Kv beta 2 (KCNAB2) (NM_172130) Human 3' UTR Clone

CAT#: SC216906

3`UTR clone of potassium voltage-gated channel shaker-related subfamily beta member 2 (KCNAB2) transcript variant 2 for miRNA target validation

Specifications

Product Data

• Vector: pMirTarget
• Species: Human
• Transfection Reporter: RFP
• Assay Reporter: Luciferase
• E. coli Selection: Kanamycin (25 ug/mL)
• Mammalian Cell Selection: Neomycin
• Symbol: KCNAB2
• Synonyms: AKR6A5; HKvbeta2; HKvbeta2.1; HKvbeta2.2; KCNA2B; KV-BETA-2
• ACCN: NM_172130
• Insert Size: 1912
• Sequence Data:
  Insert Sequence

  >SC216906 3'UTR clone of NM_172130
  The sequence shown below is from the reference sequence of NM_172130. The complete sequence of this clone may contain minor differences, such as SNPs. Red=Cloning site Blue=Stop Codon
  
  
  CAATTGGCAGAGCTCAGAATTCAAGCGATCGC
  
  GGGCAATAAACCCTACAGCAAAAAGGACTACAGATCCTAAGCCGCCCCCGCCCGCCTGCTCGGACAGTTT
  CCGTTCCCTCCTAGTCTCTGTTCGCTCGCTTAAGCTGTTTTGAAGCCAAGTGAAGAGTGTGGTTTGCATC
  CAAGAGAAAACACCACACTGTGATGTCATCGGGAAATGATCTCCCAAGTCGCTGCCAGACACCACCCACT
  GCTTCGCCGGACAATGTCGAAGTCCAGTCTGTGCCGGGGAAGGCACTGGTTAGGAAGGATGTTCAAACGG
  TCCCACCCAAGCCTGTCACCTCTGCTCATCCTCCAAGACCACCCAGCTTTCTCCCAGCCACAGCCAAGAT
  TCCCAAAGTCAAGGCCCAAAGATTTCCAAGGTTCCCAAAGTCAAGGCCAGGCCAAGGCCTGGTTGGGTCC
  TTGGGGCGGGCAGGGCCAGCCTCTCCTCTGCTGAGAATCCCCACTTGGTGTAGGGGGAGAGGGGAAAGGG
  GTCTGGCCCATCGAGGGGCCCCTTCTGCCAGGGCCTTGGTTGCTGGGGCAGGGCCTCCCCACTGGGGGTC
  TTCCTCCACCTCCCACTTTCCAAGGGCTCCAGGAATCTGGGGCCTGACCACAGATTCCTCTCCCATCCTT
  TTCTGCTCCAACCTGCCCCACTGGGTCCCGGCAGGGGCCATGCCTACCAAGCTCGAGCTGGCCCTTGACC
  CCCACCCACCCCCACCCTTGCTGGCAGGGGCAGGGACCCCAGGGGGATTGACTCTGCAGTTTGGGAGCCA
  CAAAAAGCGTAGCGGTGTGATTTCTAGCTCAGCCTCCCACCGTCTTCCTCCTACACACCAATGATGAGCC
  TCATGCCAGTGAGGCCCGGAGCGCTTGGGAGGGGTCCCAGTGGGGCAGGCCCCTCTGTCTGGCCACCCCT
  CTGTCCTGGCCCCGGAAGGCCCTGTGGTCATGTGCTCCTAGCTGCACGGTGGCTGCTGGCCACACCACGG
  CAAGTGGCAGCAGGGGCCGGCCCTGTGCACAAGGATGCACTCCTCTCGGCCCCTGTAGACTTTCTCTAAA
  GCCGCCCGCCAGCCCAGGCCGCTGCTCTGCACCGAGCTGGTGGGCTTGGGTTTTGTGGAGCGCATGCTTG
  GACCCTTTCAGTAAGGAAGGGTCTTTGGGGTTTTCTGTGCCCATGACTTGGGGGCTGCACCCCCACAGCA
  CCCCCACAATGTAGGAAAAGACCTCAGGGAACCTCTCCCTGGAAAGACGGGCAGGGCTGGTTAGCCCCTC
  CCACTGCCTGACACCTGGGACAGGCTGGGCAGAGGGGAGAGAGGGCAGGACAGGCCAGAGTGACGCCCCC
  GTGCAGCTTGGGCCGGAGGGCAAGGGATGCCAGTAAGTCTGCAGGTGCGGGGTGCCACCTACAGGCCCAG
  GCCTGTGTCCCAAGCAGTACCCAGGCTTTGCAGACCACGCGGGGCAGGGCTCCACTGAAGCCACCCCCAC
  CCCTCGCCAGCTAGCTCCATAGGGAAGCCTGTGTCTCCTGCCCCCAGGGCGCACCCTCAGTGCAGGCACC
  TCTGTTCCCGCTTTGCCCCTGGAGGAGCCACTATTCCAGAAGGCTCCACCCTGCCGTCCTGCGGGAGCCT
  GCTGTCCAGTCCTGGCCGGGCCAAGGCCTGGGAAACTGTGAAAGTCAGAAAGGCCAGCGGGGAGAGGCTG
  GGGCGAGGGGAGGAGGGGGATCAGCTTCTGCTATTACCGACCCCCCTTCATGCTGCCCCTGGCGCCTAGA
  ACCCTTGCCCCTCCTCATAGACCAAGTCCCGGGGGTCTCCACTCAGTCCTGCTGCCTGCTTCACCAGAAG
  CAGCCCTGTGAGTGTGGGGTGGGGAAGTCCCTTCCCAACGGAGGTCCCAGCCTATGGCCCTGGGCCCAGG
  TGGGGGTCGCCTGCTTCCTTCC
  
  ACGCGTAAGCGGCCGCGGCATCTAGATTCGAAGAAAATGACCG
• Restriction Sites: SgfI-MluI
• OTI Disclaimer: Our molecular clone sequence data has been matched to the sequence identifier above as a point of reference. Note that the complete sequence of this clone is largely the same as the reference sequence but may contain minor differences , e.g., single nucleotide polymorphisms (SNPs).

Reference Data

• RefSeq: NM_172130.1
• Summary: Voltage-gated potassium (Kv) channels represent the most complex class of voltage-gated ion channels from both functional and structural standpoints. Their diverse functions include regulating neurotransmitter release, heart rate, insulin secretion, neuronal excitability, epithelial electrolyte transport, smooth muscle contraction, and cell volume. Four sequence-related potassium channel genes - shaker, shaw, shab, and shal - have been identified in Drosophila, and each has been shown to have human homolog(s). This gene encodes a member of the potassium channel, voltage-gated, shaker-related subfamily. This member is one of the beta subunits, which are auxiliary proteins associating with functional Kv-alpha subunits. This member alters functional properties of the KCNA4 gene product. Alternative splicing of this gene results in multiple transcript variants encoding distinct isoforms. [provided by RefSeq, Dec 2010]
• Locus ID: 8514