TNXB (NM_019105) Human Untagged Clone
CAT#: SC304673
TNXB (untagged)-Human tenascin XB (TNXB), transcript variant XB
"NM_019105" in other vectors (2)
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Other products for "TNXB"
Specifications
Product Data | |
Type | Human Untagged Clone |
Tag | Tag Free |
Symbol | TNXB |
Synonyms | EDS3; EDSCLL; EDSCLL1; HXBL; TENX; TN-X; TNX; TNXB1; TNXB2; TNXBS; VUR8; XB; XBS |
Vector | pCMV6 series |
Sequence Data |
>NCBI ORF sequence for NM_019105, the custom clone sequence may differ by one or more nucleotides
ATGATGCCAGCCCAGTATGCTCTAACCTCCAGCCTGGTTCTCCTGGTGCTGCTGAGCACA GCCAGAGCAGGCCCCTTCTCTTCACGGTCCAATGTGACACTGCCAGCCCCCCGGCCCCCT CCCCAGCCAGGGGGCCACACAGTGGGGGCTGGAGTGGGAAGCCCCTCTTCTCAGCTTTAC GAGCACACAGTGGAAGGAGGGGAGAAGCAGGTGGTATTCACCCACCGCATTAACCTGCCC CCTTCCACTGGCTGTGGCTGTCCCCCAGGCACCGAGCCCCCAGTCCTTGCTTCAGAGGTA CAGGCCCTGAGGGTCCGTCTAGAGATCCTGGAGGAGTTGGTGAAGGGGCTCAAGGAACAG TGCACTGGGGGATGTTGTCCTGCCTCTGCCCAAGCTGGCACAGGTCAGACAGATGTGCGG ACCCTCTGCAGTCTCCATGGTGTGTTTGATCTGAGCCGCTGCACCTGTTCCTGTGAGCCA GGCTGGGGTGGGCCCACCTGCTCAGACCCCACAGATGCTGAGATCCCTCCCTCTTCCCCA CCCTCAGCCTCGGGGTCCTGCCCAGATGACTGCAATGATCAGGGTCGCTGTGTCCGTGGT CGTTGCGTGTGCTTTCCCGGCTACACTGGCCCCAGCTGTGGCTGGCCATCCTGTCCCGGG GACTGCCAAGGCCGTGGGCGCTGCGTGCAGGGCGTGTGTGTGTGCCGGGCAGGCTTCTCA GGCCCCGACTGCAGCCAGCGCTCCTGCCCTCGAGGTTGCAGCCAGAGGGGACGCTGTGAG GGTGGGCGCTGCGTGTGTGACCCAGGCTACACTGGTGACGACTGTGGCATGAGGAGCTGC CCTCGCGGTTGCAGTCAGAGGGGGCGCTGTGAGAATGGGCGCTGCGTGTGTAACCCCGGC TACACTGGCGAGGACTGTGGGGTGAGGAGCTGCCCTCGGGGCTGCAGCCAGCGGGGACGC TGCAAGGACGGGCGCTGCGTGTGTGACCCCGGCTACACTGGCGAGGACTGTGGTACGCGG AGCTGCCCCTGGGACTGTGGCGAGGGCGGGCGCTGCGTGGACGGCCGCTGCGTGTGCTGG CCCGGGTACACAGGCGAGGACTGCAGCACGCGGACATGTCCGAGGGACTGCCGGGGCCGC GGGCGCTGCGAGGACGGCGAATGCATTTGCGACACGGGCTACAGCGGGGACGACTGCGGC GTGCGCAGCTGCCCTGGCGACTGCAACCAAAGGGGCCGCTGCGAGGACGGCCGCTGCGTG TGCTGGCCGGGGTACACTGGAACCGATTGCGGCTCGCGCGCCTGCCCACGCGACTGTAGA GGTCGCGGGCGCTGCGAGAACGGCGTGTGTGTTTGCAATGCGGGCTACAGCGGCGAGGAC TGCGGTGTGCGCAGCTGTCCTGGGGACTGTCGTGGCCGGGGCCGCTGTGAGAGTGGCCGC TGCATGTGTTGGCCGGGGTACACAGGCCGGGACTGCGGCACGCGCGCCTGTCCTGGCGAC TGTCGCGGGCGCGGGCGCTGCGTGGATGGCCGCTGCGTGTGCAACCCGGGCTTCACCGGT GAGGACTGTGGGAGCCGTCGCTGTCCCGGGGACTGCCGTGGGCACGGCCTTTGCGAGGAT GGCGTGTGCGTGTGTGACGCAGGCTACTCAGGGGAAGACTGCAGCACGCGCAGCTGCCCC GGGGGCTGCCGAGGCCGCGGCCAGTGCCTAGATGGGCGGTGTGTGTGCGAGGACGGCTAC TCTGGCGAGGATTGCGGTGTGAGGCAGTGCCCGAATGACTGCAGCCAGCACGGCGTGTGC CAGGACGGTGTGTGCATCTGTTGGGAAGGCTACGTGAGTGAGGACTGCAGCATCCGCACC TGCCCCTCCAACTGCCACGGGAGGGGCCGCTGTGAGGAAGGGCGCTGCCTGTGCGACCCA GGCTACACCGGCCCTACCTGTGCCACCCGCATGTGCCCGGCTGACTGCCGGGGACGTGGG CGGTGTGTGCAAGGAGTGTGCCTGTGCCACGTGGGCTATGGCGGTGAGGACTGCGGGCAG GAAGAGCCTCCAGCCAGCGCCTGCCCTGGAGGCTGCGGGCCCCGGGAACTGTGCCGGGCA GGCCAGTGTGTGTGTGTAGAGGGCTTCCGAGGCCCTGACTGTGCCATCCAGACATGCCCA GGGGACTGCCGTGGCCGAGGAGAGTGTCACGATGGCAGCTGTGTCTGCAAAGATGGGTAT GCTGGCGAAGACTGCGGAGAAGAGGTGCCAACCATTGAGGGCATGAGGATGCATCTCTTG GAGGAGACAACAGTTCGGACAGAGTGGACCCCGGCTCCTGGCCCCGTGGATGCCTATGAA ATTCAGTTCATCCCCACGACAGAGGGGGCGAGCCCCCCATTCACAGCACGGGTTCCAAGC TCTGCCTCAGCCTATGACCAGAGAGGACTGGCCCCTGGACAGGAGTACCAGGTCACTGTC CGAGCCCTTCGAGGGACCAGCTGGGGCCTTCCTGCCTCCAAGACCATCACCACCATGATC GATGGGCCCCAGGACCTCCGAGTGGTGGCTGTGACACCGACAACACTGGAGCTTGGCTGG CTGCGTCCCCAGGCTGAGGTGGACCGATTTGTGGTGTCCTACGTCAGTGCCGGCAACCAG AGGGTGAGGCTGGAAGTGCCCCCTGAAGCAGACGGGACGCTGCTGACTGACCTGATGCCA GGCGTAGAATATGTGGTGACTGTCACAGCGGAGCGGGGCCGGGCAGTCAGCTACCCAGCT TCTGTCAGGGCCAACACAGGGTCCTCACCCTTGGGCCTCTTGGGGACTACCGATGAGCCT CCTCCCTCAGGCCCCTCGACGACGCAAGGGGCCCAGGCTCCTCTCCTGCAGCAGCGCCCC CAGGAGCTGGGAGAGTTGAGGGTGCTGGGCAGAGATGAGACAGGGCGCCTCCGTGTGGTC TGGACCGCCCAGCCTGACACCTTTGCCTACTTCCAACTGCGCATGCGGGTGCCCGAGGGG CCGGGGGCACATGAGGAAGTGCTGCCAGGGGACGTCCGCCAGGCTCTGGTGCCTCCACCC CCTCCTGGAACCCCGTATGAGCTGTCACTTCATGGGGTCCCTCCTGGGGGCAAGCCCTCT GACCCCATCATCTACCAAGGCATTATGGACAAGGATGAGGAGAAGCCTGGGAAGTCCTCA GGCCCACCACGCCTGGGTGAGCTGACGGTGACAGACAGGACCTCCGACTCCTTGCTCCTG CGCTGGACGGTCCCCGAGGGCGAGTTTGACTCCTTCGTGATCCAGTACAAAGACAGGGAC GGGCAGCCCCAGGTGGTGCCCGTGGAAGGACCCCAGCGCTCGGCCGTCATCACCTCCCTG GATCCTGGCCGCAAGTACAAATTTGTCCTGTATGGGTTTGTTGGCAAGAAGAGGCATGGT CCGCTGGTGGCTGAAGCCAAGATCTTGCCTCAGAGTGACCCAAGTCCAGGGACTCCACCC CACCTGGGAAACCTGTGGGTGACAGACCCTACCCCAGATTCACTGCACCTCTCCTGGACT GTCCCTGAGGGCCAGTTTGACACCTTCATGGTCCAGTACAGGGACAGGGATGGACGGCCC CAGGTGGTACCTGTGGAAGGGCCCGAGCGTTCATTTGTTGTCTCCTCACTGGACCCTGAC CACAAGTACAGATTCACTCTGTTTGGAATTGCGAACAAGAAGCGGTATGGCCCCCTCACG GCCGATGGCACCACTGCTCCAGAGAGGAAAGAGGAGCCCCCCCGCCCTGAGTTCCTGGAG CAGCCCCTCCTGGGGGAACTGACAGTGACCGGCGTGACCCCAGACTCCTTGCGTCTCTCA TGGACAGTGGCCCAGGGCCCCTTCGACTCATTCATGGTCCAGTACAAGGATGCACAGGGG CAGCCCCAGGCAGTGCCTGTTGCGGGGGATGAGAATGAGGTTACTGTCCCCGGCCTGGAT CCCGACCGGAAGTATAAGATGAACCTCTACGGGCTTCGTGGCAGGCAGCGTGTGGGGCCC GAGTCTGTGGTGGCCAAGACTGCTCCTCAGGAGGATGTGGACGAGACCCCCAGCCCCACA GAACTGGGCACGGAGGCCCCGGAGTCCCCCGAGGAGCCGCTCCTGGGGGAGCTGACAGTG ACAGGATCCTCCCCTGATTCGCTGAGCCTCTTCTGGACCGTCCCCCAGGGCAGCTTCGAC TCTTTCACCGTGCAGTACAAGGACAGGGATGGGCGGCCCCGGGCGGTGCGTGTTGGGGGC AAGGAGAGTGAGGTCACCGTGGGAGGCCTAGAGCCCGGGCACAAGTACAAGATGCACCTG TACGGCCTCCACGAGGGGCAGCGCGTGGGCCCGGTGTCCGCCGTGGGCGTGACAGCCCCA CAACAAGAAGAGACCCCTCCAGCCACTGAGTCCCCGCTGGAGCCACGCCTAGGAGAGCTG ACAGTGACAGATGTGACCCCCAACTCTGTGGGCCTCTCCTGGACAGTCCCCGAGGGCCAG TTTGACTCCTTCATAGTCCAGTACAAGGACAAGGACGGGCAGCCCCAGGTGGTGCCGGTG GCGGCAGACCAGCGAGAGGTCACAGTCTACAACCTGGAGCCTGAGAGAAAATATAAGATG AACATGTATGGACTACATGATGGGCAACGCATGGGCCCCCTGTCTGTGGTCATCGTGACG GCTCCCCTCCCACCAGCCCCAGCCACAGAGGCCTCCAAGCCTCCCCTGGAGCCACGCCTA GGGGAGCTGACAGTGACGGATATAACCCCTGACTCTGTGGGCCTCTCATGGACAGTCCCT GAGGGTGAATTCGACTCCTTTGTGGTTCAGTACAAGGACAGGGACGGGCAGCCCCAGGTG GTGCCCGTGGCTGCAGATCAGCGGGAGGTCACTATCCCTGACCTGGAACCCTCCCGCAAG TACAAGTTCCTGCTCTTTGGGATCCAGGATGGGAAACGACGCAGCCCAGTCTCTGTGGAG GCAAAGACGGTTGCCCGAGGTGACGCCAGCCCAGGGGCCCCACCCCGCCTTGGGGAGCTG TGGGTGACAGACCCCACCCCAGACTCACTGCGCCTCTCCTGGACGGTTCCTGAGGGCCAG TTCGACTCTTTTGTGGTCCAGTTCAAGGACAAAGACGGGCCCCAGGTGGTGCCCGTGGAG GGCCATGAGCGCTCTGTCACTGTCACCCCTCTGGATGCCGGCCGCAAGTACAGATTCCTC CTCTATGGCCTCCTGGGCAAGAAGCGCCATGGCCCTCTCACTGCCGACGGCACCACGGAA GCCCGGAGTGCTATGGATGATACTGGAACAAAGCGTCCCCCAAAACCCCGTCTGGGGGAG GAGCTGCAGGTGACCACCGTGACCCAGAACTCCGTGGGCCTCTCCTGGACAGTCCCTGAG GGCCAGTTTGACTCCTTTGTGGTCCAGTACAAAGACAGGGACGGGCAGCCCCAGGTGGTG CCCGTGGAGGGCAGCCTCAGGGAGGTCAGCGTGCCGGGCCTGGACCCTGCCCACAGGTAC AAGCTGCTGCTCTACGGGCTGCACCACGGCAAGCGTGTGGGCCCCATCTCGGCCGTCGCC ATTACTGCCGGCAGGGAAGAAACGGAAACTGAGACCACGGCCCCGACCCCTCCAGCGCCT GAGCCCCACCTCGGGGAGTTGACAGTGGAGGAGGCCACGTCACACACCCTGCATCTCTCC TGGATGGTGACTGAGGGAGAATTTGACTCCTTCGAAATCCAGTACACAGATAGAGACGGG CAACTCCAAATGGTCCGCATAGGAGGTGACCGGAATGACATCACCCTCTCTGGCCTGGAA TCCGACCACAGATACCTGGTGACCCTGTATGGTTTCAGTGATGGGAAGCATGTAGGTCCT GTCCATGTCGAGGCCCTGACAGTCCCGGAGGAGGAGAAGCCTTCAGAACCTCCCACCGCA ACCCCCGAGCCCCCCATCAAGCCTCGCCTGGGGGAGCTGACCGTGACAGATGCCACCCCT GACTCCCTCAGCCTGTCCTGGACAGTTCCCGAGGGACAGTTTGACCACTTCCTGGTCCAG TACAGGAATGGAGATGGGCAGCCCAAGGCAGTGAGGGTGCCAGGGCACGAGGAAGGGGTC ACCATCTCGGGCCTGGAGCCAGACCATAAATACAAGATGAACCTGTACGGCTTCCACGGT GGCCAGCGCATGGGCCCTGTGTCTGTCGTCGGGGTGACAGCTGCAGAGGAAGAGACCCCC AGCCCCACAGAACCCAGCATGGAGGCCCCGGAGCCCGCTGAGGAGCCGCTCCTGGGGGAG CTAACAGTGACAGGATCCTCCCCTGACTCGCTGAGCCTCTCCTGGACCGTCCCCCAGGGC CGCTTCGACTCCTTCACCGTGCAGTACAAGGACAGGGACGGGCGGCCCCAGGTGGTGCGT GTTGGGGGCGAGGAGAGTGAAGTCACCGTGGGGGGCCTGGAGCCTGGGCGCAAGTACAAG ATGCACCTGTACGGCCTCCACGAGGGGCGGCGCGTGGGCCCAGTGTCTGCTGTGGGCGTC ACGGCCCCCGAAGAGGAGTCCCCTGATGCTCCTCTTGCAAAGCTGCGCCTAGGGCAGATG ACAGTGAGAGACATCACCTCCGACTCCCTCAGCCTCTCCTGGACAGTCCCCGAGGGCCAG TTTGACCATTTCTTGGTCCAGTTTAAGAATGGGGACGGGCAGCCCAAGGCGGTGCGGGTG CCGGGACACGAGGATGGGGTCACCATCTCGGGCCTGGAGCCAGACCACAAGTACAAGATG AACCTGTACGGCTTCCACGGTGGCCAGCGCGTGGGCCCCGTGTCTGCTGTTGGTTTAACT GCCCCAGGAAAGGATGAAGAAATGGCCCCAGCCTCGACAGAACCTCCCACCCCTGAACCC CCCATCAAGCCTCGCCTGGAGGAGCTGACCGTGACAGATGCGACCCCTGACTCCCTCAGC CTGTCCTGGACGGTTCCCGAGGGACAGTTTGACCACTTCCTGGTCCAGTACAAGAATGGG GATGGGCAGCCCAAGGCAACACGGGTGCCAGGACATGAGGACAGGGTCACCATCTCCGGC CTGGAGCCAGACAACAAGTACAAGATGAACCTGTACGGCTTCCACGGTGGCCAGCGTGTG GGCCCCGTGTCTGCCATCGGGGTGACAGCTGCAGAGGAAGAGACCCCCAGCCCCACAGAA CCCAGCATGGAGGCCCCGGAGCCCCCTGAGGAGCCGCTCCTGGGGGAGCTAACAGTGACA GGATCCTCCCCTGACTCGCTGAGCCTCTCCTGGACCGTCCCCCAGGGCCGCTTCGACTCC TTCACCGTGCAGTACAAGGACAGGGACGGGCGGCCCCAGGTGGTGCGTGTTGGGGGCGAG GAGAGCGAGGTCACCGTGGGGGGCCTGGAGCCTGGGCGCAAATACAAGATGCACCTGTAT GGCCTCCACGAGGGGCGGCGCGTGGGCCCGGTGTCCACCGTGGGCGTGACTGCCCCACAA GAGGATGTGGACGAGACCCCCAGCCCTACAGAACCAGGCACAGAGGCCCCAGGGCCCCCC GAGGAGCCTCTCCTGGGGGAGCTGACAGTGACAGGATCCTCCCCTGACTCGCTGAGCCTT TCCTGGACCGTCCCCCAGGGCCGCTTTGACTCCTTCACCGTGCAGTACAAGGACAGGGAC GGGCGGCCCCAGGCGGTGCGTGTTGGGGGCCAGGAGAGCAAGGTCACTGTGAGGGGCCTG GAGCCTGGGCGCAAGTACAAGATGCACCTGTACGGCCTCCACGAGGGGCGGCGCCTGGGC CCGGTGTCTGCCGTGGGCGTCACAGAGGATGAAGCCGAGACCACCCAAGCAGTGCCTACC ATGACCCCTGAGCCCCCCATCAAGCCTCGCCTGGGGGAGCTGACCATGACAGATGCCACC CCTGACTCCCTCAGCCTGTCCTGGACGGTTCCCGAGGGCCAGTTTGACCACTTCCTGGTC CAGTACAGGAATGGGGATGGGCAGCCCAAGGCGGTGCGGGTGCCGGGGCACGAGGACGGG GTCACCATCTCAGGCCTGGAGCCAGACCATAAATACAAGATGAACCTGTACGGCTTCCAC GGTGGCCAGCGCGTGGGCCCCATCTCTGTCATTGGGGTGACGGCTGCAGAGGAAGAGACC CCCAGCCCCACGGAACTCAGCACTGAGGCCCCGGAGCCCCCTGAGGAGCCGCTCCTGGGG GAGCTGACAGTGACAGGATCCTCCCCTGACTCGCTGAGCCTCTCCTGGACCATCCCCCAG GGCCACTTCGACTCCTTCACCGTGCAGTACAAGGACAGGGACGGGCGGCCCCAGGTGATG CGTGTCAGGGGCGAGGAGAGCGAGGTCACCGTGGGGGGCCTGGAGCCCGGGCGCAAATAC AAGATGCACCTGTACGGCCTCCACGAGGGGCGGCGTGTGGGCCCGGTGTCCACCGTGGGT GTGACAGAGGATGAAGCAGAGACCACCCAAGCAGTGCCCACCACAACCCCTGAGCCCCCC AACAAGCCTCGCCTCGGGGAGCTGACCGTGACAGATGCCACCCCTGACTCCCTCAGCCTG TCCTGGATGGTCCCCGAGGGCCAGTTTGACCACTTCCTGGTCCAGTACAGGAATGGGGAT GGGCAGCCCAAGGTGGTGCGGGTGCCGGGGCACGAGGACGGGGTCACCATCTCAGGCCTG GAGCCAGACCACAAGTACAAGATGAACCTGTACGGCTTCCACGGTGGCCAGCGCGTGGGC CCCATCTCTGTCATTGGGGTGACAGCTGCAGAGGAAGAAACTCCCGCCCCCACAGAACCC AGCACGGAGGCCCCGGAGCCCCCTGAGGAGCCGCTCCTGGGGGAGCTGACAGTGACAGGA TCCTCCCCTGACTCGCTGAGCCTCTCCTGGACCATCCCCCAGGGCCGCTTCGACTCCTTC ACTGTGCAGTACAAGGACAGGGACGGGCGGCCCCAGGTGGTGCGTGTCAGGGGCGAGGAG AGCGAGGTCACCGTGGGGGGCCTGGAGCCCGGGTGCAAATACAAGATGCACCTGTACGGC CTCCACGAGGGGCAGCGCGTGGGCCCAGTGTCCGCTGTGGGTGTGACAGCTCCAAAGGAT GAAGCCGAGACCACCCAAGCAGTGCCTACCATGACCCCTGAGCCCCCCATCAAGCCTCGC CTGGGGGAGCTGACCGTGACAGATGCCACCCCCGACTCCCTCAGCCTGTCCTGGATGGTT CCCGAGGGCCAGTTTGACCACTTCCTGGTCCAGTACAGGAATGGGGATGGGCAGCCCAAG GCGGTGCGGGTGCCGGGGCACGAGGACGGGGTCACCATCTCAGGCCTGGAGCCAGACCAT AAATACAAGATGAACCTGTACGGCTTCCACGGTGGCCAGCGCGTAGGCCCTGTGTCTGCC ATTGGGGTGACGGAGGAAGAGACCCCCAGCCCCACAGAACCCAGCACTGAGGCCCCGGAG GCCCCTGAGGAGCCGCTCCTGGGGGAGTTGACAGTGACAGGATCCTCCCCTGACTCGCTG AGCCTCTCCTGGACCGTCCCCCAGGGCCGCTTCGACTCCTTCACCGTGCAGTACAAGGAC AGGGACGGGCAGCCCCAGGTGGTGCGTGTCAGGGGCGAGGAGAGCGAGGTCACCGTGGGG GGCCTGGAGCCCGGGCGCAAATACAAGATGCATCTGTACGGCCTCCACGAGGGGCAGCGC GTGGGCCCAGTGTCCACCGTGGGCATCACGGCGCCCCTGCCCACACCACTGCCGGTGGAG CCCCGCCTGGGGGAGCTGGCGGTGGCGGCCGTGACCTCGGACTCAGTGGGCCTCTCATGG ACGGTGGCCCAGGGCCCCTTTGACTCCTTCCTGGTACAGTACAGGGACGCGCAGGGGCAG CCCCAGGCAGTGCCTGTGAGCGGAGACCTCCGAGCGGTCGCCGTCTCGGGGCTGGACCCG GCCCGCAAGTACAAGTTCCTGCTCTTTGGACTCCAGAATGGGAAACGCCACGGCCCAGTC CCTGTGGAGGCCAGGACCGCCCCAGACACCAAACCGTCTCCCCGCCTGGGGGAGCTGACT GTGACAGATGCGACCCCTGACTCCGTGGGCCTCTCGTGGACGGTCCCTGAGGGCGAATTC GACTCCTTCGTGGTCCAGTACAAGGATAAGGATGGTCGGCTCCAGGTGGTGCCGGTGGCA GCCAACCAGCGGGAGGTCACAGTCCAGGGCCTGGAGCCCAGTAGGAAATACAGGTTCCTG CTCTATGGTCTGTCAGGCAGGAAACGACTGGGCCCCATCTCTGCTGACAGCACCACAGCT CCCCTGGAGAAGGAGCTACCTCCCCACCTGGGGGAACTGACCGTGGCTGAGGAGACCTCC AGCTCTCTGCGCCTGTCCTGGACGGTAGCCCAGGGCCCCTTTGACTCCTTCGTGGTCCAG TACAGGGACACGGACGGGCAGCCCAGGGCAGTGCCTGTGGCCGCAGACCAGCGCACAGTC ACCGTAGAGGACCTGGAGCCTGGCAAGAAATACAAGTTTCTGCTCTACGGGCTCCTTGGG GGAAAGCGCCTGGGCCCGGTCTCTGCCCTGGGAATGACAGCCCCAGAAGAGGACACACCA GCCCCAGAGTTAGCCCCAGAGGCCCCTGAGCCTCCTGAAGAGCCCCGCCTAGGAGTGCTG ACCGTGACCGACACAACCCCAGACTCCATGCGCCTCTCGTGGAGCGTGGCCCAGGGCCCC TTTGATTCCTTCGTGGTCCAGTATGAGGACACGAACGGGCAGCCCCAGGCCTTGCTCGTG GACGGCGACCAGAGCAAGATCCTCATCTCAGGCCTGGAGCCCAGCACCCCCTACAGGTTC CTCCTCTATGGCCTCCATGAAGGGAAGCGCCTGGGGCCCCTCTCAGCTGAGGGCACCACA GGGCTGGCTCCTGCTGGTCAGACCTCAGAGGAGTCAAGGCCCCGCCTGTCCCAGCTGTCT GTGACTGACGTGACCACCAGTTCACTGAGGCTCAACTGGGAGGCCCCACCGGGGGCCTTC GACTCCTTCCTGCTCCGCTTTGGGGTTCCATCACCAAGCACTCTGGAGCCGCATCCGCGT CCACTGCTGCAGCGCGAGCTGATGGTGCCGGGGACGCGGCACTCGGCCGTGCTCCGGGAC CTGCGTTCCGGGACTCTGTACAGCCTGACACTGTATGGGCTGCGAGGACCCCACAAGGCC GACAGCATCCAGGGAACCGCCCGCACCCTCAGCCCAGTTCTGGAGAGCCCCCGTGACCTC CAATTCAGTGAAATCAGGGAGACCTCAGCCAAGGTCAACTGGATGCCCCCACCATCCCGG GCGGACAGCTTCAAAGTCTCCTACCAGCTGGCGGACGGAGGGGAGCCTCAGAGTGTGCAG GTGGATGGCCAGGCCCGGACCCAGAAACTCCAGGGGCTGATCCCAGGCGCTCGCTATGAG GTGACCGTGGTCTCGGTCCGAGGCTTTGAGGAGAGTGAGCCTCTCACAGGCTTCCTCACC ACGGTTCCTGACGGTCCCACACAGTTGCGTGCACTGAACTTGACCGAGGGATTCGCCGTG CTGCACTGGAAGCCCCCCCAGAATCCTGTGGACACCTATGACGTCCAGGTCACAGCCCCT GGGGCCCCGCCTCTGCAGGCGGAGACCCCAGGCAGCGCGGTGGACTACCCCCTGCATGAC CTTGTCCTCCACACCAACTACACCGCCACAGTGCGTGGCCTGCGGGGCCCCAACCTCACT TCCCCAGCCAGCATCACCTTCACCACAGGGCTAGAGGCCCCTCGGGACTTGGAGGCCAAG GAAGTGACCCCCCGCACCGCCCTGCTCACTTGGACTGAGCCCCCAGTCCGGCCCGCAGGC TACCTGCTCAGCTTCCACACCCCTGGTGGACAGAACCAGGAGATCCTGCTCCCAGGAGGG ATCACATCTCACCAGCTCCTTGGCCTCTTTCCCTCCACCTCCTACAATGCACGGCTCCAG GCCATGTGGGGCCAGAGCCTCCTGCCGCCCGTGTCCACCTCTTTCACCACGGGTGGGCTG CGGATCCCCTTCCCCAGGGACTGCGGGGAGGAGATGCAGAACGGAGCCGGTGCCTCCAGG ACCAGCACCATCTTCCTCAACGGCAACCGCGAGCGGCCCCTGAACGTGTTTTGCGACATG GAGACTGATGGGGGCGGCTGGCTGGTGTTCCAGCGCCGCATGGATGGACAGACAGACTTC TGGAGGGACTGGGAGGACTATGCCCATGGTTTTGGGAACATCTCTGGAGAGTTCTGGCTG GGCAATGAGGCCCTGCACAGCCTGACACAGGCAGGTGACTACTCCATGCGCGTGGACCTG CGGGCTGGGGACGAGGCTGTGTTCGCCCAGTACGACTCCTTCCACGTAGACTCGGCTGCG GAGTACTACCGCCTCCACTTGGAGGGCTACCACGGCACCGCAGGGGACTCCATGAGCTAC CACAGCGGCAGTGTCTTCTCTGCCCGTGATCGGGACCCCAACAGCTTGCTCATCTCCTGC GCTGTCTCCTACCGAGGGGCCTGGTGGTACAGGAACTGCCACTACGCCAACCTCAACGGG CTCTACGGGAGCACAGTGGACCATCAGGGAGTGAGCTGGTACCACTGGAAGGGCTTCGAG TTCTCGGTGCCCTTCACGGAAATGAAGCTGAGACCAAGAAACTTTCGCTCCCCAGCGGGG GGAGGCTGA |
Restriction Sites | Please inquire |
ACCN | NM_019105 |
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. 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. |
Product Components | The cDNA clone is shipped in a 2-D bar-coded Matrix tube as dried plasmid DNA. The package also includes 100 pmols of both the corresponding 5' and 3' vector primers in separate vials. Every lot of primer is tested to provide clean sequencing of OriGene TrueClones. |
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_019105.5, NP_061978.5 |
RefSeq Size | 13268 bp |
RefSeq ORF | 13143 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]' Transcript Variant: This variant (XB) uses an alternate in-frame splice junction compared to variant 3. The resulting isoform (1) has the same N- and C-termini but is shorter compared to isoform 3. It should be noted that the exon combination of this variant lacks full-length transcript support in human; it is predicted based on a combination of partial human and homologous transcript alignments. Sequence Note: The RefSeq transcript and protein were derived from genomic sequence to make the sequence consistent with the reference genome assembly. The genomic coordinates used for the transcript record were based on transcript alignments. |
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