MAST205 (MAST2) (NM_015112) Human Untagged Clone

CAT#: SC318673

MAST2 (untagged)-Human microtubule associated serine/threonine kinase 2 (MAST2)

Specifications

Product Data

• Type: Human Untagged Clone
• Tag: Tag Free
• Symbol: MAST2
• Synonyms: MAST205; MTSSK
• Vector: pCMV6-Entry
• E. coli Selection: Kanamycin (25 ug/mL)
• Mammalian Cell Selection: Neomycin
• Sequence Data:
  Fully Sequenced ORF

  >NCBI ORF sequence for NM_015112, the custom clone sequence may differ by one or more nucleotides
  
  
  ATGAAGCGGAGCCGCTGCCGCGACCGACCGCAGCCGCCGCCGCCCGACCGCCGGGAGGATGGAGTTCAGC
  GGGCAGCGGAGCTGTCTCAGTCTTTGCCGCCGCGCCGGCGAGCGCCGCCCGGGAGGCAGCGGCTGGAGGA
  GCGGACGGGCCCCGCGGGGCCCGAGGGCAAGGAGCAGGATGTAGTAACTGGAGTTAGTCCCCTGCTCTTC
  AGGAAACTCAGTAATCCTGACATATTTTCATCCACTGGAAAAGTTAAACTTCAGCGACAACTGAGTCAGG
  ATGATTGTAAGTTATGGAGAGGAAACCTGGCCAGCTCTCTATCGGGTAAGCAGCTGCTCCCTTTGTCCAG
  CAGTGTACATAGCAGTGTGGGACAGGTGACTTGGCAGTCGTCAGGAGAAGCATCAAACCTGGTTCGAATG
  AGAAACCAGTCCCTTGGACAGTCTGCACCTTCTCTTACTGCTGGCCTGAAGGAGTTGAGCCTTCCAAGAA
  GAGGCAGCTTTTGTCGGACAAGTAACCGCAAGAGCTTGATTGTGACCTCTAGCACATCACCTACACTACC
  ACGGCCACACTCACCACTCCATGGCCACACAGGTAACAGTCCTTTGGACAGCCCCCGGAATTTCTCTCCA
  AATGCACCTGCTCACTTTTCTTTTGTTCCTGCCCGTAGGACTGATGGGCGGCGCTGGTCTTTGGCCTCTT
  TGCCCTCTTCAGGATATGGAACTAACACTCCTAGCTCCACTGTCTCATCATCATGCTCCTCACAGGAAAA
  GCTGCATCAGTTGCCTTTCCAGCCTACAGCTGATGAGCTGCACTTTTTGACGAAGCATTTCAGCACAGAG
  AGCGTACCAGATGAGGAAGGACGGCAGTCCCCAGCCATGCGGCCTCGCTCCCGGAGCCTCAGTCCCGGAC
  GATCCCCAGTATCCTTTGACAGTGAAATAATAATGATGAATCATGTTTACAAAGAAAGATTCCCAAAGGC
  CACCGCACAAATGGAAGAGCGACTAGCAGAGTTTATTTCCTCCAACACTCCAGACAGCGTGCTGCCCTTG
  GCAGATGGAGCCCTGAGCTTTATTCATCATCAGGTGATTGAGATGGCCCGAGACTGCCTGGATAAATCTC
  GGAGTGGCCTCATTACATCACAATACTTCTACGAACTTCAAGATAATTTGGAGAAACTTTTACAAGATGC
  TCATGAGCGCTCAGAGAGCTCAGAAGTGGCTTTTGTGATGCAGCTGGTGAAAAAGCTGATGATTATCATT
  GCCCGCCCAGCACGTCTCCTGGAATGCCTGGAGTTTGACCCTGAAGAGTTCTACCACCTTTTAGAAGCAG
  CTGAGGGCCACGCCAAAGAGGGACAAGGGATTAAATGTGACATTCCCCGCTACATCGTTAGCCAGCTGGG
  CCTCACCCGGGATCCCCTAGAAGAAATGGCCCAGTTGAGCAGCTGTGACAGTCCTGACACTCCAGAGACA
  GATGATTCTATTGAGGGCCATGGGGCATCTCTGCCATCTAAAAAGACACCCTCTGAAGAGGACTTCGAGA
  CCATTAAGCTCATCAGCAATGGCGCCTATGGGGCTGTATTTCTGGTGCGGCACAAGTCCACCCGGCAGCG
  CTTTGCCATGAAGAAGATCAACAAGCAGAACCTGATCCTACGGAACCAGATCCAGCAGGCCTTCGTGGAG
  CGTGACATACTGACTTTCGCTGAGAACCCCTTTGTGGTCAGCATGTTCTGCTCCTTTGATACCAAGCGCC
  ACTTGTGCATGGTGATGGAGTACGTTGAAGGGGGAGACTGTGCCACTCTGCTGAAGAATATTGGGGCCCT
  GCCTGTGGACATGGTGCGTCTATACTTTGCGGAAACTGTGCTGGCCCTGGAGTACTTACACAACTATGGC
  ATCGTGCACCGTGACCTCAAGCCTGACAACCTCCTAATTACATCCATGGGGCACATCAAGCTCACGGACT
  TTGGACTGTCCAAAATTGGCCTCATGAGTCTGACAACGAACTTGTATGAGGGTCATATTGAAAAGGATGC
  CCGGGAATTCCTGGACAAGCAGGTATGCGGGACCCCAGAATACATTGCGCCTGAGGTGATCCTGCGCCAG
  GGCTATGGGAAGCCAGTGGACTGGTGGGCCATGGGCATTATCCTGTATGAGTTCCTGGTGGGCTGCGTCC
  CTTTTTTTGGAGATACTCCGGAGGAGCTCTTTGGGCAGGTGATCAGTGATGAGATTGTGTGGCCTGAGGG
  TGATGAGGCACTGCCCCCAGACGCCCAGGACCTCACCTCCAAACTGCTCCACCAGAACCCTCTGGAGAGA
  CTTGGCACAGGCAGTGCCTATGAGGTGAAGCAGCACCCATTCTTTACTGGTCTGGACTGGACAGGACTTC
  TCCGCCAGAAGGCTGAATTTATTCCTCAGTTGGAGTCAGAGGATGATACTAGCTATTTTGACACCCGCTC
  AGAGCGATACCACCACATGGACTCGGAGGATGAGGAAGAAGTGAGTGAGGATGGCTGCCTTGAGATCCGC
  CAGTTCTCTTCCTGCTCTCCAAGGTTCAACAAGGTGTACAGCAGCATGGAGCGGCTCTCACTGCTCGAGG
  AGCGCCGGACACCACCCCCGACCAAGCGCAGCCTGAGTGAGGAGAAGGAGGACCATTCAGATGGCCTGGC
  AGGGCTCAAAGGCCGAGACCGGAGCTGGGTGATTGGCTCCCCTGAGATATTACGGAAGCGGCTGTCGGTG
  TCTGAGTCATCCCACACAGAGAGTGACTCAAGCCCTCCAATGACAGTGCGACGCCGCTGCTCAGGCCTCC
  TGGATGCGCCTCGGTTCCCGGAGGGCCCTGAGGAGGCCAGCAGCACCCTCAGGAGGCAACCACAGGAGGG
  TATATGGGTCCTGACACCCCCATCTGGAGAGGGGGTATCTGGGCCTGTCACTGAACACTCAGGGGAGCAG
  CGGCCAAAGCTGGATGAGGAAGCTGTTGGCCGGAGCAGTGGTTCCAGTCCAGCTATGGAGACCCGAGGCC
  GTGGGACCTCACAGCTGGCTGAGGGAGCCACAGCCAAGGCCATCAGTGACCTGGCTGTGCGTAGGGCCCG
  CCACCGGCTGCTCTCTGGGGACTCAACAGAGAAGCGCACTGCTCGCCCTGTCAACAAAGTGATCAAGTCC
  GCCTCAGCCACAGCCCTCTCACTCCTCATTCCTTCGGAACACCACACCTGCTCCCCGTTGGCCAGCCCCA
  TGTCCCCACATTCTCAGTCGTCCAACCCATCATCCCGGGACTCTTCTCCAAGCAGGGACTTCTTGCCAGC
  CCTTGGCAGCATGAGGCCTCCCATCATCATCCACCGAGCTGGCAAGAAGTATGGCTTCACCCTGCGGGCC
  ATTCGCGTCTACATGGGTGACTCCGATGTCTACACCGTGCACCATATGGTGTGGCACGTGGAGGATGGAG
  GTCCGGCCAGTGAGGCAGGGCTTCGTCAAGGTGACCTCATCACCCATGTCAATGGGGAACCTGTGCATGG
  CCTGGTGCACACGGAGGTGGTAGAGCTGATCCTGAAGAGTGGAAACAAGGTGGCCATTTCAACAACTCCC
  CTGGAGAACACATCCATTAAAGTGGGGCCAGCTCGGAAGGGCAGCTACAAGGCCAAGATGGCCCGAAGGA
  GCAAGAGGAGCCGCGGCAAGGATGGGCAAGAAAGCAGAAAAAGGAGCTCCCTGTTCCGCAAGATCACCAA
  GCAAGCATCCCTGCTCCACACCAGCCGCAGCCTTTCTTCCCTTAACCGCTCCTTGTCATCAGGGGAGAGT
  GGGCCAGGCTCTCCCACACACAGCCACAGCCTTTCCCCCCGATCTCCCACTCAAGGCTACCGGGTGACCC
  CCGATGCTGTGCATTCAGTGGGAGGGAATTCATCACAGAGCAGCTCCCCCAGCTCCAGCGTGCCCAGTTC
  CCCAGCCGGCTCTGGGCACACACGGCCCAGCTCCCTCCACGGTCTGGCACCCAAGCTCCAACGCCAGTAC
  CGCTCTCCACGGCGCAAGTCAGCAGGCAGCATCCCACTGTCACCACTGGCCCACACCCCTTCTCCCCCAC
  CCCCAACAGCTTCACCTCAGCGGTCCCCATCGCCCCTGTCTGGCCATGTAGCCCAGGCCTTTCCCACAAA
  GCTTCACTTGTCACCTCCCCTGGGCAGGCAACTCTCACGGCCCAAGAGTGCGGAGCCACCCCGTTCACCA
  CTACTCAAGAGGGTGCAGTCGGCTGAGAAACTGGCAGCAGCACTTGCCGCCTCTGAGAAGAAGCTAGCCA
  CTTCTCGCAAGCACAGCCTTGACCTGCCCCACTCTGAACTAAAGAAGGAACTGCCGCCCAGGGAAGTGAG
  CCCTCTGGAGGTAGTTGGAGCCAGGAGTGTGCTGTCTGGCAAGGGGGCCCTGCCAGGGAAGGGGGTGCTG
  CAGCCTGCTCCCTCACGGGCCCTAGGCACCCTCCGGCAGGACCGAGCCGAACGACGGGAGTCGCTGCAGA
  AGCAAGAAGCCATTCGTGAGGTGGACTCCTCAGAGGACGACACCGAGGAAGGGCCTGAGAACAGCCAGGG
  TGCACAGGAGCTGAGCTTGGCACCTCACCCAGAAGTGAGCCAGAGTGTGGCCCCTAAAGGAGCAGGAGAG
  AGTGGGGAAGAGGATCCTTTCCCGTCCAGAGACCCTAGGAGCCTGGGCCCAATGGTCCCAAGCCTATTGA
  CAGGGATCACACTGGGGCCTCCCAGAATGGAAAGTCCCAGTGGTCCCCACAGGAGGCTCGGGAGCCCACA
  AGCCATTGAGGAGGCTGCCAGCTCCTCCTCAGCAGGCCCCAACCTAGGTCAGTCTGGAGCCACAGACCCC
  ATCCCTCCTGAAGGTTGCTGGAAGGCCCAGCACCTCCACACCCAGGCACTAACAGCACTTTCTCCCAGCA
  CTTCGGGACTCACCCCCACCAGCAGTTGCTCTCCTCCCAGCTCCACCTCTGGGAAGCTGAGCATGTGGTC
  CTGGAAATCCCTTATTGAGGGCCCAGACAGGGCATCCCCAAGCAGAAAGGCAACCATGGCAGGTGGGCTA
  GCCAACCTCCAGGATTTGGAAAACACAACTCCAGCCCAGCCTAAGAACCTGTCTCCCAGGGAGCAGGGGA
  AGACACAGCCACCTAGTGCCCCCAGACTGGCCCATCCATCTTATGAGGATCCCAGCCAGGGCTGGCTATG
  GGAGTCTGAGTGTGCACAAGCAGTGAAAGAGGATCCAGCCCTGAGCATCACCCAAGTGCCTGATGCCTCA
  GGTGACAGAAGGCAGGACGTTCCATGCCGAGGCTGCCCCCTCACCCAGAAGTCTGAGCCCAGCCTCAGGA
  GGGGCCAAGAACCAGGGGGCCATCAAAAGCATCGGGATTTGGCATTGGTTCCAGATGAGCTTTTAAAGCA
  AACATAG
  
  
• Restriction Sites: SgfI-MluI
• ACCN: NM_015112
• ORF Size: 5397 bp
• 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: This TrueClone is provided through our Custom Cloning Process that includes sub-cloning into OriGene's pCMV6 vector and full sequencing to provide a non-variant match to the expected reference without frameshifts, and is delivered as lyophilized plasmid DNA.

Reference Data

• RefSeq: NM_015112.2, NP_055927.2
• RefSeq Size: 5756
• RefSeq ORF: 5397
• Locus ID: 23139
• Protein Families: Druggable Genome, Protein Kinase
• Gene Summary: Appears to link the dystrophin/utrophin network with microtubule filaments via the syntrophins. Phosphorylation of DMD or UTRN may modulate their affinities for associated proteins. Functions in a multi-protein complex in spermatid maturation. Regulates lipopolysaccharide-induced IL-12 synthesis in macrophages by forming a complex with TRAF6, resulting in the inhibition of TRAF6 NF-kappa-B activation. [UniProtKB/Swiss-Prot Function]