Collagen VI (COL6A3) (NM_004369) Human Untagged Clone
CAT#: SC303473
COL6A3 (untagged)-Human collagen, type VI, alpha 3 (COL6A3), transcript variant 1
"NM_004369" in other vectors (2)
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Specifications
Product Data | |
Type | Human Untagged Clone |
Tag | Tag Free |
Symbol | COL6A3 |
Synonyms | BTHLM1; DYT27; UCMD1 |
Vector | pCMV6 series |
Sequence Data |
>NCBI ORF sequence for NM_004369, the custom clone sequence may differ by one or more nucleotides
ATGAGGAAACATCGGCACTTGCCCTTAGTGGCCGTCTTTTGCCTCTTTCTCTCAGGCTTT CCTACAACTCATGCCCAGCAGCAGCAAGCAGATGTCAAAAATGGTGCGGCTGCTGATATA ATATTTCTAGTGGATTCCTCTTGGACCATTGGAGAGGAACATTTCCAACTTGTTCGAGAG TTTCTATATGATGTTGTAAAATCCTTAGCTGTGGGAGAAAATGATTTCCATTTTGCTCTG GTCCAGTTCAACGGAAACCCACATACCGAGTTCCTGTTAAATACGTATCGTACTAAACAA GAAGTCCTTTCTCATATTTCCAACATGTCTTATATTGGGGGAACCAATCAGACTGGAAAA GGATTAGAATACATAATGCAAAGCCACCTCACCAAGGCTGCTGGAAGCCGGGCCGGTGAC GGAGTCCCTCAGGTTATCGTAGTGTTAACTGATGGACACTCGAAGGATGGCCTTGCTCTG CCCTCAGCGGAACTTAAGTCTGCTGATGTTAACGTGTTTGCAATTGGAGTTGAGGATGCA GATGAAGGAGCGTTAAAAGAAATAGCAAGTGAACCGCTCAATATGCATATGTTCAACCTA GAGAATTTTACCTCACTTCATGACATAGTAGGAAACTTAGTGTCCTGTGTGCATTCATCC GTGAGTCCAGAAAGGGCTGGGGACACGGAAACCCTTAAAGACATCACAGCACAAGACTCT GCTGACATTATTTTCCTTATTGATGGATCAAACAACACCGGAAGTGTCAATTTCGCAGTC ATTCTCGACTTCCTTGTAAATCTCCTTGAGAAACTCCCAATTGGAACTCAGCAGATCCGA GTGGGGGTGGTCCAGTTTAGCGATGAGCCCAGAACCATGTTCTCCTTGGACACCTACTCC ACCAAGGCCCAGGTTCTGGGTGCAGTGAAAGCCCTCGGGTTTGCTGGTGGGGAGTTGGCC AATATCGGCCTCGCCCTTGATTTCGTGGTGGAGAACCACTTCACCCGGGCAGGGGGCAGC CGCGTGGAGGAAGGGGTTCCCCAGGTGCTGGTCCTCATAAGTGCCGGGCCTTCTAGTGAC GAGATTCGCTACGGGGTGGTAGCACTGAAGCAGGCTAGCGTGTTCTCATTCGGCCTTGGA GCCCAGGCCGCCTCCAGGGCAGAGCTTCAGCACATAGCTACCGATGACAACTTGGTGTTT ACTGTCCCGGAATTCCGTAGCTTTGGGGACCTCCAGGAGAAATTACTGCCGTACATTGTT GGCGTGGCCCAAAGGCACATTGTCTTGAAACCGCCAACCATTGTCACACAAGTCATTGAA GTCAACAAGAGAGACATAGTCTTCCTGGTGGATGGCTCATCTGCACTGGGACTGGCCAAC TTCAATGCCATCCGAGACTTCATTGCTAAAGTCATCCAGAGGCTGGAAATCGGACAGGAT CTTATCCAGGTGGCAGTGGCCCAGTATGCAGACACTGTGAGGCCTGAATTTTATTTCAAT ACCCATCCAACAAAAAGGGAAGTCATAACCGCTGTGCGGAAAATGAAGCCCCTGGACGGC TCGGCCCTGTACACGGGCTCTGCTCTAGACTTTGTTCGTAACAACCTATTCACGAGTTCA GCCGGCTACCGGGCTGCCGAGGGGATTCCTAAGCTTTTGGTGCTGATCACAGGTGGTAAG TCCCTAGATGAAATCAGCCAGCCTGCCCAGGAGCTGAAGAGAAGCAGCATAATGGCCTTT GCCATTGGGAACAAGGGTGCCGATCAGGCTGAGCTGGAAGAGATCGCTTTCGACTCCTCC CTGGTGTTCATCCCAGCTGAGTTCCGAGCCGCCCCATTGCAAGGCATGCTGCCTGGCTTG CTGGCACCTCTCAGGACCCTCTCTGGAACCCCTGAAGTTCACTCAAACAAAAGGGATATC ATCTTTCTTTTGGATGGATCAGCCAACGTTGGAAAAACCAATTTCCCTTATGTGCGCGAC TTTGTAATGAACCTAGTTAACAGCCTTGATATTGGAAATGACAATATTCGTGTTGGTTTA GTGCAATTTAGTGACACTCCTGTAACGGAGTTCTCTTTAAACACATACCAGACCAAGTCA GATATCCTTGGTCATCTGAGGCAGCTGCAGCTCCAGGGAGGTTCGGGCCTGAACACAGGC TCAGCCCTAAGCTATGTCTATGCCAACCACTTCACGGAAGCTGGCGGCAGCAGGATCCGT GAACACGTGCCGCAGCTCCTGCTTCTGCTCACAGCTGGGCAGTCTGAGGACTCCTATTTG CAAGCTGCCAACGCCTTGACACGCGCGGGCATCCTGACTTTTTGTGTGGGAGCTAGCCAG GCGAATAAGGCAGAGCTTGAGCAGATTGCTTTTAACCCAAGCCTGGTGTATCTCATGGAT GATTTCAGCTCCCTGCCAGCTTTGCCTCAGCAGCTGATTCAGCCCCTAACCACATATGTT AGTGGAGGTGTGGAGGAAGTACCACTCGCTCAGCCAGAGAGCAAGCGAGACATTCTGTTC CTCTTTGACGGCTCAGCCAATCTTGTGGGCCAGTTCCCTGTTGTCCGTGACTTTCTCTAC AAGATTATCGATGAGCTCAATGTGAAGCCAGAGGGGACCCGAATTGCGGTGGCTCAGTAC AGCGATGATGTCAAGGTGGAGTCCCGTTTTGATGAGCACCAGAGTAAGCCTGAGATCCTG AATCTTGTGAAGAGAATGAAGATCAAGACGGGCAAAGCCCTCAACCTGGGCTACGCGCTG GACTATGCACAGAGGTACATTTTTGTGAAGTCTGCTGGCAGCCGGATCGAGGATGGAGTG CTTCAGTTCCTGGTGCTGCTGGTCGCAGGAAGGTCATCTGACCGTGTGGATGGGCCAGCA AGTAACCTGAAGCAGAGTGGGGTTGTGCCTTTCATCTTCCAAGCCAAGAACGCAGACCCT GCTGAGTTAGAGCAGATCGTGCTGTCTCCAGCGTTTATCCTGGCTGCAGAGTCGCTTCCC AAGATTGGAGATCTTCATCCACAGATAGTGAATCTCTTAAAATCAGTGCACAACGGAGCA CCAGCACCAGTTTCAGGTGAAAAGGACGTGGTGTTTCTGCTTGATGGCTCTGAGGGCGTC AGGAGCGGCTTCCCTCTGTTGAAAGAGTTTGTCCAGAGAGTGGTGGAAAGCCTGGATGTG GGCCAGGACCGGGTCCGCGTGGCCGTGGTGCAGTACAGCGACCGGACCAGGCCCGAGTTC TACCTGAATTCATACATGAACAAGCAGGACGTCGTCAACGCTGTCCGCCAGCTGACCCTG CTGGGAGGGCCGACCCCCAACACCGGGGCCGCCCTGGAGTTTGTCCTGAGGAACATCCTG GTCAGCTCTGCGGGAAGCAGGATAACAGAAGGTGTGCCCCAGCTGCTGATCGTCCTCACG GCCGACAGGTCTGGGGATGATGTGCGGAACCCCTCCGTGGTCGTGAAGAGGGGTGGGGCT GTGCCCATTGGCATTGGCATCGGGAACGCTGACATCACAGAGATGCAGACCATCTCCTTC ATCCCGGACTTTGCCGTGGCCATTCCCACCTTTCGCCAGCTGGGGACCGTCCAACAGGTC ATCTCTGAGAGGGTGACCCAGCTCACCCGCGAGGAGCTGAGCAGGCTGCAGCCGGTGTTG CAGCCTCTACCGAGCCCAGGTGTTGGTGGCAAGAGGGACGTGGTCTTTCTCATCGATGGG TCCCAAAGTGCCGGGCCTGAGTTCCAGTACGTTCGCACCCTCATAGAGAGGCTGGTTGAC TACCTGGACGTGGGCTTTGACACCACCCGGGTGGCTGTCATCCAGTTCAGCGATGACCCC AAGGTGGAGTTCCTGCTGAACGCCCATTCCAGCAAGGATGAAGTGCAGAACGCGGTGCAG CGGCTGAGGCCCAAGGGAGGGCGGCAGATCAACGTGGGCAATGCCCTGGAGTACGTGTCC AGGAACATCTTCAAGAGGCCCCTGGGGAGCCGCATTGAAGAGGGCGTCCCGCAGTTCCTG GTCCTCATCTCGTCTGGAAAGTCTGACGATGAGGTGGACGACCCGGCGGTGGAGCTCAAG CAGTTTGGCGTGGCCCCTTTCACGATCGCCAGGAACGCAGACCAGGAGGAGCTGGTGAAG ATCTCGCTGAGCCCCGAATATGTGTTCTCGGTGAGCACCTTCCGGGAGCTGCCCAGCCTG GAGCAGAAACTGCTGACGCCCATCACGACCCTGACCTCAGAGCAGATCCAGAAGCTCTTA GCCAGCACTCGCTATCCACCTCCAGCAGTTGAGAGTGATGCTGCAGACATTGTCTTTCTG ATCGACAGCTCTGAGGGAGTTAGGCCAGATGGCTTTGCACATATTCGAGATTTTGTTAGC AGGATTGTTCGAAGACTCAACATCGGCCCCAGTAAAGTGAGAGTTGGGGTCGTGCAGTTC AGCAATGATGTCTTCCCAGAATTCTATCTGAAAACCTACAGATCCCAGGCCCCGGTGCTG GACGCCATACGGCGCCTGAGGCTCAGAGGGGGGTCCCCACTGAACACTGGCAAGGCTCTC GAATTTGTGGCAAGAAACCTCTTTGTTAAGTCTGCGGGGAGTCGCATAGAAGACGGGGTG CCCCAACACCTGGTCCTGGTCCTGGGTGGAAAATCCCAGGACGATGTGTCCAGGTTCGCC CAGGTGATCCGTTCCTCGGGCATTGTGAGTTTAGGGGTAGGAGACCGGAACATCGACAGA ACAGAGCTGCAGACCATCACCAATGACCCCAGACTGGTCTTCACAGTGCGAGAGTTCAGA GAGCTTCCCAACATAGAAGAAAGAATCATGAACTCGTTTGGACCCTCCGCAGCCACTCCT GCACCTCCAGGGGTGGACACCCCTCCTCCTTCACGGCCAGAGAAGAAGAAAGCAGACATT GTGTTCCTGTTGGATGGTTCCATCAACTTCAGGAGGGACAGTTTCCAGGAAGTGCTTCGT TTTGTGTCTGAAATAGTGGACACAGTTTATGAAGATGGCGACTCCATCCAAGTGGGGCTT GTCCAGTACAACTCTGACCCCACTGACGAATTCTTCCTGAAGGACTTCTCTACCAAGAGG CAGATTATTGACGCCATCAACAAAGTGGTCTACAAAGGGGGAAGACACGCCAACACTAAG GTGGGCCTTGAGCACCTGCGGGTAAACCACTTTGTGCCTGAGGCAGGCAGCCGCCTGGAC CAGCGGGTCCCTCAGATTGCCTTTGTGATCACGGGAGGAAAGTCGGTGGAAGATGCACAG GATGTGAGCCTGGCCCTCACCCAGAGGGGGGTCAAAGTGTTTGCTGTTGGAGTGAGGAAT ATCGACTCGGAGGAGGTTGGAAAGATAGCGTCCAACAGCGCCACAGCGTTCCGCGTGGGC AACGTCCAGGAGCTGTCCGAACTGAGCGAGCAAGTTTTGGAAACTTTGCATGATGCGATG CATGAAACCCTTTGCCCTGGTGTAACTGATGCTGCCAAAGCTTGTAATCTGGATGTGATT CTGGGGTTTGATGGTTCTAGAGACCAGAATGTTTTTGTGGCCCAGAAGGGCTTCGAGTCC AAGGTGGACGCCATCTTGAACAGAATCAGCCAGATGCACAGGGTCAGCTGCAGCGGTGGC CGCTCGCCCACCGTGCGTGTGTCAGTGGTGGCCAACACGCCCTCGGGCCCGGTGGAGGCC TTTGACTTTGACGAGTACCAGCCAGAGATGCTCGAGAAGTTCCGGAACATGCGCAGCCAG CACCCCTACGTCCTCACGGAGGACACCCTGAAGGTCTACCTGAACAAGTTCAGACAGTCC TCGCCGGACAGCGTGAAGGTGGTCATTCATTTTACTGATGGAGCAGACGGAGATCTGGCT GATTTACACAGAGCATCTGAGAACCTCCGCCAAGAAGGAGTCCGTGCCTTGATCCTGGTG GGCCTTGAACGAGTGGTCAACTTGGAGCGGCTAATGCATCTGGAGTTTGGGCGAGGGTTT ATGTATGACAGGCCCCTGAGGCTTAACTTGCTGGACTTGGATTATGAACTAGCGGAGCAG CTTGACAACATTGCCGAGAAAGCTTGCTGTGGGGTTCCCTGCAAGTGCTCTGGGCAGAGG GGAGACCGCGGGCCCATCGGCAGCATCGGGCCAAAGGGTATTCCTGGAGAAGACGGCTAC CGAGGCTATCCTGGTGATGAGGGTGGACCCGGTGAGCGTGGTCCGCCTGGTGTGAACGGC ACTCAAGGTTTCCAGGGCTGCCCGGGCCAGAGAGGAGTAAAGGGCTCTCGGGGATTCCCA GGAGAGAAGGGCGAAGTAGGAGAAATTGGACTGGATGGTCTGGATGGTGAAGATGGAGAC AAAGGATTGCCTGGTTCTTCTGGAGAGAAAGGGAATCCTGGAAGAAGGGGTGATAAAGGA CCTCGAGGAGAGAAAGGAGAAAGAGGAGATGTTGGGATTCGAGGGGACCCGGGTAACCCA GGACAAGACAGCCAGGAGAGAGGACCCAAAGGAGAAACCGGTGACCTCGGCCCCATGGGT GTCCCAGGGAGAGATGGAGTACCTGGAGGACCTGGAGAAACTGGGAAGAATGGTGGCTTT GGCCGAAGGGGACCCCCCGGAGCTAAGGGCAACAAGGGCGGTCCTGGCCAGCCGGGCTTT GAGGGAGAGCAGGGGACCAGAGGTGCACAGGGCCCAGCTGGTCCTGCTGGTCCTCCAGGG CTGATAGGAGAACAAGGCATTTCTGGACCTCGGGGAAGCGGAGGTGCCGCTGGTGCTCCT GGAGAACGAGGCAGAACCGGTCCACTGGGAAGAAAGGGTGAGCCCGGAGAGCCAGGACCA AAAGGAGGAATCGGGAACCGGGGCCCTCGTGGGGAGACGGGAGATGACGGGAGAGACGGA GTTGGCAGTGAAGGACGCAGAGGCAAAAAAGGAGAAAGAGGATTCCCTGGATACCCAGGA CCAAAGGGTAACCCAGGTGAACCTGGGCTAAATGGAACAACAGGACCCAAAGGCATCAGA GGCCGAAGGGGAAATTCGGGACCTCCAGGGATAGTTGGACAGAAGGGAGACCCTGGCTAC CCAGGACCAGCTGGTCCCAAGGGCAACAGGGGCGACTCCATCGATCAATGTGCCCTCATC CAAAGCATCAAAGATAAATGCCCTTGCTGTTACGGGCCCCTGGAGTGCCCCGTCTTCCCA ACAGAACTAGCCTTTGCTTTAGACACCTCTGAGGGAGTCAACCAAGACACTTTCGGCCGG ATGCGAGATGTGGTCTTGAGTATTGTGAATGACCTGACCATTGCTGAGAGCAACTGCCCA CGGGGGGCCCGGGTGGCTGTGGTCACCTACAACAACGAGGTGACCACGGAGATCCGGTTT GCTGACTCCAAGAGGAAGTCGGTCCTCCTGGACAAGATTAAGAACCTTCAGGTGGCTCTG ACATCCAAACAGCAGAGTCTGGAGACTGCCATGTCGTTTGTGGCCAGGAACACATTTAAG CGTGTGAGGAACGGATTCCTAATGAGGAAAGTGGCTGTTTTCTTCAGCAACACACCCACA AGAGCATCCCCACAGCTCAGAGAGGCTGTGCTCAAGCTCTCAGATGCGGGGATCACCCCC TTGTTCCTTACAAGGCAGGAAGACCGGCAGCTCATCAACGCTTTGCAGATCAATAACACA GCAGTGGGGCATGCGCTTGTCCTGCCTGCAGGGAGAGACCTCACAGACTTCCTGGAGAAT GTCCTCACGTGTCATGTTTGCTTGGACATCTGCAACATCGACCCATCCTGTGGATTTGGC AGTTGGAGGCCTTCCTTCAGGGACAGGAGAGCGGCAGGGAGCGATGTGGACATCGACATG GCTTTCATCTTAGACAGCGCTGAGACCACCACCCTGTTCCAGTTCAATGAGATGAAGAAG TACATAGCGTACCTGGTCAGACAACTGGACATGAGCCCAGATCCCAAGGCCTCCCAGCAC TTCGCCAGAGTGGCAGTTGTGCAGCACGCGCCCTCTGAGTCCGTGGACAATGCCAGCATG CCACCTGTGAAGGTGGAATTCTCCCTGACTGACTATGGCTCCAAGGAGAAGCTGGTGGAC TTCCTCAGCAGGGGAATGACACAGTTGCAGGGAACCAGGGCCTTAGGCAGTGCCATTGAA TACACCATAGAGAATGTCTTTGAAAGTGCCCCAAACCCACGGGACCTGAAAATTGTGGTC CTGATGCTGACGGGCGAGGTGCCGGAGCAGCAGCTGGAGGAGGCCCAGAGAGTCATCCTG CAGGCCAAATGCAAGGGCTACTTCTTCGTGGTCCTGGGCATTGGCAGGAAGGTGAACATC AAGGAGGTATACACCTTCGCCAGTGAGCCAAACGACGTCTTCTTCAAATTAGTGGACAAG TCCACCGAGCTCAACGAGGAGCCTTTGATGCGCTTCGGGAGGCTGTTGCCATCCTTCGTC AGCAGTGAAAATGCTTTTTACTTGTCCCCAGATATCAGGAAACAGTGTGATTGGTTCCAA GGGGACCAACCCACAAAGAACCTTGTGAAGTTTGGTCACAAACAAGTAAATGTTCCGAAT AACGTTACTTCAAGTCCTACATCCAACCCAGTGACGACAACGAAGCCGGTGACTACGACG AAGCCGGTGACCACCACAACAAAGCCTGTAACCACCACAACAAAGCCTGTGACTATTATA AATCAGCCATCTGTGAAGCCAGCCGCTGCAAAGCCGGCCCCTGCGAAACCTGTGGCTGCC AAGCCTGTGGCCACAAAGATGGCCACTGTTAGACCCCCAGTGGCGGTGAAGCCAGCAACG GCAGCGAAGCCTGTAGCAGCAAAGCCAGCAGCTGTAAGACCCCCCGCTGCTGCTGCTGCA AAACCAGTGGCGACCAAGCCTGAGGTCCCTAGGCCACAGGCAGCCAAACCAGCTGCCACC AAGCCAGCCACCACTAAGCCCATGGTTAAGATGTCCCGTGAAGTCCAGGTGTTTGAGATA ACAGAGAACAGCGCCAAACTCCACTGGGAGAGGGCTGAGCCCCCCGGTCCTTATTTTTAT GACCTCACCGTCACCTCAGCCCATGATCAGTCCCTGGTTCTGAAGCAGAACCTCACGGTC ACGGACCGCGTCATTGGAGGCCTGCTCGCTGGGCAGACATACCATGTGGCTGTGGTCTGC TACCTGAGGTCTCAGGTCAGAGCCACCTACCACGGAAGTTTCAGTACAAAGAAATCTCAG CCCCCACCTCCACAGCCAGCAAGGTCAGCTTCTAGTTCAACCATCAATCTAATGGTGAGC ACAGAACCATTGGCTCTCACTGAAACAGATATATGCAAGTTGCCGAAAGACGAAGGAACT TGCAGGGATTTCATATTAAAATGGTACTATGATCCAAACACCAAAAGCTGTGCAAGATTC TGGTATGGAGGTTGTGGTGGAAACGAAAACAAATTTGGATCACAGAAAGAATGTGAAAAG GTTTGCGCTCCTGTGCTCGCCAAACCCGGAGTCATCAGTGTGATGGGAACCTAA |
Restriction Sites | Please inquire |
ACCN | NM_004369 |
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. |
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_004369.2, NP_004360.2 |
RefSeq Size | 10562 bp |
RefSeq ORF | 9534 bp |
Locus ID | 1293 |
Cytogenetics | 2q37.3 |
Protein Families | Druggable Genome |
Protein Pathways | ECM-receptor interaction, Focal adhesion |
Gene Summary | 'This gene encodes the alpha-3 chain, one of the three alpha chains of type VI collagen, a beaded filament collagen found in most connective tissues. The alpha-3 chain of type VI collagen is much larger than the alpha-1 and -2 chains. This difference in size is largely due to an increase in the number of subdomains, similar to von Willebrand Factor type A domains, that are found in the amino terminal globular domain of all the alpha chains. These domains have been shown to bind extracellular matrix proteins, an interaction that explains the importance of this collagen in organizing matrix components. Mutations in the type VI collagen genes are associated with Bethlem myopathy, a rare autosomal dominant proximal myopathy with early childhood onset. Mutations in this gene are also a cause of Ullrich congenital muscular dystrophy, also referred to as Ullrich scleroatonic muscular dystrophy, an autosomal recessive congenital myopathy that is more severe than Bethlem myopathy. Multiple transcript variants have been identified, but the full-length nature of only some of these variants has been described. [provided by RefSeq, Jun 2009]' Transcript Variant: This variant (1) represents the longest transcript and encodes the full-length isoform (1). |
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