Sbno1 (NM_001081203) Mouse Untagged Clone

CAT#: MC224388

Sbno1 (untagged) - Mouse sno, strawberry notch homolog 1 (Drosophila) (Sbno1), (10ug)

Specifications

Product Data

• Type: Mouse Untagged Clone
• Tag: Tag Free
• Symbol: Sbno1
• Synonyms: 9330180L10Rik; AI849128; AW557836; BC021875; mSno1; Sbno; sno
• Vector: pCMV6-Entry
• E. coli Selection: Kanamycin (25 ug/mL)
• Mammalian Cell Selection: Neomycin
• Sequence Data:
  Fully Sequenced ORF

  >MC224388 representing NM_001081203
  Red=Cloning site Blue=ORF Orange=Stop codon
  
  TTTTGTAATACGACTCACTATAGGGCGGCCGGGAATTCGTCGACTGGATCCGGTACCGAGGAGATCTGCC
  GCCGCGATCGCC
  
  ATGGTGGAACCAGGGCAAGATTTACTGCTTGCTGCCTTGAGTGAGAGTGGGATTAGTCCGAATGACCTCT
  TTGATGTTGATGGTGGAGATGCTGGCCTTGCCACCCCTACGCCCCCTTCAGTTCAACAGTCGGTGCCACT
  TAGTGCATTAGAACTAGGGTTGGAGACAGAAGCAGCAGTTCCTGTCAAACAAGAGCCAGAGCCGATGTCC
  ACTCCCGCACTGTTAAATGTGAGGCAGCAGCCTCCATCCACTACAACGTTTGTGCTGAATCAAATAAATC
  AACTTCCAACTTTGGGATCTACAATTGTAATGACTAAAACACCACCTGCAACAACGAATAGGCAAACCAT
  CACTTTGACAAAGTTCATCCAGACCACTGCAAACACACGCCCTTCAGTTTCAGCACCAGCAGTACGAAAT
  GCCATGCCCGCTGCTCCTTCAAAAGACCAGGTTCAGCTAAAGGATTTACTCAAAAATAATAGTTTAAACG
  AACTCATGAAACTGAAGCCACCCGCCAATATTGCTCAGCCAGTTGCAACTGCAGCTACTGATGTCAGTAA
  TGGTGCAGTTAAGAAGGAGTCTTCTAATAAAGAAGTGGCGAGGATATGGATAAATGACATGAAGATGAGG
  AGCTTTTCCCCCACCATGAAGGTACCTGTTGTTAAAGAGGAAGATGAACCAGAAGAAGAAGATGAGGAAG
  AAATGGGTCATGCAGAGACCTACGCAGAGTATATGCCAATAAAATTAAAAATTGGCCTGCGTCACCCTGA
  TGCAGTGGTGGAGACTAGCTCTCTGTCCAGTGTCACTCCTCCTGATGTTTGGTACAAAACCTCCATCTCT
  GAAGAGACCATTGATAATGGCTGGCTGTCTGCATTGCAGCTTGAGGCAGTTACCTATGCGGCCCAGCAAC
  ATGAAACATTCCTACCTAATGGAGACCGTGCTGGCTTCTTAATAGGCGATGGTGCTGGTGTGGGTAAAGG
  CCGGACAATAGCAGGGATCATATATGAAAACTATTTGTTGAGTAGAAAAAGAGCATTGTGGTTTAGTGTA
  TCAAATGACTTAAAATATGATGCTGAAAGAGATTTAAGGGATATTGGAGCAAAAAACATTTTGGTCCATT
  CGTTAAATAAGTTTAAATATGGTAAGATTTCTTCCAAACACAATGGGAGTGTGAAAAAAGGTGTTATTTT
  TGCTACCTATTCTTCCCTTATTGGTGAAAGCCAGTCTGGTGGTAAATATAAGACCAGGTTAAAACAGCTT
  CTACACTGGTGTGGTGACGACTTCGATGGAGTGATAGTGTTTGATGAATGTCACAAAGCAAAAAACTTAT
  GTCCTGTTGGTTCTTCAAAGCCAACCAAGACAGGCTTGGCTGTTTTAGAGCTTCAGAACAAATTGCCAAA
  AGCCAGAGTTGTTTATGCCAGTGCCACTGGTGCTTCTGAACCACGCAACATGGCCTACATGAACCGTCTT
  GGAATATGGGGTGAGGGAACTCCATTCAGAGAATTTAGTGATTTTATCCAAGCTGTGGAACGCAGAGGTG
  TTGGTGCCATGGAAATCGTTGCTATGGATATGAAGCTTAGAGGAATGTACATTGCACGGCAGCTGAGCTT
  TACTGGAGTGACCTTCAAAATTGAGGAAGTTCTTCTTTCTCAAAGCTATGTGAAAATGTATAACAAAGCA
  GTCAAGCTGTGGGTTATCGCTAGAGAGCGATTTCAACAAGCTGCAGATTTGATTGATGCTGAGCAGAGAA
  TGAAGAAATCGATGTGGGGTCAGTTCTGGTCTGCTCACCAGAGGTTTTTTAAGTACCTGTGTATAGCATC
  CAAAGTGAAAAGGGTGGTGCAGCTGGCTCGGGAAGAGATCAAGAACGGGAAGTGTGTTGTAATTGGTCTT
  CAGTCTACAGGAGAAGCCAGAACTTTAGAGGCCTTGGAAGAGGGAGGAGGAGAACTAAATGATTTTGTTT
  CAACTGCCAAAGGGGTATTGCAGTCACTGATTGAAAAACACTTCCCTGCTCCAGACAGGAAGAAACTTTA
  TAGTTTGCTAGGAATCGATTTGACAGCCCCAAGTAACAACAGTTCACCAAGAGATAGTCCTTGTAAAGAA
  AATAAAATAAAGAAGCGGAAAGGTGAAGAAATCACTCGAGAAGCCAAAAAAGCACGAAAAGTTGGTGGCC
  TCACAGGAAGCAGCTCTGACGACAGTGGAAGTGAGTCTGTGTCTGATAATGACGAAAGCGACTATGAGAG
  CTCTAAAAACATGAGCTCTGGGGATGATGACGATTTCAATCCCTTCAGAGATGAGTCCAGTGAAGACAAT
  GAGGATGATCCGTGGTTAATTAGGAAAGACCATAAGAAAAGCAAAGATAAAAAAAAGAAGAAAAGTATAG
  ATCCAGATTCCATTCAAAGTGCCTTGTTAGCATCAGGTCTTGGATCAAAGCGGCCTAGTTTCTCCTCTGC
  ACCAGTCATCTCGCCTGCTTCCAACAGTGCACCAGCCAACAGTAACAGCAACAGCAACAGCAGCCTTGTA
  ACAAGTCAAGATGCTGTCGAAAGGGCGCAACAGATGAAGAAAGACCTGCTTGATAAACTAGAAAAATTGG
  CTGAAGACCTCCCTCCTAACACCCTGGATGAACTTATCGATGAACTTGGTGGTCCTGAAAATGTGGCTGA
  GATGACTGGCCGCAAAGGGCGGGTAGTGAGCAATGATGACGGAAGCATATCCTACGAGTCGAGGTCTGAA
  CTTGATGTGCCTGTGGAGATTCTAAACATCACAGAGAAGCAAAGGTTCATGGATGGAGACAAGAATATTG
  CTATTATCTCAGAAGCTGCCAGCTCAGGTATTTCATTACAAGCAGATCGGAGAGCTAAAAACCAAAGGCG
  AAGAGTTCACATGACTTTAGAATTACCTTGGAGTGCTGATAGGGCGATTCAGCAGTTTGGAAGAACACAC
  AGGTCAAACCAAGTGACTGCTCCAGAGTATGTTTTTTTGATTTCGGAACTGGCTGGAGAACAGAGATTTG
  CATCTATTGTTGCTAAAAGACTTGAGAGTTTGGGGGCACTTACACATGGTGACAGAAGAGCAACAGAATC
  TAGAGATCTGAGCAGATTCAACTTTGACAACAAGTATGGAAGAAATGCTTTAGAAATTGTTATGAAATCC
  ATTGTAAACTTGGATTCTCCTATGGTATCACCACCTCCAGACTACCCTGGAGAATTCTTTAAAGACGTTC
  GGCAAGGACTGATAGGAGTGGGCTTGATTAATGTAGAGGATCGCTCAGGAATTCTTACTCTTGATAAAGA
  CTATAACAATATAGGAAAGTTCTTAAACAGAATCCTGGGCATGGAGGTGCATCAGCAGAATGCGCTGTTT
  CAGTATTTTGCAGACACACTTACTGCAGTTGTTCAGAATGCCAAGAAGAACGGAAGATACGACATGGGAA
  TCCTAGATCTGGGTTCTGGAGATGAGAAGGTGAGGAAGAGTGATGTCAAGAAGTTTCTAACTCCAGGGTA
  TTCAACCTCCGGCCATGTAGAGTTATACACGATTAGTGTGGAGAGGGGAATGTCCTGGGAGGAAGCAACC
  AAGATTTGGGCAGAGCTGACTGGACCAGATGATGGCTTTTACTTATCATTGCAGATAAGAAACAACAAAA
  AAACTGCAATCTTAGTTAAAGAAGTAAACCCTAAGAAGAAACTATTTTTAATTTACCGACCAAACACTGG
  GAAGCAACTCAAATTAGAAATTTATGCTGACCTGAAAAAGAAATATAAGAAGGTAGTTTCTGATGACGCC
  CTGGTACACTGGCTGGATCAGTATAACTCCTCTGCAGACACCTGTACTCACGCATACTGGCGTGGCAATT
  GCAAAAAAGCAAGTTTAGGATTGGTATGTGAGATTGGTCTCCGCTGCCGCACGTACTATGTACTGTGTGG
  CTCAGTACTGAGCGTCTGGACAAAAGTGGAAGGTGTTCTGGCCTCTGTCAGCGGCACAAATGTGAAAATG
  CAGATAGTGCGGCTAAGGACCGAAGATGGGCAGCGGATTGTAGGTTTGATCATTCCAGCAAATTGTGTGT
  CTCCTCTTGTAAATCTCCTGTCAACTTCAGACCAGTCTCAGCAGCTCGCAGTGCAACAAAAACAGCTGTG
  GCAACAGCATCACCCACAGAGCATCACCAACTTGAGCAACCTGTGA
  
  ACGCGTACGCGGCCGCTCGAGCAGAAACTCATCTCAGAAGAGGATCTGGCAGCAAATGATATCCTGGATT
  ACAAGGATGACGACGATAAGGTTTAA
• Restriction Sites: SgfI-MluI
• ACCN: NM_001081203
• ORF Size: 4176 bp
• Insert Size: 4176
• 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).

Reference Data

• RefSeq: NM_001081203.1, NP_001074672.1
• RefSeq Size: 10071
• RefSeq ORF: 4176
• Locus ID: 243272