ABCC9 (NM_020297) Human Untagged Clone

CAT#: SC304733

ABCC9 (untagged)-Human ATP-binding cassette, sub-family C (CFTR/MRP), member 9 (ABCC9), transcript variant SUR2B


  "NM_020297" in other vectors (4)

Reconstitution Protocol

USD 3,140.00

5 Days*

Size
    • 10 ug

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Specifications

Product Data
Type Human Untagged Clone
Tag Tag Free
Symbol ABCC9
Synonyms ABC37; ATFB12; CANTU; CMD1O; SUR2
Vector pCMV6-XL5
E. coli Selection Ampicillin (100 ug/mL)
Mammalian Cell Selection None
Sequence Data
>OriGene sequence for NM_020297 edited
GGCACGAGCTCAAGTGCACCGGCAGGGGTTTGAAGCAGCGTGAAGCTATTGCCCAAGATG
TGTGGAATTTCATGTAATGCATTTCGAGGAATAAAAACACTGAGGGTGCGATTCTTGCCA
TGAAATCGAAAAGTATTGTTTGTGACCATTGCTAAATCAATTATCAATGAAAGGAAAGAA
AGAAAAGAGTAAACCATATAAGAAGAAATGAGCCTTTCATTTTGTGGTAACAACATTTCT
TCATATAATATCAACGATGGTGTACTACAAAATTCCTGCTTTGTGGATGCCCTCAACCTG
GTCCCTCATGTCTTTCTGTTGTTTATCACTTTTCCAATATTGTTTATTGGGTGGGGGAGC
CAAAGCTCAAAAGTACAAATTCACCACAACACATGGCTTCATTTTCCGGGACATAACCTG
AGATGGATTCTTACATTCGCTCTCCTGTTTGTGCATGTCTGTGAAATAGCAGAAGGCATT
GTTTCAGACTCGCGGCGGGAATCAAGGCACCTCCACCTCTTTATGCCAGCCGTGATGGGA
TTCGTTGCCACTACAACATCGATAGTGTATTATCATAATATCGAAACATCAAATTTTCCT
AAATTACTTTTAGCCCTGTTCCTGTATTGGGTAATGGCCTTTATTACAAAAACAATAAAA
TTGGTTAAGTACTGTCAGTCTGGCTTGGACATATCAAACCTGCGTTTCTGCATCACAGGC
ATGATGGTCATCTTGAATGGGCTCTTGATGGCTGTGGAGATCAATGTCATTCGAGTCAGG
AGATATGTATTTTTCATGAATCCTCAGAAAGTAAAGCCTCCTGAAGACCTCCAGGATCTG
GGAGTGAGATTTCTTCAACCATTTGTGAATTTGCTGTCAAAAGCAACATACTGGTGGATG
AACACACTTATTATATCTGCTCACAAAAAGCCTATTGATCTGAAGGCAATTGGAAAATTG
CCAATAGCAATGAGAGCAGTAACAAATTATGTTTGCCTGAAAGATGCATATGAAGAACAA
AAGAAAAAAGTTGCAGATCATCCAAATCGGACTCCATCTATATGGCTTGCAATGTACAGA
GCTTTTGGGCGACCAATTCTACTTAGTAGCACATTCCGCTATCTGGCTGATTTACTGGGT
TTTGCTGGACCTCTTTGTATTTCTGGAATAGTTCAGCGTGTGAATGAAACCCAGAATGGG
ACAAATAACACAACTGGAATTTCAGAAACCCTCTCATCAAAGGAATTTCTTGAAAACGCT
TACGTTCTAGCAGTTCTTCTCTTCTTGGCTCTTATTCTGCAAAGGACATTTTTGCAGGCT
TCCTACTATGTAACCATAGAGACTGGCATTAACCTCCGTGGAGCTCTGCTGGCCATGATT
TATAATAAAATCCTTAGGCTCTCTACGTCTAACTTATCCATGGGGGAGATGACTCTGGGG
CAGATCAACAACTTAGTCGCCATTGAAACTAATCAACTCATGTGGTTTTTGTTCCTGTGT
CCCAATCTATGGGCTATGCCTGTTCAGATCATAATGGGCGTGATTCTGCTCTATAATTTA
CTTGGATCAAGTGCATTGGTCGGTGCAGCTGTCATTGTGCTCCTTGCGCCAATTCAGTAC
TTTATTGCTACAAAGTTGGCAGAGGCTCAGAAAAGTACACTTGATTATTCCACTGAGAGA
CTCAAGAAAACAAATGAAATATTGAAAGGCATCAAACTTCTAAAATTGTATGCCTGGGAA
CACATTTTCTGCAAAAGTGTGGAGGAAACAAGAATGAAAGAACTATCTAGTCTCAAAACC
TTTGCACTATATACATCACTCTCCATCTTCATGAATGCAGCAATTCCCATAGCAGCTGTT
CTTGCTACATTTGTGACCCATGCGTATGCCAGTGGAAACAATCTGAAACCTGCAGAGGCC
TTTGCTTCACTGTCTCTCTTCCATATCCTGGTCACACCACTGTTCCTGCTCTCCACGGTG
GTCAGATTTGCAGTCAAAGCCATCATAAGTGTTCAAAAGCTGAATGAGTTTCTCTTGAGT
GATGAGATTGGTGACGACAGTTGGCGAACTGGTGAAAGTTCGCTTCCTTTTGAGTCCTGT
AAGAAGCACACTGGAGTTCAGCCAAAAACTATAAACAGGAAACAGCCTGGAAGATATCAC
CTGGACAGCTATGAGCAATCAACACGGCGTCTACGTCCCGCAGAAACAGAGGACATTGCA
ATAAAGGTCACAAATGGATACTTTTCATGGGGCAGTGGTTTAGCTACATTATCCAATATA
GATATTCGAATTCCAACAGGTCAGTTAACCATGATTGTGGGCCAAGTAGGATGTGGGAAG
TCCTCTCTTCTCCTTGCCATCCTCGGTGAGATGCAGACATTGGAAGGAAAAGTTCACTGG
AGCAATGTAAATGAATCTGAGCCTTCTTTTGAAGCAACCAGAAGTAGGAACAGGTACTCT
GTGGCATATGCAGCTCAAAAGCCTTGGCTATTAAATGCTACAGTAGAAGAAAATATTACT
TTTGGAAGTCCTTTTAACAAACAGAGGTACAAAGCTGTCACAGATGCCTGTTCTCTTCAG
CCAGATATTGACTTATTACCATTTGGAGATCAAACTGAAATTGGAGAGAGGGGCATCAAC
CTGAGTGGGGGACAGAGGCAGAGAATCTGTGTGGCACGAGCGCTGTATCAAAACACCAAC
ATTGTCTTTTTGGATGATCCATTCTCAGCCCTGGACATTCACTTGAGTGATCATTTAATG
CAGGAGGGGATTTTGAAATTCCTGCAAGATGACAAAAGGACACTCGTTCTTGTGACTCAC
AAATTACAGTATCTGACGCATGCTGACTGGATCATAGCCATGAAAGATGGAAGTGTCCTA
AGAGAAGGAACTTTGAAGGACATTCAAACCAAAGATGTTGAGCTTTATGAACACTGGAAA
ACACTTATGAATCGGCAAGATCAAGAATTAGAAAAGGATATGGAAGCTGACCAAACTACT
TTAGAGAGGAAAACTCTCCGACGGGCCATGTATTCAAGAGAAGCCAAAGCCCAGATGGAG
GACGAAGACGAAGAGGAAGAAGAGGAGGAAGATGAGGATGATAACATGTCCACTGTAATG
AGGCTCAGGACTAAAATGCCATGGAAAACCTGCTGGCGCTACCTGACATCTGGAGGATTC
TTCCTGCTCATCCTGATGATTTTCTCTAAGCTTTTGAAGCATTCGGTCATTGTAGCTATA
GACTATTGGCTGGCCACATGGACATCGGAGTACAGTATAAACAATACTGGAAAAGCTGAT
CAGACCTACTATGTGGCTGGCTTTAGCATACTCTGTGGAGCAGGCATTTTCCTTTGCCTT
GTTACATCCCTCACTGTAGAATGGATGGGTCTCACAGCTGCCAAAAATCTTCACCACAAC
CTTCTCAATAAGATAATCCTTGGACCAATAAGGTTTTTTGATACCACACCCCTGGGACTG
ATTCTCAATCGCTTTTCAGCTGATACTAATATCATTGATCAGCACATCCCTCCAACCTTG
GAATCTCTAACTCGCTCAACACTGCTCTGCCTGTCTGCCATTGGGATGATTTCTTATGCT
ACTCCTGTGTTCCTGGTTGCTCTCCTGCCCCTTGGTGTTGCCTTTTATTTTATCCAGAAA
TACTTTCGGGTTGCCTCTAAGGACCTCCAGGAACTTGACGATAGTACCCAGCTCCCTCTG
CTCTGTCACTTCTCAGAAACAGCAGAAGGACTCACCACCATTCGGGCCTTTAGGCATGAA
ACCAGATTTAAACAACGTATGCTGGAACTGACGGATACAAACAACATTGCCTACTTATTT
CTCTCAGCTGCCAACAGATGGCTGGAGGTCAGGACGGATTATCTGGGAGCTTGCATTGTC
CTCACTGCATCTATAGCATCCATTAGTGGGTCTTCGAATTCTGGATTGGTAGGCTTGGGT
CTTCTGTATGCACTTACGATAACCAATTATTTGAATTGGGTTGTGAGGAACTTGGCTGAC
CTGGAGGTCCAGATGGGTGCAGTGAAGAAGGTGAACAGTTTCCTGACTATGGAGTCAGAG
AACTATGAAGGCACAATGGATCCTTCTCAAGTTCCAGAACATTGGCCACAAGAAGGGGAG
ATCAAGATACATGATCTGTGTGTCAGATATGAAAATAATCTGAAACCTGTTCTTAAGCAC
GTCAAGGCTTACATCAAACCTGGACAAAAGGTGGGCATATGTGGTCGCACTGGCAGTGGG
AAATCATCGTTATCTCTGGCTTTCTTCAGAATGGTTGATATATTTGATGGAAAAATTGTC
ATTGATGGGATAGACATTTCCAAATTACCACTGCACACACTACGTTCTAGACTTTCAATC
ATTCTGCAGGATCCAATACTATTCAGTGGTTCCATTAGATTTAATTTAGATCCAGAGTGC
AAATGCACAGATGACAGACTCTGGGAAGCCTTAGAAATTGCTCAGCTGAAGAATATGGTC
AAATCTCTACCTGGAGGTCTAGATGCGGTTGTCACTGAAGGTGGGGAGAATTTTAGCGTT
GGACAGAGACAGCTATTTTGCCTTGCCAGGGCCTTTGTCCGCAAAAGCAGCATTCTTATT
ATGGATGAGGCAACAGCTTCCATTGACATGGCCACAGAGAATATTTTGCAAAAAGTAGTA
ATGACAGCCTTTGCAGACCGGACCGTGGTGACAATAGCTCATCGAGTACACACTATTCTG
ACGGCAGACCTGGTTATTGTGATGAAGCGAGGAAATATTTTAGAATATGACACTCCAGAA
AGCCTCTTGGCTCAGGAAAATGGAGTATTTGCTTCTTTTGTTCGCGCAGACATGTGAAGG
AGTGTCTTAAAACAATACATGTATTTAAAATAATGCAGTCATAACCTAATTAATGGATCA
TCAGCTTGACCTCTGTAAAGTGGCATCTTAAAACTTTTACAGATTTTTGCACAAAAAGTG
GACATTTATTTTTCCTGTTTTTAAAACAGTTTTTCAAGATATTATTGCTTAATATGTTCA
TTATTGATGTTTTTATAGTGATCCAGCCACTCTAGCTTTAAGAATAGCTAGGTTGTATTA
AAACATGTAAGCTACTTTAAGTGATAAATCAATAGCTAAAGTTTTCTCCTAACTTTAAGT
CTGGTAAATATCTCTCAGGAATGGAAGTGTCAATGAGTAGTCAGTATTACTATACTCTTG
TTTGTAAGAATATATTTTCCTTATTGTTGGAGTCTCCAGAGGTTATTGGAAGGAATAAAA
AAGGACATGTTTTCTAACGAAACTCTCAAATTCATTATCTACTTCATGAGAATTTATTTG
TATTCATTAACATTAGTAATACCTATTTTTCTTAAGAGCCTTCTTTTTTCCCTTTTGTTT
CTTGTCACCAAGAAGTTATCACACTTATACTTATTCTATAAGGCCAAAGCCTTATCTAGA
AAGATCATGAAGAGTTTGGATATTTTTAAAACTATACTCGAATTTTCATTTTTTCCTGTC
CTGTAAAGAGAGAATTCTTAAGATATCAGGCATAATGTATGTACCTTTTCCAGACTGAAG
TTCAAAGAATGATTAGGTTCAATCTTTCAGTGGCAGGCCAGCTAAACTTTCTATAGTTTA
ATGATTAGCTGTGGTTATGATCTTGAGCCCTAACATGCCACATTACTCAAGATTTACACA
GGCAAGTGACTTCATTTGGCACTGCTAATAATGGCAGGTGAACATTCCTCTCAGGTGTGA
GATATTTCCTATGAAACAGTCCACTGGCAGGCTGGAGATATCTTACACTTTGAAGTTATA
TATATATAAAACAAGTGTCTATTTCTAGCTGAAAGAGTTTACCTCTTCTAGACATTTATG
CCCAATGGTGTCACACATGATCATTTGCTCCTGCTCTAATTTTAATGTGCATACAAAAAA
TATACCAAAAATGTTATTGTAATTTTAATGAGCATGTAAAGAGTGTATCAAAAATTGATG
GGATATTAGTGTTAGGTTTTGCTTAAATGAAAATTAATAAATTCAAAAATACTAAAAGTC
ACCTTCTTTGTCACGTTAGCAACCAGTTTCTACTATTCTGTGCCCATCCAGTGTCAATAT
CATTGATTTCTTTTTCATATGAAGATCCACATGCATTGTAAGATTGTGAAGATATATAAA
ATTGATGAATTAAGAGAAATTATGCCACTTTCCTATAGTTTCTGTGTTCTGTTTATTGTA
TGGTGTATTCACTCTTGGAAAATATGTAATAGTTGTGTATCCAGAATATGTGTCTTCACC
TGAATATTTAATCTTTATATTTACAAAAAAATAAGTTCCACAAGATGGACAAAAATGGTC
CATGATATTTAGCTTAAATTGTAACCTTTTGTTGTGTATATAAAACTTCCTTGGAAGAAA
ATAACCTTATTGTTTTCTTAAAGCTAAACAGAATAGGATTGGTACTCATTAATTATGTCT
TGCAAATATTTTCTAAAAATTCAACCACTCTCCTAAAATGGTGTTTAAATATTTTGTAGG
GCAGAATATGCATATTGCCTGTTAGCAAGTAATAATTCATTCTCATAGAGAAATGGGTTT
TTACCCATGGAAGTAATCTTTTTTTTTTCTTTTTTTTTTTTAATTTTTTTTTTAATATAC
TTTAAGTTTTAGGGTACATGTGCACATTGTGCAGGTTAGTTACATATATATACATGTGCC
ATGCTGGTGCGCTGCACCCACTAACTCGTCATCTAGCATTAGGTATATCTCCCAATGCTA
TCCCTCCCCACTCCCCCCACCCCACCACAGTCCCCAGAGTGTGATATTCCCCTTCCTGTG
TCCATGTGATCTCATTGTTCAATTCCCACCTATGAGTGAGAATATGCGGTGTTTGGTTTT
TTGTTCTTGCGATAGTTTACTGAGAATGATGGTTTCCAGTTTCATCCATGTCCCTACAAA
GGACATGAACTCATCATTTTGTATGGCTGCATAGTATTCCATGGTGTATATGTGCCACAT
TTTCTTAATCCAGTCTATCATTGTTGGACATTTGGGTTGGTTCCAAGTCTTTGCTATTGT
GAATAATGCCGCAATAAACATACGTGTGCATGTGTCTTTATAGCAGCATGATTTATAGTC
ATTTGGGTATATACCCAGTAATGGGATGGCTGGGTCAAATGGTATTTCTAGTTCTAGATC
CCTGAGGAATCGCCACACTGACTTCCACAATGGTTAAACTAAAGAGCTTCTGCACAGCAA
AAGAAACTACCATCAGAGTGAACAGGCAACCTACAACATGGGAGAAAATTTTCGCAACCT
ACTCATCTGACAAAGGGCTAATATCCAGAATCTACAATGAACTCAAACAAATTTACAAGA
AAAAAACAAACAACCCCATCAAAAAGTGGGTGAAGGACATGAACAGACACTTCTCAAAAG
AAGACATTTATGCAGCCAAAAAACACATGAAAAAATGCTCATCATCACTGGCCATCAGAG
AAATGCAAATCAAAACCACTATGAGATATCATCTCACACCAGTTAGAATGGCAATCATTA
AAAAGTCAGGAAACAACAGGTGCTGGAGAGGATGTGGAGAAATAGGAACACTTTTACACT
GTTGGTGGGACTGTAAACTAGTTCAACCATTGTGGAAGTAATCTTTTAATGATATTTTCT
TATTATATTGCTACAGGCAACATCAGTAGAAGCCTATCTAGTTACACTAAACTAAAGATC
ACATTCACCATTCTTACAGCCAAGTGGTTGCTGGTCCCCTCATAACTTTTAGTTACTTAA
GTTGAGTAAATGTCTAATTGTTTACAAACTAAATTGACTAAATAAGGTCAAGGATAATGT
TTTTCATTGATTAACCATTTATTATACATATAATCTATTGAATATAAAAAGATTCACCTT
GAAATAATATTTGACTATATAGGTACATATCTGTAAAAGATGACCACCTTAACTAAATCA
GATTTTACATTTATAAATTTTATATTTAATTAGTCAAATCAATTTTTAAATCATAACTCC
TTAATCTCATAAGAAGCAATAAATGCATAAAGCATTATATTAAAATACCAGGGTTACTTA
TGTCATTGACAGGGAAAAGACTTTGTATAAACAATTATGCACCATCTATTTTTGTACTCT
TACTCATGATCCATTTAAAAGTCTACTCAGCTCTAGATTAGATACCAGAAGACCCTCTAA
GTAACTGATAACTGAGATTCGGGACCATGTCTTGTTTGCCATTGTGCCCTTGGAATTTAA
TACAAGTGCCTAACCCACAGTAGGGTTGATTGATTCACTGATTAGTTTTACTGCCATGTG
CCTATAACTATAGGTTATTCTCTTTCCTTTTCTATGTTGTGTTTATTCTATTTATTCTCT
ACAATATATAAAATGTATTTGTTCTCTACAATAAATGTGTTTATTCTCTACAATATATAA
AAACATATTGGACTACTATTAAAAAAAAAAAAAAAAAAAAAAAAAAAAAAAAAAAAAAAA
>OriGene 5' read for NM_020297 unedited
GGTGCTCATTGTATACGACTACTATAGGGCGGCTCGCGAATTCGGCACGAGTTTTAAGTG
CACCGGCAGGGGTTTGAAGCAGCGTGAAGCTATTGCCCAAGATGTGTGGAATTTCATGTA
ATGCATTTCGAGGAATAAAAACACTGAGGGTGCGATTCTTGCCATGAAATCGAAAAGTAT
TGTTTGTGACCATTGCTAAATCAATTATCAATGAAAGGAAAGAAAGAAAAGAGTAAACCA
TATAAGAAGAAATGAGCCTTTCATTTTGTGGTAACAACATTTCTTCATATAATATCAACG
ATGGTGTACTACAAAATTCCTGCTTTGTGGATGTTTCTCAACCTGGTCCCTCATGTCTTT
CTGTTGTTTATCACTTTTCCAATATTGTTTATTGGGTGGGGGAGCCAAAGCTCAAAAGTA
CAAATTCACCACAACACATGGCTTCATTTTCCGGGACATAACCTGAGATGGATTCTTACA
TTCGCTCTCCTGTTTGTGCATGTCTGTGAAATAGCAGAAGGCATTGTTTCAGACTCGCGG
CGGGAATCAAGGCACCTCCACCTCTTTATGCCAGCCGTGATGGGATTCGTTGCCACTACA
ACATCGATAGTGTATTATCATAATATCGAAACATCAAATTTTCCTAAATTACTTTTAGCC
CTGTTCCTGTATTGGGTAATGGCCTTTATTACAAAAACAATAAAATTGGTTAAGTACTGT
CAGTCTGGCTTGGACATATCAAACCTGCGTTTCTGCATCACAGGCATGATGGTCATCTTG
AATGGGCTCTTGATGGCTGTGGAGATCAATGTCATTCGAGTCAGGAGATATGTATTTTTC
ATGAATCCTCAGAAAGTAAAGCCCTCCTGAAGAACCTCCAGGATCC
>OriGene 3' genomic read for NM_020297 unedited
CGAAGATGCACCTTCAGGGCAGGAAGCACTGGGGAGGGGTCACAGGGTATGCCACCCGGG
ATCTGTTCAGGAAACAGCTATGACCGCGGCCGCAATCTAGAGTCGAGTTTTTTTTTTTTT
TTTTTTTTTTTTTTTTTTTTTTTTTTTTTTTTTTTTTTTTTTTTTTTTTAAAAAGTCCAA
AATGTTTTTATATATTGGAAAAAAAAAACACATTTTTTGGAAAAAACAAATACATTTTAT
ATTTTGGAGAGAATAAATAGAATAAACCCAACATAAAAAAGGAAAAAAAATAACCTATTT
TTTTAGGCCCATGGGAGTAAAACTAATCAGTGAATCAATCAACCCTACTGGGGGTTAGGC
CCTTGTTTTAAATTCCAAGGGCCCAAGGGCAAACAAAACATGGTCCCAAATTTCAGTTAT
CATTTACTTAAAGGGTCTTTTGGTATTTAATCTAGAGCTGAGTAAACTTTTAAAGGGGTC
ATGAGTAAAAGTACAAAAATAGATGGGGCATAATTGTTTATACAAAGTTTTTTCCCTGTA
AATGACATAAGTAACCCTGGTATTTTAATATAATGCTTTATGCATTTATTGGTTCTTATG
AAATTAAGGAGTTATGATTTAAAAATTGATTTGACTAATTAAATATAAAATTTATAAATG
TAAAATTTTGATTTAGTTTAAGGGTGGTCATTCTTTTTACAAAGATTTGTCCCTTTATTT
AGGTCAAATTTTTTATTTCAGAGAGGAGAAATCTTTTTTATATTTTCAATAAGATTTAAT
TTTGTTTATAATAAAAGTGGGTTATCCCTGGAAACCCTTTTCTCTCTTTGACCTTTATTT
ATAGTTCAATTTTATGTTTGTGAAACACAATTAAGACACTTTTTATCTTCACACTTTAGG
TAACACTAAAAAAGTGTATAGTGAGAGGGGGCACCACACCCAACCCCCTCTTGTGCGCTG
TGTTAAAAGAAGTGGGTGGAGAGGTGGGATACTCTCTTAGATTTTT
Restriction Sites Please inquire     
ACCN NM_020297
ORF Size 4650 bp
Insert Size 8500
OTI Disclaimer Our molecular clone sequence data has been matched to the reference identifier above as a point of reference. Note that the complete sequence of our molecular clones may differ from the sequence published for this corresponding reference, e.g., by representing an alternative RNA splicing form or single nucleotide polymorphism (SNP).
OTI Annotation The open reading frame of this TrueClone was fully sequenced and found to be a perfect match to the protein associated to this reference.
Reference Data
RefSeq NM_020297.1, NP_064693.1
RefSeq Size 4650
RefSeq ORF 4650
Locus ID 10060
Protein Families Druggable Genome, Transmembrane
Protein Pathways ABC transporters
Gene Summary The protein encoded by this gene is a member of the superfamily of ATP-binding cassette (ABC) transporters. ABC proteins transport various molecules across extra- and intra-cellular membranes. ABC genes are divided into seven distinct subfamilies (ABC1, MDR/TAP, MRP, ALD, OABP, GCN20, White). This protein is a member of the MRP subfamily which is involved in multi-drug resistance. This protein is thought to form ATP-sensitive potassium channels in cardiac, skeletal, and vascular and non-vascular smooth muscle. Protein structure suggests a role as the drug-binding channel-modulating subunit of the extra-pancreatic ATP-sensitive potassium channels. Mutations in this gene are associated with cardiomyopathy dilated type 1O. Alternative splicing results in multiple transcript variants. [provided by RefSeq, Apr 2011]
Transcript Variant: This variant (SUR2B) uses an alternate 3' coding exon (exon 38B), compared to variant SUR2A, which uses exon 38A. The encoded isoform (SUR2B) has an alternate 38-amino acid C-terminus, but is the same length as isoform SUR2A. There are no full-length transcripts representing this variant in human; it is supported by partial transcript alignments, by full-length transcript alignments from the homologous mouse and rat genes, and by RT-PCR analysis in PMID:11054556. Sequence Note: This RefSeq record was created from transcript and genomic sequence data to make the sequence consistent with the reference genome assembly. The genomic coordinates used for the transcript record were based on transcript alignments.

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