Col7a1 (NM_007738) Mouse Untagged Clone

CAT#: MC225435

Col7a1 (untagged) - Mouse collagen, type VII, alpha 1 (Col7a1), (10ug)



  "NM_007738" in other vectors (2)

CNY 47,220.00


货期*
14周

规格
    • 10 ug

Product images

经常一起买 (3)
TurboFectin Transfection Reagent (1 mL in 1 vial)
    • 1 ml in 1 vial

CNY 4,090.00


DH5α Chemically Competent Cells (≥10^8 cfu/μg of pUC19 DNA)
    • 5 x 200 ul

CNY 1,280.00


Forward sequencing primer VP1.5, Reverse sequencing primer XL39, 100pmoles each
    • 100 pmol

CNY 480.00

Specifications

Product Data
Type Mouse Untagged Clone
Tag Tag Free
Synonyms AW209154
Vector pCMV6-Entry
E. coli Selection Kanamycin (25 ug/mL)
Mammalian Cell Selection Neomycin
Sequence Data
>MC225435 representing NM_007738
Red=Cloning site Blue=ORF Orange=Stop codon

TTTTGTAATACGACTCACTATAGGGCGGCCGGGAATTCGTCGACTGGATCCGGTACCGAGGAGATCTGCC
GCCGCGATCGCC

ATGAGGCTGCGACTCCTGGTCGCTGCGCTCTGCGCTGCAGAGATCCTGATGGGAGCGCCGGAAGTGTGGG
CCCAGCCCAGAGATAGAGTGACCTGCACACGCCTTTATGCTGCTGACATCGTGTTCTTACTCGATGGCTC
GTCGTCCATTGGCCGCAGCAACTTTCGAGAAGTGCGAGGATTCCTGGAGGGGCTGGTGCTGCCTTTCTCA
GGAGCAGCCAGTGCACAGGGCGTCCGGTTTGCCACAGTGCAGTACAGTGATGATCCACAGACAGAATTTG
GTCTGGATACACTTGGCTCTGGGAGTGACACCATCCGAGCCATCCGTGAGCTCAGCTATAAAGGTGGTAA
CACTCGCACGGGGGCCGCTCTTCACCACGTTTCTGACCGTGTCTTCCTGCCTCGTCTAACACGTCCTGGT
GTCCCCAAGGTCTGCATCCTGATCACAGATGGGAAATCCCAAGATTTAGTGGACACAGCTGCCCAAAAGC
TGAAGGGGCAGGGAGTCAAGCTGTTTGCTGTGGGAATCAAGAATGCCGACCCTGAGGAACTGAAGCGTGT
GGCCTCACAGCCAACCAGCGATTTCTTCTTCTTCGTCAATGACTTCAGCATCTTGAGGACCCTGTTGCCT
CTCATTTCCAGGAGGGTGTGCACAACTGCTGGTGGTGTGCCTGTGACCCTGCCTTCTGATGACACTCCGT
CTGGGCCCCGGGACCTGGTGCTCTCTGAGCCAAGTAGCCAATCCTTGCGAGTACAATGGACAGCAGCCAG
TGGCCCTGTGACTGGCTACAAGGTTCAGTACACACCTCTGACAGGGCTAGGGCAGCCACTGCCAAGTGAG
CGACAGGAGGTGAACATCCCGGCTGGTGAGACCAGCACGCGTCTCCAGGGTCTCCGGCCACTAACGGACT
ACCAAGTGACTGTGGTTGCCCTCTATGCCAACAGCATCGGGGAGGCCGTGAGTGGGACAGCTCGGACCAC
TGCCAAGGAAGGGCTAGAATTGAGCCTCCAGAACATCACATCGCACAGCCTCCTGGTGGCCTGGAGGAGG
GTACCAGGTGCTAATGGCTACCGTGTAACATGGCGGGACCTCAGTGGTGGGCCAACCCAGCAGCAGGACC
TGAGCCCTGGACAGGGGTCAGTGTTTCTAGATCACTTGGAGCCTGGCACGGACTATGAGGTGACCGTGAG
CGCCCTATTTGGCCACAGCGTGGGGCCTGCCGCTTCTCTGACTGCCCGCACCGCATCTTCTGTTGAGCAA
ACCCTGCATCCCATCATCTTGAGCCCGACATCCATCCTCCTTTCCTGGAACTTGGTGCCTGAGGCCCGCG
GCTACCGCTTGGAGTGGCGTCGTGAGAGTGGCTTGGAAACACCACAGAAAGTGGAACTGCCCCCTGATGT
GACCCGCCATCAGCTGGATGGTTTGCAGCCAGGCACTGAGTACCGTCTCACGCTGTATACTCTGCTGGAG
GGCCGTGAGGTGGCCACTCCTGCAACCGTGGTTCCTACAGGGCTAGAGCAGCTGGTGAGCCCGGTGATGA
ATTTACAAGCCATAGAACTACCTGGGCAGCGGGTGCGAGTGTCTTGGAACCCAGTCCCTGGGGCCACTGA
GTACCGTTTCACTGTACGCACCACCCAGGGGGTCGAGCGGACTCTATTGCTTCCTGGGAGCCAGACAACC
TTTGACTTAGATGATGTTCGAGCTGGGCTTAGCTACACGGTGCGGGTGTCTGCTCGAGTGGGTGCTCAGG
AGGGTGATGCCAGCATCCTAACGATCCACAGAGATCCAGAAGCCCCACTTGTTGTCCCAGGACTGCGGGT
TGTCGCATCAGATGCAACAAGAATTAGGGTGGCCTGGGGACTTGTCCCTGGAGCCAGTGGATTTCGGATC
AGCTGGAGGACAGGCAGTGGTCCAGAGTCCAGCCGGACGCTGACCCCAGACTCCACTGTCACGGACATCC
TGGGGTTGCAGCCTAGCACCTCTTATCAAGTCGCTGTCTCAGCACTTAGAGGGAGAGAAGAGGGGCCCCC
TGTGGTCATCGTGGCTAGAACTGATCCACTGGGCCCAGTGAGGAGAGTCCACTTGACTCAGGCTGGCAGC
TCATCTGTCAGCATCACCTGGACTGGGGTTCCCGGTGCCACAGGATACAGGGTTTCCTGGCACTCAGGCC
ATGGTCCAGAGAAATCTCTGTTGGTTTCTGGAGATGCCACGGTGGCTGAAATAGATGGGCTGGAGCCGGA
CACAGAGTATATAGTGCGTGTGAGAACCCACGTAGCTGGTGTGGATGGAGCCCCCGCCTCTGTGGTTGTG
AGGACTGCTCCTGAGCCTGTGGGCAGTGTGTCGAAACTGCAAATCCTTAATGCTTCCAGTGATGTTCTAC
GGGTCACTTGGGTAGGAGTCCCTGGGGCCACATCCTATAAACTGGCGTGGGGACGTAGTGAAGGTGGCCC
TATGAAACACCGGATACTCCCAGGAAACAAAGAGTCTGCAGAGATACGGGATCTCGAAGGAGGAGTCAGC
TACTCCGTGAGAGTGACGGCGCTTGTTGGAGACCGAGAGGGTGCACCGGTGTCCATTGTCATCACCACAC
CGCCTGCGACCCCAGCACTTCTGGAGACTCTTCAAGTTGTGCAGAGCGGGGAGCACTCCTTGAGGCTGCG
ATGGGAACCAGTACCCGGAGCACCAGGCTTCCGCCTGCACTGGCAACCTGAGGGTGGCCAGGAACAGTCC
CTGACCTTGGGACCTGAGTCTAACAGCTACAACCTGGTTGGTCTGGAGCCAGCAACAAAGTACCAAGTAT
GGCTGACTGTCCTGGGCCAGACTGGAGAAGGTCCCCCTAGGAAGGTGACTGCATACACTGAGCCCTCTCA
CATCCCGAGCACTGAACTACGCGTGGTGGATACCTCTATTGACTCAGTGACTTTGACCTGGACCCCAGTG
TCTGGGGCATCCAGTTATATCTTGTCCTGGCGGCCGCTCAGAGGAACTGGCCAGGAAGTGCCGAGGGCCC
CACAGACACTGCCAGGGACCTCAAGCTCCCACAGAGTGACAGGGCTGGAACCTGGTATTTCCTATGTTTT
CTCTCTGACACCTATCCAGAGCGGTGTACGAGGTTCTGAGATCTCTGTCACACAAACACCAGCGTGTTCC
CATGGCCCAGTGGACGTGGTGTTCCTCTTGCATGCCACTCGAGACAATGCTCACAACGCAGAGGCTGTGA
GGAGGGTCCTGGAAAGGCTGGTGTCTGCACTTGGGCCTCTTGGTCCACAGGCTGCTCAGGTCGGCCTGCT
GACTTACAGCCACCGGCCCTCCCCACTGTTCCCACTGAATAGTTCCCATGATCTTGGCATCATCTTGCGA
AAGATCCGTGACATCCCCTACGTGGACCCAAGTGGTAACAACCTCGGCACAGCCGTGACCACAGCTCACA
GATACCTCTTAGCATCCAATGCTCCTGGTCGCCGTCAGCAAGTGCCAGGCGTGATGGTCCTGTTAGTGGA
TGAGCCTCTGAGAGGGGACATACTCAGCCCCATTCGTGAGGCCCAGACTTCTGGGCTTAAGGTGATGGCA
CTGAGTTTGGTGGGAGCTGACCCAGAGCAGCTGCGTCGCTTGGCACCAGGCACGGACCCCATCCAGAACT
TCTTTGCTGTGGATAATGGCCCAGGCTTGGACAGAGCAGTCAGTGATCTGGCTGTAGCCCTGTGTCAGGC
AGCTGTGACCATAGAGCCGCAAACAGGGCCTTGTGCTGTGCACTGTCCAAAGGGCCAGAAGGGGGAGCCT
GGAGTAACGGGACTGCAAGGACAGGCTGGACCTCCTGGCCCCCCTGGTCTCCCGGGCAGGACCGGTGCTC
CAGGCCCGCAAGGTCCTCCTGGAAGTACCCAGGCAAAAGGCGAGAGGGGCTTTCCTGGCCCAGAAGGGCC
TCCAGGCAGTCCTGGCCTCCCTGGAGTTCCTGGGTCTCCTGGCATTAAGGGCTCCACGGGGCGGCCTGGC
CCTCGTGGGGAACAGGGAGAACGAGGGCCTCAAGGTCCAAAGGGGGAGCCGGGTGAGCCTGGGCAAATCA
CTGGCGGTGGAGGGCCAGGGTTTCCTGGAAAGAAAGGGGACCCTGGACCTTCGGGGCCCCCTGGATCTCG
TGGCCCTGTGGGGGACCCAGGACCCCGTGGCCCCCCAGGGCTTCCTGGAATATCAGTGAAGGGTGACAAA
GGTGATCGTGGGGAACGGGGTCCCCCGGGACCAGGCATTGGTGCCAGTGAACAGGGTGACCCTGGACTTC
CGGGGCTTCCTGGAAGCCCTGGACCCCAAGGCCCAGCTGGCCGACCTGGAGAGAAGGGAGAAAAGGGTGA
CTGTGAGGATGGAGGTCCAGGCCTCCCAGGACAGCCTGGGCCCCCAGGGGAGCCGGGCCTGCGGGGAGCT
CCTGGAATGACTGGGCCCAAAGGTGATCGGGGACTGACGGGGACCCCGGGCGAGCCTGGAGTAAAGGGTG
AACGGGGACATCCTGGTCCCGTGGGACCCCAGGGGCTCCCCGGGGCTGCTGGACACCCTGGAGTGGAGGG
TCCTGAGGGGCCACCAGGACCCACTGGCCGCCGAGGAGAAAAGGGAGAACCTGGTCGCCCTGGGGATCCT
GCAGTGGGTCCTGGTGGTGCTGGAGCCAAAGGAGAAAAGGGAGAGGCTGGGCTCCCTGGGCCCAGAGGAG
CTTCTGGAAGCAAAGGAGAGCAGGGCGCACCTGGATTGGCTCTTCCTGGAGATCCTGGCCCCAAAGGAGA
CCCTGGAGACAGGGGTCCCATTGGCCTCACTGGAAGGGCAGGACCCACAGGTGACTCAGGGCCTCCTGGA
GAGAAAGGAGAGCCTGGTCGACCTGGTTCCCCAGGACCTGTTGGCCCCCGAGGAAGAGATGGTGAAGCTG
GAGAGAAAGGTGACGAGGGGATCCCGGGTGAGCCAGGTTTGCCTGGAAAAGCAGGTGAACGTGGCCTCCG
GGGGGCACCTGGGCCTCGGGGGCCTGTGGGTGAGAAGGGGGACCAGGGAGATCCTGGAGAAGACGGACGG
AATGGCAGCCCTGGATCATCTGGACCCAAGGGTGACCGTGGGGAGCCTGGTCCCCCAGGTCCCCCTGGAC
GGCTGGTGGATGCAGGCATTGAATCCAGAGACAAGGGAGAGCCTGGACAAGAAGGTCCCCGAGGACCCAA
GGGTGACCCTGGGCCCCCTGGAGTCTCTGGAGAAAGGGGCATTGATGGGCTTCGGGGACCCCCAGGCCCA
CAGGGAGACCCCGGTGTTCGAGGCCCAGCAGGAGACAAGGGTGATCGGGGACCCCCAGGGCTGGATGGCC
GGAGTGGGCTGGATGGGAAACCCGGAGCCCCTGGCCCCCCAGGGCTACATGGTGCTTCAGGCAAAGCTGG
GGACCCGGGGAGAGATGGACTTCCAGGCCTTCGAGGAGAACATGGCCCCCCTGGTCCCCCTGGCCCTCCT
GGAGTTCCGGGAAAGGCAGGCGATGATGGCAAACCAGGCCTGAATGGGAAAAACGGAGACCCTGGAGACC
CTGGAGAAGATGGAAGGAAGGGAGAAAAGGGAGATTCGGGTGCCCCTGGAAGAGAAGGCCCTGATGGCCC
CAAGGGTGAACGTGGAGCTCCTGGCAATCCTGGACTCCAGGGTCCTCCGGGTCTCCCAGGGCAGGTCGGT
CCTCCCGGCCAGGGTTTCCCTGGTGTCCCAGGAATTACGGGTCCTAAGGGTGACCGTGGAGAGACTGGAT
CCAAAGGGGAACAGGGCCTTCCTGGAGAACGTGGCCTACGAGGAGAACCTGGGAGCTTGCCAAACGCGGA
GCGTTTGCTGGAAACTGCTGGCATCAAGGTGTCGGCCCTGCGGGAGATCGTGGACACCTGGGATGAGAGT
TCTGGCAGCTTCCTACCGGTGCCTGAGCGGAGACCTGGCCCCAAGGGGGACCCTGGTGACCGAGGCCCTC
CAGGCAAGGAGGGCCTCATCGGCTTTCCTGGAGAACGTGGACTGAAGGGAGAGCGTGGAGACCCTGGCCC
TCAGGGGCCTCCTGGCCTGGCCCTGGGTGAGAGGGGCCCACCTGGCCCACCCGGCCTTGCGGGGGAACCC
GGAAAGCCTGGCATTCCTGGACTCCCAGGCCGGGCTGGTGGTTCAGGGGAAGCAGGAAGGCCAGGAGAGA
GGGGAGAAAGGGGAGAGAAAGGAGAACGCGGGGATCAGGGCAGAGATGGCCTTCCCGGCCTCCCTGGACC
ACCTGGCCCTCCTGGCCCCAAGGTGGCCATTGAAGAGCCAGGCCCTGGACTGGCTAGAGAGCAAGGACCT
CCTGGACTCAAGGGTGCCAAGGGGGAGCCAGGCAGTGATGGTGACCCTGGACCTAAAGGAGACAGGGGTG
TACCAGGCATCAAAGGCGATGTGGGAGAGCCTGGAAAGAGGGGTCATGATGGCAACCCAGGTCTCCCGGG
AGAGCGTGGTGTGGCTGGGCCTGAAGGGAAGCCGGGTCTTCAGGGCCCAAGGGGGACCCCTGGCCCAGTG
GGTAGCCATGGAGACCCTGGACCACCTGGTGCCCCGGGTCTTGCTGGCCCTGCGGGACCCCAGGGGCCTT
CTGGCCTGAAGGGGGAGCCTGGAGAGACAGGACCTCCAGGACGGGGTCTGCCTGGACCTGTTGGAGCTGT
GGGACTCCCTGGCCCTCCTGGCCCTTCCGGCCTCGTGGGTCCACAAGGCTCTCCAGGTTTGCCCGGACAA
GTGGGGGAGACAGGGAAGCCAGGACCTCCAGGCCGTGACGGTAGCAGTGGAAAGGACGGAGATCGGGGAA
GTCCTGGTGTGCCGGGGTCACCAGGTCTGCCCGGCCCTGTTGGACCTAAAGGAGAACCTGGGCCTGTGGG
GGCTCCTGGACAGGTGGTGGTCGGGCCCCCTGGAGCAAAAGGCGAGAAGGGAGCCCCGGGAGACCTTGCT
GGAGCCCTGCTGGGTGAGCCGGGAGCCAAAGGTGACCGAGGACTGCCTGGACCACGGGGTGAAAAGGGTG
AAGCTGGCCGTGCAGGAGGACCTGGGGACCCTGGGGAAGATGGTCAAAAAGGGGCTCCAGGACTCAAAGG
TCTTAAGGGTGAGCCAGGCATTGGGGTTCAGGGCCCCCCTGGCCCAAGTGGTCCTCCAGGTATGAAGGGA
GACTTGGGCCCCCCTGGTGCCCCCGGGGCTCCTGGTGTTGTTGGGTTCCCTGGTCAGACAGGACCTCGAG
GAGAGACGGGCCAGCCAGGGCCTGTTGGAGAGAGGGGTCTGGCAGGCCCTCCAGGGAGAGAAGGTGCCCC
AGGTCCCTTGGGACCACCTGGACCACCAGGGTCAGCGGGAGCACCTGGCGCCTCTGGACTCAAAGGAGAC
AAGGGAGACCCGGGAGCAGGACTGCCGGGGCCCCGAGGTGAGCGTGGTGAGCCAGGTGTCCGGGGTGAAG
ATGGCCACCCTGGCCAGGAAGGACCTCGTGGACTTGTGGGGCCCCCTGGCAGCCGGGGAGAGCAAGGAGA
GAAGGGCGCTGCTGGCGCTGCAGGGCTCAAGGGTGACAAGGGTGACTCAGCTGTGATTGAGGGACCTCCC
GGGCCACGAGGTGCCAAAGGGGATATGGGTGAACGAGGGCCTCGGGGCATAGATGGTGACAAAGGACCTC
GGGGAGAAAGTGGGAATCCTGGTGACAAGGGTTCCAAAGGAGAGCCAGGTGACAAAGGCTCAGCTGGATC
GATTGGAGTTCGAGGACTCACAGGACCCAAGGGAGAGCCAGGTGCTGCAGGGATCCCCGGTGAGCCGGGA
GCCCCAGGAAAGGATGGAATCCCTGGTTTCCGAGGAGACAAAGGAGATATTGGCTTCATGGGTCCCAGGG
GCCTCAAGGGTGAAAAAGGAATAAAGGGAACCTGTGGCCGTGACGGAGAGAGAGGAGATAAGGGAGAAGC
TGGTTTTCCTGGTCGCCCTGGGTTGGCAGGAAAGAAAGGAGACATGGGGGAGCCTGGTCTGCCGGGTCAG
TCTGGGGCTCCTGGGAAAGAAGGCCTGATCGGTCCCAAGGGTGACAGAGGCTTTGATGGGCAGTCAGGAC
CCAAGGGTGACCAAGGCGAGAAAGGGGAGAGGGGGCCTCCAGGAGTTGGGGGCTTCCCAGGTCCCAGAGG
AAACGATGGCTCTAGTGGTCCCCCAGGGCCACCTGGTGGTGTTGGTCCCAAGGGACCCGAAGGGCTTCAG
GGTCAGAAGGGTGAGCGAGGTCCCCCTGGAGAGAGCGTGGTGGGGGCTCCTGGTGCTCCTGGCACCCCTG
GAGAGAGAGGAGAGCAGGGACGACCAGGACCTGCTGGCCCCCGTGGGGAGAAGGGAGAAGCTGCGCTGAC
TGAGGATGACATTCGGGACTTTGTGCGTCAGGAGATGAGTCAGCACTGTGCCTGCCAGGGCCAGTTTATT
GCGTCTGGATCACGACCCCTCCCCGGTTATGCTGCGGATACAGCTGGTTCCCAGCTTCACCATGTTCCTG
TGCTCCGGGTCTCTCATGTTGAGGAGGAAGGCCAGGTGCCCCCTGAAGATGACGATGACTTCTCTGAGTA
CTCTGTGTATTCTGTGGAGGACTACCAGGAGCCTGAAGTTCCATGGGATGGTGAAGCCGAGATTAAGGGC
TGGGACCAGAGAGGTTCAGATCTCTGCTCCCTACCCTTGGATGAGGGCTCCTGTACTGCCTATACCCTGC
GCTGGTACCATCGAGCTGTGCCTGGTGGCACAGCCTGTCATCCCTTTGTCTATGGTGGCTGCGGAGGGAA
TGCCAATCGTTTTGGAACCCGTGAGGCGTGTGAGCGCCGCTGCCCACCCCAAGGGGTCCACAGCCAGAAA
ACAGGTGCTGCCTAG


AGCGGACCGACGCGTACGCGGCCGCTCGAGCAGAAACTCATCTCAGAAGAGGATCTGGCAGCAAATGATATCC
TGGATTACAAGGATGACGACGATAAGGTTTAA
Restriction Sites SgfI-RsrII     
ACCN NM_007738
Insert Size 8835 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_007738.3, NP_031764.2
RefSeq Size 9222 bp
RefSeq ORF 8835 bp
Locus ID 12836
UniProt ID Q63870
Gene Summary Stratified squamous epithelial basement membrane protein that forms anchoring fibrils which may contribute to epithelial basement membrane organization and adherence by interacting with extracellular matrix (ECM) proteins such as type IV collagen.[UniProtKB/Swiss-Prot Function]
*Delivery time may vary from web posted schedule. Occasional delays may occur due to unforeseen complexities in the preparation of your product. International customers may expect an additional 1-2 weeks in shipping.

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