Collagen XVII (COL17A1) (NM_000494) Human Untagged Clone

CAT#: SC300082

COL17A1 (untagged)-Human collagen, type XVII, alpha 1 (COL17A1)



  "NM_000494" in other vectors (4)

CNY 10,248.00


货期*
现货

规格
    • 10 ug

Product images

经常一起买 (4)
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


COL17A1 rabbit polyclonal antibody
    • 100 ul

CNY 1,999.00
CNY 3,280.00

Specifications

Product Data
Type Human Untagged Clone
Tag Tag Free
Synonyms BA16H23.2; BP180; BPA-2; BPAG2; EBR2A; ERED; JEB-I; LAD-1
Vector pCMV6-XL4
E. coli Selection Ampicillin (100 ug/mL)
Mammalian Cell Selection None
Sequence Data
>OriGene sequence for NM_000494 edited
AACCAGGTGGCTATGGTATGGATGTAACCAAGAAAAACAAACGAGATGGAACTGAAGTCA
CTGAGAGAATTGTCACTGAAACAGTAACCACAAGACTTACATCCTTACCACCAAAAGGCG
GGACCAGCAATGGCTATGCTAAAACAGCCTCTCTTGGTGGAGGGAGCCGGCTGGAGAAAC
AAAGCCTGACTCATGGCAGCAGCGGCTACATAAACTCAACTGGAAGCACACGAGGCCATG
CCTCCACCTCTAGTTACAGGAGGGCTCACTCACCTGCCTCCACTCTGCCCAACTCCCCAG
GCTCAACCTTTGAAAGGAAAACTCACGTTACCCGCCATGCGTATGAAGGGAGCTCCAGTG
GCAACTCTTCTCCGGAGTACCCTCGGAAGGAATTTGCATCTTCTTCAACCAGAGGACGGA
GTCAAACACGAGAGAGTGAAATTCGAGTTCGACTGCAGAGTGCGTCCCCATCCACCCGAT
GGACAGAATTGGATGATGTTAAGCGTTTGCTCAAGGGGAGTCGATCGGCAAGTGTGAGCC
CCACCCGGAATTCCTCCAACACACTCCCCATCCCCAAGAAAGGCACTGTGGAGACCAAAA
TTGTGACAGCGAGCTCCCAGTCGGTGTCAGGCACCTACGATGCAATGATCCTGGATGCCA
ACCTTCCCTCCCATGTGTGGTCCTCCACCCTGCCCGCGGGGTCCTCCATGGGGACCTATC
ACAACAACATGACAACCCAGAGCTCATCCCTCCTCAACACCAATGCCTACTCTGCGGGAT
CAGTCTTCGGAGTTCCAAACAACATGGCGTCCTGCTCACCCACTTTGCACCCTGGACTCA
GCACATCCTCCTCAGTGTTTGGCATGCAGAACAATCTGGCCCCCAGCTTGACCACCCTGT
CCCATGGCACCACCACCACTTCCACAGCATATGGGGTGAAGAAAAACATGCCCCAGAGTC
CTGCGGCTGTGAACACTGGCGTTTCCACCTCCGCCGCCTGCACCACAAGTGTGCAGAGCG
ATGACCTTTTGCACAAGGACTGCAAGTTCCTGATCCTAGAGAAAGACAACACACCTGCTA
AGAAGGAGATGGAGCTGCTCATCATGACCAAGGACAGCGGGAAGGTCTTTACAGCCTCCC
CTGCCAGCATCGCTGCAACTTCTTTTTCAGAAGACACCCTAAAAAAAGAAAAGCAAGCTG
CCTACAATGCTGACTCAGGCCTAAAAGCCGAAGCTAATGGAGACCTGAAGACTGTGTCCA
CAAAGGGCAAGACCACCACTGCAGATATCCACAGCTACAGCAGCAGTGGTGGTGGTGGCA
GTGGAGGAGGTGGCGGTGTTGGTGGCGCTGGCGGCGGCCCTTGGGGACCAGCGCCAGCCT
GGTGCCCCTGCGGCTCCTGCTGCAGCTGGTGGAAGTGGCTGCTGGGCCTGCTGCTCACCT
GGCTGCTACTCCTGGGGCTGCTCTTCGGCCTCATTGCTCTGGCGGAGGAGGTGAGGAAGC
TGAAGGCGCGTGTGGATGAGCTGGAGAGGATCAGGAGGAGCATACTGCCCTATGGGGACA
GCATGGATAGAATAGAAAAGGACCGCCTCCAGGGCATGGCACCCGCGGCGGGAGCAGACC
TGGACAAAATTGGGCTGCACAGTGACAGCCAGGAGGAGCTCTGGATGTTCGTGAGGAAGA
AGCTAATGATGGAACAGGAAAATGGAAATCTCCGAGGAAGCCCTGGCCCTAAAGGTGACA
TGGGAAGTCCAGGCCCTAAAGGAGATCGAGGGTTCCCTGGGACTCCAGGTATCCCTGGGC
CCTTGGGCCACCCAGGTCCACAAGGACCAAAGGGTCAAAAAGGCAGCGTGGGAGATCCTG
GCATGGAAGGCCCCATGGGCCAGAGAGGGCGAGAAGGCCCCATGGGACCTCGTGGTGAGG
CAGGGCCTCCTGGATCTGGAGAGAAAGGGGAAAGAGGGGCTGCTGGTGAACCAGGTCCTC
ATGGCCCACCTGGTGTCCCAGGTTCTGTGGGTCCCAAAGGTTCCAGCGGCTCTCCTGGCC
CACAGGGCCCTCCAGGTCCTGTAGGTCTCCAAGGGCTCCGAGGTGAAGTAGGACTTCCTG
GTGTCAAAGGTGACAAAGGACCAGTGGGACCACCAGGACCCAAAGGTGACCAGGGTGAGA
AAGGACCTCGAGGCCTCACAGGCGAGCCTGGCATGAGAGGTTTGCCTGGTGCTGTTGGTG
AGCCCGGGGCTAAAGGAGCAATGGGTCCTGCTGGCCCAGACGGACACCAAGGCCCAAGAG
GTGAACAAGGTCTTACTGGGATGCCTGGAATCCGTGGCCCACCAGGACCTTCTGGAGACC
CAGGAAAGCCAGGTCTCACAGGACCCCAGGGACCTCAGGGACTTCCCGGTACCCCTGGCC
GACCAGGAATAAAAGGTGAACCAGGAGCTCCAGGCAAGATCGTGACTTCGGAGGGGTCAT
CGATGCTCACTGTCCCAGGCCCCCCAGGACCTCCTGGAGCCATGGGACCCCCAGGACCTC
CAGGTGCCCCAGGCCCTGCCGGCCCAGCTGGTCTCCCAGGACATCAAGAAGTTCTTAATT
TACAAGGTCCCCCAGGCCCACCCGGCCCACGCGGGCCACCAGGGCCTTCCATTCCAGGCC
CACCAGGACCCCGAGGCCCACCAGGGGAGGGTTTGCCAGGCCCACCAGGCCCACCAGGAT
CGTTCCTGTCCAACTCAGAAACCTTCCTCTCCGGCCCCCCAGGCCCACCTGGCCCCCCAG
GTCCCAAGGGAGACCAAGGTCCCCCAGGCCCCAGAGGACACCAAGGCGAGCAAGGCCTCC
CAGGTTTCTCAACCTCAGGGTCCAGTTCTTTCGGACTCAACCTTCAGGGACCACCAGGCC
CACCTGGCCCCCAGGGACCAAAAGGTGACAAAGGTGATCCGGGTGTTCCAGGGGCTCTTG
GCATTCCTAGTGGTCCTTCTGAAGGGGGATCATCAAGTACCATGTACGTGTCAGGCCCGC
CAGGGCCCCCTGGGCCCCCTGGGCCTCCGGGCTCTATCAGCAGCTCTGGCCAGGAGATTC
AGCAGTACATCTCTGAGTACATGCAGAGTGACAGTATTAGATCTTACCTATCCGGAGTTC
AGGGTCCCCCAGGCCCACCTGGTCCCCCAGGACCTGTCACCACCATCACAGGCGAGACTT
TCGACTACTCAGAGCTGGCAAGCCACGTTGTGAGCTACTTACGGACTTCGGGGTACGGTG
TCAGCTTGTTCTCGTCCTCCATCTCTTCTGAAGACATCCTGGCTGTGCTGCAGCGGGATG
ACGTGCGTCAGTACCTACGTCAGTACTTGATGGGCCCTCGGGGTCCGCCAGGGCCACCAG
GAGCCAGTGGAGATGGGTCCCTCCTGTCTTTGGACTATGCAGAGCTGAGTAGTCGCATTC
TCAGCTACATGTCGAGTTCTGGGATCAGCATTGGGCTTCCTGGTCCCCCGGGGCCCCCTG
GCTTGCCGGGAACCTCCTATGAGGAGCTCCTCTCCTTGCTGCGAGGGTCTGAATTCAGAG
GCATCGTTGGACCCCCAGGTCCCCCGGGTCCACCAGGGATCCCAGGCAATGTGTGGTCCA
GCATCAGCGTGGAGGACCTCTCGTCTTACTTACATACTGCCGGCTTGTCATTCATCCCAG
GCCCTCCAGGACCTCCTGGTCCCCCAGGGCCTCGAGGGCCCCCGGGTGTCTCAGGAGCCC
TGGCAACCTATGCAGCTGAAAACAGCGACAGCTTCCGGAGCGAGCTGATCAGCTACCTCA
CAAGTCCTGATGTGCGCAGCTTCATTGTTGGCCCCCCAGGCCCTCCTGGGCCGCAGGGAC
CCCCTGGGGACAGCCGCCTCCTGTCCACGGATGCCTCCCACAGTCGGGGTAGCAGCTCCT
CCTCACACAGCTCATCTGTCAGGCGGGGCAGCTCCTACAGCTCTTCCATGAGCACAGGAG
GAGGTGGTGCAGGCTCCCTGGGTGCAGGCGGTGCCTTTGGTGAAGCTGCAGGAGACAGGG
GTCCCTATGGCACTGACATCGGCCCAGGCGGAGGCTATGGGGCAGCAGCAGAAGGCGGCA
TGTATGCTGGCAATGGCGGACTATTGGGAGCTGACTTTGCTGGAGATCTGGATTACAATG
AGCTGGCTGTGAGGGTGTCAGAGAGCATGCAGCGTCAGGGCCTACTGCAAGGGATGGCCT
ACACTGTCCAGGGCCCACCAGGCCAGCCTGGGCCACAGGGGCCACCCGGCATCAGCAAGG
TCTTCTCTGCCTACAGCAACGTGACTGCGGACCTCATGGACTTCTTCCAAACTTATGGAG
CCATTCAAGGACCCCCTGGGCAAAAAGGAGAGATGGGCACTCCAGGACCCAAAGGTGACA
GGGGCCCTGCTGGGCCACCAGGTCATCCTGGGCCACCTGGCCCTCGAGGACACAAGGGAG
AAAAAGGAGACAAAGGTGACCAAGTCTATGCTGGGCGGAGAAGGAGAAGAAGTATTGCTG
TCAAGCCGTGAGCTAGCCATGGCAGGACAGCTCCTGGACCAGGTCTCATAATGCATGTGG
CACTTAGGTCCAAGGTCTCCAGAGGGTGAAAGCTGGAGTCTGTCAATGTCCTACTGAGAC
AGCACAGCCAACCTAGCTAGCAACATTTGTTTTAGTCTGAACAATATATACTTATAGAAT
TCAGTCAAAGATACACAATCTGAAACAGCTTCATGGGGTGGACTCTAACAGTAGTTGCAA
TGTTTTAGAATGAGACTTACTTCTCTGCTATCTAGATCTGAACTCCTTGGCTTCTTTACT
TAGTTCAAGCCCCAGCCTAGGAAAGCCAGTTACATAAAAGTTGGCTCAGGAGTCTTAGAG
CTTTACCTAAATAGAGCCCAGAAAACGGAGGATGGGGGTGGGGCGCCTTCCTGGAGGTGA
CACTTGATGGGGGTGTGTTCTGGTTACTGTTCTAAGGCTGTGCCATCAGCTCCTTCCTCC
CCTGTTCATTCTGCATTCTCTAGTCAGTTGGCTAAGAAGTGACTCTTGCAACTAAAAAAA
TTAAGAAATTCACTTCCCCTCTAGGAGGTGATGATAGGGTTTCTAATGGTTATATGTATA
TCACATTCCCATTTGCTTAGAAAGTCTGATTGTAGCTATGATTGTCCGTAGGCCCATACT
AGAGTTCATGGATATGTTATACTGAACCAGGCCAGAGCAAACAGAAAAAGAAGGTTGAGG
GCAATGGACAAGGAAGGAATAAAGGGAGAAGAGGGAAAACAGAAAACCTGATGCTGGGGA
CACAGCATCAGCTCAAGACGTCACCCTCCATTCTGCACTCAGAAAATGGCACTTGGGGGA
CTGGGCGCAGTTGGTCTTTAACCACTTTTCAATGTCTAAAAACATTTGTTTGTGGTCTAT
AAGATGAAACATCATTTCAATCGTAAAATTTCCCATTAAAGAAGTTTTTTTTTCTAATAA
AAAAAAAAAAAAAAAAA
>OriGene 5' read for NM_000494 unedited
GTACAAATTTGTAAACGACTCATATAGGCGGCCGCCAGTGTGAGGNAATCTGCAGAATTC
GCCCTTAACCAGGTGGCTATGGTATGGATGTAACCAAGNNAAAAACAAACGAGATGGAAC
TGAAGTCACTGAGAGAATTGTCACTGAAACAGTAACCACAAGACTTACATCCTTACCACC
AAAAGCGGGACCAGCAATGGCTATGCTAAAACAGCCTCTCTTGGTGGAGGGAGCCGGCTG
GAGAAACAAAGCCTGACTCATGGCAGCAGCGGCTACATAAACTCAACTGGAAGCACACGA
GGCCATGCCTCCACCTCTAGTTACAGGAGGGCTCACTCACCTGCCTCCACTCTGCCCAAC
TCCCCAGGCTCAACCTTTGAAAGGAAAACTCACGTTACCCGCCATGCGTATGAAGGGAGC
TCCAGTGGCAACTCTTCTCCGGAGTACCCTCGGAAGGAATTTGCATCTTCTTCAACCAGA
GGACGGAGTCAAACACGAGAGAGTGAAATTCGAGTTCGACTGCAGAGTGCGTCCCCATCC
ACCCGATGGACAGAATTGGATGATGTTAAGCGTTTGCTCAAGGGGAGTCGATCGGCAAGT
GTGAGCCCCACCCGGAATTCCTCCAACACACTCCCCATCCCCAAGAAAGGCACTGTGGAG
ACCAAAATTGTGACAGCGAGCTCCCAGTCNGTGTCAGGCACCTACGATGCAATGATCCTG
GATGCCAACCTTCCCTCCCATGTGTGGTCCTCCACCCTGCCCGCGGGGTCCTCCATGGGG
ACCTATCACAACAACTGACAACCCAGAGCTCATCCCTCCT
>OriGene 3' genomic read for NM_000494 unedited
AGNAAAGCACTGGGGNAGGGTCACAGGNATGCCACCCGGGATCTGTTCAGGAAACAGCTA
TGACCGCGGCCGCAATCTAGAGTCGAGTTTTTTTTTTTTTTTTTTTATTAGAAAAAAAAA
CTTCTTTAATGGGAAATTTTACGATTGAAATGATGTTTCATCTTATAGACCACAAACAAA
TGTTTTTAGACATTGAAAAGTGGTTAAAGACCAACTGCGCCCAGTCCCCCAAGTGCCATT
TTCTGAGTGCAGAATGGAGGGTGACGTCTTGAGCTGATGCTGTGTCCCCAGCATCAGGTT
TTCTGTTTTCCCTCTTCTCCCTTTATTCCTTCCTTGTCCATTGCCCTCAACCTTCTTTTT
CTGTTTGCTCTGGCCTGGTTCAGTATAACATATCCATGAACTCTAGTATGGGCCTACGGA
CAATCATAGCTACAATCAGACTTTCTAAGCAAATGGGAATGTGATATACATATAACCATT
AGAAACCCTATCATCACCTCCTAGAGGGGAAGTGAATTTCTTAATTTTTTTAGTTGCAAG
AGTCACTTCTTAGCCAACTGACTAGAGAATGCAGAATGAACAGGGGAGGAAGGAGCTGAT
GGCACAGCCTTAGAACAGTAACCAGAACACACCCCCATCAAGTGTCACCTCCAGGAAGGC
GCCCCACCCCCATCCTCCGTTTTCTGGGCTCTATTTAGGTAAAGCTCTAAGACTCCTGAG
CCAACTTTTATGTAACTGGCTTTCCTAGGCTGGGGCTTGAACTAAGTAAAGAAGCCAAGG
AGTTCAGATCTAGATAGCAGAGAAGTAAGTCTCATTCTAAAACATTGCAACTACTGTTAG
AGTCCACCCATGAAGCTGTTTCAGATT
Restriction Sites Please inquire     
ACCN NM_000494
Insert Size 5500 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).
OTI Annotation The open reading frame of this TrueClone was fully sequenced and found to be a perfect match to the protein associated to this reference.
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_000494.2, NP_000485.2
RefSeq Size 5610 bp
RefSeq ORF 4494 bp
Locus ID 1308
UniProt ID Q9UMD9
Protein Families Transmembrane
Gene Summary This gene encodes the alpha chain of type XVII collagen. Unlike most collagens, collagen XVII is a transmembrane protein. Collagen XVII is a structural component of hemidesmosomes, multiprotein complexes at the dermal-epidermal basement membrane zone that mediate adhesion of keratinocytes to the underlying membrane. Mutations in this gene are associated with both generalized atrophic benign and junctional epidermolysis bullosa. Two homotrimeric forms of type XVII collagen exist. The full length form is the transmembrane protein. A soluble form, referred to as either ectodomain or LAD-1, is generated by proteolytic processing of the full length form. [provided by RefSeq, Jul 2008]
*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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