TNXB (NM_019105) Human Tagged ORF Clone

CAT#: RG215706

TNXB (GFP-tagged) - Human tenascin XB (TNXB), transcript variant XB

Specifications

Product Data

• Type: Human Tagged ORF Clone
• Tag: TurboGFP
• Symbol: TNXB
• Synonyms: EDS3; EDSCLL; EDSCLL1; HXBL; TENX; TN-X; TNX; TNXB1; TNXB2; TNXBS; VUR8; XB; XBS
• Vector: pCMV6-AC-GFP
• E. coli Selection: Ampicillin (100 ug/mL)
• Mammalian Cell Selection: Neomycin
• Sequence Data:
  ORF Nucleotide Sequence

  >RG215706 representing NM_019105
  Red=Cloning site Blue=ORF Green=Tags(s)
  
  TTTTGTAATACGACTCACTATAGGGCGGCCGGGAATTCGTCGACTGGATCCGGTACCGAGGAGATCTGCC
  GCCGCGATCGCC
  
  ATGATGCCAGCCCAGTATGCTCTAACCTCCAGCCTGGTTCTCCTGGTGCTGCTGAGCACAGCCAGAGCAG
  GCCCCTTCTCTTCACGGTCCAATGTGACACTGCCAGCCCCCCGGCCCCCTCCCCAGCCAGGGGGCCACAC
  AGTGGGGGCTGGAGTGGGAAGCCCCTCTTCTCAGCTTTACGAGCACACAGTGGAAGGAGGGGAGAAGCAG
  GTGGTATTCACCCACCGCATTAACCTGCCCCCTTCCACTGGCTGTGGCTGTCCCCCAGGCACCGAGCCCC
  CAGTCCTTGCTTCAGAGGTACAGGCCCTGAGGGTCCGTCTAGAGATCCTGGAGGAGTTGGTGAAGGGGCT
  CAAGGAACAGTGCACTGGGGGATGTTGTCCTGCCTCTGCCCAAGCTGGCACAGGTCAGACAGATGTGCGG
  ACCCTCTGCAGTCTCCATGGTGTGTTTGATCTGAGCCGCTGCACCTGTTCCTGTGAGCCAGGCTGGGGTG
  GGCCCACCTGCTCAGACCCCACAGATGCTGAGATCCCTCCCTCTTCCCCACCCTCAGCCTCGGGGTCCTG
  CCCAGATGACTGCAATGATCAGGGTCGCTGTGTCCGTGGTCGTTGCGTGTGCTTTCCCGGCTACACTGGC
  CCCAGCTGTGGCTGGCCATCCTGTCCCGGGGACTGCCAAGGCCGTGGGCGCTGCGTGCAGGGCGTGTGTG
  TGTGCCGGGCAGGCTTCTCAGGCCCCGACTGCAGCCAGCGCTCCTGCCCTCGAGGTTGCAGCCAGAGGGG
  ACGCTGTGAGGGTGGGCGCTGCGTGTGTGACCCAGGCTACACTGGTGACGACTGTGGCATGAGGAGCTGC
  CCTCGCGGTTGCAGTCAGAGGGGGCGCTGTGAGAATGGGCGCTGCGTGTGTAACCCCGGCTACACTGGCG
  AGGACTGTGGGGTGAGGAGCTGCCCTCGGGGCTGCAGCCAGCGGGGACGCTGCAAGGACGGGCGCTGCGT
  GTGTGACCCCGGCTACACTGGCGAGGACTGTGGTACGCGGAGCTGCCCCTGGGACTGTGGCGAGGGCGGG
  CGCTGCGTGGACGGCCGCTGCGTGTGCTGGCCCGGGTACACAGGCGAGGACTGCAGCACGCGGACATGTC
  CGAGGGACTGCCGGGGCCGCGGGCGCTGCGAGGACGGCGAATGCATTTGCGACACGGGCTACAGCGGGGA
  CGACTGCGGCGTGCGCAGCTGCCCTGGCGACTGCAACCAAAGGGGCCGCTGCGAGGACGGCCGCTGCGTG
  TGCTGGCCGGGGTACACTGGAACCGATTGCGGCTCGCGCGCCTGCCCACGCGACTGTAGAGGTCGCGGGC
  GCTGCGAGAACGGCGTGTGTGTTTGCAATGCGGGCTACAGCGGCGAGGACTGCGGTGTGCGCAGCTGTCC
  TGGGGACTGTCGTGGCCGGGGCCGCTGTGAGAGTGGCCGCTGCATGTGTTGGCCGGGGTACACAGGCCGG
  GACTGCGGCACGCGCGCCTGTCCTGGCGACTGTCGCGGGCGCGGGCGCTGCGTGGATGGCCGCTGCGTGT
  GCAACCCGGGCTTCACCGGTGAGGACTGTGGGAGCCGTCGCTGTCCCGGGGACTGCCGTGGGCACGGCCT
  TTGCGAGGATGGCGTGTGCGTGTGTGACGCAGGCTACTCAGGGGAAGACTGCAGCACGCGCAGCTGCCCC
  GGGGGCTGCCGAGGCCGCGGCCAGTGCCTAGATGGGCGGTGTGTGTGCGAGGACGGCTACTCTGGCGAGG
  ATTGCGGTGTGAGGCAGTGCCCGAATGACTGCAGCCAGCACGGCGTGTGCCAGGACGGTGTGTGCATCTG
  TTGGGAAGGCTACGTGAGTGAGGACTGCAGCATCCGCACCTGCCCCTCCAACTGCCACGGGAGGGGCCGC
  TGTGAGGAAGGGCGCTGCCTGTGCGACCCAGGCTACACCGGCCCTACCTGTGCCACCCGCATGTGCCCGG
  CTGACTGCCGGGGACGTGGGCGGTGTGTGCAAGGAGTGTGCCTGTGCCACGTGGGCTATGGCGGTGAGGA
  CTGCGGGCAGGAAGAGCCTCCAGCCAGCGCCTGCCCTGGAGGCTGCGGGCCCCGGGAACTGTGCCGGGCA
  GGCCAGTGTGTGTGTGTAGAGGGCTTCCGAGGCCCTGACTGTGCCATCCAGACATGCCCAGGGGACTGCC
  GTGGCCGAGGAGAGTGTCACGATGGCAGCTGTGTCTGCAAAGATGGGTATGCTGGCGAAGACTGCGGAGA
  AGAGGTGCCAACCATTGAGGGCATGAGGATGCATCTCTTGGAGGAGACAACAGTTCGGACAGAGTGGACC
  CCGGCTCCTGGCCCCGTGGATGCCTATGAAATTCAGTTCATCCCCACGACAGAGGGGGCGAGCCCCCCAT
  TCACAGCACGGGTTCCAAGCTCTGCCTCAGCCTATGACCAGAGAGGACTGGCCCCTGGACAGGAGTACCA
  GGTCACTGTCCGAGCCCTTCGAGGGACCAGCTGGGGCCTTCCTGCCTCCAAGACCATCACCACCATGATC
  GATGGGCCCCAGGACCTCCGAGTGGTGGCTGTGACACCGACAACACTGGAGCTTGGCTGGCTGCGTCCCC
  AGGCTGAGGTGGACCGATTTGTGGTGTCCTACGTCAGTGCCGGCAACCAGAGGGTGAGGCTGGAAGTGCC
  CCCTGAAGCAGACGGGACGCTGCTGACTGACCTGATGCCAGGCGTAGAATATGTGGTGACTGTCACAGCG
  GAGCGGGGCCGGGCAGTCAGCTACCCAGCTTCTGTCAGGGCCAACACAGGGTCCTCACCCTTGGGCCTCT
  TGGGGACTACCGATGAGCCTCCTCCCTCAGGCCCCTCGACGACGCAAGGGGCCCAGGCTCCTCTCCTGCA
  GCAGCGCCCCCAGGAGCTGGGAGAGTTGAGGGTGCTGGGCAGAGATGAGACAGGGCGCCTCCGTGTGGTC
  TGGACCGCCCAGCCTGACACCTTTGCCTACTTCCAACTGCGCATGCGGGTGCCCGAGGGGCCGGGGGCAC
  ATGAGGAAGTGCTGCCAGGGGACGTCCGCCAGGCTCTGGTGCCTCCACCCCCTCCTGGAACCCCGTATGA
  GCTGTCACTTCATGGGGTCCCTCCTGGGGGCAAGCCCTCTGACCCCATCATCTACCAAGGCATTATGGAC
  AAGGATGAGGAGAAGCCTGGGAAGTCCTCAGGCCCACCACGCCTGGGTGAGCTGACGGTGACAGACAGGA
  CCTCCGACTCCTTGCTCCTGCGCTGGACGGTCCCCGAGGGCGAGTTTGACTCCTTCGTGATCCAGTACAA
  AGACAGGGACGGGCAGCCCCAGGTGGTGCCCGTGGAAGGACCCCAGCGCTCGGCCGTCATCACCTCCCTG
  GATCCTGGCCGCAAGTACAAATTTGTCCTGTATGGGTTTGTTGGCAAGAAGAGGCATGGTCCGCTGGTGG
  CTGAAGCCAAGATCTTGCCTCAGAGTGACCCAAGTCCAGGGACTCCACCCCACCTGGGAAACCTGTGGGT
  GACAGACCCTACCCCAGATTCACTGCACCTCTCCTGGACTGTCCCTGAGGGCCAGTTTGACACCTTCATG
  GTCCAGTACAGGGACAGGGATGGACGGCCCCAGGTGGTACCTGTGGAAGGGCCCGAGCGTTCATTTGTTG
  TCTCCTCACTGGACCCTGACCACAAGTACAGATTCACTCTGTTTGGAATTGCGAACAAGAAGCGGTATGG
  CCCCCTCACGGCCGATGGCACCACTGCTCCAGAGAGGAAAGAGGAGCCCCCCCGCCCTGAGTTCCTGGAG
  CAGCCCCTCCTGGGGGAACTGACAGTGACCGGCGTGACCCCAGACTCCTTGCGTCTCTCATGGACAGTGG
  CCCAGGGCCCCTTCGACTCATTCATGGTCCAGTACAAGGATGCACAGGGGCAGCCCCAGGCAGTGCCTGT
  TGCGGGGGATGAGAATGAGGTTACTGTCCCCGGCCTGGATCCCGACCGGAAGTATAAGATGAACCTCTAC
  GGGCTTCGTGGCAGGCAGCGTGTGGGGCCCGAGTCTGTGGTGGCCAAGACTGCTCCTCAGGAGGATGTGG
  ACGAGACCCCCAGCCCCACAGAACTGGGCACGGAGGCCCCGGAGTCCCCCGAGGAGCCGCTCCTGGGGGA
  GCTGACAGTGACAGGATCCTCCCCTGATTCGCTGAGCCTCTTCTGGACCGTCCCCCAGGGCAGCTTCGAC
  TCTTTCACCGTGCAGTACAAGGACAGGGATGGGCGGCCCCGGGCGGTGCGTGTTGGGGGCAAGGAGAGTG
  AGGTCACCGTGGGAGGCCTAGAGCCCGGGCACAAGTACAAGATGCACCTGTACGGCCTCCACGAGGGGCA
  GCGCGTGGGCCCGGTGTCCGCCGTGGGCGTGACAGCCCCACAACAAGAAGAGACCCCTCCAGCCACTGAG
  TCCCCGCTGGAGCCACGCCTAGGAGAGCTGACAGTGACAGATGTGACCCCCAACTCTGTGGGCCTCTCCT
  GGACAGTCCCCGAGGGCCAGTTTGACTCCTTCATAGTCCAGTACAAGGACAAGGACGGGCAGCCCCAGGT
  GGTGCCGGTGGCGGCAGACCAGCGAGAGGTCACAGTCTACAACCTGGAGCCTGAGAGAAAATATAAGATG
  AACATGTATGGACTACATGATGGGCAACGCATGGGCCCCCTGTCTGTGGTCATCGTGACGGCTCCCCTCC
  CACCAGCCCCAGCCACAGAGGCCTCCAAGCCTCCCCTGGAGCCACGCCTAGGGGAGCTGACAGTGACGGA
  TATAACCCCTGACTCTGTGGGCCTCTCATGGACAGTCCCTGAGGGTGAATTCGACTCCTTTGTGGTTCAG
  TACAAGGACAGGGACGGGCAGCCCCAGGTGGTGCCCGTGGCTGCAGATCAGCGGGAGGTCACTATCCCTG
  ACCTGGAACCCTCCCGCAAGTACAAGTTCCTGCTCTTTGGGATCCAGGATGGGAAACGACGCAGCCCAGT
  CTCTGTGGAGGCAAAGACGGTTGCCCGAGGTGACGCCAGCCCAGGGGCCCCACCCCGCCTTGGGGAGCTG
  TGGGTGACAGACCCCACCCCAGACTCACTGCGCCTCTCCTGGACGGTTCCTGAGGGCCAGTTCGACTCTT
  TTGTGGTCCAGTTCAAGGACAAAGACGGGCCCCAGGTGGTGCCCGTGGAGGGCCATGAGCGCTCTGTCAC
  TGTCACCCCTCTGGATGCCGGCCGCAAGTACAGATTCCTCCTCTATGGCCTCCTGGGCAAGAAGCGCCAT
  GGCCCTCTCACTGCCGACGGCACCACGGAAGCCCGGAGTGCTATGGATGATACTGGAACAAAGCGTCCCC
  CAAAACCCCGTCTGGGGGAGGAGCTGCAGGTGACCACCGTGACCCAGAACTCCGTGGGCCTCTCCTGGAC
  AGTCCCTGAGGGCCAGTTTGACTCCTTTGTGGTCCAGTACAAAGACAGGGACGGGCAGCCCCAGGTGGTG
  CCCGTGGAGGGCAGCCTCAGGGAGGTCAGCGTGCCGGGCCTGGACCCTGCCCACAGGTACAAGCTGCTGC
  TCTACGGGCTGCACCACGGCAAGCGTGTGGGCCCCATCTCGGCCGTCGCCATTACTGCCGGCAGGGAAGA
  AACGGAAACTGAGACCACGGCCCCGACCCCTCCAGCGCCTGAGCCCCACCTCGGGGAGTTGACAGTGGAG
  GAGGCCACGTCACACACCCTGCATCTCTCCTGGATGGTGACTGAGGGAGAATTTGACTCCTTCGAAATCC
  AGTACACAGATAGAGACGGGCAACTCCAAATGGTCCGCATAGGAGGTGACCGGAATGACATCACCCTCTC
  TGGCCTGGAATCCGACCACAGATACCTGGTGACCCTGTATGGTTTCAGTGATGGGAAGCATGTAGGTCCT
  GTCCATGTCGAGGCCCTGACAGTCCCGGAGGAGGAGAAGCCTTCAGAACCTCCCACCGCAACCCCCGAGC
  CCCCCATCAAGCCTCGCCTGGGGGAGCTGACCGTGACAGATGCCACCCCTGACTCCCTCAGCCTGTCCTG
  GACAGTTCCCGAGGGACAGTTTGACCACTTCCTGGTCCAGTACAGGAATGGAGATGGGCAGCCCAAGGCA
  GTGAGGGTGCCAGGGCACGAGGAAGGGGTCACCATCTCGGGCCTGGAGCCAGACCATAAATACAAGATGA
  ACCTGTACGGCTTCCACGGTGGCCAGCGCATGGGCCCTGTGTCTGTCGTCGGGGTGACAGCTGCAGAGGA
  AGAGACCCCCAGCCCCACAGAACCCAGCATGGAGGCCCCGGAGCCCGCTGAGGAGCCGCTCCTGGGGGAG
  CTAACAGTGACAGGATCCTCCCCTGACTCGCTGAGCCTCTCCTGGACCGTCCCCCAGGGCCGCTTCGACT
  CCTTCACCGTGCAGTACAAGGACAGGGACGGGCGGCCCCAGGTGGTGCGTGTTGGGGGCGAGGAGAGTGA
  AGTCACCGTGGGGGGCCTGGAGCCTGGGCGCAAGTACAAGATGCACCTGTACGGCCTCCACGAGGGGCGG
  CGCGTGGGCCCAGTGTCTGCTGTGGGCGTCACGGCCCCCGAAGAGGAGTCCCCTGATGCTCCTCTTGCAA
  AGCTGCGCCTAGGGCAGATGACAGTGAGAGACATCACCTCCGACTCCCTCAGCCTCTCCTGGACAGTCCC
  CGAGGGCCAGTTTGACCATTTCTTGGTCCAGTTTAAGAATGGGGACGGGCAGCCCAAGGCGGTGCGGGTG
  CCGGGACACGAGGATGGGGTCACCATCTCGGGCCTGGAGCCAGACCACAAGTACAAGATGAACCTGTACG
  GCTTCCACGGTGGCCAGCGCGTGGGCCCCGTGTCTGCTGTTGGTTTAACTGCCCCAGGAAAGGATGAAGA
  AATGGCCCCAGCCTCGACAGAACCTCCCACCCCTGAACCCCCCATCAAGCCTCGCCTGGAGGAGCTGACC
  GTGACAGATGCGACCCCTGACTCCCTCAGCCTGTCCTGGACGGTTCCCGAGGGACAGTTTGACCACTTCC
  TGGTCCAGTACAAGAATGGGGATGGGCAGCCCAAGGCAACACGGGTGCCAGGACATGAGGACAGGGTCAC
  CATCTCCGGCCTGGAGCCAGACAACAAGTACAAGATGAACCTGTACGGCTTCCACGGTGGCCAGCGTGTG
  GGCCCCGTGTCTGCCATCGGGGTGACAGCTGCAGAGGAAGAGACCCCCAGCCCCACAGAACCCAGCATGG
  AGGCCCCGGAGCCCCCTGAGGAGCCGCTCCTGGGGGAGCTAACAGTGACAGGATCCTCCCCTGACTCGCT
  GAGCCTCTCCTGGACCGTCCCCCAGGGCCGCTTCGACTCCTTCACCGTGCAGTACAAGGACAGGGACGGG
  CGGCCCCAGGTGGTGCGTGTTGGGGGCGAGGAGAGCGAGGTCACCGTGGGGGGCCTGGAGCCTGGGCGCA
  AATACAAGATGCACCTGTATGGCCTCCACGAGGGGCGGCGCGTGGGCCCGGTGTCCACCGTGGGCGTGAC
  TGCCCCACAAGAGGATGTGGACGAGACCCCCAGCCCTACAGAACCAGGCACAGAGGCCCCAGGGCCCCCC
  GAGGAGCCTCTCCTGGGGGAGCTGACAGTGACAGGATCCTCCCCTGACTCGCTGAGCCTTTCCTGGACCG
  TCCCCCAGGGCCGCTTTGACTCCTTCACCGTGCAGTACAAGGACAGGGACGGGCGGCCCCAGGCGGTGCG
  TGTTGGGGGCCAGGAGAGCAAGGTCACTGTGAGGGGCCTGGAGCCTGGGCGCAAGTACAAGATGCACCTG
  TACGGCCTCCACGAGGGGCGGCGCCTGGGCCCGGTGTCTGCCGTGGGCGTCACAGAGGATGAAGCCGAGA
  CCACCCAAGCAGTGCCTACCATGACCCCTGAGCCCCCCATCAAGCCTCGCCTGGGGGAGCTGACCATGAC
  AGATGCCACCCCTGACTCCCTCAGCCTGTCCTGGACGGTTCCCGAGGGCCAGTTTGACCACTTCCTGGTC
  CAGTACAGGAATGGGGATGGGCAGCCCAAGGCGGTGCGGGTGCCGGGGCACGAGGACGGGGTCACCATCT
  CAGGCCTGGAGCCAGACCATAAATACAAGATGAACCTGTACGGCTTCCACGGTGGCCAGCGCGTGGGCCC
  CATCTCTGTCATTGGGGTGACGGCTGCAGAGGAAGAGACCCCCAGCCCCACGGAACTCAGCACTGAGGCC
  CCGGAGCCCCCTGAGGAGCCGCTCCTGGGGGAGCTGACAGTGACAGGATCCTCCCCTGACTCGCTGAGCC
  TCTCCTGGACCATCCCCCAGGGCCACTTCGACTCCTTCACCGTGCAGTACAAGGACAGGGACGGGCGGCC
  CCAGGTGATGCGTGTCAGGGGCGAGGAGAGCGAGGTCACCGTGGGGGGCCTGGAGCCCGGGCGCAAATAC
  AAGATGCACCTGTACGGCCTCCACGAGGGGCGGCGTGTGGGCCCGGTGTCCACCGTGGGTGTGACAGAGG
  ATGAAGCAGAGACCACCCAAGCAGTGCCCACCACAACCCCTGAGCCCCCCAACAAGCCTCGCCTCGGGGA
  GCTGACCGTGACAGATGCCACCCCTGACTCCCTCAGCCTGTCCTGGATGGTCCCCGAGGGCCAGTTTGAC
  CACTTCCTGGTCCAGTACAGGAATGGGGATGGGCAGCCCAAGGTGGTGCGGGTGCCGGGGCACGAGGACG
  GGGTCACCATCTCAGGCCTGGAGCCAGACCACAAGTACAAGATGAACCTGTACGGCTTCCACGGTGGCCA
  GCGCGTGGGCCCCATCTCTGTCATTGGGGTGACAGCTGCAGAGGAAGAAACTCCCGCCCCCACAGAACCC
  AGCACGGAGGCCCCGGAGCCCCCTGAGGAGCCGCTCCTGGGGGAGCTGACAGTGACAGGATCCTCCCCTG
  ACTCGCTGAGCCTCTCCTGGACCATCCCCCAGGGCCGCTTCGACTCCTTCACTGTGCAGTACAAGGACAG
  GGACGGGCGGCCCCAGGTGGTGCGTGTCAGGGGCGAGGAGAGCGAGGTCACCGTGGGGGGCCTGGAGCCC
  GGGTGCAAATACAAGATGCACCTGTACGGCCTCCACGAGGGGCAGCGCGTGGGCCCAGTGTCCGCTGTGG
  GTGTGACAGCTCCAAAGGATGAAGCCGAGACCACCCAAGCAGTGCCTACCATGACCCCTGAGCCCCCCAT
  CAAGCCTCGCCTGGGGGAGCTGACCGTGACAGATGCCACCCCCGACTCCCTCAGCCTGTCCTGGATGGTT
  CCCGAGGGCCAGTTTGACCACTTCCTGGTCCAGTACAGGAATGGGGATGGGCAGCCCAAGGCGGTGCGGG
  TGCCGGGGCACGAGGACGGGGTCACCATCTCAGGCCTGGAGCCAGACCATAAATACAAGATGAACCTGTA
  CGGCTTCCACGGTGGCCAGCGCGTAGGCCCTGTGTCTGCCATTGGGGTGACGGAGGAAGAGACCCCCAGC
  CCCACAGAACCCAGCACTGAGGCCCCGGAGGCCCCTGAGGAGCCGCTCCTGGGGGAGTTGACAGTGACAG
  GATCCTCCCCTGACTCGCTGAGCCTCTCCTGGACCGTCCCCCAGGGCCGCTTCGACTCCTTCACCGTGCA
  GTACAAGGACAGGGACGGGCAGCCCCAGGTGGTGCGTGTCAGGGGCGAGGAGAGCGAGGTCACCGTGGGG
  GGCCTGGAGCCCGGGCGCAAATACAAGATGCATCTGTACGGCCTCCACGAGGGGCAGCGCGTGGGCCCAG
  TGTCCACCGTGGGCATCACGGCGCCCCTGCCCACACCACTGCCGGTGGAGCCCCGCCTGGGGGAGCTGGC
  GGTGGCGGCCGTGACCTCGGACTCAGTGGGCCTCTCATGGACGGTGGCCCAGGGCCCCTTTGACTCCTTC
  CTGGTACAGTACAGGGACGCGCAGGGGCAGCCCCAGGCAGTGCCTGTGAGCGGAGACCTCCGAGCGGTCG
  CCGTCTCGGGGCTGGACCCGGCCCGCAAGTACAAGTTCCTGCTCTTTGGACTCCAGAATGGGAAACGCCA
  CGGCCCAGTCCCTGTGGAGGCCAGGACCGCCCCAGACACCAAACCGTCTCCCCGCCTGGGGGAGCTGACT
  GTGACAGATGCGACCCCTGACTCCGTGGGCCTCTCGTGGACGGTCCCTGAGGGCGAATTCGACTCCTTCG
  TGGTCCAGTACAAGGATAAGGATGGTCGGCTCCAGGTGGTGCCGGTGGCAGCCAACCAGCGGGAGGTCAC
  AGTCCAGGGCCTGGAGCCCAGTAGGAAATACAGGTTCCTGCTCTATGGTCTGTCAGGCAGGAAACGACTG
  GGCCCCATCTCTGCTGACAGCACCACAGCTCCCCTGGAGAAGGAGCTACCTCCCCACCTGGGGGAACTGA
  CCGTGGCTGAGGAGACCTCCAGCTCTCTGCGCCTGTCCTGGACGGTAGCCCAGGGCCCCTTTGACTCCTT
  CGTGGTCCAGTACAGGGACACGGACGGGCAGCCCAGGGCAGTGCCTGTGGCCGCAGACCAGCGCACAGTC
  ACCGTAGAGGACCTGGAGCCTGGCAAGAAATACAAGTTTCTGCTCTACGGGCTCCTTGGGGGAAAGCGCC
  TGGGCCCGGTCTCTGCCCTGGGAATGACAGCCCCAGAAGAGGACACACCAGCCCCAGAGTTAGCCCCAGA
  GGCCCCTGAGCCTCCTGAAGAGCCCCGCCTAGGAGTGCTGACCGTGACCGACACAACCCCAGACTCCATG
  CGCCTCTCGTGGAGCGTGGCCCAGGGCCCCTTTGATTCCTTCGTGGTCCAGTATGAGGACACGAACGGGC
  AGCCCCAGGCCTTGCTCGTGGACGGCGACCAGAGCAAGATCCTCATCTCAGGCCTGGAGCCCAGCACCCC
  CTACAGGTTCCTCCTCTATGGCCTCCATGAAGGGAAGCGCCTGGGGCCCCTCTCAGCTGAGGGCACCACA
  GGGCTGGCTCCTGCTGGTCAGACCTCAGAGGAGTCAAGGCCCCGCCTGTCCCAGCTGTCTGTGACTGACG
  TGACCACCAGTTCACTGAGGCTCAACTGGGAGGCCCCACCGGGGGCCTTCGACTCCTTCCTGCTCCGCTT
  TGGGGTTCCATCACCAAGCACTCTGGAGCCGCATCCGCGTCCACTGCTGCAGCGCGAGCTGATGGTGCCG
  GGGACGCGGCACTCGGCCGTGCTCCGGGACCTGCGTTCCGGGACTCTGTACAGCCTGACACTGTATGGGC
  TGCGAGGACCCCACAAGGCCGACAGCATCCAGGGAACCGCCCGCACCCTCAGCCCAGTTCTGGAGAGCCC
  CCGTGACCTCCAATTCAGTGAAATCAGGGAGACCTCAGCCAAGGTCAACTGGATGCCCCCACCATCCCGG
  GCGGACAGCTTCAAAGTCTCCTACCAGCTGGCGGACGGAGGGGAGCCTCAGAGTGTGCAGGTGGATGGCC
  AGGCCCGGACCCAGAAACTCCAGGGGCTGATCCCAGGCGCTCGCTATGAGGTGACCGTGGTCTCGGTCCG
  AGGCTTTGAGGAGAGTGAGCCTCTCACAGGCTTCCTCACCACGGTTCCTGACGGTCCCACACAGTTGCGT
  GCACTGAACTTGACCGAGGGATTCGCCGTGCTGCACTGGAAGCCCCCCCAGAATCCTGTGGACACCTATG
  ACGTCCAGGTCACAGCCCCTGGGGCCCCGCCTCTGCAGGCGGAGACCCCAGGCAGCGCGGTGGACTACCC
  CCTGCATGACCTTGTCCTCCACACCAACTACACCGCCACAGTGCGTGGCCTGCGGGGCCCCAACCTCACT
  TCCCCAGCCAGCATCACCTTCACCACAGGGCTAGAGGCCCCTCGGGACTTGGAGGCCAAGGAAGTGACCC
  CCCGCACCGCCCTGCTCACTTGGACTGAGCCCCCAGTCCGGCCCGCAGGCTACCTGCTCAGCTTCCACAC
  CCCTGGTGGACAGAACCAGGAGATCCTGCTCCCAGGAGGGATCACATCTCACCAGCTCCTTGGCCTCTTT
  CCCTCCACCTCCTACAATGCACGGCTCCAGGCCATGTGGGGCCAGAGCCTCCTGCCGCCCGTGTCCACCT
  CTTTCACCACGGGTGGGCTGCGGATCCCCTTCCCCAGGGACTGCGGGGAGGAGATGCAGAACGGAGCCGG
  TGCCTCCAGGACCAGCACCATCTTCCTCAACGGCAACCGCGAGCGGCCCCTGAACGTGTTTTGCGACATG
  GAGACTGATGGGGGCGGCTGGCTGGTGTTCCAGCGCCGCATGGATGGACAGACAGACTTCTGGAGGGACT
  GGGAGGACTATGCCCATGGTTTTGGGAACATCTCTGGAGAGTTCTGGCTGGGCAATGAGGCCCTGCACAG
  CCTGACACAGGCAGGTGACTACTCCATGCGCGTGGACCTGCGGGCTGGGGACGAGGCTGTGTTCGCCCAG
  TACGACTCCTTCCACGTAGACTCGGCTGCGGAGTACTACCGCCTCCACTTGGAGGGCTACCACGGCACCG
  CAGGGGACTCCATGAGCTACCACAGCGGCAGTGTCTTCTCTGCCCGTGATCGGGACCCCAACAGCTTGCT
  CATCTCCTGCGCTGTCTCCTACCGAGGGGCCTGGTGGTACAGGAACTGCCACTACGCCAACCTCAACGGG
  CTCTACGGGAGCACAGTGGACCATCAGGGAGTGAGCTGGTACCACTGGAAGGGCTTCGAGTTCTCGGTGC
  CCTTCACGGAAATGAAGCTGAGACCAAGAAACTTTCGCTCCCCAGCGGGGGGAGGC
  
  ACGCGTACGCGGCCGCTCGAG - GFP Tag - GTTTAA
  Protein Sequence

  >RG215706 representing NM_019105
  Red=Cloning site Green=Tags(s)
  
  MMPAQYALTSSLVLLVLLSTARAGPFSSRSNVTLPAPRPPPQPGGHTVGAGVGSPSSQLYEHTVEGGEKQ
  VVFTHRINLPPSTGCGCPPGTEPPVLASEVQALRVRLEILEELVKGLKEQCTGGCCPASAQAGTGQTDVR
  TLCSLHGVFDLSRCTCSCEPGWGGPTCSDPTDAEIPPSSPPSASGSCPDDCNDQGRCVRGRCVCFPGYTG
  PSCGWPSCPGDCQGRGRCVQGVCVCRAGFSGPDCSQRSCPRGCSQRGRCEGGRCVCDPGYTGDDCGMRSC
  PRGCSQRGRCENGRCVCNPGYTGEDCGVRSCPRGCSQRGRCKDGRCVCDPGYTGEDCGTRSCPWDCGEGG
  RCVDGRCVCWPGYTGEDCSTRTCPRDCRGRGRCEDGECICDTGYSGDDCGVRSCPGDCNQRGRCEDGRCV
  CWPGYTGTDCGSRACPRDCRGRGRCENGVCVCNAGYSGEDCGVRSCPGDCRGRGRCESGRCMCWPGYTGR
  DCGTRACPGDCRGRGRCVDGRCVCNPGFTGEDCGSRRCPGDCRGHGLCEDGVCVCDAGYSGEDCSTRSCP
  GGCRGRGQCLDGRCVCEDGYSGEDCGVRQCPNDCSQHGVCQDGVCICWEGYVSEDCSIRTCPSNCHGRGR
  CEEGRCLCDPGYTGPTCATRMCPADCRGRGRCVQGVCLCHVGYGGEDCGQEEPPASACPGGCGPRELCRA
  GQCVCVEGFRGPDCAIQTCPGDCRGRGECHDGSCVCKDGYAGEDCGEEVPTIEGMRMHLLEETTVRTEWT
  PAPGPVDAYEIQFIPTTEGASPPFTARVPSSASAYDQRGLAPGQEYQVTVRALRGTSWGLPASKTITTMI
  DGPQDLRVVAVTPTTLELGWLRPQAEVDRFVVSYVSAGNQRVRLEVPPEADGTLLTDLMPGVEYVVTVTA
  ERGRAVSYPASVRANTGSSPLGLLGTTDEPPPSGPSTTQGAQAPLLQQRPQELGELRVLGRDETGRLRVV
  WTAQPDTFAYFQLRMRVPEGPGAHEEVLPGDVRQALVPPPPPGTPYELSLHGVPPGGKPSDPIIYQGIMD
  KDEEKPGKSSGPPRLGELTVTDRTSDSLLLRWTVPEGEFDSFVIQYKDRDGQPQVVPVEGPQRSAVITSL
  DPGRKYKFVLYGFVGKKRHGPLVAEAKILPQSDPSPGTPPHLGNLWVTDPTPDSLHLSWTVPEGQFDTFM
  VQYRDRDGRPQVVPVEGPERSFVVSSLDPDHKYRFTLFGIANKKRYGPLTADGTTAPERKEEPPRPEFLE
  QPLLGELTVTGVTPDSLRLSWTVAQGPFDSFMVQYKDAQGQPQAVPVAGDENEVTVPGLDPDRKYKMNLY
  GLRGRQRVGPESVVAKTAPQEDVDETPSPTELGTEAPESPEEPLLGELTVTGSSPDSLSLFWTVPQGSFD
  SFTVQYKDRDGRPRAVRVGGKESEVTVGGLEPGHKYKMHLYGLHEGQRVGPVSAVGVTAPQQEETPPATE
  SPLEPRLGELTVTDVTPNSVGLSWTVPEGQFDSFIVQYKDKDGQPQVVPVAADQREVTVYNLEPERKYKM
  NMYGLHDGQRMGPLSVVIVTAPLPPAPATEASKPPLEPRLGELTVTDITPDSVGLSWTVPEGEFDSFVVQ
  YKDRDGQPQVVPVAADQREVTIPDLEPSRKYKFLLFGIQDGKRRSPVSVEAKTVARGDASPGAPPRLGEL
  WVTDPTPDSLRLSWTVPEGQFDSFVVQFKDKDGPQVVPVEGHERSVTVTPLDAGRKYRFLLYGLLGKKRH
  GPLTADGTTEARSAMDDTGTKRPPKPRLGEELQVTTVTQNSVGLSWTVPEGQFDSFVVQYKDRDGQPQVV
  PVEGSLREVSVPGLDPAHRYKLLLYGLHHGKRVGPISAVAITAGREETETETTAPTPPAPEPHLGELTVE
  EATSHTLHLSWMVTEGEFDSFEIQYTDRDGQLQMVRIGGDRNDITLSGLESDHRYLVTLYGFSDGKHVGP
  VHVEALTVPEEEKPSEPPTATPEPPIKPRLGELTVTDATPDSLSLSWTVPEGQFDHFLVQYRNGDGQPKA
  VRVPGHEEGVTISGLEPDHKYKMNLYGFHGGQRMGPVSVVGVTAAEEETPSPTEPSMEAPEPAEEPLLGE
  LTVTGSSPDSLSLSWTVPQGRFDSFTVQYKDRDGRPQVVRVGGEESEVTVGGLEPGRKYKMHLYGLHEGR
  RVGPVSAVGVTAPEEESPDAPLAKLRLGQMTVRDITSDSLSLSWTVPEGQFDHFLVQFKNGDGQPKAVRV
  PGHEDGVTISGLEPDHKYKMNLYGFHGGQRVGPVSAVGLTAPGKDEEMAPASTEPPTPEPPIKPRLEELT
  VTDATPDSLSLSWTVPEGQFDHFLVQYKNGDGQPKATRVPGHEDRVTISGLEPDNKYKMNLYGFHGGQRV
  GPVSAIGVTAAEEETPSPTEPSMEAPEPPEEPLLGELTVTGSSPDSLSLSWTVPQGRFDSFTVQYKDRDG
  RPQVVRVGGEESEVTVGGLEPGRKYKMHLYGLHEGRRVGPVSTVGVTAPQEDVDETPSPTEPGTEAPGPP
  EEPLLGELTVTGSSPDSLSLSWTVPQGRFDSFTVQYKDRDGRPQAVRVGGQESKVTVRGLEPGRKYKMHL
  YGLHEGRRLGPVSAVGVTEDEAETTQAVPTMTPEPPIKPRLGELTMTDATPDSLSLSWTVPEGQFDHFLV
  QYRNGDGQPKAVRVPGHEDGVTISGLEPDHKYKMNLYGFHGGQRVGPISVIGVTAAEEETPSPTELSTEA
  PEPPEEPLLGELTVTGSSPDSLSLSWTIPQGHFDSFTVQYKDRDGRPQVMRVRGEESEVTVGGLEPGRKY
  KMHLYGLHEGRRVGPVSTVGVTEDEAETTQAVPTTTPEPPNKPRLGELTVTDATPDSLSLSWMVPEGQFD
  HFLVQYRNGDGQPKVVRVPGHEDGVTISGLEPDHKYKMNLYGFHGGQRVGPISVIGVTAAEEETPAPTEP
  STEAPEPPEEPLLGELTVTGSSPDSLSLSWTIPQGRFDSFTVQYKDRDGRPQVVRVRGEESEVTVGGLEP
  GCKYKMHLYGLHEGQRVGPVSAVGVTAPKDEAETTQAVPTMTPEPPIKPRLGELTVTDATPDSLSLSWMV
  PEGQFDHFLVQYRNGDGQPKAVRVPGHEDGVTISGLEPDHKYKMNLYGFHGGQRVGPVSAIGVTEEETPS
  PTEPSTEAPEAPEEPLLGELTVTGSSPDSLSLSWTVPQGRFDSFTVQYKDRDGQPQVVRVRGEESEVTVG
  GLEPGRKYKMHLYGLHEGQRVGPVSTVGITAPLPTPLPVEPRLGELAVAAVTSDSVGLSWTVAQGPFDSF
  LVQYRDAQGQPQAVPVSGDLRAVAVSGLDPARKYKFLLFGLQNGKRHGPVPVEARTAPDTKPSPRLGELT
  VTDATPDSVGLSWTVPEGEFDSFVVQYKDKDGRLQVVPVAANQREVTVQGLEPSRKYRFLLYGLSGRKRL
  GPISADSTTAPLEKELPPHLGELTVAEETSSSLRLSWTVAQGPFDSFVVQYRDTDGQPRAVPVAADQRTV
  TVEDLEPGKKYKFLLYGLLGGKRLGPVSALGMTAPEEDTPAPELAPEAPEPPEEPRLGVLTVTDTTPDSM
  RLSWSVAQGPFDSFVVQYEDTNGQPQALLVDGDQSKILISGLEPSTPYRFLLYGLHEGKRLGPLSAEGTT
  GLAPAGQTSEESRPRLSQLSVTDVTTSSLRLNWEAPPGAFDSFLLRFGVPSPSTLEPHPRPLLQRELMVP
  GTRHSAVLRDLRSGTLYSLTLYGLRGPHKADSIQGTARTLSPVLESPRDLQFSEIRETSAKVNWMPPPSR
  ADSFKVSYQLADGGEPQSVQVDGQARTQKLQGLIPGARYEVTVVSVRGFEESEPLTGFLTTVPDGPTQLR
  ALNLTEGFAVLHWKPPQNPVDTYDVQVTAPGAPPLQAETPGSAVDYPLHDLVLHTNYTATVRGLRGPNLT
  SPASITFTTGLEAPRDLEAKEVTPRTALLTWTEPPVRPAGYLLSFHTPGGQNQEILLPGGITSHQLLGLF
  PSTSYNARLQAMWGQSLLPPVSTSFTTGGLRIPFPRDCGEEMQNGAGASRTSTIFLNGNRERPLNVFCDM
  ETDGGGWLVFQRRMDGQTDFWRDWEDYAHGFGNISGEFWLGNEALHSLTQAGDYSMRVDLRAGDEAVFAQ
  YDSFHVDSAAEYYRLHLEGYHGTAGDSMSYHSGSVFSARDRDPNSLLISCAVSYRGAWWYRNCHYANLNG
  LYGSTVDHQGVSWYHWKGFEFSVPFTEMKLRPRNFRSPAGGG
  
  TRTRPLE - GFP Tag - V
• Restriction Sites: SgfI-MluI Cloning Scheme for this gene Plasmid Map
• ACCN: NM_019105
• ORF Size: 12726 bp
• OTI Disclaimer: Due to the inherent nature of this plasmid, standard methods to replicate additional amounts of DNA in E. coli are highly likely to result in mutations and/or rearrangements. Therefore, OriGene does not guarantee the capability to replicate this plasmid DNA. Additional amounts of DNA can be purchased from OriGene with batch-specific, full-sequence verification at a reduced cost. Please contact our customer care team at custsupport@origene.com or by calling 301.340.3188 option 3 for pricing and delivery.
  
  The molecular sequence of this clone aligns with the gene accession number as a point of reference only. However, individual transcript sequences of the same gene can differ through naturally occurring variations (e.g. polymorphisms), each with its own valid existence. This clone is substantially in agreement with the reference, but a complete review of all prevailing variants is recommended prior to use. More info
• OTI Annotation: This clone was engineered to express the complete ORF with an expression tag. Expression varies depending on the nature of the gene.
• Product Components: The ORF clone is ion-exchange column purified, transfection-ready dried plasmid DNA, and shipped with 2 vector sequencing primers.
• Reconstitution: 1. Centrifuge at 5,000xg for 5min.
  2. Carefully open the tube and add 100ul of sterile water to dissolve the DNA.
  3. Close the tube and incubate for 10 minutes at room temperature.
  4. Briefly vortex the tube and then do a quick spin (less than 5000xg) to concentrate the liquid at the bottom.
  5. Store the suspended plasmid at -20°C. The DNA is stable for at least one year from date of shipping when stored at -20°C.

Reference Data

• RefSeq: NM_019105.6, NP_061978.6
• RefSeq Size: 13143 bp
• RefSeq ORF: 12729 bp
• Locus ID: 7148
• Cytogenetics: 6p21.33-p21.32
• Protein Families: Druggable Genome, Secreted Protein
• Protein Pathways: ECM-receptor interaction, Focal adhesion
• Gene Summary: 'This gene encodes a member of the tenascin family of extracellular matrix glycoproteins. The tenascins have anti-adhesive effects, as opposed to fibronectin which is adhesive. This protein is thought to function in matrix maturation during wound healing, and its deficiency has been associated with the connective tissue disorder Ehlers-Danlos syndrome. This gene localizes to the major histocompatibility complex (MHC) class III region on chromosome 6. It is one of four genes in this cluster which have been duplicated. The duplicated copy of this gene is incomplete and is a pseudogene which is transcribed but does not encode a protein. The structure of this gene is unusual in that it overlaps the CREBL1 and CYP21A2 genes at its 5' and 3' ends, respectively. Multiple transcript variants encoding different isoforms have been found for this gene. [provided by RefSeq, Jul 2008]'