Von Willebrand Factor (VWF) (NM_000552) Human Tagged ORF Clone
CAT#: RG218497
- TrueORF®
VWF (tGFP-tagged) - Human von Willebrand factor (VWF)
ORF Plasmid: DDK
"NM_000552" in other vectors (3)
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CNY 19,832.00
CNY 1,000.00
CNY 1,999.00
CNY 2,700.00
Specifications
Product Data | |
Type | Human Tagged ORF Clone |
Tag | TurboGFP |
Synonyms | F8VWF; VWD |
Vector | pCMV6-AC-GFP |
E. coli Selection | Ampicillin (100 ug/mL) |
Mammalian Cell Selection | Neomycin |
Sequence Data |
>RG218497 representing NM_000552.
Blue=ORF Red=Cloning site Green=Tag(s) GCTCGTTTAGTGAACCGTCAGAATTTTGTAATACGACTCACTATAGGGCGGCCGGGAATTCGTCGACTG GATCCGGTACCGAGGAGATCTGCCGCCGCGATCGCC ATGATTCCTGCCAGATTTGCCGGGGTGCTGCTTGCTCTGGCCCTCATTTTGCCAGGGACCCTTTGTGCA GAAGGAACTCGCGGCAGGTCATCCACGGCCCGATGCAGCCTTTTCGGAAGTGACTTCGTCAACACCTTT GATGGGAGCATGTACAGCTTTGCGGGATACTGCAGTTACCTCCTGGCAGGGGGCTGCCAGAAACGCTCC TTCTCGATTATTGGGGACTTCCAGAATGGCAAGAGAGTGAGCCTCTCCGTGTATCTTGGGGAATTTTTT GACATCCATTTGTTTGTCAATGGTACCGTGACACAGGGGGACCAAAGAGTCTCCATGCCCTATGCCTCC AAAGGGCTGTATCTAGAAACTGAGGCTGGGTACTACAAGCTGTCCGGTGAGGCCTATGGCTTTGTGGCC AGGATCGATGGCAGCGGCAACTTTCAAGTCCTGCTGTCAGACAGATACTTCAACAAGACCTGCGGGCTG TGTGGCAACTTTAACATCTTTGCTGAAGATGACTTTATGACCCAAGAAGGGACCTTGACCTCGGACCCT TATGACTTTGCCAACTCATGGGCTCTGAGCAGTGGAGAACAGTGGTGTGAACGGGCATCTCCTCCCAGC AGCTCATGCAACATCTCCTCTGGGGAAATGCAGAAGGGCCTGTGGGAGCAGTGCCAGCTTCTGAAGAGC ACCTCGGTGTTTGCCCGCTGCCACCCTCTGGTGGACCCCGAGCCTTTTGTGGCCCTGTGTGAGAAGACT TTGTGTGAGTGTGCTGGGGGGCTGGAGTGCGCCTGCCCTGCCCTCCTGGAGTACGCCCGGACCTGTGCC CAGGAGGGAATGGTGCTGTACGGCTGGACCGACCACAGCGCGTGCAGCCCAGTGTGCCCTGCTGGTATG GAGTATAGGCAGTGTGTGTCCCCTTGCGCCAGGACCTGCCAGAGCCTGCACATCAATGAAATGTGTCAG GAGCGATGCGTGGATGGCTGCAGCTGCCCTGAGGGACAGCTCCTGGATGAAGGCCTCTGCGTGGAGAGC ACCGAGTGTCCCTGCGTGCATTCCGGAAAGCGCTACCCTCCCGGCACCTCCCTCTCTCGAGACTGCAAC ACCTGCATTTGCCGAAACAGCCAGTGGATCTGCAGCAATGAAGAATGTCCAGGGGAGTGCCTTGTCACA GGTCAATCACACTTCAAGAGCTTTGACAACAGATACTTCACCTTCAGTGGGATCTGCCAGTACCTGCTG GCCCGGGATTGCCAGGACCACTCCTTCTCCATTGTCATTGAGACTGTCCAGTGTGCTGATGACCGCGAC GCTGTGTGCACCCGCTCCGTCACCGTCCGGCTGCCTGGCCTGCACAACAGCCTTGTGAAACTGAAGCAT GGGGCAGGAGTTGCCATGGATGGCCAGGACGTCCAGCTCCCCCTCCTGAAAGGTGACCTCCGCATCCAG CGTACAGTGACGGCCTCCGTGCGCCTCAGCTACGGGGAGGACCTGCAGATGGACTGGGATGGCCGCGGG AGGCTGCTGGTGAAGCTGTCCCCCGTCTATGCCGGGAAGACCTGCGGCCTGTGTGGGAATTACAATGGC AACCAGGGCGACGACTTCCTTACCCCCTCTGGGCTGGCGGAGCCCCGGGTGGAGGACTTCGGGAACGCC TGGAAGCTGCACGGGGACTGCCAGGACCTGCAGAAGCAGCACAGCGATCCCTGCGCCCTCAACCCGCGC ATGACCAGGTTCTCCGAGGAGGCGTGCGCGGTCCTGACGTCCCCCACATTCGAGGCCTGCCATCGTGCC GTCAGCCCGCTGCCCTACCTGCGGAACTGCCGCTACGACGTGTGCTCCTGCTCGGACGGCCGCGAGTGC CTGTGCGGCGCCCTGGCCAGCTATGCCGCGGCCTGCGCGGGGAGAGGCGTGCGCGTCGCGTGGCGCGAG CCAGGCCGCTGTGAGCTGAACTGCCCGAAAGGCCAGGTGTACCTGCAGTGCGGGACCCCCTGCAACCTG ACCTGCCGCTCTCTCTCTTACCCGGATGAGGAATGCAATGAGGCCTGCCTGGAGGGCTGCTTCTGCCCC CCAGGGCTCTACATGGATGAGAGGGGGGACTGCGTGCCCAAGGCCCAGTGCCCCTGTTACTATGACGGT GAGATCTTCCAGCCAGAAGACATCTTCTCAGACCATCACACCATGTGCTACTGTGAGGATGGCTTCATG CACTGTACCATGAGTGGAGTCCCCGGAAGCTTGCTGCCTGACGCTGTCCTCAGCAGTCCCCTGTCTCAT CGCAGCAAAAGGAGCCTATCCTGTCGGCCCCCCATGGTCAAGCTGGTGTGTCCCGCTGACAACCTGCGG GCTGAAGGGCTCGAGTGTGCCAAAACGTGCCAGAACTACGACCTGGAGTGCATGAGCATGGGCTGTGTC TCTGGCTGCCTCTGCCCCCCGGGCATGGTCCGGCATGAGAACAGATGTGTGGCCCTGGAAAGGTGTCCC TGCTTCCATCAGGGCAAGGAGTATGCCCCTGGAGAAACAGTGAAGATTGGCTGCAACACTTGTGTCTGT CGGGACCGGAAGTGGAACTGCACAGACCATGTGTGTGATGCCACGTGCTCCACGATCGGCATGGCCCAC TACCTCACCTTCGACGGGCTCAAATACCTGTTCCCCGGGGAGTGCCAGTACGTTCTGGTGCAGGATTAC TGCGGCAGTAACCCTGGGACCTTTCGGATCCTAGTGGGGAATAAGGGATGCAGCCACCCCTCAGTGAAA TGCAAGAAACGGGTCACCATCCTGGTGGAGGGAGGAGAGATTGAGCTGTTTGACGGGGAGGTGAATGTG AAGAGGCCCATGAAGGATGAGACTCACTTTGAGGTGGTGGAGTCTGGCCGGTACATCATTCTGCTGCTG GGCAAAGCCCTCTCCGTGGTCTGGGACCGCCACCTGAGCATCTCCGTGGTCCTGAAGCAGACATACCAG GAGAAAGTGTGTGGCCTGTGTGGGAATTTTGATGGCATCCAGAACAATGACCTCACCAGCAGCAACCTC CAAGTGGAGGAAGACCCTGTGGACTTTGGGAACTCCTGGAAAGTGAGCTCGCAGTGTGCTGACACCAGA AAAGTGCCTCTGGACTCATCCCCTGCCACCTGCCATAACAACATCATGAAGCAGACGATGGTGGATTCC TCCTGTAGAATCCTTACCAGTGACGTCTTCCAGGACTGCAACAAGCTGGTGGACCCCGAGCCATATCTG GATGTCTGCATTTACGACACCTGCTCCTGTGAGTCCATTGGGGACTGCGCCTGCTTCTGCGACACCATT GCTGCCTATGCCCACGTGTGTGCCCAGCATGGCAAGGTGGTGACCTGGAGGACGGCCACATTGTGCCCC CAGAGCTGCGAGGAGAGGAATCTCCGGGAGAACGGGTATGAGTGTGAGTGGCGCTATAACAGCTGTGCA CCTGCCTGTCAAGTCACGTGTCAGCACCCTGAGCCACTGGCCTGCCCTGTGCAGTGTGTGGAGGGCTGC CATGCCCACTGCCCTCCAGGGAAAATCCTGGATGAGCTTTTGCAGACCTGCGTTGACCCTGAAGACTGT CCAGTGTGTGAGGTGGCTGGCCGGCGTTTTGCCTCAGGAAAGAAAGTCACCTTGAATCCCAGTGACCCT GAGCACTGCCAGATTTGCCACTGTGATGTTGTCAACCTCACCTGTGAAGCCTGCCAGGAGCCGGGAGGC CTGGTGGTGCCTCCCACAGATGCCCCGGTGAGCCCCACCACTCTGTATGTGGAGGACATCTCGGAACCG CCGTTGCACGATTTCTACTGCAGCAGGCTACTGGACCTGGTCTTCCTGCTGGATGGCTCCTCCAGGCTG TCCGAGGCTGAGTTTGAAGTGCTGAAGGCCTTTGTGGTGGACATGATGGAGCGGCTGCGCATCTCCCAG AAGTGGGTCCGCGTGGCCGTGGTGGAGTACCACGACGGCTCCCACGCCTACATCGGGCTCAAGGACCGG AAGCGACCGTCAGAGCTGCGGCGCATTGCCAGCCAGGTGAAGTATGCGGGCAGCCAGGTGGCCTCCACC AGCGAGGTCTTGAAATACACACTGTTCCAAATCTTCAGCAAGATCGACCGCCCTGAAGCCTCCCGCATC GCCCTGCTCCTGATGGCCAGCCAGGAGCCCCAACGGATGTCCCGGAACTTTGTCCGCTACGTCCAGGGC CTGAAGAAGAAGAAGGTCATTGTGATCCCGGTGGGCATTGGGCCCCATGCCAACCTCAAGCAGATCCGC CTCATCGAGAAGCAGGCCCCTGAGAACAAGGCCTTCGTGCTGAGCAGTGTGGATGAGCTGGAGCAGCAA AGGGACGAGATCGTTAGCTACCTCTGTGACCTTGCCCCTGAAGCCCCTCCTCCTACTCTGCCCCCCCAC ATGGCACAAGTCACTGTGGGCCCGGGGCTCTTGGGGGTTTCGACCCTGGGGCCCAAGAGGAACTCCATG GTTCTGGATGTGGCGTTCGTCCTGGAAGGATCGGACAAAATTGGTGAAGCCGACTTCAACAGGAGCAAG GAGTTCATGGAGGAGGTGATTCAGCGGATGGATGTGGGCCAGGACAGCATCCACGTCACGGTGCTGCAG TACTCCTACATGGTGACCGTGGAGTACCCCTTCAGCGAGGCACAGTCCAAAGGGGACATCCTGCAGCGG GTGCGAGAGATCCGCTACCAGGGCGGCAACAGGACCAACACTGGGCTGGCCCTGCGGTACCTCTCTGAC CACAGCTTCTTGGTCAGCCAGGGTGACCGGGAGCAGGCGCCCAACCTGGTCTACATGGTCACCGGAAAT CCTGCCTCTGATGAGATCAAGAGGCTGCCTGGAGACATCCAGGTGGTGCCCATTGGAGTGGGCCCTAAT GCCAACGTGCAGGAGCTGGAGAGGATTGGCTGGCCCAATGCCCCTATCCTCATCCAGGACTTTGAGACG CTCCCCCGAGAGGCTCCTGACCTGGTGCTGCAGAGGTGCTGCTCCGGAGAGGGGCTGCAGATCCCCACC CTCTCCCCTGCACCTGACTGCAGCCAGCCCCTGGACGTGATCCTTCTCCTGGATGGCTCCTCCAGTTTC CCAGCTTCTTATTTTGATGAAATGAAGAGTTTCGCCAAGGCTTTCATTTCAAAAGCCAATATAGGGCCT CGTCTCACTCAGGTGTCAGTGCTGCAGTATGGAAGCATCACCACCATTGACGTGCCATGGAACGTGGTC CCGGAGAAAGCCCATTTGCTGAGCCTTGTGGACGTCATGCAGCGGGAGGGAGGCCCCAGCCAAATCGGG GATGCCTTGGGCTTTGCTGTGCGATACTTGACTTCAGAAATGCATGGTGCCAGGCCGGGAGCCTCAAAG GCGGTGGTCATCCTGGTCACGGACGTCTCTGTGGATTCAGTGGATGCAGCAGCTGATGCCGCCAGGTCC AACAGAGTGACAGTGTTCCCTATTGGAATTGGAGATCGCTACGATGCAGCCCAGCTACGGATCTTGGCA GGCCCAGCAGGCGACTCCAACGTGGTGAAGCTCCAGCGAATCGAAGACCTCCCTACCATGGTCACCTTG GGCAATTCCTTCCTCCACAAACTGTGCTCTGGATTTGTTAGGATTTGCATGGATGAGGATGGGAATGAG AAGAGGCCCGGGGACGTCTGGACCTTGCCAGACCAGTGCCACACCGTGACTTGCCAGCCAGATGGCCAG ACCTTGCTGAAGAGTCATCGGGTCAACTGTGACCGGGGGCTGAGGCCTTCGTGCCCTAACAGCCAGTCC CCTGTTAAAGTGGAAGAGACCTGTGGCTGCCGCTGGACCTGCCCCTGTGTGTGCACAGGCAGCTCCACT CGGCACATCGTGACCTTTGATGGGCAGAATTTCAAGCTGACTGGCAGCTGTTCTTATGTCCTATTTCAA AACAAGGAGCAGGACCTGGAGGTGATTCTCCATAATGGTGCCTGCAGCCCTGGAGCAAGGCAGGGCTGC ATGAAATCCATCGAGGTGAAGCACAGTGCCCTCTCCGTCGAGCTGCACAGTGACATGGAGGTGACGGTG AATGGGAGACTGGTCTCTGTTCCTTACGTGGGTGGGAACATGGAAGTCAACGTTTATGGTGCCATCATG CATGAGGTCAGATTCAATCACCTTGGTCACATCTTCACATTCACTCCACAAAACAATGAGTTCCAACTG CAGCTCAGCCCCAAGACTTTTGCTTCAAAGACGTATGGTCTGTGTGGGATCTGTGATGAGAACGGAGCC AATGACTTCATGCTGAGGGATGGCACAGTCACCACAGACTGGAAAACACTTGTTCAGGAATGGACTGTG CAGCGGCCAGGGCAGACGTGCCAGCCCATCCTGGAGGAGCAGTGTCTTGTCCCCGACAGCTCCCACTGC CAGGTCCTCCTCTTACCACTGTTTGCTGAATGCCACAAGGTCCTGGCTCCAGCCACATTCTATGCCATC TGCCAGCAGGACAGTTGCCACCAGGAGCAAGTGTGTGAGGTGATCGCCTCTTATGCCCACCTCTGTCGG ACCAACGGGGTCTGCGTTGACTGGAGGACACCTGATTTCTGTGCTATGTCATGCCCACCATCTCTGGTC TACAACCACTGTGAGCATGGCTGTCCCCGGCACTGTGATGGCAACGTGAGCTCCTGTGGGGACCATCCC TCCGAAGGCTGTTTCTGCCCTCCAGATAAAGTCATGTTGGAAGGCAGCTGTGTCCCTGAAGAGGCCTGC ACTCAGTGCATTGGTGAGGATGGAGTCCAGCACCAGTTCCTGGAAGCCTGGGTCCCGGACCACCAGCCC TGTCAGATCTGCACATGCCTCAGCGGGCGGAAGGTCAACTGCACAACGCAGCCCTGCCCCACGGCCAAA GCTCCCACGTGTGGCCTGTGTGAAGTAGCCCGCCTCCGCCAGAATGCAGACCAGTGCTGCCCCGAGTAT GAGTGTGTGTGTGACCCAGTGAGCTGTGACCTGCCCCCAGTGCCTCACTGTGAACGTGGCCTCCAGCCC ACACTGACCAACCCTGGCGAGTGCAGACCCAACTTCACCTGCGCCTGCAGGAAGGAGGAGTGCAAAAGA GTGTCCCCACCCTCCTGCCCCCCGCACCGTTTGCCCACCCTTCGGAAGACCCAGTGCTGTGATGAGTAT GAGTGTGCCTGCAACTGTGTCAACTCCACAGTGAGCTGTCCCCTTGGGTACTTGGCCTCAACCGCCACC AATGACTGTGGCTGTACCACAACCACCTGCCTTCCCGACAAGGTGTGTGTCCACCGAAGCACCATCTAC CCTGTGGGCCAGTTCTGGGAGGAGGGCTGCGATGTGTGCACCTGCACCGACATGGAGGATGCCGTGATG GGCCTCCGCGTGGCCCAGTGCTCCCAGAAGCCCTGTGAGGACAGCTGTCGGTCGGGCTTCACTTACGTT CTGCATGAAGGCGAGTGCTGTGGAAGGTGCCTGCCATCTGCCTGTGAGGTGGTGACTGGCTCACCGCGG GGGGACTCCCAGTCTTCCTGGAAGAGTGTCGGCTCCCAGTGGGCCTCCCCGGAGAACCCCTGCCTCATC AATGAGTGTGTCCGAGTGAAGGAGGAGGTCTTTATACAACAAAGGAACGTCTCCTGCCCCCAGCTGGAG GTCCCTGTCTGCCCCTCGGGCTTTCAGCTGAGCTGTAAGACCTCAGCGTGCTGCCCAAGCTGTCGCTGT GAGCGCATGGAGGCCTGCATGCTCAATGGCACTGTCATTGGGCCCGGGAAGACTGTGATGATCGATGTG TGCACGACCTGCCGCTGCATGGTGCAGGTGGGGGTCATCTCTGGATTCAAGCTGGAGTGCAGGAAGACC ACCTGCAACCCCTGCCCCCTGGGTTACAAGGAAGAAAATAACACAGGTGAATGTTGTGGGAGATGTTTG CCTACGGCTTGCACCATTCAGCTAAGAGGAGGACAGATCATGACACTGAAGCGTGATGAGACGCTCCAG GATGGCTGTGATACTCACTTCTGCAAGGTCAATGAGAGAGGAGAGTACTTCTGGGAGAAGAGGGTCACA GGCTGCCCACCCTTTGATGAACACAAGTGTCTGGCTGAGGGAGGTAAAATTATGAAAATTCCAGGCACC TGCTGTGACACATGTGAGGAGCCTGAGTGCAACGACATCACTGCCAGGCTGCAGTATGTCAAGGTGGGA AGCTGTAAGTCTGAAGTAGAGGTGGATATCCACTACTGCCAGGGCAAATGTGCCAGCAAAGCCATGTAC TCCATTGACATCAACGATGTGCAGGACCAGTGCTCCTGCTGCTCTCCGACACGGACGGAGCCCATGCAG GTGGCCCTGCACTGCACCAATGGCTCTGTTGTGTACCATGAGGTTCTCAATGCCATGGAGTGCAAATGC TCCCCCAGGAAGTGCAGCAAG ACGCGTACGCGGCCGCTCGAG - GFP Tag - GTTTAAAC >Peptide sequence encoded by RG218497
Blue=ORF Red=Cloning site Green=Tag(s) MIPARFAGVLLALALILPGTLCAEGTRGRSSTARCSLFGSDFVNTFDGSMYSFAGYCSYLLAGGCQKRS FSIIGDFQNGKRVSLSVYLGEFFDIHLFVNGTVTQGDQRVSMPYASKGLYLETEAGYYKLSGEAYGFVA RIDGSGNFQVLLSDRYFNKTCGLCGNFNIFAEDDFMTQEGTLTSDPYDFANSWALSSGEQWCERASPPS SSCNISSGEMQKGLWEQCQLLKSTSVFARCHPLVDPEPFVALCEKTLCECAGGLECACPALLEYARTCA QEGMVLYGWTDHSACSPVCPAGMEYRQCVSPCARTCQSLHINEMCQERCVDGCSCPEGQLLDEGLCVES TECPCVHSGKRYPPGTSLSRDCNTCICRNSQWICSNEECPGECLVTGQSHFKSFDNRYFTFSGICQYLL ARDCQDHSFSIVIETVQCADDRDAVCTRSVTVRLPGLHNSLVKLKHGAGVAMDGQDVQLPLLKGDLRIQ RTVTASVRLSYGEDLQMDWDGRGRLLVKLSPVYAGKTCGLCGNYNGNQGDDFLTPSGLAEPRVEDFGNA WKLHGDCQDLQKQHSDPCALNPRMTRFSEEACAVLTSPTFEACHRAVSPLPYLRNCRYDVCSCSDGREC LCGALASYAAACAGRGVRVAWREPGRCELNCPKGQVYLQCGTPCNLTCRSLSYPDEECNEACLEGCFCP PGLYMDERGDCVPKAQCPCYYDGEIFQPEDIFSDHHTMCYCEDGFMHCTMSGVPGSLLPDAVLSSPLSH RSKRSLSCRPPMVKLVCPADNLRAEGLECAKTCQNYDLECMSMGCVSGCLCPPGMVRHENRCVALERCP CFHQGKEYAPGETVKIGCNTCVCRDRKWNCTDHVCDATCSTIGMAHYLTFDGLKYLFPGECQYVLVQDY CGSNPGTFRILVGNKGCSHPSVKCKKRVTILVEGGEIELFDGEVNVKRPMKDETHFEVVESGRYIILLL GKALSVVWDRHLSISVVLKQTYQEKVCGLCGNFDGIQNNDLTSSNLQVEEDPVDFGNSWKVSSQCADTR KVPLDSSPATCHNNIMKQTMVDSSCRILTSDVFQDCNKLVDPEPYLDVCIYDTCSCESIGDCACFCDTI AAYAHVCAQHGKVVTWRTATLCPQSCEERNLRENGYECEWRYNSCAPACQVTCQHPEPLACPVQCVEGC HAHCPPGKILDELLQTCVDPEDCPVCEVAGRRFASGKKVTLNPSDPEHCQICHCDVVNLTCEACQEPGG LVVPPTDAPVSPTTLYVEDISEPPLHDFYCSRLLDLVFLLDGSSRLSEAEFEVLKAFVVDMMERLRISQ KWVRVAVVEYHDGSHAYIGLKDRKRPSELRRIASQVKYAGSQVASTSEVLKYTLFQIFSKIDRPEASRI ALLLMASQEPQRMSRNFVRYVQGLKKKKVIVIPVGIGPHANLKQIRLIEKQAPENKAFVLSSVDELEQQ RDEIVSYLCDLAPEAPPPTLPPHMAQVTVGPGLLGVSTLGPKRNSMVLDVAFVLEGSDKIGEADFNRSK EFMEEVIQRMDVGQDSIHVTVLQYSYMVTVEYPFSEAQSKGDILQRVREIRYQGGNRTNTGLALRYLSD HSFLVSQGDREQAPNLVYMVTGNPASDEIKRLPGDIQVVPIGVGPNANVQELERIGWPNAPILIQDFET LPREAPDLVLQRCCSGEGLQIPTLSPAPDCSQPLDVILLLDGSSSFPASYFDEMKSFAKAFISKANIGP RLTQVSVLQYGSITTIDVPWNVVPEKAHLLSLVDVMQREGGPSQIGDALGFAVRYLTSEMHGARPGASK AVVILVTDVSVDSVDAAADAARSNRVTVFPIGIGDRYDAAQLRILAGPAGDSNVVKLQRIEDLPTMVTL GNSFLHKLCSGFVRICMDEDGNEKRPGDVWTLPDQCHTVTCQPDGQTLLKSHRVNCDRGLRPSCPNSQS PVKVEETCGCRWTCPCVCTGSSTRHIVTFDGQNFKLTGSCSYVLFQNKEQDLEVILHNGACSPGARQGC MKSIEVKHSALSVELHSDMEVTVNGRLVSVPYVGGNMEVNVYGAIMHEVRFNHLGHIFTFTPQNNEFQL QLSPKTFASKTYGLCGICDENGANDFMLRDGTVTTDWKTLVQEWTVQRPGQTCQPILEEQCLVPDSSHC QVLLLPLFAECHKVLAPATFYAICQQDSCHQEQVCEVIASYAHLCRTNGVCVDWRTPDFCAMSCPPSLV YNHCEHGCPRHCDGNVSSCGDHPSEGCFCPPDKVMLEGSCVPEEACTQCIGEDGVQHQFLEAWVPDHQP CQICTCLSGRKVNCTTQPCPTAKAPTCGLCEVARLRQNADQCCPEYECVCDPVSCDLPPVPHCERGLQP TLTNPGECRPNFTCACRKEECKRVSPPSCPPHRLPTLRKTQCCDEYECACNCVNSTVSCPLGYLASTAT NDCGCTTTTCLPDKVCVHRSTIYPVGQFWEEGCDVCTCTDMEDAVMGLRVAQCSQKPCEDSCRSGFTYV LHEGECCGRCLPSACEVVTGSPRGDSQSSWKSVGSQWASPENPCLINECVRVKEEVFIQQRNVSCPQLE VPVCPSGFQLSCKTSACCPSCRCERMEACMLNGTVIGPGKTVMIDVCTTCRCMVQVGVISGFKLECRKT TCNPCPLGYKEENNTGECCGRCLPTACTIQLRGGQIMTLKRDETLQDGCDTHFCKVNERGEYFWEKRVT GCPPFDEHKCLAEGGKIMKIPGTCCDTCEEPECNDITARLQYVKVGSCKSEVEVDIHYCQGKCASKAMY SIDINDVQDQCSCCSPTRTEPMQVALHCTNGSVVYHEVLNAMECKCSPRKCSK TRTRPLEMESDESGLPAMEIECRITGTLNGVEFELVGGGEGTPEQGRMTNKMKSTKGALTFSPYLLSHV MGYGFYHFGTYPSGYENPFLHAINNGGYTNTRIEKYEDGGVLHVSFSYRYEAGRVIGDFKVMGTGFPED SVIFTDKIIRSNATVEHLHPMGDNDLDGSFTRTFSLRDGGYYSSVVDSHMHFKSAIHPSILQNGGPMFA FRRVEEDHSNTELGIVEYQHAFKTPDADAGEERV |
Restriction Sites | SgfI-MluI Cloning Scheme for this gene Plasmid Map |
ACCN | NM_000552 |
ORF Size | 8439 bp |
OTI Disclaimer | The molecular sequence of this clone aligns with the gene accession number as a point of reference only. However, individual transcript sequences of the same gene can differ through naturally occurring variations (e.g. polymorphisms), each with its own valid existence. This clone is substantially in agreement with the reference, but a complete review of all prevailing variants is recommended prior to use. More info |
OTI Annotation | This clone was engineered to express the complete ORF with an expression tag. Expression varies depending on the nature of the gene. |
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. |
Reference Data | |
RefSeq Size | 8833 bp |
RefSeq ORF | 8442 bp |
Locus ID | 7450 |
UniProt ID | P04275 |
Domains | VWC, VWD, VWA, TIL, CT, Cys_knot |
Protein Families | Druggable Genome, Secreted Protein |
Protein Pathways | Complement and coagulation cascades, ECM-receptor interaction, Focal adhesion |
MW | 309.3 kDa |
Gene Summary | This gene encodes a glycoprotein involved in hemostasis. The encoded preproprotein is proteolytically processed following assembly into large multimeric complexes. These complexes function in the adhesion of platelets to sites of vascular injury and the transport of various proteins in the blood. Mutations in this gene result in von Willebrand disease, an inherited bleeding disorder. An unprocessed pseudogene has been found on chromosome 22. [provided by RefSeq, Oct 2015] |
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SDS |
Resources
Other Versions
SKU | Description | Size | Price |
---|---|---|---|
RC218497 | VWF (Myc-DDK-tagged)-Human von Willebrand factor (VWF) |
CNY 18,232.00 |
|
RC218497L1 | Lenti ORF clone of Human von Willebrand factor (VWF), Myc-DDK-tagged |
CNY 20,632.00 |
|
SC119835 | VWF (untagged)-Human von Willebrand factor (VWF) |
CNY 18,240.00 |
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