LAMA3 (NM_001127717) Human Tagged ORF Clone

CAT#: RG226498

  • TrueORF®

LAMA3 (tGFP-tagged) - Human laminin, alpha 3 (LAMA3), transcript variant 3

ORF Plasmid: DDK tGFP

Datasheet
SDS
Plasmid Map

  "NM_001127717" in other vectors (2)

Reconstitution Protocol

USD 2,855.00

12 Weeks*

Size
    • 10 ug
Bulk Requests & Clone Modifications

Product Images

Frequently bought together (5)
PS100010
pCMV6-AC-GFP, mammalian vector with C-terminal tGFP tag, 10ug
    • 10 ug

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TA150041
Mouse monoclonal turboGFP antibody, clone OTI2H8
    • 100 ul

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CC100003
DH5α Chemically Competent Cells (≥10^8 cfu/μg of pUC19 DNA)
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PRIMER
Forward sequencing primer VP1.5, Reverse sequencing primer XL39, 100pmoles each
    • 100 pmol

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TA323711
Anti-LAMA3 Rabbit Polyclonal Antibody
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Other products for "LAMA3"

Specifications

Product Data
Type Human Tagged ORF Clone
Tag TurboGFP
Symbol LAMA3
Synonyms BM600; E170; LAMNA; LOCS
Vector pCMV6-AC-GFP
E. coli Selection Ampicillin (100 ug/mL)
Mammalian Cell Selection Neomycin
Sequence Data
>RG226498 representing NM_001127717
Red=Cloning site Blue=ORF Green=Tags(s)

TTTTGTAATACGACTCACTATAGGGCGGCCGGGAATTCGTCGACTGGATCCGGTACCGAGGAGATCTGCC
GCCGCGATCGCC

ATGGCGGCGGCCGCGCGGCCTCGGGGTCGGGCACTGGGGCCAGTACTGCCGCCGACGCCGCTGCTCCTGC
TGGTACTGCGGGTGCTGCCAGCCTGCGGGGCGACCGCTCGGGATCCCGGGGCCGCGGCCGGGCTCAGCCT
TCACCCGACTTACTTCAACCTGGCCGAGGCGGCGAGGATTTGGGCCACCGCCACCTGCGGGGAGAGGGGA
CCCGGCGAGGGGAGGCCCCAGCCCGAGCTCTACTGCAAGTTGGTCGGGGGCCCCACCGCCCCAGGCAGCG
GCCACACCATCCAGGGCCAGTTCTGTGACTATTGCAATTCTGAAGACCCCAGGAAAGCACATCCTGTCAC
CAATGCCATCGATGGATCTGAACGTTGGTGGCAAAGCCCTCCCCTGTCCTCAGGCACACAGTACAACAGA
GTCAACCTCACCTTGGATCTGGGGCAGCTCTTCCATGTGGCCTATATTTTAATCAAATTTGCAAATTCTC
CTCGCCCTGATCTTTGGGTCTTGGAAAGATCTGTAGACTTTGGAAGCACCTACTCACCATGGCAATATTT
TGCTCATTCTAAAGTAGACTGTTTAAAAGAATTTGGGCGGGAGGCAAATATGGCTGTCACCCGGGATGAT
GATGTACTTTGTGTTACTGAATATTCCCGTATTGTACCTTTGGAAAATGGTGAGGTTGTGGTGTCCTTGA
TAAACGGTCGTCCAGGTGCAAAAAATTTTACTTTCTCTCACACCCTGAGGGAGTTTACCAAGGCAACAAA
CATCCGCTTGCGTTTTCTTAGAACCAATACGCTTCTTGGACACCTCATCTCCAAAGCCCAGCGAGATCCA
ACTGTCACTCGGCGGTATTATTACAGCATAAAGGACATCAGCATTGGTGGGCAGTGTGTTTGCAATGGCC
ATGCTGAAGTGTGCAATATAAACAATCCTGAAAAACTGTTTCGGTGTGAATGCCAGCACCACACCTGTGG
GGAGACGTGTGATCGCTGCTGCACAGGGTACAATCAGAGGCGCTGGCGGCCCGCCGCTTGGGAGCAGAGC
CACGAGTGTGAAGCATGCAACTGCCACGGCCATGCCAGCAACTGTTACTATGATCCAGATGTTGAGCGGC
AGCAGGCAAGCTTGAATACCCAGGGCATCTATGCTGGTGGAGGGGTCTGCATTAACTGTCAGCACAACAC
AGCTGGAGTAAACTGTGAACAGTGTGCTAAGGGCTATTACCGCCCTTATGGGGTTCCAGTGGATGCCCCT
GATGGCTGCATCCCCTGCAGCTGTGACCCTGAGCATGCGGATGGCTGTGAACAGGGTTCAGGCCGCTGTC
ACTGCAAGCCAAATTTCCACGGAGACAACTGTGAGAAGTGTGCAATTGGATACTACAATTTCCCATTTTG
CTTGAGAATTCCCATTTTTCCTGTTTCTACACCAAGTTCAGAAGATCCAGTAGCTGGAGATATAAAAGGG
TGTGACTGTAATCTGGAAGGTGTTCTCCCTGAAATATGTGATGCCCACGGACGGTGCCTGTGCCGCCCTG
GGGTTGAGGGCCCTCGATGTGATACCTGCCGCTCTGGTTTCTACTCATTCCCTATTTGCCAAGCCTGCTG
GTGTTCAGCCCTTGGATCCTACCAGATGCCCTGCAGCTCAGTGACTGGACAGTGTGAATGTCGGCCAGGA
GTTACAGGACAGCGGTGTGACAGGTGTCTCTCAGGAGCTTATGATTTCCCCCACTGCCAAGGTTCCAGCA
GTGCTTGTGACCCAGCTGGTACCATCAACTCCAATTTGGGGTATTGCCAATGCAAGCTTCATGTTGAAGG
TCCTACTTGTAGCCGCTGCAAACTGTTATATTGGAATCTGGACAAAGAAAACCCCAGTGGATGTTCAGAA
TGCAAGTGCCATAAGGCGGGAACAGTGAGTGGAACTGGAGAGTGTAGGCAGGGAGATGGTGACTGTCACT
GCAAGTCCCATGTGGGTGGCGATTCCTGCGACACCTGTGAAGATGGATATTTTGCTTTGGAAAAGAGCAA
TTACTTTGGGTGTCAAGGGTGTCAGTGTGACATTGGTGGGGCATTGTCCTCCATGTGCAGTGGGCCCTCG
GGAGTGTGCCAGTGCCGAGAGCATGTCGTGGGAAAGGTGTGCCAGCGGCCTGAAAACAACTACTATTTCC
CAGATTTGCATCATATGAAGTATGAGATTGAAGACGGCAGCACACCTAATGGGAGAGACCTTCGATTTGG
ATTTGATCCGCTGGCATTTCCTGAGTTTAGCTGGAGAGGATATGCCCAAATGACCTCAGTACAGAATGAT
GTAAGAATAACATTGAATGTAGGGAAGTCAAGTGGCTCCTTGTTTCGTGTTATTCTGAGATACGTTAACC
CTGGAACTGAAGCAGTATCTGGCCATATAACTATTTATCCATCCTGGGGTGCTGCTCAAAGCAAAGAGAT
CATCTTCCTGCCGAGTAAGGAGCCAGCCTTTGTCACTGTCCCTGGAAATGGTTTTGCAGACCCATTTTCA
ATCACACCAGGAATATGGGTTGCTTGTATTAAGGCAGAAGGAGTCCTTCTGGATTACCTGGTGCTGCTCC
CCAGGGACTACTATGAAGCCTCTGTACTGCAGCTGCCAGTCACAGAACCATGTGCCTACGCAGGACCTCC
CCAAGAAAATTGCTTACTCTACCAGCATTTGCCAGTGACCAGATTCCCCTGTACCCTGGCTTGTGAGGCC
AGACACTTCCTGCTTGATGGGGAGCCAAGACCCGTGGCAGTGAGGCAGCCCACACCTGCACACCCTGTCA
TGGTGGACCTCAGCGGGAGAGAGGTGGAATTGCATCTGCGGCTGCGCATCCCACAGGTTGGCCACTACGT
GGTTGTGGTCGAGTATTCCACGGAGGCAGCTCAGCTGTTTGTGGTTGATGTGAATGTGAAGAGCTCCGGG
TCTGTTCTGGCAGGCCAGGTGAACATTTACAGCTGCAACTACAGTGTTCTCTGCCGGAGTGCTGTGATTG
ATCACATGAGCCGCATCGCCATGTATGAGCTATTGGCAGATGCAGACATTCAGCTCAAGGGACACATGGC
CCGATTCCTTCTGCATCAAGTTTGTATCATACCTATTGAAGAATTCTCAGCTGAGTATGTGAGACCACAA
GTCCACTGCATTGCCAGTTATGGGCGATTTGTCAATCAAAGTGCCACCTGTGTCTCCTTGGCCCATGAAA
CTCCTCCAACAGCATTAATTTTGGATGTTCTAAGTGGCAGGCCTTTCCCTCACCTGCCCCAGCAGTCGTC
ACCTTCTGTTGATGTTCTTCCTGGGGTCACCTTGAAGGCACCGCAGAATCAAGTGACCCTGAGAGGACGT
GTACCACACCTGGGCCGATACGTCTTTGTCATCCATTTTTACCAAGCAGCGCACCCGACGTTTCCCGCGC
AGGTGTCGGTGGATGGCGGGTGGCCACGGGCAGGCTCCTTCCATGCCTCTTTTTGCCCCCATGTGCTTGG
CTGCCGGGATCAAGTGATTGCCGAAGGCCAGATTGAGTTTGACATCTCAGAGCCTGAAGTGGCCGCAACT
GTGAAGGTTCCAGAAGGAAAGTCCTTGGTTTTGGTCCGTGTTCTAGTGGTGCCTGCAGAAAACTATGACT
ACCAAATACTTCACAAAAAATCCATGGACAAGTCACTCGAGTTTATCACCAATTGTGGAAAAAACAGCTT
TTACCTTGACCCCCAGACAGCCTCCAGATTCTGTAAGAATTCCGCCAGGTCCCTGGTGGCCTTTTACCAC
AAGGGCGCCCTGCCTTGTGAGTGCCACCCCACTGGGGCCACCGGCCCTCACTGCAGCCCTGAGGGTGGGC
AGTGCCCATGCCAGCCCAACGTCATCGGGCGGCAGTGCACCCGCTGTGCAACAGGCCACTACGGATTCCC
ACGCTGCAAGCCGTGCAGCTGTGGTCGGCGCCTTTGTGAAGAGATGACGGGGCAGTGCCGCTGCCCTCCC
CGCACGGTCAGGCCCCAGTGTGAGGTGTGTGAGACACACTCATTCAGCTTCCACCCCATGGCCGGCTGCG
AAGGCTGCAACTGTTCCAGGAGGGGCACCATCGAGGCTGCCATGCCGGAGTGTGACCGGGACAGCGGGCA
GTGCAGATGCAAGCCCAGAATCACAGGGCGGCAGTGTGACCGATGTGCTTCCGGGTTTTACCGCTTTCCT
GAGTGTGTTCCCTGCAATTGCAACAGAGATGGGACTGAGCCAGGAGTGTGTGACCCAGGGACCGGGGCTT
GCCTCTGCAAGGAAAATGTAGAAGGCACAGAGTGTAATGTGTGTCGAGAAGGCTCATTCCATTTGGACCC
AGCCAATCTCAAGGGTTGTACCAGCTGTTTCTGTTTTGGAGTAAATAATCAATGTCACAGCTCACATAAG
CGAAGGACTAAGTTTGTGGATATGCTGGGCTGGCACCTGGAGACAGCAGACAGAGTGGACATCCCTGTCT
CTTTCAACCCAGGCAGCAACAGTATGGTGGCGGATCTCCAGGAGCTGCCCGCAACCATCCACAGCGCGTC
CTGGGTCGCACCCACCTCCTACCTGGGGGACAAGGTTTCTTCATATGGTGGTTACCTCACTTACCAAGCC
AAGTCCTTTGGCTTGCCTGGCGACATGGTTCTTCTGGAAAAGAAGCCGGATGTACAGCTCACTGGTCAGC
ACATGTCCATCATCTATGAGGAGACAAACACCCCACGGCCAGACCGGCTGCATCATGGACGAGTGCACGT
GGTCGAGGGAAACTTCAGACATGCCAGCAGCCGTGCCCCAGTGTCTAGGGAGGAGCTGATGACAGTGCTG
TCTAGACTGGCAGATGTGCGCATCCAAGGCCTCTACTTCACAGAGACTCAAAGGCTCACCCTGAGCGAGG
TGGGGCTAGAGGAAGCCTCTGACACAGGAAGTGGGCGCATAGCACTTGCTGTGGAAATCTGTGCCTGCCC
CCCTGCCTACGCTGGTGACTCTTGTCAGGGTTGTAGCCCTGGATACTATCGGGATCATAAAGGCTTGTAT
ACCGGACGGTGTGTTCCCTGCAATTGCAACGGACATTCAAATCAATGCCAGGATGGCTCAGGCATATGTG
TTAACTGTCAGCACAACACCGCGGGAGAGCACTGTGAACGCTGCCAGGAGGGCTACTATGGCAACGCCGT
CCACGGATCCTGCAGGGCCTGCCCATGTCCTCACACTAACAGCTTTGCCACTGGCTGTGTGGTGAATGGG
GGAGACGTGCGGTGCTCCTGCAAAGCTGGGTACACAGGAACACAGTGTGAAAGGTGTGCACCGGGATATT
TCGGGAATCCCCAGAAATTCGGAGGTAGCTGCCAACCATGCAGTTGTAACAGCAATGGCCAGCTGGGCAG
CTGTCATCCCCTGACTGGAGACTGCATAAACCAAGAACCCAAAGATAGCAGCCCTGCAGAAGAATGTGAT
GATTGCGACAGCTGTGTGATGACCCTCCTGAACGACCTGGCCACCATGGGCGAGCAGCTCCGCCTGGTCA
AGTCTCAGCTGCAGGGCCTGAGTGCCAGCGCAGGGCTTCTGGAGCAGATGAGGCACATGGAGACCCAGGC
CAAGGACCTGAGGAATCAGTTGCTCAACTACCGTTCTGCCATTTCAAATCATGGATCAAAAATAGAAGGC
CTGGAAAGAGAACTGACTGATTTGAATCAAGAATTTGAGACTTTGCAAGAAAAGGCTCAAGTAAATTCCA
GAAAAGCACAAACATTAAACAACAATGTTAATCGGGCAACACAAAGCGCAAAAGAACTGGATGTGAAGAT
TAAAAATGTCATCCGGAATGTGCACATGCTGAACCGGATAAGGACCTGGCAGAAAACCCACCAGGGGGAG
AACAATGGGCTTGCTAACAGTATCCGGGATTCTTTAAATGAATACGAAGCCAAACTCAGTGACCTTCGTG
CTCGGCTGCAGGAGGCAGCTGCCCAAGCCAAGCAGGCAAATGGCTTGAACCAAGAAAACGAGAGAGCTTT
GGGAGCCATTCAGAGACAAGTGAAAGAAATAAATTCCCTGCAGAGTGATTTCACCAAGTATCTAACCACT
GCAGACTCATCTTTGTTGCAAACCAACATTGCGCTGCAGCTGATGGAGAAAAGCCAGAAGGAATATGAAA
AATTAGCTGCCAGTTTAAATGAAGCAAGACAAGAACTAAGTGACAAAGTAAGAGAACTTTCCAGATCTGC
TGGCAAAACATCCCTTGTGGAGGAGGCAGAAAAGCACGCGCGGTCCTTACAAGAGCTGGCAAAGCAGCTG
GAAGAGATCAAGAGAAACGCCAGCGGGGATGAGCTGGTGCGCTGTGCTGTGGATGCCGCCACCGCCTACG
AGAACATCCTCAATGCCATCAAAGCGGCCGAGGACGCAGCCAACAGGGCTGCCAGTGCATCTGAATCTGC
CCTCCAGACAGTGATAAAGGAAGATCTGCCAAGAAAAGCTAAAACCCTGAGTTCCAACAGTGATAAACTG
TTAAATGAAGCCAAGATGACACAAAAGAAGCTAAAGCAAGAAGTCAGTCCAGCTCTCAACAACCTACAGC
AAACCCTGAATATTGTGACAGTTCAGAAAGAAGTGATAGACACCAATCTCACAACTCTCCGAGATGGTCT
TCATGGGATACAGAGAGGTGATATTGATGCTATGATCAGTAGTGCAAAGAGCATGGTCAGAAAGGCCAAC
GACATCACAGATGAGGTTCTGGATGGGCTCAACCCCATCCAGACAGATGTGGAAAGAATTAAGGACACCT
ATGGGAGGACACAGAACGAAGACTTCAAAAAGGCTCTGACTGATGCAGATAACTCGGTGAATAAGTTAAC
CAACAAACTACCTGATCTTTGGCGCAAGATTGAAAGTATCAACCAACAGCTGTTGCCCTTGGGAAACATC
TCTGACAACATGGACAGAATACGAGAACTAATTCAGCAGGCCAGAGATGCTGCCAGTAAGGTTGCTGTCC
CCATGAGGTTCAATGGTAAATCTGGAGTCGAAGTCCGACTGCCAAATGACCTGGAAGATTTGAAAGGATA
TACATCTCTGTCCTTGTTTCTCCAAAGGCCCAACTCAAGAGAAAATGGGGGTACTGAGAATATGTTTGTG
ATGTACCTTGGAAATAAAGATGCCTCCCGGGACTACATCGGCATGGCAGTTGTGGATGGCCAGCTCACCT
GTGTCTACAACCTGGGGGACCGTGAGGCTGAACTCCAAGTGGACCAGATCTTGACCAAGAGTGAGACTAA
GGAGGCAGTTATGGATCGGGTGAAATTTCAGAGAATTTATCAGTTTGCAAGGCTTAATTACACCAAAGGA
GCCACATCCAGTAAACCAGAAACACCCGGAGTCTATGACATGGATGGTAGAAATAGCAATACACTCCTTA
ATTTGGATCCTGAAAATGTTGTATTTTATGTTGGAGGTTACCCACCTGATTTTAAACTTCCCAGTCGACT
AAGTTTCCCTCCATACAAAGGTTGTATTGAATTAGATGACCTCAATGAAAATGTTCTGAGCTTGTACAAC
TTCAAAAAAACATTCAATCTCAACACAACTGAAGTGGAGCCTTGTAGAAGGAGGAAGGAAGAGTCAGACA
AAAATTATTTTGAAGGTACGGGCTATGCTCGAGTTCCAACTCAACCACATGCTCCCATCCCAACCTTTGG
ACAGACAATTCAGACCACCGTGGATAGAGGCTTGCTGTTCTTTGCAGAAAACGGGGATCGCTTCATATCT
CTAAATATAGAAGATGGCAAGCTCATGGTGAGATACAAACTGAATTCAGAGCTACCAAAAGAGAGAGGAG
TTGGAGACGCCATAAACAACGGCAGAGACCATTCGATTCAGATCAAAATTGGAAAACTCCAAAAGCGTAT
GTGGATAAATGTGGACGTTCAAAACACTATAATTGATGGTGAAGTATTTGATTTCAGCACATATTATCTG
GGAGGAATTCCAATTGCAATCAGGGAAAGATTTAACATTTCTACGCCTGCTTTCCGAGGCTGCATGAAAA
ATTTGAAGAAAACCAGTGGTGTCGTTAGATTGAATGATACTGTGGGAGTAACCAAAAAGTGCTCGGAAGA
CTGGAAGCTTGTGCGATCTGCCTCATTCTCCAGAGGAGGACAATTGAGTTTCACTGATTTGGGCTTACCA
CCTACTGACCACCTCCAGGCCTCATTTGGATTTCAGACCTTTCAACCCAGTGGCATATTATTAGATCATC
AGACATGGACAAGGAACCTGCAGGTCACTCTGGAAGATGGTTACATTGAATTGAGCACCAGCGATAGCGG
CAGCCCAATTTTTAAATCTCCACAGACGTATATGGATGGTTTACTGCATTATGTATCTGTAATAAGCGAC
AACTCTGGACTACGGCTTCTCATCGATGACCAGCTTCTGAGAAATAGCAAAAGGCTAAAACACATTTCAA
GTTCCCGGCAGTCTCTGCGTCTGGGCGGGAGCAATTTTGAGGGTTGTATTAGCAATGTTTTTGTCCAGAG
GTTATCACTGAGTCCTGAAGTCCTAGATTTGACCAGTAACTCTCTCAAGAGAGATGTGTCCCTGGGAGGC
TGCAGTTTAAACAAACCACCTTTTCTAATGTTGCTTAAAGGTTCTACCAGGTTTAACAAGACCAAGACTT
TTCGTATCAACCAGCTGTTGCAGGACACACCAGTGGCCTCCCCAAGGAGCGTGAAGGTGTGGCAAGATGC
TTGCTCACCACTTCCCAAGACCCAGGCCAATCATGGAGCCCTCCAGTTTGGGGACATTCCCACCAGCCAC
TTGCTATTCAAGCTTCCTCAGGAGCTGCTGAAACCCAGGTCACAGTTTGCTGTGGACATGCAGACAACAT
CCTCCAGAGGACTGGTGTTTCACACGGGCACTAAGAACTCCTTTATGGCTCTTTATCTTTCAAAAGGACG
TCTGGTCTTTGCACTGGGGACAGATGGGAAAAAATTGAGGATCAAAAGCAAGGAGAAATGCAATGATGGG
AAATGGCACACGGTGGTGTTTGGCCATGATGGGGAAAAGGGGCGCTTGGTTGTGGATGGACTGAGGGCCC
GGGAGGGAAGTTTGCCTGGAAACTCCACCATCAGCATCAGAGCGCCAGTTTACCTGGGATCACCTCCATC
AGGGAAACCAAAGAGCCTCCCCACAAACAGCTTTGTGGGATGCCTGAAGAACTTTCAGCTGGATTCAAAA
CCCTTGTATACCCCTTCTTCAAGCTTCGGGGTGTCTTCCTGCTTGGGTGGTCCTTTGGAGAAAGGCATTT
ATTTCTCTGAAGAAGGAGGTCATGTCGTCTTGGCTCACTCTGTATTGTTGGGGCCAGAATTTAAGCTTGT
TTTCAGCATCCGCCCAAGAAGTCTCACTGGGATCCTAATACACATCGGAAGTCAGCCCGGGAAGCACTTA
TGTGTTTACCTGGAGGCAGGAAAGGTCACGGCCTCTATGGACAGTGGGGCAGGTGGGACCTCAACGTCGG
TCACACCAAAGCAGTCTCTGTGTGATGGACAGTGGCACTCGGTGGCAGTCACCATAAAACAACACATCCT
GCACCTGGAACTGGACACAGACAGTAGCTACACAGCTGGACAGATCCCCTTCCCACCTGCCAGCACTCAA
GAGCCACTACACCTTGGAGGTGCTCCAGCCAATTTGACGACACTGAGGATCCCTGTGTGGAAATCATTCT
TTGGCTGTCTGAGGAATATTCATGTCAATCACATCCCTGTCCCTGTCACTGAAGCCTTGGAAGTCCAGGG
GCCTGTCAGTCTGAATGGTTGTCCTGACCAG

ACGCGTACGCGGCCGCTCGAG - GFP Tag - GTTTAA
>RG226498 representing NM_001127717
Red=Cloning site Green=Tags(s)

MAAAARPRGRALGPVLPPTPLLLLVLRVLPACGATARDPGAAAGLSLHPTYFNLAEAARIWATATCGERG
PGEGRPQPELYCKLVGGPTAPGSGHTIQGQFCDYCNSEDPRKAHPVTNAIDGSERWWQSPPLSSGTQYNR
VNLTLDLGQLFHVAYILIKFANSPRPDLWVLERSVDFGSTYSPWQYFAHSKVDCLKEFGREANMAVTRDD
DVLCVTEYSRIVPLENGEVVVSLINGRPGAKNFTFSHTLREFTKATNIRLRFLRTNTLLGHLISKAQRDP
TVTRRYYYSIKDISIGGQCVCNGHAEVCNINNPEKLFRCECQHHTCGETCDRCCTGYNQRRWRPAAWEQS
HECEACNCHGHASNCYYDPDVERQQASLNTQGIYAGGGVCINCQHNTAGVNCEQCAKGYYRPYGVPVDAP
DGCIPCSCDPEHADGCEQGSGRCHCKPNFHGDNCEKCAIGYYNFPFCLRIPIFPVSTPSSEDPVAGDIKG
CDCNLEGVLPEICDAHGRCLCRPGVEGPRCDTCRSGFYSFPICQACWCSALGSYQMPCSSVTGQCECRPG
VTGQRCDRCLSGAYDFPHCQGSSSACDPAGTINSNLGYCQCKLHVEGPTCSRCKLLYWNLDKENPSGCSE
CKCHKAGTVSGTGECRQGDGDCHCKSHVGGDSCDTCEDGYFALEKSNYFGCQGCQCDIGGALSSMCSGPS
GVCQCREHVVGKVCQRPENNYYFPDLHHMKYEIEDGSTPNGRDLRFGFDPLAFPEFSWRGYAQMTSVQND
VRITLNVGKSSGSLFRVILRYVNPGTEAVSGHITIYPSWGAAQSKEIIFLPSKEPAFVTVPGNGFADPFS
ITPGIWVACIKAEGVLLDYLVLLPRDYYEASVLQLPVTEPCAYAGPPQENCLLYQHLPVTRFPCTLACEA
RHFLLDGEPRPVAVRQPTPAHPVMVDLSGREVELHLRLRIPQVGHYVVVVEYSTEAAQLFVVDVNVKSSG
SVLAGQVNIYSCNYSVLCRSAVIDHMSRIAMYELLADADIQLKGHMARFLLHQVCIIPIEEFSAEYVRPQ
VHCIASYGRFVNQSATCVSLAHETPPTALILDVLSGRPFPHLPQQSSPSVDVLPGVTLKAPQNQVTLRGR
VPHLGRYVFVIHFYQAAHPTFPAQVSVDGGWPRAGSFHASFCPHVLGCRDQVIAEGQIEFDISEPEVAAT
VKVPEGKSLVLVRVLVVPAENYDYQILHKKSMDKSLEFITNCGKNSFYLDPQTASRFCKNSARSLVAFYH
KGALPCECHPTGATGPHCSPEGGQCPCQPNVIGRQCTRCATGHYGFPRCKPCSCGRRLCEEMTGQCRCPP
RTVRPQCEVCETHSFSFHPMAGCEGCNCSRRGTIEAAMPECDRDSGQCRCKPRITGRQCDRCASGFYRFP
ECVPCNCNRDGTEPGVCDPGTGACLCKENVEGTECNVCREGSFHLDPANLKGCTSCFCFGVNNQCHSSHK
RRTKFVDMLGWHLETADRVDIPVSFNPGSNSMVADLQELPATIHSASWVAPTSYLGDKVSSYGGYLTYQA
KSFGLPGDMVLLEKKPDVQLTGQHMSIIYEETNTPRPDRLHHGRVHVVEGNFRHASSRAPVSREELMTVL
SRLADVRIQGLYFTETQRLTLSEVGLEEASDTGSGRIALAVEICACPPAYAGDSCQGCSPGYYRDHKGLY
TGRCVPCNCNGHSNQCQDGSGICVNCQHNTAGEHCERCQEGYYGNAVHGSCRACPCPHTNSFATGCVVNG
GDVRCSCKAGYTGTQCERCAPGYFGNPQKFGGSCQPCSCNSNGQLGSCHPLTGDCINQEPKDSSPAEECD
DCDSCVMTLLNDLATMGEQLRLVKSQLQGLSASAGLLEQMRHMETQAKDLRNQLLNYRSAISNHGSKIEG
LERELTDLNQEFETLQEKAQVNSRKAQTLNNNVNRATQSAKELDVKIKNVIRNVHMLNRIRTWQKTHQGE
NNGLANSIRDSLNEYEAKLSDLRARLQEAAAQAKQANGLNQENERALGAIQRQVKEINSLQSDFTKYLTT
ADSSLLQTNIALQLMEKSQKEYEKLAASLNEARQELSDKVRELSRSAGKTSLVEEAEKHARSLQELAKQL
EEIKRNASGDELVRCAVDAATAYENILNAIKAAEDAANRAASASESALQTVIKEDLPRKAKTLSSNSDKL
LNEAKMTQKKLKQEVSPALNNLQQTLNIVTVQKEVIDTNLTTLRDGLHGIQRGDIDAMISSAKSMVRKAN
DITDEVLDGLNPIQTDVERIKDTYGRTQNEDFKKALTDADNSVNKLTNKLPDLWRKIESINQQLLPLGNI
SDNMDRIRELIQQARDAASKVAVPMRFNGKSGVEVRLPNDLEDLKGYTSLSLFLQRPNSRENGGTENMFV
MYLGNKDASRDYIGMAVVDGQLTCVYNLGDREAELQVDQILTKSETKEAVMDRVKFQRIYQFARLNYTKG
ATSSKPETPGVYDMDGRNSNTLLNLDPENVVFYVGGYPPDFKLPSRLSFPPYKGCIELDDLNENVLSLYN
FKKTFNLNTTEVEPCRRRKEESDKNYFEGTGYARVPTQPHAPIPTFGQTIQTTVDRGLLFFAENGDRFIS
LNIEDGKLMVRYKLNSELPKERGVGDAINNGRDHSIQIKIGKLQKRMWINVDVQNTIIDGEVFDFSTYYL
GGIPIAIRERFNISTPAFRGCMKNLKKTSGVVRLNDTVGVTKKCSEDWKLVRSASFSRGGQLSFTDLGLP
PTDHLQASFGFQTFQPSGILLDHQTWTRNLQVTLEDGYIELSTSDSGSPIFKSPQTYMDGLLHYVSVISD
NSGLRLLIDDQLLRNSKRLKHISSSRQSLRLGGSNFEGCISNVFVQRLSLSPEVLDLTSNSLKRDVSLGG
CSLNKPPFLMLLKGSTRFNKTKTFRINQLLQDTPVASPRSVKVWQDACSPLPKTQANHGALQFGDIPTSH
LLFKLPQELLKPRSQFAVDMQTTSSRGLVFHTGTKNSFMALYLSKGRLVFALGTDGKKLRIKSKEKCNDG
KWHTVVFGHDGEKGRLVVDGLRAREGSLPGNSTISIRAPVYLGSPPSGKPKSLPTNSFVGCLKNFQLDSK
PLYTPSSSFGVSSCLGGPLEKGIYFSEEGGHVVLAHSVLLGPEFKLVFSIRPRSLTGILIHIGSQPGKHL
CVYLEAGKVTASMDSGAGGTSTSVTPKQSLCDGQWHSVAVTIKQHILHLELDTDSSYTAGQIPFPPASTQ
EPLHLGGAPANLTTLRIPVWKSFFGCLRNIHVNHIPVPVTEALEVQGPVSLNGCPDQ

TRTRPLE - GFP Tag - V
Restriction Sites SgfI-MluI      Cloning Scheme for this gene      Plasmid Map     
ACCN NM_001127717
ORF Size 9831 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_001127717.1, NP_001121189.1
RefSeq Size 10343 bp
RefSeq ORF 9834 bp
Locus ID 3909
UniProt ID Q16787
Cytogenetics 18q11.2
Protein Families Druggable Genome, Secreted Protein
Protein Pathways ECM-receptor interaction, Focal adhesion, Pathways in cancer, Small cell lung cancer
Gene Summary The protein encoded by this gene belongs to the laminin family of secreted molecules. Laminins are heterotrimeric molecules that consist of alpha, beta, and gamma subunits that assemble through a coiled-coil domain. Laminins are essential for formation and function of the basement membrane and have additional functions in regulating cell migration and mechanical signal transduction. This gene encodes an alpha subunit and is responsive to several epithelial-mesenchymal regulators including keratinocyte growth factor, epidermal growth factor and insulin-like growth factor. Mutations in this gene have been identified as the cause of Herlitz type junctional epidermolysis bullosa and laryngoonychocutaneous syndrome. Alternative splicing and alternative promoter usage result in multiple transcript variants. [provided by RefSeq, Dec 2014]

Other Versions

SKU Description Size Price
RC226498 LAMA3 (Myc-DDK-tagged)-Human laminin, alpha 3 (LAMA3), transcript variant 3
    • 10 ug

USD 2,655.00

SC323322 LAMA3 (untagged)-Human laminin, alpha 3 (LAMA3), transcript variant 3
    • 10 ug

USD 2,921.00

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Product Citations

Related Products (6)

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USD 412.00

SC323322

LAMA3 (untagged)-Human laminin, alpha 3 (LAMA3), transcript variant 3

    • 10 ug

USD 2,921.00

RC226498

LAMA3 (Myc-DDK-tagged)-Human laminin, alpha 3 (LAMA3), transcript variant 3

    • 10 ug

USD 2,655.00

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