Fbn1 (NM_007993) Mouse Untagged Clone

CAT#: MC225423

Fbn1 (untagged) - Mouse fibrillin 1 (Fbn1), (10ug)

Specifications

Product Data

• Type: Mouse Untagged Clone
• Tag: Tag Free
• Symbol: Fbn1
• Synonyms: AI536462; B430209H23; Fib-1; Tsk
• Vector: pCMV6-Entry
• E. coli Selection: Kanamycin (25 ug/mL)
• Mammalian Cell Selection: Neomycin
• Sequence Data:
  Fully Sequenced ORF

  >MC225423 representing NM_007993
  Red=Cloning site Blue=ORF Orange=Stop codon
  
  TTTTGTAATACGACTCACTATAGGGCGGCCGGGAATTCGTCGACTGGATCCGGTACCGAGGAGATCTGCC
  GCCGCGATCGCC
  
  ATGCGGCGAGGAGGGCTGCTGGAGGTCGCGCTGGCGTTCGCCCTGCTCCTCGAGTCCTACACGAGCCATG
  GGGCGGACGCCAATTTGGAGGCTGGGAGCCTGAAGGAGACCAGAGCCAATCGGGCCAAGAGAAGAGGCGG
  CGGAGGACACGATGCGCTGAAAGGACCCAATGTCTGTGGATCACGTTATAATGCATACTGTTGTCCTGGA
  TGGAAAACCTTACCTGGTGGAAATCAGTGTATTGTTCCCATTTGCCGGCATTCCTGTGGGGATGGATTCT
  GCTCGAGGCCAAATATGTGCACTTGCCCGTCTGGTCAGATATCTCCTTCCTGTGGCTCCAGATCCATCCA
  ACACTGCAGCATCCGCTGTATGAATGGGGGCAGCTGCAGCGATGACCACTGTCTGTGCCAGAAAGGGTAC
  ATCGGCACTCACTGTGGACAGCCTGTCTGTGAAAGTGGCTGTCTCAACGGAGGGAGGTGTGTGGCCCCAA
  ATCGGTGTGCTTGCACGTACGGCTTTACTGGACCCCAGTGTGAAAGAGATTACAGAACAGGCCCATGTTT
  TACTGTGGTAAGCAACCAGATGTGCCAGGGACAGCTCAGCGGGATTGTCTGCACCAAAACACTTTGCTGT
  GCCACCGTGGGCCGAGCCTGGGGCCACCCCTGTGAGATGTGTCCTGCCCAGCCTCACCCCTGCCGCCGCG
  GCTTCATTCCCAACATCCGCACTGGAGCTTGTCAAGATGTGGATGAATGTCAGGCCATCCCAGGGATGTG
  TCAAGGAGGAAATTGCATTAATACCGTTGGATCTTTTGAGTGCAAATGCCCTGCTGGACACAAATTTAAT
  GAAGTGTCACAAAAATGTGAAGATATTGACGAGTGCAGCACCATTCCTGGAGTCTGCGATGGCGGGGAAT
  GTACAAACACTGTCAGCAGCTACTTCTGCAAATGTCCCCCTGGTTTTTACACCTCTCCTGATGGCACCAG
  ATGCGTAGATGTTCGCCCTGGTTACTGCTACACAGCTCTGGCAAACGGGCGCTGCTCTAACCAGCTGCCA
  CAGTCCATAACCAAAATGCAGTGCTGTTGCGATCTTGGCCGGTGCTGGTCTCCAGGGGTTACTGTTGCTC
  CCGAGATGTGTCCCATCAGGTCAACTGAGGATTTCAACAAGCTGTGCTCTGTCCCTCTGGTAATTCCCGG
  GAGACCAGAATATCCTCCCCCACCCATTGGCCCCCTTCCTCCAGTTCAGCCCGTTCCTCCTGGCTATCCT
  CCTGGGCCTGTGATTCCAGCCCCTCGGCCACCGCCAGAATATCCATATCCATCTCCGTCTCGGGAACCAC
  CAAGGGTGCTGCCTTTCAACGTTACTGACTACTGTCAACTGGTCCGCTATCTCTGTCAAAATGGGCGCTG
  CATTCCAACTCCCGGTAGCTACCGCTGCGAGTGCAACAAGGGCTTCCAGCTGGATATCCGTGGCGAATGC
  ATCGACGTGGATGAGTGTGAGAAGAACCCATGCACTGGTGGCGAGTGCATCAACAACCAGGGCTCCTACA
  CCTGTCACTGCAGAGCTGGCTACCAGAGCACACTCACCAGAACTGAGTGCAGAGACATAGATGAGTGTCT
  TCAGAATGGCCGGATCTGCAACAATGGTCGCTGTATCAACACAGACGGCAGCTTCCACTGCGTATGCAAT
  GCGGGCTTTCATGTCACGCGGGACGGAAAGAACTGTGAAGATATGGATGAGTGCAGCATCCGAAACATGT
  GCCTAAACGGAATGTGTATTAATGAAGATGGCAGTTTCAAGTGTATTTGCAAACCTGGGTTCCAACTGGC
  ATCAGATGGCCGCTACTGCAAAGATATCAATGAGTGTGAGACACCTGGGATCTGCATGAACGGACGCTGT
  GTGAACACGGATGGCTCCTACAGATGCGAATGCTTCCCCGGATTGGCTGTGGGTCTAGACGGACGTGTGT
  GTGTTGACACACACATGCGGAGCACATGCTATGGAGGATACAGGAGAGGCCAGTGCGTGAAGCCGTTGTT
  TGGTGCTGTTACCAAATCGGAATGCTGTTGTGCCAGCACTGAGTATGCCTTTGGGGAACCCTGCCAGCCG
  TGTCCTGCACAGAATTCAGCGGAATATCAGGCACTCTGCAGCAGTGGACCGGGAATGACATCAGCAGGCA
  CTGATATAAACGAATGTGCATTAGATCCTGATATTTGCCCAAATGGAATTTGTGAAAATCTCCGTGGGAC
  CTACAAATGTATATGCAACTCGGGATATGAAGTAGACATAACTGGGAAAAACTGTGTCGATATTAATGAG
  TGTGTGCTGAACAGTCTACTTTGTGACAATGGACAATGTCGAAACACACCTGGAAGTTTTGTCTGCACCT
  GCCCCAAAGGATTTGTGTACAAACCTGACCTAAAAACCTGTGAAGACATTGATGAATGTGAATCGAGTCC
  TTGCATTAATGGAGTCTGCAAGAACAGCCCTGGCTCCTTCATTTGTGAATGTTCTCCTGAAAGTACTCTG
  GACCCAACAAAAACCATCTGCATAGAAACCATCAAGGGCACTTGCTGGCAGACTGTCATCGACGGGCGCT
  GTGAGATCAACATCAACGGAGCCACCTTGAAGTCCGAGTGCTGCTCCTCCCTTGGTGCTGCGTGGGGGAG
  CCCGTGCACCATCTGTCAACTTGATCCCATTTGTGGTAAAGGGTTCTCAAGAATTAAAGGCACGCAATGT
  GAAGATATCAATGAGTGTGAAGTGTTCCCGGGAGTATGCAAGAACGGCCTGTGTGTCAACTCCAGGGGTT
  CATTCAAGTGCGAGTGTCCCAATGGAATGACTTTGGATGCTACAGGAAGAATCTGTCTTGACATCCGCCT
  GGAGACCTGCTTCCTCAAGTATGACGATGAAGAGTGCACCTTGCCCATCGCTGGCCGCCACCGAATGGAT
  GCCTGCTGCTGCTCTGTTGGGGCAGCCTGGGGAACGGAAGAGTGTGAGGAGTGTCCATTGAGAAACAGCC
  GGGAGTATGAGGAACTCTGTCCCCGAGGACCTGGGTTTGCCACAAAAGACATTACAAATGGGAAACCTTT
  CTTCAAAGATATCAATGAGTGCAAGATGATACCCAGCCTCTGTACCCACGGCAAGTGCAGGAACACCATT
  GGCAGCTTCAAGTGTAGGTGTGACAGTGGCTTTGCTCTGGATTCTGAAGAGAGGAACTGTACAGACATTG
  ATGAGTGCCGCATATCTCCTGACCTCTGTGGCCGAGGCCAGTGTGTGAACACCCCGGGGGACTTTGAATG
  CAAGTGTGATGAAGGCTATGAAAGTGGCTTCATGATGATGAAGAACTGCATGGATATTGATGAATGTCAG
  AGAGATCCTCTCCTGTGTCGAGGAGGCATTTGCCACAACACAGAGGGAAGCTATCGCTGCGAATGTCCTC
  CTGGTCACCAATTGTCCCCAAACATCTCTGCATGCATTGACATCAACGAGTGTGAGCTGAGTGCGAATCT
  CTGTCCCCATGGGCGTTGTGTGAACCTCATAGGGAAGTACCAGTGTGCCTGCAACCCTGGCTACCACCCC
  ACTCATGACAGGCTCTTCTGTGTCGATATTGATGAATGCAGCATAATGAACGGTGGTTGTGAGACCTTCT
  GCACAAACTCTGACGGGAGCTATGAATGTAGCTGTCAGCCAGGCTTCGCGCTAATGCCAGACCAGCGATC
  GTGCACAGACATTGATGAGTGTGAAGACAACCCCAATATCTGTGATGGTGGCCAGTGCACAAACATACCT
  GGGGAGTACAGGTGCCTGTGCTATGATGGGTTCATGGCATCTGAAGACATGAAGACTTGTGTGGATGTCA
  ATGAGTGTGACCTGAATCCAAACATCTGCCTTAGTGGGACCTGTGAAAATACTAAAGGCTCGTTCATCTG
  CCACTGTGATATGGGATATTCAGGGAAGAAAGGAAAAACGGGCTGTACAGATATCAATGAATGTGAGATC
  GGAGCACACAACTGTGGCAGACATGCTGTATGCACAAATACAGCCGGGAGCTTCAAGTGCAGCTGCAGTC
  CCGGCTGGATTGGAGACGGCATTAAGTGCACAGATCTGGATGAATGCTCTAATGGAACCCACATGTGCAG
  CCAACACGCGGACTGCAAGAACACCATGGGGTCATATCGCTGTCTCTGTAAGGATGGCTATACAGGGGAT
  GGCTTCACCTGTACAGACCTCGACGAGTGCTCCGAGAACCTGAACCTCTGTGGCAATGGCCAGTGCCTCA
  ACGCCCCTGGCGGGTACCGCTGTGAATGCGACATGGGCTTCGTGCCCAGTGCTGACGGGAAGGCCTGTGA
  AGATATCGATGAGTGCTCCCTTCCAAACATCTGTGTCTTTGGAACTTGCCACAACCTCCCGGGCCTCTTC
  CGTTGCGAGTGTGAGATTGGCTATGAACTGGACCGAAGTGGTGGAAACTGCACAGATGTTAATGAGTGTC
  TGGATCCCACCACCTGCATCAGTGGAAACTGTGTCAACACTCCCGGTAGTTACACATGCGATTGTCCTCC
  GGATTTTGAGCTGAATCCAACTCGTGTCGGCTGTGTCGATACTCGCTCTGGAAACTGCTATCTGGATATC
  CGACCCCGGGGAGACAATGGAGATACAGCCTGCAGCAATGAAATTGGAGTTGGTGTCTCTAAGGCTTCCT
  GCTGTTGTTCACTGGGTAAAGCTTGGGGAACCCCATGTGAGCTGTGTCCTTCTGTGAACACATCTGAGTA
  TAAAATTCTTTGCCCTGGAGGAGAAGGTTTTCGTCCAAATCCCATCACCGTTATATTGGAAGACATCGAT
  GAGTGCCAGGAGCTTCCAGGGCTGTGCCAAGGGGGGAAGTGCATCAATACCTTTGGCAGCTTCCAGTGTC
  GCTGTCCAACTGGTTACTACCTGAATGAAGACACTCGAGTGTGTGATGATGTGAACGAATGTGAGACTCC
  TGGAATCTGTGGTCCGGGGACCTGTTACAACACCGTTGGCAACTATACCTGCATTTGTCCTCCAGACTAC
  ATGCAAGTGAACGGGGGAAATAATTGCATGGACATGAGAAGAAGTCTATGCTACAGAAACTATTACGCTG
  ACAACCAGACCTGCGATGGAGAACTCCTGTTCAACATGACCAAGAAGATGTGCTGTTGCTCCTACAACAT
  CGGCAGAGCCTGGAACAAACCCTGTGAACAGTGCCCCATCCCAAGCACAGATGAGTTTGCTACCCTCTGT
  GGGAGCCAGAGGCCCGGCTTCGTGATTGACATTTATACGGGTTTACCCGTGGATATTGATGAATGCCGGG
  AGATCCCTGGGGTCTGTGAAAATGGAGTGTGCATCAACATGGTTGGCAGCTTCCGGTGTGAGTGTCCCGT
  GGGATTCTTCTATAACGACAAGTTACTGGTTTGTGAAGATATCGACGAGTGTCAGAATGGCCCTGTGTGC
  CAGCGAAATGCGGAATGCATCAACACTGCAGGCAGCTACCGCTGTGACTGTAAGCCCGGCTACCGCCTTA
  CCTCCACAGGTCAATGCAACGATCGAAACGAGTGCCAAGAAATCCCGAACATATGCAGTCATGGCCAGTG
  CATCGACACCGTGGGAAGCTTCTACTGCCTTTGTCACACTGGCTTCAAAACAAATGTGGATCAGACCATG
  TGCTTAGACATAAATGAGTGTGAGAGAGACGCCTGTGGGAACGGGACTTGCAGAAACACGATTGGCTCCT
  TCAACTGTCGCTGTAACCATGGCTTCATACTGTCTCACAACAATGACTGCATAGATGTTGATGAGTGTGC
  AACTGGAAACGGGAACCTTTGCAGAAATGGCCAGTGTGTCAATACCGTGGGCTCCTTTCAGTGCAGGTGC
  AATGAAGGCTATGAGGTGGCTCCGGACGGCAGGACCTGTGTGGATATCAACGAGTGTGTTCTGGATCCTG
  GGAAATGTGCACCTGGAACCTGTCAGAACCTGGATGGCTCCTACAGATGCATTTGCCCGCCTGGGTATAG
  TCTACAGAATGACAAGTGTGAAGATATTGATGAGTGTGTTGAAGAGCCAGAAATCTGTGCCTTGGGGACC
  TGCAGCAACACTGAGGGTAGCTTCAAATGTCTGTGTCCAGAGGGGTTCTCCCTGTCCTCCACTGGAAGAA
  GGTGCCAAGATTTGCGAATGAGCTACTGCTATGCGAAGTTTGAAGGTGGGAAGTGTTCATCACCCAAATC
  CAGAAACCATTCCAAGCAGGAGTGCTGCTGTGCTTTGAAGGGAGAAGGCTGGGGAGATCCTTGTGAGTTG
  TGCCCCACTGAGCCAGATGAGGCTTTCCGCCAGATCTGCCCCTTTGGAAGTGGGATCATTGTGGGCCCTG
  ATGACTCAGCAGTTGATATGGACGAATGCAAAGAACCTGATGTCTGTAGACATGGGCAGTGCATTAACAC
  AGACGGCTCCTATCGATGCGAGTGTCCTTTTGGTTATATTCTGGAAGGGAATGAGTGTGTGGATACCGAT
  GAATGCTCTGTGGGCAATCCTTGTGGAAATGGGACCTGCAAGAATGTGATTGGAGGTTTTGAATGTACCT
  GTGAGGAGGGGTTCGAGCCTGGCCCAATGATGACTTGTGAAGATATAAATGAATGTGCCCAGAATCCTCT
  GCTCTGCGCCTTCCGCTGTGTAAATACCTACGGGTCCTATGAATGCAAATGCCCTGTTGGATACGTTCTC
  CGAGAAGACAGGAGGATGTGTAAAGATGAGGATGAGTGTGCAGAGGGAAAACACGACTGTACTGAGAAGC
  AAATGGAGTGTAAGAACCTCATTGGTACCTACATGTGCATCTGCGGCCCTGGGTACCAGCGCAGACCCGA
  TGGAGAGGGCTGCATAGATGAGAATGAGTGTCAGACCAAGCCCGGGATCTGTGAGAATGGGCGTTGCCTC
  AACACCCTGGGTAGCTACACTTGTGAGTGTAACGATGGCTTCACAGCCAGCCCCACTCAGGATGAGTGCT
  TGGACAACCGGGAAGGGTACTGCTTTTCGGAGGTCTTGCAAAACATGTGCCAGATTGGCTCAAGCAACAG
  GAACCCCGTCACCAAGTCCGAGTGCTGCTGTGATGGAGGGAGAGGCTGGGGACCCCACTGTGAGATCTGC
  CCTTTCGAGGGCACAGTGGCTTACAAGAAGCTCTGTCCCCACGGCCGAGGATTCATGACCAACGGAGCAG
  ATATTGATGAGTGCAAGGTTATTCATGATGTTTGCCGAAATGGGGAGTGTGTCAACGACAGAGGGTCCTA
  TCACTGCATCTGTAAAACTGGCTACACTCCGGATATAACAGGGACCGCCTGTGTAGATCTGAATGAATGC
  AACCAGGCTCCCAAACCCTGCAATTTTATATGCAAAAACACAGAAGGGAGTTACCAGTGTTCCTGCCCGA
  AGGGCTACATTCTGCAAGAGGATGGAAGGAGCTGCAAAGATCTTGACGAGTGTGCAACCAAGCAGCATAA
  CTGTCAGTTCCTGTGTGTTAACACCATCGGTGGCTTCACATGCAAATGCCCTCCTGGGTTTACCCAGCAT
  CACACTGCCTGCATTGATAACAATGAGTGCACGTCTGATATCAACCTGTGTGGGTCCAAGGGTGTTTGCC
  AGAACACTCCAGGAAGCTTCACCTGTGAATGCCAACGGGGGTTCTCACTCGATCAGAGTGGTGCCAGCTG
  TGAAGATGTGGACGAGTGTGAGGGTAACCACCGCTGTCAACATGGCTGCCAGAACATCATCGGAGGCTAT
  AGGTGTAGCTGCCCCCAGGGCTACCTCCAGCACTACCAATGGAACCAGTGTGTAGATGAAAACGAGTGCC
  TGAGTGCACATGTCTGTGGAGGAGCCTCCTGCCACAACACCCTGGGGAGTTACAAGTGCATGTGTCCCAC
  CGGCTTCCAGTACGAACAGTTCAGTGGAGGCTGCCAAGACATCAATGAGTGTGGCTCATCCCAGGCCCCC
  TGCAGTTACGGTTGCTCTAATACTGAGGGTGGCTACCTGTGTGGCTGTCCACCAGGATACTTCCGGATAG
  GCCAAGGGCATTGTGTTTCTGGAATGGGCATGGGCCGAGGCGGCCCAGAGCCACCTGCCAGCAGCGAGAT
  GGACGACAACTCACTGTCCCCAGAGGCCTGCTATGAGTGTAAGATCAACGGCTACCCAAAACGAGGCCGG
  AAACGGAGAAGCACGAACGAAACGGATGCCTCCGACATCCAGGACGGGTCTGAGATGGAAGCCAACGTGA
  GCCTCGCCAGCTGGGATGTGGAGAAGCCGGCTAGCTTTGCTTTCAATATTTCCCATGTCAATAACAAGGT
  CCGAATCCTAGAGCTCCTGCCGGCCCTCACAACTCTGATGAACCACAACAGATACTTGATTGAATCTGGA
  AATGAAGATGGCTTCTTTAAAATCAACCAGAAAGAAGGGGTCAGCTACCTCCACTTCACGAAGAAGAAGC
  CGGTGGCTGGGACCTACTCCTTACAAATCAGCAGCACCCCACTTTATAAAAAGAAAGAACTTAACCAGTT
  AGAAGACAGATATGACAAAGACTACCTCAGTGGTGAACTGGGCGATAACCTGAAGATGAAAATTCAGATC
  TTGCTGCATTAA
  
  ACGCGTACGCGGCCGCTCGAGCAGAAACTCATCTCAGAAGAGGATCTGGCAGCAAATGATATCCTGGATT
  ACAAGGATGACGACGATAAGGTTTAA
• Restriction Sites: SgfI-MluI
• ACCN: NM_007993
• ORF Size: 8622 bp
• Insert Size: 8622
• 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_007993.2, NP_032019.2
• RefSeq Size: 9900
• RefSeq ORF: 8622
• Locus ID: 14118
• Gene Summary: This gene encodes a member of the fibrillin family of proteins. The encoded preproprotein is proteolytically processed to generate two proteins including the extracellular matrix component fibrillin-1 and the protein hormone asprosin. Fibrillin-1 is an extracellular matrix glycoprotein that serves as a structural component of calcium-binding microfibrils. Asprosin, secreted by white adipose tissue, has been shown to regulate glucose homeostasis. Homozygous knockout mice for this gene exhibit impaired aortic development and early postnatal death, which was attributed to a deficiency in the fibrillin-1 protein. Mice with a hypomorphic allele of this gene exhibit impaired glucose homeostasis, likely due to a reduction in serum asprosin levels. [provided by RefSeq, Apr 2016]