Col6a3 (NM_001243008) Mouse Tagged ORF Clone

CAT#: MR231978

  • TrueORF®

Col6a3 (myc-DDK-tagged) - Mouse collagen, type VI, alpha 3 (Col6a3), transcript variant 1

Datasheet
SDS
Plasmid Map

  "NM_001243008" in other vectors (1)

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Mouse Protein / Lysate Request

CNY 32,780.00

货期*
12周
规格
    • 10 ug

Product images

经常一起买 (4)
PS100001
pCMV6-Entry, mammalian vector with C-terminal Myc- DDK Tag, 10ug
    • 10 ug

CNY 5,420.00

添加到购物车
CC100003
DH5α Chemically Competent Cells (≥10^8 cfu/μg of pUC19 DNA)
    • 5 x 200 ul

CNY 1,280.00

暂停销售
PRIMER
Forward sequencing primer VP1.5, Reverse sequencing primer XL39, 100pmoles each
    • 100 pmol

CNY 480.00

添加到购物车
TA592569S
DDK Rabbit monoclonal antibody, recognizing both N- and C-terminal tags
    • 30 ul

CNY 300.00

添加到购物车

【特别福利】购一抗正装产品,免费领10ul抗体试用装

Specifications

Product Data
Type Mouse Tagged ORF Clone
Tag Myc-DDK
Synonyms AI507288; Col6a-3
Vector pCMV6-Entry
E. coli Selection Kanamycin (25 ug/mL)
Mammalian Cell Selection Neomycin
Sequence Data
>MR231978 representing NM_001243008
Red=Cloning site Blue=ORF Green=Tags(s)

TTTTGTAATACGACTCACTATAGGGCGGCCGGGAATTCGTCGACTGGATCCGGTACCGAGGAGATCTGCC
GCCGCGATCGCC

ATGAGGAAACACCGGCATCTGCCCCTAGTGGCTGTCTTTAGCCTTCTCCTCTCAGGCATTGCCACGACTC
ATGCCCAACAGCATGGAGATGTCAAAAACGGTGCGGCGGCTGACATAGTGTTTCTAGTGGATTCCTCTTG
GAGTGCTGGGAAGGACCGTTTCCTGCTTGTTCAAGAGTTTCTGTCTGATGTTGTAGAGTCTTTAGCTGTG
GGAGACAATGATTTTCACTTTGCTCTGGTCCGGCTCAACGGAAACCCACATACCGAGTTCCTGTTAAATA
CATACCACTCTAAACAAGAAGTCCTTTCTCATATTGTGAACATGTCTTACATTGGGGGAAGCAACCAAAC
TGGAAAAGGATTAGAATACGTAATTCACAGCCACCTCACTGAGGCTTCCGGAAGCCGGGCTGCTGACGGA
GTCCCTCAGGTTATCATAGTATTAACTGATGGACAATCGGAGGATGGCTTCGCTCTGCCCTCAGCGGAAC
TTAAGTCTGCGGACGTTAATGTGTTTGCAGTCGGAGTTGAGGGTGCAGATGAAAGAGCCCTAGGAGAAGT
AGCAAGCGAACCACTCAGTATGCATGTTTTCAACCTAGAGAACGTTACCTCACTGCATGGCCTAGTAGGG
AACTTAGTGTCCTGTATACACTCCTCTGTGAATCCAGAAAGGGCTGGGGACAAGGAAAGCCTTAAAGACA
TCACAGCACAAGACTCAGCTGACATTATTTTCCTTATTGATGGATCACAGAACACCGGAAATGCCAATTT
CGATGTCATTCGAGACTTCCTTGTAAATGTCCTTGAGAGACTCTCAGTTGGAAACCAGCAGGTCCAAGTG
GGGGTGGTACAGTATAGCGAGGAGCCCATAACCATGTTCTCCTTGAATAGCTACCCCTCCAAGGCTGCAG
TTCTGGATGCCGTGAAAGGGCTCAGCTTGGTTGGGGGGGAGTCGGCCAATATAGGCCAGGCTCTTGACTT
TGTAGTGGAGAATCACTTCACTCGGGCAGGTGGCAGCCGCGTGGAGGAAGGGGTCCCCCAGGTGCTGGTC
CTCATAAGTGCTGGGCCTTCTAGTGATGAGATTCGAGATTCGGTGGTAGCTCTGAAGCAGGCTAGTGTGT
TCTCGTTTGGCCTCGGAGCCCAGGCAGCCTCCAGGGCAGAGCTTCAGCACATAGCTACCGATGACAGCTT
GGTGTTTACTGTCCCGGAATTCCGTAGCTTTGGGGATCTCCAGGAGCAAATACTGCCGTACCTTGTTGGT
GTGGCCCAAAGGCACATTGTCTTGCAACCACCAGCTATTGTCACACAAGTCATGGAAGTCAACAAGAGGG
ACATAGTCTTCCTGGTGGATGGTTCCTCCAGCCTGGGGCCATCCAACTTCAATGCCATCCGAGACTTCGT
TACCAGAGTCATCCAGAGGTTGGAAATTGGACAGGACCTGGTTCAGGTATCAGTGGCTCAGTATGCAGAC
ACTGTCAAGCCTGAGTTCTATTTAAATTCCTATACCAACAAAAGGGATGCCATAACTGCTGTACGGAAGA
TGAGGGCCCTGAATGGCTCAGCCCTGTACACGGGATCTTCTCTGGACTTTGTTCGAAACAACCTCTTCAC
TAGCTCAGCCGGCCATAGGGCCGCTGAGGGGGTTCCTAAGCTCCTGGTGCTGATCACAGGCGGTAAGTCC
CTCGATGAAGTCAGCCAGCCTGCCCAGGAGCTGAAGAGAGGCAGCATCATGGCCTTGGCCGTTGGCAGCA
AGGCCGCCGATGAGGATGAGCTGAAAGAGATCGCTTTCGACTCCTCCCTGGTCTTCATTCCCGCTGAGTT
CCGCCCTGCTCCCTTGCAAAACATGCTGCCCAGCCTGATGGCACCTCTCAGGACTCTCACTGGAACCACG
GAAGTTCACGTAAACAAACGGGATATCATCTTCCTTTTGGATGGCTCCGACAACGTTGGGAAAAACAATT
TCCCTTATGTGCGTGACTTTGTAACCAACCTAGTTAACAGCCTCGATGTTGGAAGTGACAATATCCGTGT
TGGCTTGGTGCAGTTTAGTGACACTCCGGTCACGGAGTTCTCTCTAGACACTTACCAGACCAAGTCCGAG
CTGCTCGCTCACCTGAGGCGCTTGCAGCTCAAGGGGGGCTCCGGCTTGAACGCAGGCTCTGCCTTGAGCT
ATATCCATGCCAATCACTTCACGGAGGCAGGAGGCAGCAGGACTCGTGAACACGTGCCTCAGCTGCTGCT
CCTGCTCATGGCCGGGCCCTCTGAGGATGCCTATTTGCAAGCTGCCAATGCCCTGGTGCGCTCAGGCGTG
CTGACCTTCTGTGTGGGGACCAATCGGGCGGATAAGGCTGAGTTAGAGCATATTGCTTTTAATCCCAGCC
TGGTATACCTCATGGACGATTTCCGCTCCCTGCCATCTTTGCCTCAACAGCTGATTCAGCCCCTAACCAC
ATATGTTAGTGGAGGTGTACAGGAAGTTCCACTATCCCAGCCAGAGAGCAAGCGGGACATTCTTTTCCTC
TTTGACGGCTCAGTCAATGTCTTGGGTCAGTTCCCTGCTGTCAGAGACTTTCTCTACAGGATCATTGAGG
AACTTGATGTGAAGCCGGATGGGACCCGGGTAGCAATAGCTCAGTTCAGTGATGACGTCAGGCTGGAGTC
CCGCTTCAGTGAGCACCAGACGAAAGCTGAAATCCTTAATCTCGTGAAGAAGATGAAGCTAAAAACAGGC
AAAGCCCTCAACCTGGGCTACGCCCTGGACTACGCGCTTAGGAACATCTTTGTGAGGTCGGCTGGCAGCC
GCATCGAGGATAACGTGCAGCAGTTCCTGGTGCTGCTGGTTGCTGGAAGGTCGTCAGATGCTGTGGCCGG
GCCTGCAAGCTCCCTGAAGCAGAGAGGAGTGGTACCTTTCATCTTTCAAGCCAAGAACGCCAACCCCAGT
GAGCTGGAGCAGATTGTGCTGTCGCCTGCATTCATCCTGGCTGCAGAGTCACTCCCTAAGATCGGAGACC
TCCAATCACAGATTGTGAGCCTTCTGAAAGCAGAACAGGGTTCAGGCCCTGTATCAGGTGAAAAGGATGT
GGTGTTTCTCATTGATGGCTCTGAGGGTGTCCGCAGTGGCTTCCCCCTGCTAAAGGACTTTGTGCAGAGG
GTTGTGGAGAGCTTGGATGTGGGTCCCGACCGTGTGCGTGTGGCACTGGTGCAGTACAGTGACCGGACCA
GGCCGGAGTTCTACCTGAATTCCCACATGGACCAGCAGGGTGTCATCAGCGCCATCCGCAGGCTGACACT
GCTGGGCGGCCCAACCCCCAACACAGGGGCGGCACTGGAGTTCGTGTTAAGGAACATTCTGACCAGTTCT
ACTGGGAGCAGGATAGCAGAAGGTGTTCCTCAGCTCCTGATTGTCCTCACAGCAGAGCCATCAGGGGATG
ACGTGCGAGGCCCTTCAGTAGTCCTGAAGCAGGGCGGGGCTGTGCCCATTGGCATTGGCATTGGGAATGC
TGACATCTCTGAAATGCAGACCATCTCCTTCATCCCTGACTTTGCTGTGGCCATCCCCACCTTCCGGGAG
CTTGGGACGATACAGCAGGTCATCTCTGAGAGGGTGATCCAGCTTAATCGTGAGGAGCTGAGCTCGTTGA
AACCCATTTTGACGCCCTCAACAGGTGCAGGTGTTGGCAGCAAGAAAGATGTGGTCTTTCTCATCGATGG
ATCCCGAAATGCTGGCCCTGAGTTCCAGTACATCCGTACCCTGATTGAGAGGATAGTCGAGTACCTGGAC
ATAGGCTTTGACACCACCCGGGTAGCCGTCATCCAGTTCAGTGAGGACTCCAAGATGGAGTTTCCTCTGA
ATGCCCACTTCAGCAAGGATGAAGTACAGAACGCTGTGCGCAGGCTGCGGCCCAAGGGTGGGAGTCAGGT
CTACATCGGAAATGCCCTGGAGTACGTGCTGAAGAACATCTTCCAGAGGCCACTGGGGAGCCGGATAGAA
GAGGGCGTTCCGCAGTTCCTAGTCCTCATTTCGTCTGGAAAGTCTGATGATGAGGTGGACGACTCAGCCG
TGGAACTCAAGCAGTTCGGTGTGGCCCCTCTCACCATAGCCAGACACACAGACCAAGAGGAGCTGGTGAA
GATCTCCCTAAGTCCTGAGTACGTGTACTCCGTGAGCACCTTCAGGGAGCTGCCCAGACTGGAGCAGAAG
CTGCTGACGCCCATCACCACTCTAACCTCACAGCAGATCCATCAGATCCTGGCCAGTACCCGATATCCCC
CTTCAGTGGTTGAAAGCGATGCGGCTGACATCGTCTTTCTGATTGACAGCTCTGATGCCGTCAAGCCCGA
TGGCATCGCTCATATCCGAGACTTTGTCAGCAGGATCGTTCGCAGACTCAACATTGGTCCCAGTAAAGTG
AGGATTGGGGTCGTGCAGTTTAGCAATGATGTCTTCCCTGAGTTCTACCTGAAGACCCACAAGTCCCAGA
GCAGTGTGCTTGAAGCCATACGGCGTCTGAGGTTCAAAGGAGGGTCTCCCCTAAACACTGGCAGAGCCCT
GGAGTTTGTGGCAAGAAACCTCTTCGTGAAGTCTGCTGGGAGCCGGATAGAAGATGGGGTCCCTCAACAC
CTGGTCTTATTCCTGGGTGGGAAGTCTCAGGACGATGTGGCCAGGCATGCCCAAGTCATAAGCTCATCGG
GGATTGTGAGCTTAGGAATAGGAGATCGGAACATTGATAGGACGGACTTGCAAACCATCACCAATGACCC
CAGGCTGGTCTTCACAGTTCGGGAATTCAGAGAGCTGCCCAACATAGAAGAGAGGGTCATGCTTTCCTTT
GGACCCTCTGGGGCTACTCCTCAGCCTCCTGGGGTAGATTTACCTTCTCCTTCCCGGCCAGAGAAGAAGA
AGGCCGACATTGTGTTCCTGCTGGATGGTTCCATCAATTTTAGGAGGGACAGTTTCCAGGAAGTGCTCCG
TTTTGCATCTGAAATCGTGGACACGGTCTATGAAGACGGAGATTCCATCAGAGTGGGACTGGTCCAGTAC
AACTCAGACCCCACGGATGAATTCTTCCTGAGGGACTTTTCTACCAAAAGGCAGATTATCGATGCCATCA
ACAAAGTCGTCTATAAAGGAGGGAGGCATGCCAACACCAGGGTGGGCATCGAGCACCTGCTGCGGAATCA
CTTTGTGCCGGAGGCTGGTAGCCGCCTGGATGAGCGGGTTCCTCAGATCGCCTTCGTGATCACCGGAGGG
AAGTCAGTGGAGGATGCTCAGGATGTGAGCCTGGCTCTCACCCAGAAAGGTGTCAAGGTGTTTGCCGTTG
GCGTGAGGAACATCGACTCTGAGGAGGTGGGCAAGATAGCCTCCAACAGTGCCACAGCCTTCCGGGTGGG
CAGCGTGCAGGAACTGTCCGAACTGAGTGAGACAGTGCTCGAGACTCTGCATGATGCAATGCATGAGACC
CTCTGCCCTGGTGTGACCGATGTCTCCAAAGCCTGCAATCTGGAAGTCATTCTGGGGTTTGATGGATCTC
GAGATCAGAATGTGTTTGTGAGTCAGAAGGGCCTTGAGTCCAAGGTGGACATCATCTTGAACAGAATCAG
CCAGATACAAAGGATCAGCTGCAGTGGCAACCAGCTGCCCACTGTGAGGGTATCCGTGATGGCGAACACG
CCCTCTGGGCCAGTGGAGGCCTTTGACTTTGCCGAGTATCAGCCGGAGCTGTTTGAGAAGTTTCGCAACA
TGCGCAGTCAGCGCCCATACGTCCTCACAGCTGACACGCTGAAGTTGTACCAGAACAAGTTCAGGCAGTC
GTCGCCTGATACTGTGAAGGTAGTCATTCACTTCACGGATGGAGCAGATGGAGACATGGCTGACTTATAC
AGAGCATCTGAGGAACTCCGGCAAGCAGGTGCCCAAGCCCTGATCCTGGTGGGTCTTGAACGTGTGGCTA
ACCTGGAGCGGCTGATGCATCTGGAGTTCGGGCGGGGCTTCATGTATGACAGGCCCCTGAGGCTCAACCT
GCTTGACTTAGACTATGAACTGGCAGAGCAGCTTGACAATATTGCTGAGAAAGCTTGCTGTGGGGTTCCA
TGCAAGTGCTCTGGAGAGAGGGGAGACAGAGGGCCCATTGGCAGCATTGGGCCAAAGGGTATCTCCGGGG
AAGATGGCTACCGAGGCTACCCGGGAGACGAAGGCGGACCTGGTGAGCGAGGTCCACCTGGTGTGAATGG
CACACAAGGTTTCCAGGGCTGTCCAGGCCAGAGGGGAGTGAAGGGTTCTCGAGGATTCCCAGGAGAGAAG
GGTGAATTGGGAGAAATCGGCTTGGATGGTCTGGATGGTGAAGAGGGAGACAAGGGGCTGCCTGGTTCTT
CTGGAGAAAAGGGGAGTCCTGGAAGAAGGGGTGACAAAGGACCCAAAGGAGACAAAGGCGAGAGAGGAGA
TGTCGGGATTCGAGGTGACCCGGGTGACTCAGGACGGGACAGCCAGCAGAGAGGACCCAAAGGAGAGACG
GGAGACATCGGCCCCATGGGTCTCCCAGGCAGAGATGGCATCCCTGGCAGCCCAGGAGACCCTGGGAAGG
ACGGTGGCTCTGGCCGAAGGGGCCCTGCAGGAGCTAAGGGCAACAGAGGTGGTCCTGGCCAGCCAGGCTT
CGAAGGCGAGCAGGGTACCAGAGGCTCACAGGGCCCACCTGGTCCCATTGGTCCCCCAGGCCTGATTGGG
GAACAAGGAATTCCCGGACCTCGAGGAGGCGGAGGTACGGCTGGGGCTCCTGGAGAACGTGGCAGAACTG
GTCCTCTGGGGAGGAAGGGTGAGCCAGGAGAGCCAGGGCCGAAGGGAAGCATCGGGAACCGTGGACCCCG
AGGAGAGACGGGAGATGACGGGAGAGATGGGGTTGGCAGTGAAGGACGCAGAGGCAAAAAAGGAGAAAGA
GGCTTCCCTGGGTATCCGGGACCAAAGGGCACCCCTGGTGAGCCAGGGGCAGATGGACCACCAGGACCCA
AAGGCATCAGAGGTCGAAGGGGAAATTCAGGACCTCCAGGGGCAACTGGACAAAAGGGAGACCCTGGTTA
CCCAGGACCATCTGGTCACAAGGGCAACCGAGGCGACTCCGTTGATCAATGCGCCCTCATCCAGAGCATC
AGAGACAAATGCCCTTGCTGCTACGGGCCCCTGGAGTGCCCTGTATTCCCAACAGAACTCGCCTTTGCCC
TGGATACCTCTGAGGGGGTGACTCAGGACACCTTCAGCCGGATGCGAGAGGTGCTTCTGGGCATTGTGGG
CGATCTGACCATTGCAGAGAGCAACTGTCCGCGGGGTGCCCGCGTGGCTGTGGTCACCTATAACAATGAG
GTGACTACAGAGATCCGGTTTGCTGACTCCAAGAAGAAGTCTGCCCTCTTAGACAGTATTCAGAACCTCC
AAGTGGCCTTGACCTCTAAGCAGCAGAGCCTGGAGACCGCAATGTCATTCGTGGCCAGGAATACATTCAA
ACGTGTGAGGAGTGGCTTCCTGATGAGGAAAGTGGCTGTTTTCTTCAGCAACAAGCCCACCAGGGCATCC
CCCCAGCTCCGAGAGGCCGTACTCAAGCTTTCCGATGCGGGGATCACACCCTTGTTCCTTACAAGCCAGG
AGGACCGACAGCTCATCAACGCTTTGCAGATCAATAACACAGCAGTGGGACATGCCCTGGTTCTGCCTGC
AAGGAGGGATCTCACAGACTTCCTGAAGAATGTCCTTACCTGCCATGTTTGCTTGGACATTTGCAATATC
GACCCATCCTGTGGCTTCGGCAGCTGGAGGCCTTCCTTCAGGGACCGGAGGGCAGCAGGCAGTGATGTGG
ACATAGACCTGGCTTTCATCTTGGACAGCTCAGAGGCTACCACACTGTTCCAGTTCAATGAGATGAAGAA
ATACATAGGCTATGTGATCAGACAGCTGGACCTGAGCCCAGACCCGAAGGCTTCCCAACACTTTGCCAGG
GTGGCTGTTGTGCAGCAGTCAACCTACGAGTCTGTGGACAATGCCAGTGTGCCGCCTGTGAAGGTGGAAT
TCTCACTGACAGACTATGGTGCCAAGGAAAAGCTGTTGGATTTCCTTAGCCGGAGGATGACCCAACTTCA
GGGAACCATGGGCCTGGGCAATGCCATTGAATACACTATAGAGAACATCTTTGAAAGTGCTCCAAACCCA
CGGGACCTCAAAATTATGGTGCTGATGTTGACTGGTGACATGCAGAGGCAGCAGCTGGAGGAGGCCCAGA
GAGCCATCCTCCAGGCCAAGTGCAAGGGTTACTTCTTTGTGGTTCTGGGCATTGGCAGGAAGGTGAATAT
CAAGGAGGTCTACAGCTTTGCCAGTGAGCCCAATGATGTCTTCTTCAAATTTGTGGACAAATCAACTGAG
CTCAACGAGGAGCCTCTGATGCGCTTTGGGAGGCTGCTCCCATCCTTTGTCAGCAGTGAAAATGCATTTT
ACCTGCCTCCAGATCTCAGGAAACAGTGTGATTGGTTCCAAGGGGACCAACCAGTGAAGAATGGCGTGAA
GTTTGGTCACAAACAGATAAACCCTCCACATACTGCTAATTCAAGTCTTACATCCAAAGTTGTGACCACA
ATGAAGCCAGTGACAACGACCAAACCAACAGCAATTGTAAACCTGCCACCTGCTAAGCCAGCCCCAGCGA
GGCCAGCCCCTGCTCAGCCAGTTCTTGCTAAGCCAGACCCCGCAAAACCAGCCCAAGCAAGGCCAGCCCC
TGCTAAGCCAGCTTCTGCTAAGTTGGTGCCTCCTCAGCCAGTCCATGTTCAGCCAGCCCCTGCCCAGACA
GCTTCTGTAAGACCAGCCCCCGCTAAGCCAGCCCCTCCTCAGCCAGCTGCTGCTAAGCCAGTCCCTGCTA
AGCCAGCAGTCCCTGCTCAGCCAGCCCCTCCTCAGCCAGCTGCTGCTAAGCCAGTCCCTGCTAAGCCAGC
AGTCCCTGCTCAGCCAGCCCCTCCTCAGCCAGCTGCTGCTAAGCCAGTCCCTGCTAAGCCAGCAGTCCCT
GCTCAGCCAGCCGCTGCTCAACCAATGCCTGCTCAGCCAGTCCTTACTAAATCAGCCGCTGTGAAACCAG
CCTCTGCCAACAAGCCTGTGGCAGCCAAACCTGTGGCCACGAACACAGCCACAGCCACAGCCAGACCTGC
ATTAGCAGCGAAGCCTGCTGCAGCGAAGCCTGCAGCAACGAGACCCCTTGCTGCTGCCATAAGGCCAGTT
GCTACCAAGCCAGAGGCCCCCAGGCAACAGGCCAAACCAGCTGCCACCAAGCCAGCCACTACTAAGCCCT
TGGCGAGAGTGTCCCGAGAAGTCCAGGTCTCTGAAGTCACGGAGAACAGTGCCAGACTCCACTGGGAGCG
GCCCGAGCCTTCCAGCTCCTTTTTTTATGACCTCACTGTAACCTCGGCCCACGACCAGTCCTTGGTTCTG
AGACAAAACCTCACTGTCACTGACCGTGTCATCGGAGGCCTACTGGCTGGACAGCTGTACCATGTCGTAG
TGGTCTCCTACCTGCAGTCTCAGGTCAGGGCCATCTACCAAGGAAGTTTCAATACGAAGAAAACCCAGCC
TCCACCTCTTCAGGCAGCACACCGAGCATCCAGTTCAACCATCAACCTCATGGTGAACACAGAACCATTG
TTTCTCACTAAAACAGATATATGTAAGCTGTCCAGAGATGCTGGGACTTGTGTGGACTTCAAGTTACTAT
GGCACTATGACCTAGAGAGCAAAAGTTGCAAGAGATTCTGGTATGGAGGTTGTGGAGGCAACGAGAACAG
ATTCCACTCCCAGGAAGAATGTGAAAAGATGTGTAGTCCTGAGTTAACAGTT

ACGCGTACGCGGCCGCTCGAGCAGAAACTCATCTCAGAAGAGGATCTGGCAGCAAATGATATCCTGGATT
ACAAGGATGACGACGATAAGGTTTAA
>MR231978 representing NM_001243008
Red=Cloning site Green=Tags(s)

MRKHRHLPLVAVFSLLLSGIATTHAQQHGDVKNGAAADIVFLVDSSWSAGKDRFLLVQEFLSDVVESLAV
GDNDFHFALVRLNGNPHTEFLLNTYHSKQEVLSHIVNMSYIGGSNQTGKGLEYVIHSHLTEASGSRAADG
VPQVIIVLTDGQSEDGFALPSAELKSADVNVFAVGVEGADERALGEVASEPLSMHVFNLENVTSLHGLVG
NLVSCIHSSVNPERAGDKESLKDITAQDSADIIFLIDGSQNTGNANFDVIRDFLVNVLERLSVGNQQVQV
GVVQYSEEPITMFSLNSYPSKAAVLDAVKGLSLVGGESANIGQALDFVVENHFTRAGGSRVEEGVPQVLV
LISAGPSSDEIRDSVVALKQASVFSFGLGAQAASRAELQHIATDDSLVFTVPEFRSFGDLQEQILPYLVG
VAQRHIVLQPPAIVTQVMEVNKRDIVFLVDGSSSLGPSNFNAIRDFVTRVIQRLEIGQDLVQVSVAQYAD
TVKPEFYLNSYTNKRDAITAVRKMRALNGSALYTGSSLDFVRNNLFTSSAGHRAAEGVPKLLVLITGGKS
LDEVSQPAQELKRGSIMALAVGSKAADEDELKEIAFDSSLVFIPAEFRPAPLQNMLPSLMAPLRTLTGTT
EVHVNKRDIIFLLDGSDNVGKNNFPYVRDFVTNLVNSLDVGSDNIRVGLVQFSDTPVTEFSLDTYQTKSE
LLAHLRRLQLKGGSGLNAGSALSYIHANHFTEAGGSRTREHVPQLLLLLMAGPSEDAYLQAANALVRSGV
LTFCVGTNRADKAELEHIAFNPSLVYLMDDFRSLPSLPQQLIQPLTTYVSGGVQEVPLSQPESKRDILFL
FDGSVNVLGQFPAVRDFLYRIIEELDVKPDGTRVAIAQFSDDVRLESRFSEHQTKAEILNLVKKMKLKTG
KALNLGYALDYALRNIFVRSAGSRIEDNVQQFLVLLVAGRSSDAVAGPASSLKQRGVVPFIFQAKNANPS
ELEQIVLSPAFILAAESLPKIGDLQSQIVSLLKAEQGSGPVSGEKDVVFLIDGSEGVRSGFPLLKDFVQR
VVESLDVGPDRVRVALVQYSDRTRPEFYLNSHMDQQGVISAIRRLTLLGGPTPNTGAALEFVLRNILTSS
TGSRIAEGVPQLLIVLTAEPSGDDVRGPSVVLKQGGAVPIGIGIGNADISEMQTISFIPDFAVAIPTFRE
LGTIQQVISERVIQLNREELSSLKPILTPSTGAGVGSKKDVVFLIDGSRNAGPEFQYIRTLIERIVEYLD
IGFDTTRVAVIQFSEDSKMEFPLNAHFSKDEVQNAVRRLRPKGGSQVYIGNALEYVLKNIFQRPLGSRIE
EGVPQFLVLISSGKSDDEVDDSAVELKQFGVAPLTIARHTDQEELVKISLSPEYVYSVSTFRELPRLEQK
LLTPITTLTSQQIHQILASTRYPPSVVESDAADIVFLIDSSDAVKPDGIAHIRDFVSRIVRRLNIGPSKV
RIGVVQFSNDVFPEFYLKTHKSQSSVLEAIRRLRFKGGSPLNTGRALEFVARNLFVKSAGSRIEDGVPQH
LVLFLGGKSQDDVARHAQVISSSGIVSLGIGDRNIDRTDLQTITNDPRLVFTVREFRELPNIEERVMLSF
GPSGATPQPPGVDLPSPSRPEKKKADIVFLLDGSINFRRDSFQEVLRFASEIVDTVYEDGDSIRVGLVQY
NSDPTDEFFLRDFSTKRQIIDAINKVVYKGGRHANTRVGIEHLLRNHFVPEAGSRLDERVPQIAFVITGG
KSVEDAQDVSLALTQKGVKVFAVGVRNIDSEEVGKIASNSATAFRVGSVQELSELSETVLETLHDAMHET
LCPGVTDVSKACNLEVILGFDGSRDQNVFVSQKGLESKVDIILNRISQIQRISCSGNQLPTVRVSVMANT
PSGPVEAFDFAEYQPELFEKFRNMRSQRPYVLTADTLKLYQNKFRQSSPDTVKVVIHFTDGADGDMADLY
RASEELRQAGAQALILVGLERVANLERLMHLEFGRGFMYDRPLRLNLLDLDYELAEQLDNIAEKACCGVP
CKCSGERGDRGPIGSIGPKGISGEDGYRGYPGDEGGPGERGPPGVNGTQGFQGCPGQRGVKGSRGFPGEK
GELGEIGLDGLDGEEGDKGLPGSSGEKGSPGRRGDKGPKGDKGERGDVGIRGDPGDSGRDSQQRGPKGET
GDIGPMGLPGRDGIPGSPGDPGKDGGSGRRGPAGAKGNRGGPGQPGFEGEQGTRGSQGPPGPIGPPGLIG
EQGIPGPRGGGGTAGAPGERGRTGPLGRKGEPGEPGPKGSIGNRGPRGETGDDGRDGVGSEGRRGKKGER
GFPGYPGPKGTPGEPGADGPPGPKGIRGRRGNSGPPGATGQKGDPGYPGPSGHKGNRGDSVDQCALIQSI
RDKCPCCYGPLECPVFPTELAFALDTSEGVTQDTFSRMREVLLGIVGDLTIAESNCPRGARVAVVTYNNE
VTTEIRFADSKKKSALLDSIQNLQVALTSKQQSLETAMSFVARNTFKRVRSGFLMRKVAVFFSNKPTRAS
PQLREAVLKLSDAGITPLFLTSQEDRQLINALQINNTAVGHALVLPARRDLTDFLKNVLTCHVCLDICNI
DPSCGFGSWRPSFRDRRAAGSDVDIDLAFILDSSEATTLFQFNEMKKYIGYVIRQLDLSPDPKASQHFAR
VAVVQQSTYESVDNASVPPVKVEFSLTDYGAKEKLLDFLSRRMTQLQGTMGLGNAIEYTIENIFESAPNP
RDLKIMVLMLTGDMQRQQLEEAQRAILQAKCKGYFFVVLGIGRKVNIKEVYSFASEPNDVFFKFVDKSTE
LNEEPLMRFGRLLPSFVSSENAFYLPPDLRKQCDWFQGDQPVKNGVKFGHKQINPPHTANSSLTSKVVTT
MKPVTTTKPTAIVNLPPAKPAPARPAPAQPVLAKPDPAKPAQARPAPAKPASAKLVPPQPVHVQPAPAQT
ASVRPAPAKPAPPQPAAAKPVPAKPAVPAQPAPPQPAAAKPVPAKPAVPAQPAPPQPAAAKPVPAKPAVP
AQPAAAQPMPAQPVLTKSAAVKPASANKPVAAKPVATNTATATARPALAAKPAAAKPAATRPLAAAIRPV
ATKPEAPRQQAKPAATKPATTKPLARVSREVQVSEVTENSARLHWERPEPSSSFFYDLTVTSAHDQSLVL
RQNLTVTDRVIGGLLAGQLYHVVVVSYLQSQVRAIYQGSFNTKKTQPPPLQAAHRASSSTINLMVNTEPL
FLTKTDICKLSRDAGTCVDFKLLWHYDLESKSCKRFWYGGCGGNENRFHSQEECEKMCSPELTV

TRTRPLEQKLISEEDLAANDILDYKDDDDKV
Restriction Sites SgfI-MluI      Cloning Scheme for this gene      Plasmid Map     
ACCN NM_001243008
ORF Size 9852 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 NM_001243008.1, NP_001229937.1
RefSeq Size 10845 bp
RefSeq ORF 9855 bp
Locus ID 12835
MW 354.4 kDa
*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.

Other Versions

SKU Description Size Price
MC229767 Col6a3 (untagged) - Mouse collagen, type VI, alpha 3 (Col6a3), transcript variant 1
    • 10 ug

CNY 31,730.00

You may also need
plasmid icon Empty Vector
protein iconDDK/Flag Antibody

其它Col6a3产品

Expression Plasmids
Lentiviral Particles
CRISPR
RNAi
Proteins
Antibodies
相关产品 (4)

PS100001

pCMV6-Entry, mammalian vector with C-terminal Myc- DDK Tag, 10ug

    • 10 ug

CNY 5,420.00

TF81001

TurboFectin Transfection Reagent (1 mL in 1 vial)

    • 1 ml in 1 vial

CNY 4,090.00

TA50011-100

Clone OTI4C5, Anti-DDK (FLAG) monoclonal antibody

【特别福利】购一抗正装产品,免费领10ul抗体试用装

    • 100 ul

CNY 1,050.00

MC229767

Col6a3 (untagged) - Mouse collagen, type VI, alpha 3 (Col6a3), transcript variant 1

    • 10 ug

CNY 31,730.00

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