NCBI Summary
Laminin, an extracellular protein, is a major component of the basement membrane. It is thought to mediate the attachment, migration, and organization of cells into tissues during embryonic development by interacting with other extracellular matrix components. It is composed of three subunits, alpha, beta, and gamma, which are bound to each other by disulfide bonds into a cross-shaped molecule. This gene encodes the alpha 2 chain, which constitutes one of the subunits of laminin 2 (merosin) and laminin 4 (s-merosin). Mutations in this gene have been identified as the cause of congenital merosin-deficient muscular dystrophy. Two transcript variants encoding different proteins have been found for this gene. [provided by RefSeq, Jul 2008].
Protein
Protein (NP_001073291)
Laminin subunit alpha-2
Laminin subunit alpha-2 (Laminin M chain) (Laminin-12 subunit alpha) (Laminin-2 subunit alpha) (Laminin-4 subunit alpha) (Merosin heavy chain)
LAMA2
laminin subunit alpha 2
Undefined
Curated
Laminin G-like
Undefined
b-sandwich / ConA-like
GlcA(b1-3)Xyl(a1-4)GlcA / Matriglycan on alpha-dystroglycan
NP_001073291
3908
P24043
Undefined
P24043
0.927
10.1016/j.sbi.2018.11.007
neXtProt, PFAM, InterPro
Protein sequence and protein families (fasta) (3118 amino acids) Download
MPGAAGVLLLLLLSGGLGGVQAQRPQQQRQSQAHQQRGLFPAVLNLASNALITTNATCGEKGPEMYCKLVEHVPGQPVRNPQCRICNQNSSNPNQRHPITNAIDGKNTWWQSPSIKNGIEYHYVTITLDLQQVFQIAYVIVKAANSPRPGNWILERSLDDVEYKPWQYHAVTDTECLTLYNIYPRTGPPSYAKDDEVICTSFYSKIHPLENGEIHISLINGRPSADDPSPELLEFTSARYIRLRFQRIRTLNADLMMFAHKDPREIDPIVTRRYYYSVKDISVGGMCICYGHARACPLDPATNKSRCECEHNTCGDSCDQCCPGFHQKPWRAGTFLTKTECEACNCHGKAEECYYDENVARRNLSLNIRGKYIGGGVCINCTQNTAGINCETCTDGFFRPKGVSPNYPRPCQPCHCDPIGSLNEVCVKDEKHARRGLAPGSCHCKTGFGGVSCDRCARGYTGYPDCKACNCSGLGSKNEDPCFGPCICKENVEGGDCSRCKSGFFNLQEDNWKGCDECFCSGVSNRCQSSYWTYGKIQDMSGWYLTDLPGRIRVAPQQDDLDSPQQISISNAEARQALPHSYYWSAPAPYLGNKLPAVGGQLTFTISYDLEEEEEDTERVLQLMIILEGNDLSISTAQDEVYLHPSEEHTNVLLLKEESFTIHGTHFPVRRKEFMTVLANLKRVLLQITYSFGMDAIFRLSSVNLESAVSYPTDGSIAAAVEVCQCPPGYTGSSCESCWPRHRRVNGTIFGGICEPCQCFGHAESCDDVTGECLNCKDHTGGPYCDKCLPGFYGEPTKGTSEDCQPCACPLNIPSNNFSPTCHLDRSLGLICDGCPVGYTGPRCERCAEGYFGQPSVPGGSCQPCQCNDNLDFSIPGSCDSLSGSCLICKPGTTGRYCELCADGYFGDAVDAKNCQPCRCNAGGSFSEVCHSQTGQCECRANVQGQRCDKCKAGTFGLQSARGCVPCNCNSFGSKSFDCEESGQCWCQPGVTGKKCDRCAHGYFNFQEGGCTACECSHLGNNCDPKTGRCICPPNTIGEKCSKCAPNTWGHSITTGCKACNCSTVGSLDFQCNVNTGQCNCHPKFSGAKCTECSRGHWNYPRCNLCDCFLPGTDATTCDSETKKCSCSDQTGQCTCKVNVEGIHCDRCRPGKFGLDAKNPLGCSSCYCFGTTTQCSEAKGLIRTWVTLKAEQTILPLVDEALQHTTTKGIVFQHPEIVAHMDLMREDLHLEPFYWKLPEQFEGKKLMAYGGKLKYAIYFEAREETGFSTYNPQVIIRGGTPTHARIIVRHMAAPLIGQLTRHEIEMTEKEWKYYGDDPRVHRTVTREDFLDILYDIHYILIKATYGNFMRQSRISEISMEVAEQGRGTTMTPPADLIEKCDCPLGYSGLSCEACLPGFYRLRSQPGGRTPGPTLGTCVPCQCNGHSSLCDPETSICQNCQHHTAGDFCERCALGYYGIVKGLPNDCQQCACPLISSSNNFSPSCVAEGLDDYRCTACPRGYEGQYCERCAPGYTGSPGNPGGSCQECECDPYGSLPVPCDPVTGFCTCRPGATGRKCDGCKHWHAREGWECVFCGDECTGLLLGDLARLEQMVMSINLTGPLPAPYKMLYGLENMTQELKHLLSPQRAPERLIQLAEGNLNTLVTEMNELLTRATKVTADGEQTGQDAERTNTRAKSLGEFIKELARDAEAVNEKAIKLNETLGTRDEAFERNLEGLQKEIDQMIKELRRKNLETQKEIAEDELVAAEALLKKVKKLFGESRGENEEMEKDLREKLADYKNKVDDAWDLLREATDKIREANRLFAVNQKNMTALEKKKEAVESGKRQIENTLKEGNDILDEANRLADEINSIIDYVEDIQTKLPPMSEELNDKIDDLSQEIKDRKLAEKVSQAESHAAQLNDSSAVLDGILDEAKNISFNATAAFKAYSNIKDYIDEAEKVAKEAKDLAHEATKLATGPRGLLKEDAKGCLQKSFRILNEAKKLANDVKENEDHLNGLKTRIENADARNGDLLRTLNDTLGKLSAIPNDTAAKLQAVKDKARQANDTAKDVLAQITELHQNLDGLKKNYNKLADSVAKTNAVVKDPSKNKIIADADATVKNLEQEADRLIDKLKPIKELEDNLKKNISEIKELINQARKQANSIKVSVSSGGDCIRTYKPEIKKGSYNNIVVNVKTAVADNLLFYLGSAKFIDFLAIEMRKGKVSFLWDVGSGVGRVEYPDLTIDDSYWYRIVASRTGRNGTISVRALDGPKASIVPSTHHSTSPPGYTILDVDANAMLFVGGLTGKLKKADAVRVITFTGCMGETYFDNKPIGLWNFREKEGDCKGCTVSPQVEDSEGTIQFDGEGYALVSRPIRWYPNISTVMFKFRTFSSSALLMYLATRDLRDFMSVELTDGHIKVSYDLGSGMASVVSNQNHNDGKWKSFTLSRIQKQANISIVDIDTNQEENIATSSSGNNFGLDLKADDKIYFGGLPTLRNLRPEVNLKKYSGCLKDIEISRTPYNILSSPDYVGVTKGCSLENVYTVSFPKPGFVELSPVPIDVGTEINLSFSTKNESGIILLGSGGTPAPPRRKRRQTGQAYYAILLNRGRLEVHLSTGARTMRKIVIRPEPNLFHDGREHSVHVERTRGIFTVQVDENRRYMQNLTVEQPIEVKKLFVGGAPPEFQPSPLRNIPPFEGCIWNLVINSVPMDFARPVSFKNADIGRCAHQKLREDEDGAAPAEIVIQPEPVPTPAFPTPTPVLTHGPCAAESEPALLIGSKQFGLSRNSHIAIAFDDTKVKNRLTIELEVRTEAESGLLFYMARINHADFATVQLRNGLPYFSYDLGSGDTHTMIPTKINDGQWHKIKIMRSKQEGILYVDGASNRTISPKKADILDVVGMLYVGGLPINYTTRRIGPVTYSIDGCVRNLHMAEAPADLEQPTSSFHVGTCFANAQRGTYFDGTGFAKAVGGFKVGLDLLVEFEFRTTTTTGVLLGISSQKMDGMGIEMIDEKLMFHVDNGAGRFTAVYDAGVPGHLCDGQWHKVTANKIKHRIELTVDGNQVEAQSPNPASTSADTNDPVFVGGFPDDLKQFGLTTSIPFRGCIRSLKLTKGTGKPLEVNFAKALELRGVQPVSCPAN
Mol* PDB structure viewerUniLectin3D
Structural models
No AlphaFold model available for P24043.
Ligand
Glycan ligands from structural data
No crystal structures of complexes with glycan ligand.
Expression
Human Protein Atlas
GeneCards
mRNA expression in normal human tissues for LAMA2 Gene
ProteomicsDB
References
NCBI References (10 PubMed Identifiers)
  • Novel mutation identification and copy number variant detection via exome sequencing in congenital muscular dystrophy. [32936536]
  • LAMA2-related muscular dystrophy: Natural history of a large pediatric cohort. [32910545]
  • Mex3a interacts with LAMA2 to promote lung adenocarcinoma metastasis via PI3K/AKT pathway. [32792503]
  • Limb girdle muscular dystrophy due to LAMA2 gene mutations: new mutations expand the clinical spectrum of a still challenging diagnosis. [32904964]
  • Mutations in the laminin alpha 2-chain gene (LAMA2) cause merosin-deficient congenital muscular dystrophy. [7550355]
  • Human laminin M chain: epitope analysis of its monoclonal antibodies by immunoscreening of cDNA clones and tissue expression. [7535762]
  • LAMA2-Related Muscular Dystrophy [22675738]
  • Congenital Muscular Dystrophy Overview [20301468]
  • Distribution and isolation of four laminin variants. tissue restricted distribution of heterotrimers assembled from five different subunits. [2099832]
  • Merosin, a tissue-specific basement membrane protein, is a laminin-like protein. [2185464]
UniProt Main References (12 PubMed Identifiers)
  • Human laminin M chain (merosin): complete primary structure, chromosomal assignment, and expression of the M and A chain in human fetal tissues. [8294519]
  • Structure of the human laminin alpha2-chain gene (LAMA2), which is affected in congenital muscular dystrophy. [8910357]
  • The DNA sequence and analysis of human chromosome 6. [14574404]
  • Human plasma N-glycoproteome analysis by immunoaffinity subtraction, hydrazide chemistry, and mass spectrometry. [16335952]
  • Glycoproteomics analysis of human liver tissue by combination of multiple enzyme digestion and hydrazide chemistry. [19159218]
  • Clinical and molecular characterization of limb-girdle muscular dystrophy due to LAMA2 mutations. [21953594]
  • Limb girdle muscular dystrophy due to LAMA2 mutations: diagnostic difficulties due to associated peripheral neuropathy. [24957499]
  • Genotype/phenotype analysis in Chinese laminin-alpha2 deficient congenital muscular dystrophy patients. [24611677]
  • Congenital muscular dystrophy with primary partial laminin alpha2 chain deficiency: molecular study. [11591858]
  • Clinical and molecular study in congenital muscular dystrophy with partial laminin alpha 2 (LAMA2) deficiency. [12552556]
    • Show more
All isoforms of this gene containing a lectin domain
XP_016866341.1, NP_001073291.2, XP_005267039.1, NP_000417.3, XP_011534122.1, XP_005267038.1, XP_016866340.1
RNA
RNA (Transcript ID: NM_001079823.2)
NM_001079823.2
laminin subunit alpha 2, transcript variant 2
All isoforms of LAMA2 containing a lectin domain
109..9465 (or 128883246.. 129516347)
128883138.. 129516566
NCBI Matured mRNA sequence 9684 NTPDownload 
m7G-5')ppp(5'-CUCUUCCCCAGCAGCUGCUGCUCGCUCAGCUCACAAGCCAAGGCCAGGGGACAGGGCGGCAGCGACUCCUCUGGCUCCCGAGAAGUGGAUCCGGUCGCGGCCACUACGAUGCCGGGAGCCGCCGGGGUCCUCCUCCUUCUGCUGCUCUCCGGAGGCCUCGGGGGCGUACAGGCGCAGCGGCCGCAGCAGCAGCGGCAGUCACAGGCACAUCAGCAAAGAGGUUUAUUCCCUGCUGUCCUGAAUCUUGCUUCUAAUGCUCUUAUCACGACCAAUGCAACAUGUGGAGAAAAAGGACCUGAAAUGUACUGCAAAUUGGUAGAACAUGUCCCUGGGCAGCCUGUGAGGAACCCGCAGUGUCGAAUCUGCAAUCAAAACAGCAGCAAUCCAAACCAGAGACACCCGAUUACAAAUGCUAUUGAUGGAAAGAACACUUGGUGGCAGAGUCCCAGUAUUAAGAAUGGAAUCGAAUACCAUUAUGUGACAAUUACCCUGGAUUUACAGCAGGUGUUCCAGAUCGCGUAUGUGAUUGUGAAGGCAGCUAACUCCCCCCGGCCUGGAAACUGGAUUUUGGAACGCUCUCUUGAUGAUGUUGAAUACAAGCCCUGGCAGUAUCAUGCUGUGACAGACACGGAGUGCCUAACGCUUUACAAUAUUUAUCCCCGCACUGGGCCACCGUCAUAUGCCAAAGAUGAUGAGGUCAUCUGCACUUCAUUUUACUCCAAGAUACACCCCUUAGAAAAUGGAGAGAUUCACAUCUCUUUAAUCAAUGGGAGACCAAGUGCCGAUGAUCCUUCUCCAGAACUGCUAGAAUUUACCUCCGCUCGCUAUAUUCGCCUGAGAUUUCAGAGGAUCCGCACACUGAAUGCUGACUUGAUGAUGUUUGCUCACAAAGACCCAAGAGAAAUUGACCCCAUUGUCACCAGAAGAUAUUACUACUCGGUCAAGGAUAUUUCAGUUGGAGGGAUGUGCAUCUGCUAUGGUCAUGCCAGGGCUUGUCCACUUGAUCCAGCGACAAAUAAAUCUCGCUGUGAGUGUGAGCAUAACACAUGUGGCGAUAGCUGUGAUCAGUGCUGUCCAGGAUUCCAUCAGAAACCCUGGAGAGCUGGAACUUUUCUAACUAAAACUGAAUGUGAAGCAUGCAAUUGUCAUGGAAAAGCUGAAGAAUGCUAUUAUGAUGAAAAUGUUGCCAGAAGAAAUCUGAGUUUGAAUAUACGUGGAAAGUACAUUGGAGGGGGUGUCUGCAUUAAUUGUACCCAAAACACUGCUGGUAUAAACUGCGAGACAUGUACUGAUGGCUUCUUCAGACCCAAAGGGGUAUCUCCAAAUUAUCCAAGGCCAUGCCAGCCAUGUCAUUGCGAUCCAAUUGGUUCCUUAAAUGAAGUCUGUGUCAAGGAUGAGAAACAUGCUCGACGAGGUUUGGCACCUGGAUCCUGUCAUUGCAAAACUGGUUUUGGAGGUGUGAGCUGUGAUCGGUGUGCCAGGGGCUACACUGGCUACCCGGACUGCAAAGCCUGUAACUGCAGUGGGUUAGGGAGCAAAAAUGAGGAUCCUUGUUUUGGCCCCUGUAUCUGCAAGGAAAAUGUUGAAGGAGGAGACUGUAGUCGUUGCAAAUCCGGCUUCUUCAAUUUGCAAGAGGAUAAUUGGAAAGGCUGCGAUGAGUGUUUCUGUUCAGGGGUUUCAAACAGAUGUCAGAGUUCCUACUGGACCUAUGGCAAAAUACAAGAUAUGAGUGGCUGGUAUCUGACUGACCUUCCUGGCCGCAUUCGAGUGGCUCCCCAGCAGGACGACUUGGACUCACCUCAGCAGAUCAGCAUCAGUAACGCGGAGGCCCGGCAAGCCCUGCCGCACAGCUACUACUGGAGCGCGCCGGCUCCCUAUCUGGGAAACAAACUCCCAGCAGUAGGAGGACAGUUGACAUUUACCAUAUCAUAUGACCUUGAAGAAGAGGAAGAAGAUACAGAACGUGUUCUCCAGCUUAUGAUUAUCUUAGAGGGUAAUGACUUGAGCAUCAGCACAGCCCAAGAUGAGGUGUACCUGCACCCAUCUGAAGAACAUACUAAUGUAUUGUUACUUAAAGAAGAAUCAUUUACCAUACAUGGCACACAUUUUCCAGUCCGUAGAAAGGAAUUUAUGACAGUGCUUGCGAAUUUGAAGAGAGUCCUCCUACAAAUCACAUACAGCUUUGGGAUGGAUGCCAUCUUCAGGUUGAGCUCUGUUAACCUUGAAUCCGCUGUCUCCUAUCCUACUGAUGGAAGCAUUGCAGCAGCUGUAGAAGUGUGUCAGUGCCCACCAGGGUAUACUGGCUCCUCUUGUGAAUCUUGUUGGCCUAGGCACAGGCGAGUUAACGGCACUAUUUUUGGUGGCAUCUGUGAGCCAUGUCAGUGCUUUGGUCAUGCGGAGUCCUGUGAUGACGUCACUGGAGAAUGCCUGAACUGUAAGGAUCACACAGGUGGCCCAUAUUGUGAUAAAUGUCUUCCUGGUUUCUAUGGCGAGCCUACUAAAGGAACCUCUGAAGACUGUCAACCCUGUGCCUGUCCACUCAAUAUCCCAUCCAAUAACUUUAGCCCAACGUGCCAUUUAGACCGGAGUCUUGGAUUGAUCUGUGAUGGAUGCCCUGUCGGGUACACAGGACCACGCUGUGAGAGGUGUGCAGAAGGCUAUUUUGGACAACCCUCUGUACCUGGAGGAUCAUGUCAGCCAUGCCAAUGCAAUGACAACCUUGACUUCUCCAUCCCUGGCAGCUGUGACAGCUUGUCUGGCUCCUGUCUGAUAUGUAAACCAGGUACAACAGGCCGGUACUGUGAGCUCUGUGCUGAUGGAUAUUUUGGAGAUGCAGUUGAUGCGAAGAACUGUCAGCCCUGUCGCUGUAAUGCCGGUGGCUCUUUCUCUGAGGUUUGCCACAGUCAAACUGGACAGUGUGAGUGCAGAGCCAACGUUCAGGGUCAGAGAUGUGACAAAUGCAAGGCUGGGACCUUUGGCCUACAAUCAGCAAGGGGCUGUGUUCCCUGCAACUGCAAUUCUUUUGGGUCUAAGUCAUUCGACUGUGAAGAGAGUGGACAAUGUUGGUGCCAACCUGGAGUCACAGGGAAGAAAUGUGACCGCUGUGCCCACGGCUAUUUCAACUUCCAAGAAGGAGGCUGCACAGCUUGUGAAUGUUCUCAUCUGGGUAAUAAUUGUGACCCAAAGACUGGGCGAUGCAUUUGCCCUCCCAAUACCAUUGGAGAGAAAUGUUCUAAAUGUGCACCCAAUACCUGGGGCCACAGCAUUACCACUGGUUGUAAGGCUUGUAACUGCAGCACAGUGGGAUCCUUGGAUUUCCAAUGCAAUGUAAAUACAGGCCAAUGCAACUGUCAUCCAAAAUUCUCUGGUGCAAAAUGUACAGAGUGCAGUCGAGGUCACUGGAACUACCCUCGCUGCAAUCUCUGUGACUGCUUCCUCCCUGGGACAGAUGCCACAACCUGUGAUUCAGAGACUAAAAAAUGCUCCUGUAGUGAUCAAACUGGGCAGUGCACUUGUAAGGUGAAUGUGGAAGGCAUCCACUGUGACAGAUGCCGGCCUGGCAAAUUCGGACUCGAUGCCAAGAAUCCACUUGGCUGCAGCAGCUGCUAUUGCUUCGGCACUACUACCCAGUGCUCUGAAGCAAAAGGACUGAUCCGGACGUGGGUGACUCUGAAGGCUGAGCAGACCAUUCUACCCCUGGUAGAUGAGGCUCUGCAGCACACGACCACCAAGGGCAUUGUUUUUCAACAUCCAGAGAUUGUUGCCCACAUGGACCUGAUGAGAGAAGAUCUCCAUUUGGAACCUUUUUAUUGGAAACUUCCAGAACAAUUUGAAGGAAAGAAGUUGAUGGCCUAUGGGGGCAAACUCAAGUAUGCAAUCUAUUUCGAGGCUCGGGAAGAAACAGGUUUCUCUACAUAUAAUCCUCAAGUGAUCAUUCGAGGUGGGACACCUACUCAUGCUAGAAUUAUCGUCAGGCAUAUGGCUGCUCCUCUGAUUGGCCAAUUGACAAGGCAUGAAAUUGAAAUGACAGAGAAAGAAUGGAAAUAUUAUGGGGAUGAUCCUCGAGUCCAUAGAACUGUGACCCGAGAAGACUUCUUGGAUAUACUAUAUGAUAUUCAUUACAUUCUUAUCAAAGCUACUUAUGGAAAUUUCAUGCGACAAAGCAGGAUUUCUGAAAUCUCAAUGGAGGUAGCUGAACAAGGACGUGGAACAACAAUGACUCCUCCAGCUGACUUGAUUGAAAAAUGUGAUUGUCCCCUGGGCUAUUCUGGCCUGUCCUGUGAGGCAUGCUUGCCGGGAUUUUAUCGACUGCGUUCUCAACCAGGUGGCCGCACCCCUGGACCAACCCUGGGCACCUGUGUUCCAUGUCAAUGUAAUGGACACAGCAGCCUGUGUGACCCUGAAACAUCGAUAUGCCAGAAUUGUCAACAUCACACUGCUGGUGACUUCUGUGAACGAUGUGCUCUUGGAUACUAUGGAAUUGUCAAGGGAUUGCCAAAUGACUGUCAGCAAUGUGCCUGCCCUCUGAUUUCUUCCAGUAACAAUUUCAGCCCCUCUUGUGUCGCAGAAGGACUUGACGACUACCGCUGCACGGCUUGUCCACGGGGAUAUGAAGGCCAGUACUGUGAAAGGUGUGCCCCUGGCUAUACUGGCAGUCCAGGCAACCCUGGAGGCUCCUGCCAAGAAUGUGAGUGUGAUCCCUAUGGCUCACUGCCUGUGCCCUGUGACCCUGUCACAGGAUUCUGCACGUGCCGACCUGGAGCCACGGGAAGGAAGUGUGACGGCUGCAAGCACUGGCAUGCACGCGAGGGCUGGGAGUGUGUUUUUUGUGGAGAUGAGUGCACUGGCCUUCUUCUCGGUGACUUGGCUCGCCUGGAGCAGAUGGUCAUGAGCAUCAACCUCACUGGUCCGCUGCCUGCGCCAUAUAAAAUGCUGUAUGGUCUUGAAAAUAUGACUCAGGAGCUAAAGCACUUGCUGUCACCUCAGCGGGCCCCAGAGAGGCUUAUUCAGCUGGCAGAGGGCAAUCUGAAUACACUCGUGACCGAAAUGAACGAGCUGCUGACCAGGGCUACCAAAGUGACAGCAGAUGGCGAGCAGACCGGACAGGAUGCUGAGAGGACCAACACAAGAGCAAAGUCCCUGGGAGAAUUCAUUAAGGAGCUUGCCCGGGAUGCAGAAGCUGUAAAUGAAAAAGCUAUAAAACUAAAUGAAACUCUAGGAACUCGAGACGAGGCCUUUGAGAGAAAUUUGGAAGGGCUUCAGAAAGAGAUUGACCAGAUGAUUAAAGAACUGAGGAGGAAAAAUCUAGAGACACAAAAGGAAAUUGCUGAAGAUGAGUUGGUAGCUGCAGAAGCCCUUCUGAAAAAAGUGAAGAAGCUGUUUGGAGAGUCCCGGGGGGAAAAUGAAGAAAUGGAGAAGGAUCUCCGGGAAAAACUGGCUGACUACAAAAACAAAGUUGAUGAUGCUUGGGACCUUUUGAGAGAAGCCACAGAUAAAAUCAGAGAAGCUAAUCGCCUAUUUGCAGUAAAUCAGAAAAACAUGACUGCAUUGGAGAAAAAGAAGGAGGCUGUUGAAAGCGGCAAACGACAAAUUGAGAACACUUUAAAAGAGGGCAAUGACAUACUCGAUGAAGCCAACCGUCUUGCAGAUGAAAUCAACUCCAUCAUAGACUAUGUUGAAGACAUCCAAACUAAAUUGCCACCUAUGUCUGAGGAGCUUAAUGAUAAAAUAGAUGACCUCUCCCAAGAAAUAAAGGACAGGAAGCUUGCUGAGAAGGUGUCCCAGGCUGAGAGCCACGCAGCUCAGUUGAAUGACUCAUCUGCUGUCCUUGAUGGAAUCCUUGAUGAGGCUAAAAACAUCUCCUUCAAUGCCACUGCAGCCUUCAAAGCUUACAGCAAUAUUAAGGACUAUAUUGAUGAAGCUGAGAAAGUUGCCAAAGAAGCCAAAGAUCUUGCACAUGAAGCUACAAAACUGGCAACAGGUCCUCGGGGUUUAUUAAAGGAAGAUGCCAAAGGCUGUCUUCAGAAAAGCUUCAGGAUUCUUAACGAAGCCAAGAAGUUAGCAAAUGAUGUAAAAGAAAAUGAAGACCAUCUAAAUGGCUUAAAAACCAGGAUAGAAAAUGCUGAUGCUAGAAAUGGGGAUCUCUUGAGAACUUUGAAUGACACUUUGGGAAAGUUAUCAGCUAUUCCAAAUGAUACAGCUGCUAAACUGCAAGCUGUUAAGGACAAAGCCAGACAAGCCAACGACACAGCUAAAGAUGUACUGGCACAGAUUACAGAGCUCCACCAGAACCUCGAUGGCCUGAAGAAGAAUUACAAUAAACUAGCAGACAGCGUCGCCAAAACGAAUGCUGUGGUUAAAGAUCCUUCCAAGAACAAAAUCAUUGCCGAUGCAGAUGCCACUGUCAAAAAUUUAGAACAGGAAGCUGACCGGCUAAUAGAUAAACUCAAACCCAUCAAGGAACUUGAGGAUAACCUAAAGAAAAACAUCUCUGAGAUAAAGGAAUUGAUAAACCAAGCUCGGAAACAAGCCAAUUCUAUCAAAGUAUCUGUGUCUUCAGGAGGUGACUGCAUUCGAACAUACAAACCAGAAAUCAAGAAAGGAAGUUACAAUAAUAUUGUUGUCAACGUAAAGACAGCUGUUGCUGAUAACCUCCUCUUUUAUCUUGGAAGUGCCAAAUUUAUUGACUUUCUGGCUAUAGAAAUGCGUAAAGGCAAAGUCAGCUUCCUCUGGGAUGUUGGAUCUGGAGUUGGACGUGUAGAGUACCCAGAUUUGACUAUUGAUGACUCAUAUUGGUACCGUAUCGUAGCAUCAAGAACUGGGAGAAAUGGAACUAUUUCUGUGAGAGCCCUGGAUGGACCCAAAGCCAGCAUUGUGCCCAGCACACACCAUUCGACGUCUCCUCCAGGGUACACGAUUCUAGAUGUGGAUGCAAAUGCAAUGCUGUUUGUUGGUGGCCUGACUGGGAAAUUAAAGAAGGCUGAUGCUGUACGUGUGAUUACAUUCACUGGCUGCAUGGGAGAAACAUACUUUGACAACAAACCUAUAGGUUUGUGGAAUUUCCGAGAAAAAGAAGGUGACUGCAAAGGAUGCACUGUCAGUCCUCAGGUGGAAGAUAGUGAGGGGACUAUUCAAUUUGAUGGAGAAGGUUAUGCAUUGGUCAGCCGUCCCAUUCGCUGGUACCCCAACAUCUCCACUGUCAUGUUCAAGUUCAGAACAUUUUCUUCGAGUGCUCUUCUGAUGUAUCUUGCCACACGAGACCUGAGAGAUUUCAUGAGUGUGGAGCUCACUGAUGGGCACAUAAAAGUCAGUUACGAUCUGGGCUCAGGAAUGGCUUCCGUUGUCAGCAAUCAAAACCAUAAUGAUGGGAAAUGGAAAUCAUUCACUCUGUCAAGAAUUCAAAAACAAGCCAAUAUAUCAAUUGUAGAUAUAGAUACUAAUCAGGAGGAGAAUAUAGCAACUUCGUCUUCUGGAAACAACUUUGGUCUUGACUUGAAAGCAGAUGACAAAAUAUAUUUUGGUGGCCUGCCAACGCUGAGAAACUUGAGGCCAGAAGUAAAUCUGAAGAAAUAUUCCGGCUGCCUCAAAGAUAUUGAAAUUUCAAGAACUCCGUACAAUAUACUCAGUAGUCCCGAUUAUGUUGGUGUUACCAAAGGAUGUUCCCUGGAGAAUGUUUACACAGUUAGCUUUCCUAAGCCUGGUUUUGUGGAGCUCUCCCCUGUGCCAAUUGAUGUAGGAACAGAAAUCAACCUGUCAUUCAGCACCAAGAAUGAGUCCGGCAUCAUUCUUUUGGGAAGUGGAGGGACACCAGCACCACCUAGGAGAAAACGAAGGCAGACUGGACAGGCCUAUUAUGCAAUACUCCUCAACAGGGGCCGUCUGGAAGUGCAUCUCUCCACAGGGGCACGAACAAUGAGGAAAAUUGUGAUCAGACCAGAGCCGAAUCUGUUUCAUGAUGGAAGAGAACAUUCCGUUCAUGUAGAGCGAACUAGAGGCAUCUUUACAGUUCAAGUGGAUGAAAACAGAAGAUACAUGCAAAACCUGACAGUUGAACAGCCUAUCGAAGUUAAAAAGCUUUUCGUUGGGGGUGCUCCACCUGAAUUUCAACCUUCCCCACUCAGAAAUAUUCCUCCUUUUGAAGGCUGCAUAUGGAAUCUUGUUAUUAACUCUGUCCCCAUGGACUUUGCAAGGCCUGUGUCCUUCAAAAAUGCUGACAUUGGUCGCUGUGCCCAUCAGAAACUCCGUGAAGAUGAAGAUGGAGCAGCUCCAGCUGAAAUAGUUAUCCAGCCUGAGCCAGUUCCCACCCCAGCCUUUCCUACGCCCACCCCAGUUCUGACACAUGGUCCUUGUGCUGCAGAAUCAGAACCAGCUCUUUUGAUAGGGAGCAAGCAGUUCGGGCUUUCAAGAAACAGUCACAUUGCAAUUGCAUUUGAUGACACCAAAGUUAAAAACCGUCUCACAAUUGAGUUGGAAGUAAGAACCGAAGCUGAAUCCGGCUUGCUUUUUUACAUGGCUCGCAUCAAUCAUGCUGAUUUUGCAACAGUUCAGCUGAGAAAUGGAUUGCCCUACUUCAGCUAUGACUUGGGGAGUGGGGACACCCACACCAUGAUCCCCACCAAAAUCAAUGAUGGCCAGUGGCACAAGAUUAAGAUAAUGAGAAGUAAGCAAGAAGGAAUUCUUUAUGUAGAUGGGGCUUCCAACAGAACCAUCAGUCCCAAAAAAGCCGACAUCCUGGAUGUCGUGGGAAUGCUGUAUGUUGGUGGGUUACCCAUCAACUACACUACCCGAAGAAUUGGUCCAGUGACCUAUAGCAUUGAUGGCUGCGUCAGGAAUCUCCACAUGGCAGAGGCCCCUGCCGAUCUGGAACAACCCACCUCCAGCUUCCAUGUUGGGACAUGUUUUGCAAAUGCUCAGAGGGGAACAUAUUUUGACGGAACCGGUUUUGCCAAAGCAGUUGGUGGAUUCAAAGUGGGAUUGGACCUUCUUGUAGAAUUUGAAUUCCGCACAACUACAACGACUGGAGUUCUUCUGGGGAUCAGUAGUCAAAAAAUGGAUGGAAUGGGUAUUGAAAUGAUUGAUGAAAAGUUGAUGUUUCAUGUGGACAAUGGUGCGGGCAGAUUCACUGCUGUCUAUGAUGCUGGGGUUCCAGGGCAUUUGUGUGAUGGACAAUGGCAUAAAGUCACUGCCAACAAGAUCAAACACCGCAUUGAGCUCACAGUCGAUGGGAACCAGGUGGAAGCCCAAAGCCCAAACCCAGCAUCUACAUCAGCUGACACAAAUGACCCUGUGUUUGUUGGAGGCUUCCCAGAUGACCUCAAGCAGUUUGGCCUAACAACCAGUAUUCCGUUCCGAGGUUGCAUCAGAUCCCUGAAGCUCACCAAAGGCACAGGCAAGCCACUGGAGGUUAAUUUUGCCAAGGCCCUGGAACUGAGGGGCGUUCAACCUGUAUCAUGCCCAGCCAACUAAUAAAAAUAAGUGUAACCCCAGGAAGAGUCUGUCAAAACAAGUAUAUCAAGUAAAACAAACAAAUAUAUUUUACCUAUAUAUGUUAAUUAAACUAAUUUGUGCAUGUACAUAGAAUUCUUUCUGUAUUCAGAUGGUGCUAAUUCAGACUCCAGACUGAAUUUUAAUUCAAGUUCUUUCUCAAGUCUAUAAAUAAUAUUAAACUGAUUAUUUCAUUCUAAA-3'- Poly-A tail
  • Coding region
NCBI Matured mRNA sequence viewer
;
More about the NCBI sViewer.
DNA
DNA (Gene ID: 3908)
LAMA2
laminin subunit alpha 2
NC_000006.12
6  128883246.. 129516347
128883246.. 129516347
strand +
MGI:99912
ClinVar, dbVar
ENSG00000196569
uc063rgy.1
INSDC: Z26653
6482
156225
OTTHUMG00000015545
ENA, DDBJ, Monarch
NCBI CDS Gene viewer
More about the NCBI sViewer.
NCBI CDS gene sequence (9357 bp)
5'-ATGCCGGGAGCCGCCGGGGTCCTCCTCCTTCTGCTGCTCTCCGGAGGCCTCGGGGGCGTACAGGCGCAGCGGCCGCAGCAGCAGCGGCAGTCACAGGCACATCAGCAAAGAGGTTTATTCCCTGCTGTCCTGAATCTTGCTTCTAATGCTCTTATCACGACCAATGCAACATGTGGAGAAAAAGGACCTGAAATGTACTGCAAATTGGTAGAACATGTCCCTGGGCAGCCTGTGAGGAACCCGCAGTGTCGAATCTGCAATCAAAACAGCAGCAATCCAAACCAGAGACACCCGATTACAAATGCTATTGATGGAAAGAACACTTGGTGGCAGAGTCCCAGTATTAAGAATGGAATCGAATACCATTATGTGACAATTACCCTGGATTTACAGCAGGTGTTCCAGATCGCGTATGTGATTGTGAAGGCAGCTAACTCCCCCCGGCCTGGAAACTGGATTTTGGAACGCTCTCTTGATGATGTTGAATACAAGCCCTGGCAGTATCATGCTGTGACAGACACGGAGTGCCTAACGCTTTACAATATTTATCCCCGCACTGGGCCACCGTCATATGCCAAAGATGATGAGGTCATCTGCACTTCATTTTACTCCAAGATACACCCCTTAGAAAATGGAGAGATTCACATCTCTTTAATCAATGGGAGACCAAGTGCCGATGATCCTTCTCCAGAACTGCTAGAATTTACCTCCGCTCGCTATATTCGCCTGAGATTTCAGAGGATCCGCACACTGAATGCTGACTTGATGATGTTTGCTCACAAAGACCCAAGAGAAATTGACCCCATTGTCACCAGAAGATATTACTACTCGGTCAAGGATATTTCAGTTGGAGGGATGTGCATCTGCTATGGTCATGCCAGGGCTTGTCCACTTGATCCAGCGACAAATAAATCTCGCTGTGAGTGTGAGCATAACACATGTGGCGATAGCTGTGATCAGTGCTGTCCAGGATTCCATCAGAAACCCTGGAGAGCTGGAACTTTTCTAACTAAAACTGAATGTGAAGCATGCAATTGTCATGGAAAAGCTGAAGAATGCTATTATGATGAAAATGTTGCCAGAAGAAATCTGAGTTTGAATATACGTGGAAAGTACATTGGAGGGGGTGTCTGCATTAATTGTACCCAAAACACTGCTGGTATAAACTGCGAGACATGTACTGATGGCTTCTTCAGACCCAAAGGGGTATCTCCAAATTATCCAAGGCCATGCCAGCCATGTCATTGCGATCCAATTGGTTCCTTAAATGAAGTCTGTGTCAAGGATGAGAAACATGCTCGACGAGGTTTGGCACCTGGATCCTGTCATTGCAAAACTGGTTTTGGAGGTGTGAGCTGTGATCGGTGTGCCAGGGGCTACACTGGCTACCCGGACTGCAAAGCCTGTAACTGCAGTGGGTTAGGGAGCAAAAATGAGGATCCTTGTTTTGGCCCCTGTATCTGCAAGGAAAATGTTGAAGGAGGAGACTGTAGTCGTTGCAAATCCGGCTTCTTCAATTTGCAAGAGGATAATTGGAAAGGCTGCGATGAGTGTTTCTGTTCAGGGGTTTCAAACAGATGTCAGAGTTCCTACTGGACCTATGGCAAAATACAAGATATGAGTGGCTGGTATCTGACTGACCTTCCTGGCCGCATTCGAGTGGCTCCCCAGCAGGACGACTTGGACTCACCTCAGCAGATCAGCATCAGTAACGCGGAGGCCCGGCAAGCCCTGCCGCACAGCTACTACTGGAGCGCGCCGGCTCCCTATCTGGGAAACAAACTCCCAGCAGTAGGAGGACAGTTGACATTTACCATATCATATGACCTTGAAGAAGAGGAAGAAGATACAGAACGTGTTCTCCAGCTTATGATTATCTTAGAGGGTAATGACTTGAGCATCAGCACAGCCCAAGATGAGGTGTACCTGCACCCATCTGAAGAACATACTAATGTATTGTTACTTAAAGAAGAATCATTTACCATACATGGCACACATTTTCCAGTCCGTAGAAAGGAATTTATGACAGTGCTTGCGAATTTGAAGAGAGTCCTCCTACAAATCACATACAGCTTTGGGATGGATGCCATCTTCAGGTTGAGCTCTGTTAACCTTGAATCCGCTGTCTCCTATCCTACTGATGGAAGCATTGCAGCAGCTGTAGAAGTGTGTCAGTGCCCACCAGGGTATACTGGCTCCTCTTGTGAATCTTGTTGGCCTAGGCACAGGCGAGTTAACGGCACTATTTTTGGTGGCATCTGTGAGCCATGTCAGTGCTTTGGTCATGCGGAGTCCTGTGATGACGTCACTGGAGAATGCCTGAACTGTAAGGATCACACAGGTGGCCCATATTGTGATAAATGTCTTCCTGGTTTCTATGGCGAGCCTACTAAAGGAACCTCTGAAGACTGTCAACCCTGTGCCTGTCCACTCAATATCCCATCCAATAACTTTAGCCCAACGTGCCATTTAGACCGGAGTCTTGGATTGATCTGTGATGGATGCCCTGTCGGGTACACAGGACCACGCTGTGAGAGGTGTGCAGAAGGCTATTTTGGACAACCCTCTGTACCTGGAGGATCATGTCAGCCATGCCAATGCAATGACAACCTTGACTTCTCCATCCCTGGCAGCTGTGACAGCTTGTCTGGCTCCTGTCTGATATGTAAACCAGGTACAACAGGCCGGTACTGTGAGCTCTGTGCTGATGGATATTTTGGAGATGCAGTTGATGCGAAGAACTGTCAGCCCTGTCGCTGTAATGCCGGTGGCTCTTTCTCTGAGGTTTGCCACAGTCAAACTGGACAGTGTGAGTGCAGAGCCAACGTTCAGGGTCAGAGATGTGACAAATGCAAGGCTGGGACCTTTGGCCTACAATCAGCAAGGGGCTGTGTTCCCTGCAACTGCAATTCTTTTGGGTCTAAGTCATTCGACTGTGAAGAGAGTGGACAATGTTGGTGCCAACCTGGAGTCACAGGGAAGAAATGTGACCGCTGTGCCCACGGCTATTTCAACTTCCAAGAAGGAGGCTGCACAGCTTGTGAATGTTCTCATCTGGGTAATAATTGTGACCCAAAGACTGGGCGATGCATTTGCCCTCCCAATACCATTGGAGAGAAATGTTCTAAATGTGCACCCAATACCTGGGGCCACAGCATTACCACTGGTTGTAAGGCTTGTAACTGCAGCACAGTGGGATCCTTGGATTTCCAATGCAATGTAAATACAGGCCAATGCAACTGTCATCCAAAATTCTCTGGTGCAAAATGTACAGAGTGCAGTCGAGGTCACTGGAACTACCCTCGCTGCAATCTCTGTGACTGCTTCCTCCCTGGGACAGATGCCACAACCTGTGATTCAGAGACTAAAAAATGCTCCTGTAGTGATCAAACTGGGCAGTGCACTTGTAAGGTGAATGTGGAAGGCATCCACTGTGACAGATGCCGGCCTGGCAAATTCGGACTCGATGCCAAGAATCCACTTGGCTGCAGCAGCTGCTATTGCTTCGGCACTACTACCCAGTGCTCTGAAGCAAAAGGACTGATCCGGACGTGGGTGACTCTGAAGGCTGAGCAGACCATTCTACCCCTGGTAGATGAGGCTCTGCAGCACACGACCACCAAGGGCATTGTTTTTCAACATCCAGAGATTGTTGCCCACATGGACCTGATGAGAGAAGATCTCCATTTGGAACCTTTTTATTGGAAACTTCCAGAACAATTTGAAGGAAAGAAGTTGATGGCCTATGGGGGCAAACTCAAGTATGCAATCTATTTCGAGGCTCGGGAAGAAACAGGTTTCTCTACATATAATCCTCAAGTGATCATTCGAGGTGGGACACCTACTCATGCTAGAATTATCGTCAGGCATATGGCTGCTCCTCTGATTGGCCAATTGACAAGGCATGAAATTGAAATGACAGAGAAAGAATGGAAATATTATGGGGATGATCCTCGAGTCCATAGAACTGTGACCCGAGAAGACTTCTTGGATATACTATATGATATTCATTACATTCTTATCAAAGCTACTTATGGAAATTTCATGCGACAAAGCAGGATTTCTGAAATCTCAATGGAGGTAGCTGAACAAGGACGTGGAACAACAATGACTCCTCCAGCTGACTTGATTGAAAAATGTGATTGTCCCCTGGGCTATTCTGGCCTGTCCTGTGAGGCATGCTTGCCGGGATTTTATCGACTGCGTTCTCAACCAGGTGGCCGCACCCCTGGACCAACCCTGGGCACCTGTGTTCCATGTCAATGTAATGGACACAGCAGCCTGTGTGACCCTGAAACATCGATATGCCAGAATTGTCAACATCACACTGCTGGTGACTTCTGTGAACGATGTGCTCTTGGATACTATGGAATTGTCAAGGGATTGCCAAATGACTGTCAGCAATGTGCCTGCCCTCTGATTTCTTCCAGTAACAATTTCAGCCCCTCTTGTGTCGCAGAAGGACTTGACGACTACCGCTGCACGGCTTGTCCACGGGGATATGAAGGCCAGTACTGTGAAAGGTGTGCCCCTGGCTATACTGGCAGTCCAGGCAACCCTGGAGGCTCCTGCCAAGAATGTGAGTGTGATCCCTATGGCTCACTGCCTGTGCCCTGTGACCCTGTCACAGGATTCTGCACGTGCCGACCTGGAGCCACGGGAAGGAAGTGTGACGGCTGCAAGCACTGGCATGCACGCGAGGGCTGGGAGTGTGTTTTTTGTGGAGATGAGTGCACTGGCCTTCTTCTCGGTGACTTGGCTCGCCTGGAGCAGATGGTCATGAGCATCAACCTCACTGGTCCGCTGCCTGCGCCATATAAAATGCTGTATGGTCTTGAAAATATGACTCAGGAGCTAAAGCACTTGCTGTCACCTCAGCGGGCCCCAGAGAGGCTTATTCAGCTGGCAGAGGGCAATCTGAATACACTCGTGACCGAAATGAACGAGCTGCTGACCAGGGCTACCAAAGTGACAGCAGATGGCGAGCAGACCGGACAGGATGCTGAGAGGACCAACACAAGAGCAAAGTCCCTGGGAGAATTCATTAAGGAGCTTGCCCGGGATGCAGAAGCTGTAAATGAAAAAGCTATAAAACTAAATGAAACTCTAGGAACTCGAGACGAGGCCTTTGAGAGAAATTTGGAAGGGCTTCAGAAAGAGATTGACCAGATGATTAAAGAACTGAGGAGGAAAAATCTAGAGACACAAAAGGAAATTGCTGAAGATGAGTTGGTAGCTGCAGAAGCCCTTCTGAAAAAAGTGAAGAAGCTGTTTGGAGAGTCCCGGGGGGAAAATGAAGAAATGGAGAAGGATCTCCGGGAAAAACTGGCTGACTACAAAAACAAAGTTGATGATGCTTGGGACCTTTTGAGAGAAGCCACAGATAAAATCAGAGAAGCTAATCGCCTATTTGCAGTAAATCAGAAAAACATGACTGCATTGGAGAAAAAGAAGGAGGCTGTTGAAAGCGGCAAACGACAAATTGAGAACACTTTAAAAGAGGGCAATGACATACTCGATGAAGCCAACCGTCTTGCAGATGAAATCAACTCCATCATAGACTATGTTGAAGACATCCAAACTAAATTGCCACCTATGTCTGAGGAGCTTAATGATAAAATAGATGACCTCTCCCAAGAAATAAAGGACAGGAAGCTTGCTGAGAAGGTGTCCCAGGCTGAGAGCCACGCAGCTCAGTTGAATGACTCATCTGCTGTCCTTGATGGAATCCTTGATGAGGCTAAAAACATCTCCTTCAATGCCACTGCAGCCTTCAAAGCTTACAGCAATATTAAGGACTATATTGATGAAGCTGAGAAAGTTGCCAAAGAAGCCAAAGATCTTGCACATGAAGCTACAAAACTGGCAACAGGTCCTCGGGGTTTATTAAAGGAAGATGCCAAAGGCTGTCTTCAGAAAAGCTTCAGGATTCTTAACGAAGCCAAGAAGTTAGCAAATGATGTAAAAGAAAATGAAGACCATCTAAATGGCTTAAAAACCAGGATAGAAAATGCTGATGCTAGAAATGGGGATCTCTTGAGAACTTTGAATGACACTTTGGGAAAGTTATCAGCTATTCCAAATGATACAGCTGCTAAACTGCAAGCTGTTAAGGACAAAGCCAGACAAGCCAACGACACAGCTAAAGATGTACTGGCACAGATTACAGAGCTCCACCAGAACCTCGATGGCCTGAAGAAGAATTACAATAAACTAGCAGACAGCGTCGCCAAAACGAATGCTGTGGTTAAAGATCCTTCCAAGAACAAAATCATTGCCGATGCAGATGCCACTGTCAAAAATTTAGAACAGGAAGCTGACCGGCTAATAGATAAACTCAAACCCATCAAGGAACTTGAGGATAACCTAAAGAAAAACATCTCTGAGATAAAGGAATTGATAAACCAAGCTCGGAAACAAGCCAATTCTATCAAAGTATCTGTGTCTTCAGGAGGTGACTGCATTCGAACATACAAACCAGAAATCAAGAAAGGAAGTTACAATAATATTGTTGTCAACGTAAAGACAGCTGTTGCTGATAACCTCCTCTTTTATCTTGGAAGTGCCAAATTTATTGACTTTCTGGCTATAGAAATGCGTAAAGGCAAAGTCAGCTTCCTCTGGGATGTTGGATCTGGAGTTGGACGTGTAGAGTACCCAGATTTGACTATTGATGACTCATATTGGTACCGTATCGTAGCATCAAGAACTGGGAGAAATGGAACTATTTCTGTGAGAGCCCTGGATGGACCCAAAGCCAGCATTGTGCCCAGCACACACCATTCGACGTCTCCTCCAGGGTACACGATTCTAGATGTGGATGCAAATGCAATGCTGTTTGTTGGTGGCCTGACTGGGAAATTAAAGAAGGCTGATGCTGTACGTGTGATTACATTCACTGGCTGCATGGGAGAAACATACTTTGACAACAAACCTATAGGTTTGTGGAATTTCCGAGAAAAAGAAGGTGACTGCAAAGGATGCACTGTCAGTCCTCAGGTGGAAGATAGTGAGGGGACTATTCAATTTGATGGAGAAGGTTATGCATTGGTCAGCCGTCCCATTCGCTGGTACCCCAACATCTCCACTGTCATGTTCAAGTTCAGAACATTTTCTTCGAGTGCTCTTCTGATGTATCTTGCCACACGAGACCTGAGAGATTTCATGAGTGTGGAGCTCACTGATGGGCACATAAAAGTCAGTTACGATCTGGGCTCAGGAATGGCTTCCGTTGTCAGCAATCAAAACCATAATGATGGGAAATGGAAATCATTCACTCTGTCAAGAATTCAAAAACAAGCCAATATATCAATTGTAGATATAGATACTAATCAGGAGGAGAATATAGCAACTTCGTCTTCTGGAAACAACTTTGGTCTTGACTTGAAAGCAGATGACAAAATATATTTTGGTGGCCTGCCAACGCTGAGAAACTTGAGGCCAGAAGTAAATCTGAAGAAATATTCCGGCTGCCTCAAAGATATTGAAATTTCAAGAACTCCGTACAATATACTCAGTAGTCCCGATTATGTTGGTGTTACCAAAGGATGTTCCCTGGAGAATGTTTACACAGTTAGCTTTCCTAAGCCTGGTTTTGTGGAGCTCTCCCCTGTGCCAATTGATGTAGGAACAGAAATCAACCTGTCATTCAGCACCAAGAATGAGTCCGGCATCATTCTTTTGGGAAGTGGAGGGACACCAGCACCACCTAGGAGAAAACGAAGGCAGACTGGACAGGCCTATTATGCAATACTCCTCAACAGGGGCCGTCTGGAAGTGCATCTCTCCACAGGGGCACGAACAATGAGGAAAATTGTGATCAGACCAGAGCCGAATCTGTTTCATGATGGAAGAGAACATTCCGTTCATGTAGAGCGAACTAGAGGCATCTTTACAGTTCAAGTGGATGAAAACAGAAGATACATGCAAAACCTGACAGTTGAACAGCCTATCGAAGTTAAAAAGCTTTTCGTTGGGGGTGCTCCACCTGAATTTCAACCTTCCCCACTCAGAAATATTCCTCCTTTTGAAGGCTGCATATGGAATCTTGTTATTAACTCTGTCCCCATGGACTTTGCAAGGCCTGTGTCCTTCAAAAATGCTGACATTGGTCGCTGTGCCCATCAGAAACTCCGTGAAGATGAAGATGGAGCAGCTCCAGCTGAAATAGTTATCCAGCCTGAGCCAGTTCCCACCCCAGCCTTTCCTACGCCCACCCCAGTTCTGACACATGGTCCTTGTGCTGCAGAATCAGAACCAGCTCTTTTGATAGGGAGCAAGCAGTTCGGGCTTTCAAGAAACAGTCACATTGCAATTGCATTTGATGACACCAAAGTTAAAAACCGTCTCACAATTGAGTTGGAAGTAAGAACCGAAGCTGAATCCGGCTTGCTTTTTTACATGGCTCGCATCAATCATGCTGATTTTGCAACAGTTCAGCTGAGAAATGGATTGCCCTACTTCAGCTATGACTTGGGGAGTGGGGACACCCACACCATGATCCCCACCAAAATCAATGATGGCCAGTGGCACAAGATTAAGATAATGAGAAGTAAGCAAGAAGGAATTCTTTATGTAGATGGGGCTTCCAACAGAACCATCAGTCCCAAAAAAGCCGACATCCTGGATGTCGTGGGAATGCTGTATGTTGGTGGGTTACCCATCAACTACACTACCCGAAGAATTGGTCCAGTGACCTATAGCATTGATGGCTGCGTCAGGAATCTCCACATGGCAGAGGCCCCTGCCGATCTGGAACAACCCACCTCCAGCTTCCATGTTGGGACATGTTTTGCAAATGCTCAGAGGGGAACATATTTTGACGGAACCGGTTTTGCCAAAGCAGTTGGTGGATTCAAAGTGGGATTGGACCTTCTTGTAGAATTTGAATTCCGCACAACTACAACGACTGGAGTTCTTCTGGGGATCAGTAGTCAAAAAATGGATGGAATGGGTATTGAAATGATTGATGAAAAGTTGATGTTTCATGTGGACAATGGTGCGGGCAGATTCACTGCTGTCTATGATGCTGGGGTTCCAGGGCATTTGTGTGATGGACAATGGCATAAAGTCACTGCCAACAAGATCAAACACCGCATTGAGCTCACAGTCGATGGGAACCAGGTGGAAGCCCAAAGCCCAAACCCAGCATCTACATCAGCTGACACAAATGACCCTGTGTTTGTTGGAGGCTTCCCAGATGACCTCAAGCAGTTTGGCCTAACAACCAGTATTCCGTTCCGAGGTTGCATCAGATCCCTGAAGCTCACCAAAGGCACAGGCAAGCCACTGGAGGTTAATTTTGCCAAGGCCCTGGAACTGAGGGGCGTTCAACCTGTATCATGCCCAGCCAACTAA-3'
NCBI CDS gene sequence with introns (location: 128883246.. 129516347) (633102 bp)Download
NCBI Gene Viewer (CDS + introns)
NCBI CDS gene sequence with introns, 5'UTR and 3'UTR (location: 128883138.. 129516566) (633429 bp)Download
NCBI Gene Viewer (CDS + introns + Untranslated regions)
NCBI gene sequence (location: [128883138 - 1000].. 129516566) (634429 bp)Download
NCBI Gene Viewer (CDS + introns + Untranslated regions + 1000 dNTP to potentially reach the promotor)
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