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COL5A2 (NM_000393) Human Untagged Clone
CAT#: SC119899
COL5A2 (untagged)-Human collagen, type V, alpha 2 (COL5A2)
CNY 15,248.00
Product images
CNY 1,999.00
CNY 2,700.00
Specifications
| Product Data | |
| Type | Human Untagged Clone |
| Tag | Tag Free |
| Synonyms | EDSC; EDSCL2 |
| Vector | pCMV6-XL6 |
| E. coli Selection | Ampicillin (100 ug/mL) |
| Mammalian Cell Selection | None |
| Sequence Data |
>NCBI ORF sequence for NM_000393, the custom clone sequence may differ by one or more nucleotides
GAAAAAGGGGGTTTGCAGAGGCTGCCCTGGGGCTGGTGCTGAAAGAAGAGCCCACAGCTGACTTCATGGT GCTACAATAACCTCAGAATCTACTTTTCACTCTCAGGAGAACCCACATGTCTAATATTTAGACATGATGG CAAACTGGGCGGAAGCAAGACCTCTCCTCATTCTTATTGTTTTATTAGGGCAATTTGTCTCAATAAAAGC CCAGGAAGAAGACGAGGATGAAGGATATGGTGAAGAAATAGCCTGCACTCAGAATGGCCAGATGTACTTA AACAGGGACATTTGGAAACCTGCCCCTTGTCAGATCTGTGTCTGTGACAATGGAGCCATTCTCTGTGACA AGATAGAATGCCAGGATGTGCTGGACTGTGCCGACCCTGTAACGCCCCCTGGGGAATGCTGTCCTGTCTG TTCACAAACACCTGGAGGTGGCAATACAAATTTTGGTAGAGGAAGAAAGGGACAAAAGGGAGAACCAGGA TTAGTGCCTGTTGTAACAGGCATACGTGGTCGTCCAGGACCGGCAGGACCTCCAGGATCACAGGGACCAA GAGGAGAGCGAGGGCCAAAAGGAAGACCTGGCCCTCGTGGACCTCAGGGAATTGATGGAGAACCAGGTGT TCCTGGTCAACCTGGTGCTCCAGGACCTCCTGGACATCCGTCCCACCCAGGACCCGATGGCTTGAGCAGG CCGTTTTCAGCTCAAATGGCTGGGTTGGATGAAAAATCTGGACTTGGGAGTCAAGTAGGACTAATGCCTG GCTCTGTGGGTCCTGTTGGCCCAAGGGGACCACAGGGTTTACAAGGACAGCAAGGTGGTGCAGGACCTAC AGGACCTCCTGGTGAACCTGGTGATCCTGGACCAATGGGTCCGATTGGTTCACGTGGACCAGAGGGCCCT CCTGGTAAACCTGGGGAAGATGGTGAACCTGGCAGAAATGGAAATCCTGGTGAAGTGGGATTTGCAGGAT CTCCGGGAGCTCGTGGATTTCCTGGGGCTCCTGGTCTTCCAGGTCTGAAGGGTCACCGAGGACACAAAGG TCTTGAAGGCCCTAAAGGTGAAGTTGGAGCACCTGGTTCCAAGGGTGAAGCTGGCCCCACTGGTCCAATG GGTGCCATGGGTCCTCTGGGTCCGAGGGGAATGCCAGGAGAGAGAGGGAGACTTGGGCCACAGGGTGCTC CTGGACAACGAGGTGCACATGGTATGCCTGGAAAACCTGGACCAATGGGTCCTCTTGGGATACCAGGCTC TTCTGGTTTTCCAGGAAATCCTGGAATGAAGGGAGAAGCAGGTCCTACAGGGGCGCGAGGCCCTGAAGGT CCTCAGGGGCAGAGAGGTGAAACTGGGCCCCCAGGTCCAGTTGGCTCTCCAGGTCTTCCTGGTGCAATAG GAACTGATGGTACTCCTGGTGCCAAAGGCCCAACGGGCTCTCCGGGTACCTCTGGTCCTCCTGGCTCAGC AGGGCCTCCTGGATCTCCAGGACCTCAGGGTAGCACTGGTCCTCAGGGAATTCGAGGCCAACCGGGTGAT CCAGGAGTTCCAGGTTTCAAAGGAGAAGCTGGCCCAAAAGGGGAACCAGGGCCACATGGTATTCAGGGTC CGATAGGCCCACCCGGTGAAGAAGGCAAAAGAGGTCCCAGAGGTGACCCAGGAACAGTTGGTCCTCCAGG GCCAGTGGGAGAAAGGGGTGCTCCTGGCAATCGTGGTTTTCCAGGCTCTGATGGTTTACCTGGGCCAAAG GGTGCTCAAGGAGAACGGGGTCCTGTAGGTTCTTCAGGACCCAAAGGAAGCCAGGGGGATCCAGGACGTC CAGGGGAACCTGGGCTTCCAGGTGCTCGGGGTTTGACAGGAAATCCTGGTGTTCAAGGTCCTGAAGGAAA ACTTGGACCTTTGGGTGCGCCAGGGGAAGATGGCCGTCCAGGTCCTCCAGGCTCCATAGGAATCAGAGGG CAGCCCGGGAGCATGGGCCTTCCAGGCCCCAAAGGTAGCAGTGGTGACCCTGGGAAACCTGGAGAAGCAG GAAATGCTGGAGTTCCTGGGCAGAGGGGAGCTCCTGGAAAAGATGGTGAAGTTGGTCCTTCTGGTCCTGT GGGCCCGCCGGGTCTAGCTGGTGAAAGAGGAGAACAAGGACCTCCAGGCCCCACAGGTTTTCAGGGGCTT CCTGGTCCTCCAGGGCCTCCTGGAGAAGGTGGAAAACCAGGTGATCAAGGTGTTCCTGGAGATCCCGGAG CAGTTGGCCCGTTAGGACCTAGAGGAGAACGAGGAAATCCTGGGGAAAGAGGAGAACCTGGGATAACTGG ACTCCCTGGTGAGAAGGGAATGGCTGGAGGACATGGTCCTGATGGCCCAAAAGGCAGTCCAGGTCCATCT GGGACCCCTGGAGATACAGGCCCACCAGGTCTTCAAGGTATGCCGGGAGAAAGAGGAATTGCAGGAACTC CTGGCCCCAAGGGTGACAGAGGTGGCATAGGAGAAAAAGGTGCTGAAGGCACAGCTGGAAATGATGGTGC AAGAGGTCTTCCAGGTCCTTTGGGCCCTCCAGGTCCGGCAGGTCCTACTGGAGAAAAGGGTGAACCTGGT CCTCGAGGTTTAGTTGGCCCTCCTGGCTCCCGGGGCAATCCTGGTTCTCGAGGTGAAAATGGGCCAACTG GAGCTGTTGGTTTTGCCGGACCCCAGGGTCCTGACGGACAGCCTGGAGTAAAAGGTGAACCTGGAGAGCC AGGACAGAAGGGAGATGCTGGTTCTCCTGGACCACAAGGTTTAGCAGGATCCCCTGGCCCTCATGGTCCT AATGGTGTTCCTGGACTAAAAGGTGGTCGAGGAACCCAAGGTCCGCCTGGTGCTACAGGATTTCCTGGTT CTGCGGGCAGAGTTGGACCTCCAGGCCCTGCTGGAGCTCCAGGACCTGCGGGACCCCTAGGGGAACCCGG GAAGGAGGGACCTCCAGGTCTTCGTGGGGACCCTGGCTCTCATGGGCGTGTGGGAGATCGAGGACCAGCT GGCCCCCCTGGTGGCCCAGGAGACAAAGGGGACCCAGGAGAAGATGGGCAACCTGGTCCAGATGGCCCCC CTGGTCCAGCTGGAACGACCGGGCAGAGAGGAATTGTTGGCATGCCTGGGCAACGTGGAGAGAGAGGCAT GCCCGGCCTACCAGGCCCAGCGGGAACACCAGGAAAAGTAGGACCAACTGGTGCAACAGGAGATAAAGGT CCACCTGGACCTGTGGGGCCCCCAGGCTCCAATGGTCCTGTAGGGGAACCTGGACCAGAAGGTCCAGCTG GCAATGATGGTACCCCAGGACGGGATGGTGCTGTTGGAGAACGTGGTGATCGTGGAGACCCTGGGCCTGC AGGTCTGCCAGGCTCTCAGGGTGCCCCTGGAACTCCTGGCCCTGTGGGTGCTCCAGGAGATGCAGGACAA AGAGGAGATCCGGGTTCTCGGGGTCCTATAGGACCACCTGGTCGAGCTGGGAAACGTGGATTACCTGGAC CCCAAGGACCTCGTGGTGACAAAGGTGATCATGGAGACCGAGGCGACAGAGGTCAGAAGGGCCACAGAGG CTTTACTGGTCTTCAGGGTCTTCCTGGCCCTCCTGGTCCAAATGGTGAACAAGGAAGTGCTGGAATCCCT GGACCATTTGGCCCAAGAGGTCCTCCAGGCCCAGTTGGTCCTTCAGGTAAAGAAGGAAACCCTGGGCCAC TTGGGCCAATTGGACCTCCAGGTGTACGAGGCAGTGTAGGAGAAGCAGGACCTGAGGGCCCTCCTGGTGA GCCTGGCCCACCTGGCCCTCCGGGTCCCCCTGGCCACCTTACAGCTGCTCTTGGGGATATCATGGGGCAC TATGATGAAAGCATGCCAGATCCACTTCCTGAGTTTACTGAAGATCAGGCGGCTCCTGATGACAAAAACA AAACGGACCCAGGGGTTCATGCTACCCTGAAGTCACTCAGTAGTCAGATTGAAACCATGCGCAGCCCCGA TGGCTCGAAAAAGCACCCAGCCCGCACGTGTGATGACCTAAAGCTTTGCCATTCCGCAAAGCAGAGTGGT GAATACTGGATTGATCCTAACCAAGGATCTGTTGAAGATGCAATCAAAGTTTACTGCAACATGGAAACAG GAGAAACATGTATTTCAGCAAACCCATCCAGTGTACCACGTAAAACCTGGTGGGCCAGTAAATCTCCTGA CAATAAACCTGTTTGGTATGGTCTTGATATGAACAGAGGGTCTCAGTTCGCTTATGGAGACCACCAATCA CCTAATACAGCCATTACTCAGATGACTTTTTTGCGCCTTTTATCAAAAGAAGCCTCCCAGAACATCACTT ACATCTGTAAAAACAGTGTAGGATACATGGACGATCAAGCTAAGAACCTCAAAAAAGCTGTGGTTCTCAA AGGGGCAAATGACTTAGATATCAAAGCAGAGGGAAATATTAGATTCCGGTATATCGTTCTTCAAGACACT TGCTCTAAGCGGAATGGAAATGTGGGCAAGACTGTCTTTGAATATAGAACACAGAATGTGGCACGCTTGC CCATCATAGATCTTGCTCCTGTGGATGTTGGCGGCACAGACCAGGAATTCGGCGTTGAAATTGGGCCAGT TTGTTTTGTGTAAAGTAAGCCAAGACACATCGACAATGAGCACCACCATCAATGACCACCGCCATTCACA AGAACTTTGACTGTTTGAAGTTGATCCTGAGACTCTTGAAGTAATGGCTGATCCTGCATCAGCATTGTAT ATATGGTCTTAAGTGCCTGGCCTCCTTATCCTTCAGAATATTTATTTTACTTACAATCCTCAAGTTTTAA TTGATTTTAAATATTTTTCAATACAACAGTTTAGGTTTAAGATGACCAATGACAATGACCACCTTTGCAG AAAGTAAACTGATTGAATAAATAAATCTCCGTTTTCTTCAATTTATTTCAGTGTAATGAAAAAGTTGCTT AGTATTTATGAGGAAATTCTTCTTCCTGGCAGGTAGCTTAAAGAGTGGGGTATATAGAGCCACAACACAT GTTTATTTTGCTTGGCTGCAGTTGAAAAATAGAAATTAGTGCCCTTTTGTGACCTCTCATTCCAAGATTG TCAATTAAAAATGAGTTTAAAATGTTTAACTTGTGATCGAGACCTACATGCATGTCTTGATATTGTGTAA CTATAATAGAGACTCTTTAAGGAGAATCTTAAAAAAAAAAAAACGTTTCTCACTGTCTTAAATAGAATTT TTAAATAGTATATATTCAGTGGCATTTTGGAGAACAAAGTGAATTTACTTCGACTTCTTAAATTTTTGTA AAAGACTATAAGTTTAGACATCTTTCTCATTCAAATTTAAAGATATCTTTCTCCTCTTGATCAATCTATC AATATTGATAGAAGTCACACTAGTATATACCATTTAATACATTTACACTTTCTTATTTAAGAAGATATTG AATGCAAAATAATTGACATATAGAACTTTACAAACATATGTCCAAGGACTCTAAATTGAGACTCTTCCAC ATGTACAATCTCATCATCCTGAAGCCTATAATGAAGAAAAAGATCTAGAAACTGAGTTGTGGAGCTGACT CTAATCAAATGTGATGATTGGAATTAGACCATTTGGCCTTTGAACTTTCATAGGAAAAATGACCCAACAT TTCTTAGCATGAGCTACCTCATCTCTAGAAGCTGGGATGGACTTACTATTCTTGTTTATATTTTAGATAC TGAAAGGTGCTATGCTTCTGTTATTATTCCAAGACTGGAGATAGGCAGGGCTAAAAAGGTATTATTATTT TTCCTTTAATGATGGTGCTAAAATTCTTCCTATAAAATTCCTTAAAAATAAAGATGGTTTAATCACTACC ATTGTGAAAACATAACTGTTAGACTTCCCGTTTCTGAAAGAAAGAGCATCGTTCCAATGCTTGTTCACTG TTCCTCTGTCATACTGTATCTGGAATGCTTTGTAATACTTGCATGCTTCTTAGACCAGAACATGTAGGTC CCCTTGTGTCTCAATACTTTTTTTTTCTTAATTGCATTTGTTGGCTCTATTTTAATTTTTTTCTTTTAAA ATAAACAGCTGGGACCATCCCAAAAGACAAAAAAAAAAAAAAAAAA >OriGene 5' read for NM_000393 unedited
GGGGGGGGGGGGNNNNNNNNNNNNTTNNNNNNNNTTTTTTTCACCCGCCCGTTGNCCCAA AGGGCGGTAGGCGTGTACGGTGGNGAGTCTATATAAGCAGAGCTCATTTAGGTGACACTA TAGAATACAAGCTACTTGTTCTTTTTGCAGCGGCCGCGAATTCGGCACGAGGGAAAAAGG GGTTTGCAGAGGCTGCCCTGGGGCTGGTGCTGAAAGAAGAGCCCACAGCTGACTTCATGG TGCTACAATAACCTCAGAATCTACTTTTCACTCTCAGGAGAACCCACATGTCTAATATTT AGACATGATGGCAAACTGGGCGGAAGCAAGACCTCTCCTCATTCTTATTGTTTTATTAGG GCAATTTGTCTCAATAAAAGCCCAGGAAGAAGACGAGGATGAAGGATATGGTGAAGAAAT AGCCTGCACTCAGAATGGCCAGATGTACTTAAACAGGGACATTTGGAAACCTGCCCCTTG TCAGATCTGTGTCTGTGACAATGGAGCCATTCTCTGTGACAAGATAGAATGCCAGGATGT GCTGGACTGTGCCGACCCTGTAACGCCCCCTGGGGAATGCTGTCCTGTCTGTTCACAAAC ACCTGGAGGTGGCAATACAAATTTTGGTAGAGGAAGAAAGGGACAAAAGGGAGAACCAGG ATTAGTGCCTGTTGTAACAGGCATACGTGGTCGTCCAGGACCGGCAGGACCTCCAGGATC ACAGGGACCAAGAGGAGAGCGAGGGCCAAAAGGAAGACCTGGCCCTCGTGGACCTCAGGG AATTGATGGAGAACCAGGTGTTCCTGGTCAACCTGGTGCTCCAGGACCTNCTGGACATCC GTCCCACCCAGGACCCGATGGCTTGAGCAGGCCGTTTTCAGCTCAATGGCTGGGTTGGAT GAAAATCTGGNACTTGGAGTCAGTNAGACTAATGCTGNCTCTGTGGGTCCTG >OriGene 3' read for NM_000393 unedited
AACTACGTGTANGTGGCCGCTTTCTANGATCGGTTTTTTCTTTTTTTTTTTGTCTTTTGG GATGGTCCCAGCTGTTTATTTTAAAAGAAAAAAATTAAAATAGAGCCAACAAATGCAATT AAGAAAAAAAAAGTTTGAGACACAAGGGGACCTACATGTTCTGGTCTAAGAAGCATGCAA GTATTACAAAGCATTCCAGATACAGTATGACAGATGAACAGTGAACAAGCATTGGAACGA TGCTCTTTCTTTCAGAAACGGGAAGTCTAACAGTTATGTTTTCACAATGGTAGTGATTAA ACCATCTTTATTTTTAAGGAATTTTATAGGAAGAATTTTAGCACCATCATTAAAGGAAAA ATAATAATACCTTTTTAGCCCTGCCTATCTCCAGTCTTGGAATAATAACAGAAGCATAGC ACCTTTCAGTATCTAAAATATAAACAAGAATAGTAAGTCCATCCCAGCTTCTAGAGATGA AGTAGCTCATGCTAAGAAATGTTGGGTCATTTTTCCTATGAAAGTTCAAAGGCCAAATGG TCTAATTCCAATCATCACATTTGATTAGAGTCAGCTCCACAACTCAGTTTCTAGATCTTT TTCTTCATTATAAGCTTCANGATGATGAGATTGTACATGTGGAAGAGTCTCAATTTAGAG TCCTTGGACATATGTTTGTAAAGTTCTATATGTCAATTATTTTGCATTCAATATCTTCTT AAATTAGAAAGTGTGAATGTATTAAATGTATATACTANTGTGACTTCTATCAATATTGAT AGATTGATCAAGAAGAGGAAAGATATCCTTAAATTTGAATGAGAAAGAATGTCTAAACTT ATAGTGCTTTTACAAAAATTTTAGAAGTCGAAGTAAATTCACCTTGGTCCTCCAAATGGC CA |
| Restriction Sites | NotI-NotI |
| ACCN | NM_000393 |
| Insert Size | 6000 bp |
| 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). |
| Product Components | The ORF clone is ion-exchange column purified and shipped in a 2D barcoded Matrix tube containing 10ug of transfection-ready, dried plasmid DNA (reconstitute with 100 ul of water). |
| 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. |
| Note | Plasmids are not sterile. For experiments where strict sterility is required, filtration with 0.22um filter is required. |
| Reference Data | |
| RefSeq | NM_000393.2, NP_000384.1 |
| RefSeq Size | 6930 bp |
| RefSeq ORF | 6930 bp |
| Locus ID | 1290 |
| UniProt ID | P05997 |
| Domains | COLFI, VWC, Collagen |
| Protein Families | Druggable Genome |
| Protein Pathways | ECM-receptor interaction, Focal adhesion |
| Gene Summary | This gene encodes an alpha chain for one of the low abundance fibrillar collagens. Fibrillar collagen molecules are trimers that can be composed of one or more types of alpha chains. Type V collagen is found in tissues containing type I collagen and appears to regulate the assembly of heterotypic fibers composed of both type I and type V collagen. This gene product is closely related to type XI collagen and it is possible that the collagen chains of types V and XI constitute a single collagen type with tissue-specific chain combinations. Mutations in this gene are associated with Ehlers-Danlos syndrome, types I and II. [provided by RefSeq, Jul 2008] |
Documents
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| SDS |
Resources
Other Versions
| SKU | Description | Size | Price |
|---|---|---|---|
| RC213335 | COL5A2 (Myc-DDK-tagged)-Human collagen, type V, alpha 2 (COL5A2) |
CNY 10,256.00 |
|
| RC213335L3 | Lenti ORF clone of Human collagen, type V, alpha 2 (COL5A2), Myc-DDK-tagged |
CNY 16,820.00 |
|
| RC213335L4 | Lenti ORF clone of Human collagen, type V, alpha 2 (COL5A2), mGFP tagged |
CNY 16,820.00 |
|
| RG213335 | COL5A2 (tGFP-tagged) - Human collagen, type V, alpha 2 (COL5A2) |
CNY 11,856.00 |
|
| SC318638 | COL5A2 (untagged)-Human collagen, type V, alpha 2 (COL5A2) |
CNY 28,880.00 |
