACACG GAGAGGGGCG CCCTCCTGAC CACCCACTAC
ATGGCAGAGG CTGAGGCGGT GTGTGACCGA GTGGCCATCA TGGTGTCAGG AAGGCTGAGA
TGTATTGGTT CCATCCAACA CCTGAAAAGC AAATTTGGCA AAGACTACCT GCTGGAGATG
AAGGTGAAGA ACCTGGCACA AATGGAGCCC CTCCATGCGG AGATCCTGAG GCTTTTCCCC
CAGGCTGCTC GGCAGGAAAG GTTCTCCTCC CTGATGGTCT ATAAGTTGCC TGTTGAGGAT
GTGCGACCTT TATCACAGGC TTTCTTCAAA TTAGAGATAG TTAAACAGAG TTTCGACCTG
GAGGAGTACA GCCTCTCACA GTCTACCCTG GAGCAGGTTT TCCTGGAGCT CTCCAAGGAG
CAGGAGCTGG GTGATCTTGA AGAGGACTTT GATCCCTCGG TGAAGTGGAA GCTCCTCCTG
CAGGAAGAGC CTTAAThe stop codons will be deleted if pcDNA3.1+/C-(K)DYK vector is selected.
RefSeq XP_008959339.1 CDS 53..4927 Translation 
Target ORF information:
RefSeq Version XM_008961091.2 Organism Pan paniscus(pygmy chimpanzee) Definition Pan paniscus ATP binding cassette subfamily A member 9 (ABCA9), mRNA. Target ORF information:
Epitope DYKDDDDK Bacterial selection AMPR Mammalian selection NeoR Vector pcDNA3.1+/C-(K)DYK 
XM_008961091.2
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
4861ATGAGCAAGA GATGCATGAG CGTGGGTCAG CAAACGTGGG CTCTTCTCTG CAAGAACTGT
CTCAAAAAAT GGAGAATGAA AAGACAGACC TTGTTGGAAT GGCTCTTTTC ATTTCTTCTG
GTACTGTTTC TGTACCTATT TTTCTCCAAT TTACATCAAG TTCATGACAC TCCTCAAATG
TCTTCAATGG ATCTGGGACG TGTAGATAGT TTTAATGATA CTAATTATGT TATTGCATTT
GCACCTGAAT CCAAAACTAC CCAAGAGATA ATGAACAAAG TGGCTTCAGC CCCATTCCTA
AAAGGAAGAA CAATCATGGG GTGGCCTGAT GAAAAAAGCA TGGATGAATT GGATTTGAAC
TATTCAATAG ACGCAGTGAG AGTCATCTTT ACTGATACCT TCTCCTACCA TTTGAAGTTT
TCTTGGGGAC ATAGAATCCC CATGATGAAA GAGCACAGAG ACCATTCAGC TCACTGTCAA
GCAGTGAATG AAAAAATGAA GTGTGAAGGT TCAGAGTTCT GGGAGAAAGG CTTTGTAGCT
TTTCAAGCTG CCATTAATGC TGCTATCATA GAAATCACAA CAAATCATTC AGTGATGGAA
CAGCTGATGT CAGTTACTGG TGTACATATG AAGATATTAC CTTTTGTTGC CCAAGGAGGA
GTTGCAACTG ATTTTTTCAT TTTCTTTTGC ATTATTTCTT TTTCTACATT TATATACTAT
GTATCAGTCA ATGTTACACA AGAAAGACAA TACATTACGT CATTGATGAC AATGATGGGA
CTCCGAGAGT CAGCATTCTG GCTTTCCTGG GGTTTGATGT ATGCTGGCTT CATCCTTATC
ATGGCCACTT TAATGGCTCT TATTGTAAAA TCTGCACAAA TTGTCGTCCT GACTGGTTTT
GTGATGGTCT TCACCCTCTT TCTCCTCTAT GGCCTGTCTT TGATAACTTT AGCTTTCCTG
ATGAGTGTGT TGATAAAGAA ACCTTTCCTT ACGGGCTTGG TTGTGTTTCT CCTTATTGTC
TTTTGGGGGA TCCTGGGATT CCCAGCATTG TATACACATC TTCCTGCATT TTTGGAATGG
ACTTTGTGTC TTCTTAGCCC CTTTGCCTTC ACTGTTGGGA TGGCCCAGCT TATACATTTG
GACTATGATG TGAATTCTAA TGCCCACTTG GATTCTTCAC AAAATCTATA CCTCATAATA
GCTACTCTTT TCATGTTGGT TTTTGACACC CTTCTGTATT TGGTATTGAC ATTATATTTT
GACAAAATTT TGCCCGCTGA ATATGGACAT CGATGTTCTC CCTTGTTTTT CCTGAAATCC
TGTTTTTGGT TTCAACACGG AAGGGCTAAT CATGTGGTCC TTGAGAATGA AACAGATTCT
GATCCTACAC CTAATGACTG TTTTGAACCA GTGTCTCCAG AATTCTGTGG GAAAGAAGCC
ATCAGAATCA AAAATCTTAA AAAAGAATAT GCAGGGAAGT GTGAGAAAGT AGAAGCTTTG
AAAGGTGTGG TGTTTGACAT ATATGAAGGC CAGATCACTG CCCTCCTTGG TCACAGTGGA
GCTGGAAAAA CTACCCTGTT AAACATACTT AGTGGGCTGT CAGTTCCAAC ATCAGGTTCA
GTCACTGTCT ATAATCACAC ACTTTCAAGA ATGGCTGATA TAGAAAATAT CAGCAAGTTC
ACTGGATTTT GTCCACAATC CAATGTGCAA TTTGGATTTC TCACTGTGAA AGAAAACCTC
CGGCTGTTTG CTAAAATAAA AGGGATTTTG CCACATGAAG TGGAGAAAGA GGTACAACGA
GTTGTACAGG AATTAGAAAT GGAAAATATT CAAGACATCC TTGCTCAAAA CTTAAGTGGT
GGACAAAATA GGAAACTAAC TTTTGGGATT GCCATTTTAG GAGATCCTCA AGTTTTGCTA
TTGGATGAAC CGACTGCTGG ATTGGATCCT CTTTCAAGGC ACCGAATATG GAATCTCCTG
AAAGAGGGGA AATCAGACAG AGTAATTCTC TTCAGCACCC AGTTTATAGA TGAGGCTGAC
ATTCTGGCGG ACAGGAAGGT GTTCATATCC AATGGGAAGC TGAAGTGTGC AGGCTCTTCT
CTGTTCCTTA AGAAGAAATG GGGCATAGGC TACCATTTAA GTTTGCATCT GAATGAAAGG
TGTGATCCAG AGAGTATAAC ATCACTGGTT AAGCAGCACA TCTCTGATGC CAAATTGACA
GCACAAAGTG AAGAAAAACT TGTATATATT TTGCCTTTGG AAAGGACAAA CAAATTTCCA
GAACTTTACA GGGATCTTGA TAGATGTTCT AACCAAGGCA TTGAGGATTA TGGTGTTTCC
ATAACAACTT TGAATGAGGT GTTTCTGAAA TTAGAAGGAA AATCAACTAT TGATGAATCA
GATATTGGAA TTTGGGGACA ATTACAAACT GATGGGGCAA AAGATATAGG AAGCCTTGTT
GAGCTGGAAC AAGTTTTGTC TTCCTTCCAC GAAACAAGGA AAACAATCAG TGGCGTGGCG
CTCTGGAGGC AGCAGGTCTG TGCAATAGCA AAAGTTCGCT TCCTAAAGTT AAAGAAAGAA
AGAAAAAGTC TGTTGACTAT ATTATTGCTT TTTGGTATTA GCTTTATCCC TCAACTTTTG
GAACATCTAT TCTACGAGTC ATATCAGAAA AGTTACCCGT GGGAACTGTC TCCAAATACA
TACTTCCTCT CACCAGGACA ACAACCACAG GATCCTCTGA CCCATTTACT GGTCATCAAT
AAGACAGGGT CAACCATTGA TAACTTTTTA CATTCACTGA GGCGACAAAA CATAGCTATA
GAAGTGGATG CCTTTGGAAC TAGAAATGGC ACAGATGACC CATCTTACAA TGGTGCTATC
ATTGTGTCAG GTGATGAAAA GGATCACAGA TTTTCAATAG CATGTAATAC AAAACGGTTG
AATTGCTTTC CTGTCCTCCT GGATGTCATT AGCAATGGAC TACTTGGAAT TTTTAATTCG
TCAGAACACA TTCAGACTGA CAGAAGCACA TTTTTTGAAG AGCATATGGA TTATGAGTAT
GGGTACCGAA GTAACACCTT CTTCTGGATA CCGATGGCAG CCTCTTTCAC TCCATACATT
GCAATGAGCA GCATCGGTGA CTACAAAAAA AAAGCTCATT CCCAGCTATG GATTTCAGGC
CTCTACCCTT CTGCATACTG GTTTGGCCAA GCACTGGTGG ATGTTTCCCT GTACTTTTTG
ATCCTCCTGC TAATGCAAAT AATGGATTAT ATTTTTAGCC CAGAGGAGAT TATATTTATA
ATTCAAAACC TGTTAATTCA AATCCTGTGT AGTATTGGCT ATGTCTCATC TCTTGTTTTC
TTGACATATG TGATTTCATT CATTTTTCGC AATGGGAGAA AAAATAGTGG CATTTGGTCA
TTTTTCTTCT TAATTGTGGT CATCTTCTCG ATAGTTGCTA CTGATCTAAA TGAATATGGA
TTTATAGGGC TATTTTTTGG CACCATGTTA ATACCTCCCT TCACATTGAT TGGCTCTCTA
TTAATTTTTT CTGAGATTTC TCCTGATTCC ATGGATTACT TAGGAGCTTC AGAATCTGAA
ATTGTATACC TGGCACTGCT AATACCTTAC CTTCATTTTC TCATTTTTCT TTTCATTCTG
CGATGCCTAG AAATGAACTG CAGGAAGAAA CTAATGAGAA AGGATCCTGT GTTCAGAATT
TCTCCAAGAA GCAACGCTGT TTTTCCAAAC CCAGAAGAGC CTGAAGGAGA GGAGGAAGAT
ATCCAGATGG AAAGAATGAG AACAGTGAAT GCTATGGCTG TGCGAGACTT TGATGAGACA
CCCGTCATCA TTGCCAGCTG TCTACGGAAG GAATATGCAG GCAAAAAGAA AAATTGCTTT
TCTAAAAGGA AGAAAAAAAT TGCCACAAGA AATGTCTCTT TTTGTGTTAA AAAAGGCGAA
GTTATAGGAC TGTTAGGACA CAATGGAGCT GGTAAAAGTA CAACTATTAA GATGATAACT
GGAGACACAA AACCAACTGC AGGACAGGTG ATTTTGAAAG GCAGCGGCGG AGGGGAACCC
CTGGGCTTCC TGGGGTACTG CCCTCAGGAG AATGTGCTGT GGCCCAACCT GACAGTGAGG
CAGCACCTGG AGGTGTACGC TGCCGTGAAA GGGCTCAGGA AAGGGGACGC AATGATCGCC
ATCACACGGT TAGTGGATGC GCTCAAGCTG CAGGACCAGC TGAAGGCTCC TGTGAAGACC
TTGTCAGAGG GAATAAAGCG AAAGCTGTGC TTCGTGCTGA GCATCCTGGG GAACCCGTCA
GTGGTGCTTC TGGATGAGCC GTCGACTGGG ATGGACCCCG AGGGGCAGCA GCAAATGTGG
CAGGTGATTC GGGCCACCTT TAGAAACACG GAGAGGGGCG CCCTCCTGAC CACCCACTAC
ATGGCAGAGG CTGAGGCGGT GTGTGACCGA GTGGCCATCA TGGTGTCAGG AAGGCTGAGA
TGTATTGGTT CCATCCAACA CCTGAAAAGC AAATTTGGCA AAGACTACCT GCTGGAGATG
AAGGTGAAGA ACCTGGCACA AATGGAGCCC CTCCATGCGG AGATCCTGAG GCTTTTCCCC
CAGGCTGCTC GGCAGGAAAG GTTCTCCTCC CTGATGGTCT ATAAGTTGCC TGTTGAGGAT
GTGCGACCTT TATCACAGGC TTTCTTCAAA TTAGAGATAG TTAAACAGAG TTTCGACCTG
GAGGAGTACA GCCTCTCACA GTCTACCCTG GAGCAGGTTT TCCTGGAGCT CTCCAAGGAG
CAGGAGCTGG GTGATCTTGA AGAGGACTTT GATCCCTCGG TGAAGTGGAA GCTCCTCCTG
CAGGAAGAGC CTTAAThe stop codons will be deleted if pcDNA3.1+/C-(K)DYK vector is selected.
CloneID OPa69665 Clone ID Related Accession (Same CDS sequence) XM_008961091.2 , XM_008961091.1 Accession Version XM_008961091.1 Documents for ORF clone product in default vector Sequence Information ORF Nucleotide Sequence (Length: 4875bp)
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 1443456000000 Organism Pan paniscus(pygmy chimpanzee) Product ATP-binding cassette sub-family A member 9 Comment Comment: MODEL REFSEQ: This record is predicted by automated computational analysis. This record is derived from a genomic sequence (NW_014014325.1) 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 :: Pan paniscus Annotation Release 102 Annotation Pipeline :: NCBI eukaryotic genome annotation pipeline Annotation Software Version :: 6.4 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
4861ATGAGCAAGA GATGCATGAG CGTGGGTCAG CAAACGTGGG CTCTTCTCTG CAAGAACTGT
CTCAAAAAAT GGAGAATGAA AAGACAGACC TTGTTGGAAT GGCTCTTTTC ATTTCTTCTG
GTACTGTTTC TGTACCTATT TTTCTCCAAT TTACATCAAG TTCATGACAC TCCTCAAATG
TCTTCAATGG ATCTGGGACG TGTAGATAGT TTTAATGATA CTAATTATGT TATTGCATTT
GCACCTGAAT CCAAAACTAC CCAAGAGATA ATGAACAAAG TGGCTTCAGC CCCATTCCTA
AAAGGAAGAA CAATCATGGG GTGGCCTGAT GAAAAAAGCA TGGATGAATT GGATTTGAAC
TATTCAATAG ACGCAGTGAG AGTCATCTTT ACTGATACCT TCTCCTACCA TTTGAAGTTT
TCTTGGGGAC ATAGAATCCC CATGATGAAA GAGCACAGAG ACCATTCAGC TCACTGTCAA
GCAGTGAATG AAAAAATGAA GTGTGAAGGT TCAGAGTTCT GGGAGAAAGG CTTTGTAGCT
TTTCAAGCTG CCATTAATGC TGCTATCATA GAAATCACAA CAAATCATTC AGTGATGGAA
CAGCTGATGT CAGTTACTGG TGTACATATG AAGATATTAC CTTTTGTTGC CCAAGGAGGA
GTTGCAACTG ATTTTTTCAT TTTCTTTTGC ATTATTTCTT TTTCTACATT TATATACTAT
GTATCAGTCA ATGTTACACA AGAAAGACAA TACATTACGT CATTGATGAC AATGATGGGA
CTCCGAGAGT CAGCATTCTG GCTTTCCTGG GGTTTGATGT ATGCTGGCTT CATCCTTATC
ATGGCCACTT TAATGGCTCT TATTGTAAAA TCTGCACAAA TTGTCGTCCT GACTGGTTTT
GTGATGGTCT TCACCCTCTT TCTCCTCTAT GGCCTGTCTT TGATAACTTT AGCTTTCCTG
ATGAGTGTGT TGATAAAGAA ACCTTTCCTT ACGGGCTTGG TTGTGTTTCT CCTTATTGTC
TTTTGGGGGA TCCTGGGATT CCCAGCATTG TATACACATC TTCCTGCATT TTTGGAATGG
ACTTTGTGTC TTCTTAGCCC CTTTGCCTTC ACTGTTGGGA TGGCCCAGCT TATACATTTG
GACTATGATG TGAATTCTAA TGCCCACTTG GATTCTTCAC AAAATCTATA CCTCATAATA
GCTACTCTTT TCATGTTGGT TTTTGACACC CTTCTGTATT TGGTATTGAC ATTATATTTT
GACAAAATTT TGCCCGCTGA ATATGGACAT CGATGTTCTC CCTTGTTTTT CCTGAAATCC
TGTTTTTGGT TTCAACACGG AAGGGCTAAT CATGTGGTCC TTGAGAATGA AACAGATTCT
GATCCTACAC CTAATGACTG TTTTGAACCA GTGTCTCCAG AATTCTGTGG GAAAGAAGCC
ATCAGAATCA AAAATCTTAA AAAAGAATAT GCAGGGAAGT GTGAGAAAGT AGAAGCTTTG
AAAGGTGTGG TGTTTGACAT ATATGAAGGC CAGATCACTG CCCTCCTTGG TCACAGTGGA
GCTGGAAAAA CTACCCTGTT AAACATACTT AGTGGGCTGT CAGTTCCAAC ATCAGGTTCA
GTCACTGTCT ATAATCACAC ACTTTCAAGA ATGGCTGATA TAGAAAATAT CAGCAAGTTC
ACTGGATTTT GTCCACAATC CAATGTGCAA TTTGGATTTC TCACTGTGAA AGAAAACCTC
CGGCTGTTTG CTAAAATAAA AGGGATTTTG CCACATGAAG TGGAGAAAGA GGTACAACGA
GTTGTACAGG AATTAGAAAT GGAAAATATT CAAGACATCC TTGCTCAAAA CTTAAGTGGT
GGACAAAATA GGAAACTAAC TTTTGGGATT GCCATTTTAG GAGATCCTCA AGTTTTGCTA
TTGGATGAAC CGACTGCTGG ATTGGATCCT CTTTCAAGGC ACCGAATATG GAATCTCCTG
AAAGAGGGGA AATCAGACAG AGTAATTCTC TTCAGCACCC AGTTTATAGA TGAGGCTGAC
ATTCTGGCGG ACAGGAAGGT GTTCATATCC AATGGGAAGC TGAAGTGTGC AGGCTCTTCT
CTGTTCCTTA AGAAGAAATG GGGCATAGGC TACCATTTAA GTTTGCATCT GAATGAAAGG
TGTGATCCAG AGAGTATAAC ATCACTGGTT AAGCAGCACA TCTCTGATGC CAAATTGACA
GCACAAAGTG AAGAAAAACT TGTATATATT TTGCCTTTGG AAAGGACAAA CAAATTTCCA
GAACTTTACA GGGATCTTGA TAGATGTTCT AACCAAGGCA TTGAGGATTA TGGTGTTTCC
ATAACAACTT TGAATGAGGT GTTTCTGAAA TTAGAAGGAA AATCAACTAT TGATGAATCA
GATATTGGAA TTTGGGGACA ATTACAAACT GATGGGGCAA AAGATATAGG AAGCCTTGTT
GAGCTGGAAC AAGTTTTGTC TTCCTTCCAC GAAACAAGGA AAACAATCAG TGGCGTGGCG
CTCTGGAGGC AGCAGGTCTG TGCAATAGCA AAAGTTCGCT TCCTAAAGTT AAAGAAAGAA
AGAAAAAGTC TGTTGACTAT ATTATTGCTT TTTGGTATTA GCTTTATCCC TCAACTTTTG
GAACATCTAT TCTACGAGTC ATATCAGAAA AGTTACCCGT GGGAACTGTC TCCAAATACA
TACTTCCTCT CACCAGGACA ACAACCACAG GATCCTCTGA CCCATTTACT GGTCATCAAT
AAGACAGGGT CAACCATTGA TAACTTTTTA CATTCACTGA GGCGACAAAA CATAGCTATA
GAAGTGGATG CCTTTGGAAC TAGAAATGGC ACAGATGACC CATCTTACAA TGGTGCTATC
ATTGTGTCAG GTGATGAAAA GGATCACAGA TTTTCAATAG CATGTAATAC AAAACGGTTG
AATTGCTTTC CTGTCCTCCT GGATGTCATT AGCAATGGAC TACTTGGAAT TTTTAATTCG
TCAGAACACA TTCAGACTGA CAGAAGCACA TTTTTTGAAG AGCATATGGA TTATGAGTAT
GGGTACCGAA GTAACACCTT CTTCTGGATA CCGATGGCAG CCTCTTTCAC TCCATACATT
GCAATGAGCA GCATCGGTGA CTACAAAAAA AAAGCTCATT CCCAGCTATG GATTTCAGGC
CTCTACCCTT CTGCATACTG GTTTGGCCAA GCACTGGTGG ATGTTTCCCT GTACTTTTTG
ATCCTCCTGC TAATGCAAAT AATGGATTAT ATTTTTAGCC CAGAGGAGAT TATATTTATA
ATTCAAAACC TGTTAATTCA AATCCTGTGT AGTATTGGCT ATGTCTCATC TCTTGTTTTC
TTGACATATG TGATTTCATT CATTTTTCGC AATGGGAGAA AAAATAGTGG CATTTGGTCA
TTTTTCTTCT TAATTGTGGT CATCTTCTCG ATAGTTGCTA CTGATCTAAA TGAATATGGA
TTTATAGGGC TATTTTTTGG CACCATGTTA ATACCTCCCT TCACATTGAT TGGCTCTCTA
TTAATTTTTT CTGAGATTTC TCCTGATTCC ATGGATTACT TAGGAGCTTC AGAATCTGAA
ATTGTATACC TGGCACTGCT AATACCTTAC CTTCATTTTC TCATTTTTCT TTTCATTCTG
CGATGCCTAG AAATGAACTG CAGGAAGAAA CTAATGAGAA AGGATCCTGT GTTCAGAATT
TCTCCAAGAA GCAACGCTGT TTTTCCAAAC CCAGAAGAGC CTGAAGGAGA GGAGGAAGAT
ATCCAGATGG AAAGAATGAG AACAGTGAAT GCTATGGCTG TGCGAGACTT TGATGAGACA
CCCGTCATCA TTGCCAGCTG TCTACGGAAG GAATATGCAG GCAAAAAGAA AAATTGCTTT
TCTAAAAGGA AGAAAAAAAT TGCCACAAGA AATGTCTCTT TTTGTGTTAA AAAAGGCGAA
GTTATAGGAC TGTTAGGACA CAATGGAGCT GGTAAAAGTA CAACTATTAA GATGATAACT
GGAGACACAA AACCAACTGC AGGACAGGTG ATTTTGAAAG GCAGCGGCGG AGGGGAACCC
CTGGGCTTCC TGGGGTACTG CCCTCAGGAG AATGTGCTGT GGCCCAACCT GACAGTGAGG
CAGCACCTGG AGGTGTACGC TGCCGTGAAA GGGCTCAGGA AAGGGGACGC AATGATCGCC
ATCACACGGT TAGTGGATGC GCTCAAGCTG CAGGACCAGC TGAAGGCTCC TGTGAAGACC
TTGTCAGAGG GAATAAAGCG AAAGCTGTGC TTCGTGCTGA GCATCCTGGG GAACCCGTCA
GTGGTGCTTC TGGATGAGCC GTCGACTGGG ATGGACCCCG AGGGGCAGCA GCAAATGTGG
CAGGTGATTC GGGCCACCTT TAGAAACACG GAGAGGGGCG CCCTCCTGAC CACCCACTAC
ATGGCAGAGG CTGAGGCGGT GTGTGACCGA GTGGCCATCA TGGTGTCAGG AAGGCTGAGA
TGTATTGGTT CCATCCAACA CCTGAAAAGC AAATTTGGCA AAGACTACCT GCTGGAGATG
AAGGTGAAGA ACCTGGCACA AATGGAGCCC CTCCATGCGG AGATCCTGAG GCTTTTCCCC
CAGGCTGCTC GGCAGGAAAG GTTCTCCTCC CTGATGGTCT ATAAGTTGCC TGTTGAGGAT
GTGCGACCTT TATCACAGGC TTTCTTCAAA TTAGAGATAG TTAAACAGAG TTTCGACCTG
GAGGAGTACA GCCTCTCACA GTCTACCCTG GAGCAGGTTT TCCTGGAGCT CTCCAAGGAG
CAGGAGCTGG GTGATCTTGA AGAGGACTTT GATCCCTCGG TGAAGTGGAA GCTCCTCCTG
CAGGAAGAGC CTTAAThe stop codons will be deleted if pcDNA3.1+/C-(K)DYK vector is selected.
RefSeq XP_008959339.1 CDS 39..4913 Translation
Target ORF information:
RefSeq Version XM_008961091.1 Organism Pan paniscus(pygmy chimpanzee) Definition Pan paniscus ATP-binding cassette, sub-family A (ABC1), member 9 (ABCA9), mRNA. Target ORF information:
Epitope DYKDDDDK Bacterial selection AMPR Mammalian selection NeoR Vector pcDNA3.1+/C-(K)DYK XM_008961091.1
ORF Insert Sequence:
1
61
121
181
241
301
361
421
481
541
601
661
721
781
841
901
961
1021
1081
1141
1201
1261
1321
1381
1441
1501
1561
1621
1681
1741
1801
1861
1921
1981
2041
2101
2161
2221
2281
2341
2401
2461
2521
2581
2641
2701
2761
2821
2881
2941
3001
3061
3121
3181
3241
3301
3361
3421
3481
3541
3601
3661
3721
3781
3841
3901
3961
4021
4081
4141
4201
4261
4321
4381
4441
4501
4561
4621
4681
4741
4801
4861ATGAGCAAGA GATGCATGAG CGTGGGTCAG CAAACGTGGG CTCTTCTCTG CAAGAACTGT
CTCAAAAAAT GGAGAATGAA AAGACAGACC TTGTTGGAAT GGCTCTTTTC ATTTCTTCTG
GTACTGTTTC TGTACCTATT TTTCTCCAAT TTACATCAAG TTCATGACAC TCCTCAAATG
TCTTCAATGG ATCTGGGACG TGTAGATAGT TTTAATGATA CTAATTATGT TATTGCATTT
GCACCTGAAT CCAAAACTAC CCAAGAGATA ATGAACAAAG TGGCTTCAGC CCCATTCCTA
AAAGGAAGAA CAATCATGGG GTGGCCTGAT GAAAAAAGCA TGGATGAATT GGATTTGAAC
TATTCAATAG ACGCAGTGAG AGTCATCTTT ACTGATACCT TCTCCTACCA TTTGAAGTTT
TCTTGGGGAC ATAGAATCCC CATGATGAAA GAGCACAGAG ACCATTCAGC TCACTGTCAA
GCAGTGAATG AAAAAATGAA GTGTGAAGGT TCAGAGTTCT GGGAGAAAGG CTTTGTAGCT
TTTCAAGCTG CCATTAATGC TGCTATCATA GAAATCACAA CAAATCATTC AGTGATGGAA
CAGCTGATGT CAGTTACTGG TGTACATATG AAGATATTAC CTTTTGTTGC CCAAGGAGGA
GTTGCAACTG ATTTTTTCAT TTTCTTTTGC ATTATTTCTT TTTCTACATT TATATACTAT
GTATCAGTCA ATGTTACACA AGAAAGACAA TACATTACGT CATTGATGAC AATGATGGGA
CTCCGAGAGT CAGCATTCTG GCTTTCCTGG GGTTTGATGT ATGCTGGCTT CATCCTTATC
ATGGCCACTT TAATGGCTCT TATTGTAAAA TCTGCACAAA TTGTCGTCCT GACTGGTTTT
GTGATGGTCT TCACCCTCTT TCTCCTCTAT GGCCTGTCTT TGATAACTTT AGCTTTCCTG
ATGAGTGTGT TGATAAAGAA ACCTTTCCTT ACGGGCTTGG TTGTGTTTCT CCTTATTGTC
TTTTGGGGGA TCCTGGGATT CCCAGCATTG TATACACATC TTCCTGCATT TTTGGAATGG
ACTTTGTGTC TTCTTAGCCC CTTTGCCTTC ACTGTTGGGA TGGCCCAGCT TATACATTTG
GACTATGATG TGAATTCTAA TGCCCACTTG GATTCTTCAC AAAATCTATA CCTCATAATA
GCTACTCTTT TCATGTTGGT TTTTGACACC CTTCTGTATT TGGTATTGAC ATTATATTTT
GACAAAATTT TGCCCGCTGA ATATGGACAT CGATGTTCTC CCTTGTTTTT CCTGAAATCC
TGTTTTTGGT TTCAACACGG AAGGGCTAAT CATGTGGTCC TTGAGAATGA AACAGATTCT
GATCCTACAC CTAATGACTG TTTTGAACCA GTGTCTCCAG AATTCTGTGG GAAAGAAGCC
ATCAGAATCA AAAATCTTAA AAAAGAATAT GCAGGGAAGT GTGAGAAAGT AGAAGCTTTG
AAAGGTGTGG TGTTTGACAT ATATGAAGGC CAGATCACTG CCCTCCTTGG TCACAGTGGA
GCTGGAAAAA CTACCCTGTT AAACATACTT AGTGGGCTGT CAGTTCCAAC ATCAGGTTCA
GTCACTGTCT ATAATCACAC ACTTTCAAGA ATGGCTGATA TAGAAAATAT CAGCAAGTTC
ACTGGATTTT GTCCACAATC CAATGTGCAA TTTGGATTTC TCACTGTGAA AGAAAACCTC
CGGCTGTTTG CTAAAATAAA AGGGATTTTG CCACATGAAG TGGAGAAAGA GGTACAACGA
GTTGTACAGG AATTAGAAAT GGAAAATATT CAAGACATCC TTGCTCAAAA CTTAAGTGGT
GGACAAAATA GGAAACTAAC TTTTGGGATT GCCATTTTAG GAGATCCTCA AGTTTTGCTA
TTGGATGAAC CGACTGCTGG ATTGGATCCT CTTTCAAGGC ACCGAATATG GAATCTCCTG
AAAGAGGGGA AATCAGACAG AGTAATTCTC TTCAGCACCC AGTTTATAGA TGAGGCTGAC
ATTCTGGCGG ACAGGAAGGT GTTCATATCC AATGGGAAGC TGAAGTGTGC AGGCTCTTCT
CTGTTCCTTA AGAAGAAATG GGGCATAGGC TACCATTTAA GTTTGCATCT GAATGAAAGG
TGTGATCCAG AGAGTATAAC ATCACTGGTT AAGCAGCACA TCTCTGATGC CAAATTGACA
GCACAAAGTG AAGAAAAACT TGTATATATT TTGCCTTTGG AAAGGACAAA CAAATTTCCA
GAACTTTACA GGGATCTTGA TAGATGTTCT AACCAAGGCA TTGAGGATTA TGGTGTTTCC
ATAACAACTT TGAATGAGGT GTTTCTGAAA TTAGAAGGAA AATCAACTAT TGATGAATCA
GATATTGGAA TTTGGGGACA ATTACAAACT GATGGGGCAA AAGATATAGG AAGCCTTGTT
GAGCTGGAAC AAGTTTTGTC TTCCTTCCAC GAAACAAGGA AAACAATCAG TGGCGTGGCG
CTCTGGAGGC AGCAGGTCTG TGCAATAGCA AAAGTTCGCT TCCTAAAGTT AAAGAAAGAA
AGAAAAAGTC TGTTGACTAT ATTATTGCTT TTTGGTATTA GCTTTATCCC TCAACTTTTG
GAACATCTAT TCTACGAGTC ATATCAGAAA AGTTACCCGT GGGAACTGTC TCCAAATACA
TACTTCCTCT CACCAGGACA ACAACCACAG GATCCTCTGA CCCATTTACT GGTCATCAAT
AAGACAGGGT CAACCATTGA TAACTTTTTA CATTCACTGA GGCGACAAAA CATAGCTATA
GAAGTGGATG CCTTTGGAAC TAGAAATGGC ACAGATGACC CATCTTACAA TGGTGCTATC
ATTGTGTCAG GTGATGAAAA GGATCACAGA TTTTCAATAG CATGTAATAC AAAACGGTTG
AATTGCTTTC CTGTCCTCCT GGATGTCATT AGCAATGGAC TACTTGGAAT TTTTAATTCG
TCAGAACACA TTCAGACTGA CAGAAGCACA TTTTTTGAAG AGCATATGGA TTATGAGTAT
GGGTACCGAA GTAACACCTT CTTCTGGATA CCGATGGCAG CCTCTTTCAC TCCATACATT
GCAATGAGCA GCATCGGTGA CTACAAAAAA AAAGCTCATT CCCAGCTATG GATTTCAGGC
CTCTACCCTT CTGCATACTG GTTTGGCCAA GCACTGGTGG ATGTTTCCCT GTACTTTTTG
ATCCTCCTGC TAATGCAAAT AATGGATTAT ATTTTTAGCC CAGAGGAGAT TATATTTATA
ATTCAAAACC TGTTAATTCA AATCCTGTGT AGTATTGGCT ATGTCTCATC TCTTGTTTTC
TTGACATATG TGATTTCATT CATTTTTCGC AATGGGAGAA AAAATAGTGG CATTTGGTCA
TTTTTCTTCT TAATTGTGGT CATCTTCTCG ATAGTTGCTA CTGATCTAAA TGAATATGGA
TTTATAGGGC TATTTTTTGG CACCATGTTA ATACCTCCCT TCACATTGAT TGGCTCTCTA
TTAATTTTTT CTGAGATTTC TCCTGATTCC ATGGATTACT TAGGAGCTTC AGAATCTGAA
ATTGTATACC TGGCACTGCT AATACCTTAC CTTCATTTTC TCATTTTTCT TTTCATTCTG
CGATGCCTAG AAATGAACTG CAGGAAGAAA CTAATGAGAA AGGATCCTGT GTTCAGAATT
TCTCCAAGAA GCAACGCTGT TTTTCCAAAC CCAGAAGAGC CTGAAGGAGA GGAGGAAGAT
ATCCAGATGG AAAGAATGAG AACAGTGAAT GCTATGGCTG TGCGAGACTT TGATGAGACA
CCCGTCATCA TTGCCAGCTG TCTACGGAAG GAATATGCAG GCAAAAAGAA AAATTGCTTT
TCTAAAAGGA AGAAAAAAAT TGCCACAAGA AATGTCTCTT TTTGTGTTAA AAAAGGCGAA
GTTATAGGAC TGTTAGGACA CAATGGAGCT GGTAAAAGTA CAACTATTAA GATGATAACT
GGAGACACAA AACCAACTGC AGGACAGGTG ATTTTGAAAG GCAGCGGCGG AGGGGAACCC
CTGGGCTTCC TGGGGTACTG CCCTCAGGAG AATGTGCTGT GGCCCAACCT GACAGTGAGG
CAGCACCTGG AGGTGTACGC TGCCGTGAAA GGGCTCAGGA AAGGGGACGC AATGATCGCC
ATCACACGGT TAGTGGATGC GCTCAAGCTG CAGGACCAGC TGAAGGCTCC TGTGAAGACC
TTGTCAGAGG GAATAAAGCG AAAGCTGTGC TTCGTGCTGA GCATCCTGGG GAACCCGTCA
GTGGTGCTTC TGGATGAGCC GTCGACTGGG ATGGACCCCG AGGGGCAGCA GCAAATGTGG
CAGGTGATTC GGGCCACCTT TAGAAACACG GAGAGGGGCG CCCTCCTGAC CACCCACTAC
ATGGCAGAGG CTGAGGCGGT GTGTGACCGA GTGGCCATCA TGGTGTCAGG AAGGCTGAGA
TGTATTGGTT CCATCCAACA CCTGAAAAGC AAATTTGGCA AAGACTACCT GCTGGAGATG
AAGGTGAAGA ACCTGGCACA AATGGAGCCC CTCCATGCGG AGATCCTGAG GCTTTTCCCC
CAGGCTGCTC GGCAGGAAAG GTTCTCCTCC CTGATGGTCT ATAAGTTGCC TGTTGAGGAT
GTGCGACCTT TATCACAGGC TTTCTTCAAA TTAGAGATAG TTAAACAGAG TTTCGACCTG
GAGGAGTACA GCCTCTCACA GTCTACCCTG GAGCAGGTTT TCCTGGAGCT CTCCAAGGAG
CAGGAGCTGG GTGATCTTGA AGAGGACTTT GATCCCTCGG TGAAGTGGAA GCTCCTCCTG
CAGGAAGAGC CTTAAThe stop codons will be deleted if pcDNA3.1+/C-(K)DYK vector is selected.
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