NCBI Summary
This gene encodes one of the alpha 1 subunits of laminin. The laminins are a family of extracellular matrix glycoproteins that have a heterotrimeric structure consisting of an alpha, beta and gamma chain. These proteins make up a major component of the basement membrane and have been implicated in a wide variety of biological processes including cell adhesion, differentiation, migration, signaling, neurite outgrowth and metastasis. Mutations in this gene may be associated with Poretti-Boltshauser syndrome. [provided by RefSeq, Sep 2014].
Protein
Protein (NP_005550)
Laminin subunit alpha-1
Laminin subunit alpha-1 (Laminin A chain) (Laminin-1 subunit alpha) (Laminin-3 subunit alpha) (S-laminin subunit alpha) (S-LAM alpha)
LAMA1
laminin subunit alpha 1
Undefined
Low evidence
Laminin G-like
Undefined
b-sandwich / ConA-like
GlcA(b1-3)Xyl(a1-4)GlcA / Matriglycan on alpha-dystroglycan
0.583
Protein sequence and protein families (fasta) (3075 amino acids) Download
MRGGVLLVLLLCVAAQCRQRGLFPAILNLASNAHISTNATCGEKGPEMFCKLVEHVPGRPVRNPQCRICDGNSANPRERHPISHAIDGTNNWWQSPSIQNGREYHWVTITLDLRQVFQVAYVIIKAANAPRPGNWILERSLDGTTFSPWQYYAVSDSECLSRYNITPRRGPPTYRADDEVICTSYYSRLVPLEHGEIHTSLINGRPSADDLSPKLLEFTSARYIRLRLQRIRTLNADLMTLSHREPKELDPIVTRRYYYSIKDISVGGMCICYGHASSCPWDETTKKLQCQCEHNTCGESCNRCCPGYHQQPWRPGTVSSGNTCEACNCHNKAKDCYYDESVAKQKKSLNTAGQFRGGGVCINCLQNTMGINCETCIDGYYRPHKVSPYEDEPCRPCNCDPVGSLSSVCIKDDLHSDLHNGKQPGQCPCKEGYTGEKCDRCQLGYKDYPTCVSCGCNPVGSASDEPCTGPCVCKENVEGKACDRCKPGFYNLKEKNPRGCSECFCFGVSDVCSSLSWPVGQVNSMSGWLVTDLISPRKIPSQQDALGGRHQVSINNTAVMQRLAPKYYWAAPEAYLGNKLTAFGGFLKYTVSYDIPVETVDSNLMSHADVIIKGNGLTLSTQAEGLSLQPYEEYLNVVRLVPENFQDFHSKRQIDRDQLMTVLANVTHLLIRANYNSAKMALYRLESVSLDIASSNAIDLVVAADVEHCECPQGYTGTSCESCLSGYYRVDGILFGGICQPCECHGHAAECNVHGVCIACAHNTTGVHCEQCLPGFYGEPSRGTPGDCQPCACPLTIASNNFSPTCHLNDGDEVVCDWCAPGYSGAWCERCADGYYGNPTVPGESCVPCDCSGNVDPSEAGHCDSVTGECLKCLGNTDGAHCERCADGFYGDAVTAKNCRACECHVKGSHSAVCHLETGLCDCKPNVTGQQCDQCLHGYYGLDSGHGCRPCNCSVAGSVSDGCTDEGQCHCVPGVAGKRCDRCAHGFYAYQDGSCTPCDCPHTQNTCDPETGECVCPPHTQGVKCEECEDGHWGYDAEVGCQACNCSLVGSTHHRCDVVTGHCQCKSKFGGRACDQCSLGYRDFPDCVPCDCDLRGTSGDACNLEQGLCGCVEETGACPCKENVFGPQCNECREGTFALRADNPLGCSPCFCSGLSHLCSELEDYVRTPVTLGSDQPLLRVVSQSNLRGTTEGVYYQAPDFLLDAATVRQHIRAEPFYWRLPQQFQGDQLMAYGGKLKYSVAFYSLDGVGTSNFEPQVLIKGGRIRKQVIYMDAPAPENGVRQEQEVAMRENFWKYFNSVSEKPVTREDFMSVLSDIEYILIKASYGQGLQQSRISDISMEVGRKAEKLHPEEEVASLLENCVCPPGTVGFSCQDCAPGYHRGKLPAGSDRGPRPLVAPCVPCSCNNHSDTCDPNTGKCLNCGDNTAGDHCDVCTSGYYGKVTGSASDCALCACPHSPPASFSPTCVLEGDHDFRCDACLLGYEGKHCERCSSSYYGNPQTPGGSCQKCDCNPHGSVHGDCDRTSGQCVCRLGASGLRCDECEPRHILMETDCVSCDDECVGVLLNDLDEIGDAVLSLNLTGIIPVPYGILSNLENTTKYLQESLLKENMQKDLGKIKLEGVAEETDNLQKKLTRMLASTQKVNRATERIFKESQDLAIAIERLQMSITEIMEKTTLNQTLDEDFLLPNSTLQNMQQNGTSLLEIMQIRDFTQLHQNATLELKAAEDLLSQIQENYQKPLEELEVLKEAASHVLSKHNNELKAAEALVREAEAKMQESNHLLLMVNANLREFSDKKLHVQEEQNLTSELIVQGRGLIDAAAAQTDAVQDALEHLEDHQDKLLLWSAKIRHHIDDLVMHMSQRNAVDLVYRAEDHAAEFQRLADVLYSGLENIRNVSLNATSAAYVHYNIQSLIEESEELARDAHRTVTETSLLSESLVSNGKAAVQRSSRFLKEGNNLSRKLPGIALELSELRNKTNRFQENAVEITRQTNESLLILRAIPKGIRDKGAKTKELATSASQSAVSTLRDVAGLSQELLNTSASLSRVNTTLRETHQLLQDSTMATLLAGRKVKDVEIQANLLFDRLKPLKMLEENLSRNLSEIKLLISQARKQAASIKVAVSADRDCIRAYQPQISSTNYNTLTLNVKTQEPDNLLFYLGSSTASDFLAVEMRRGRVAFLWDLGSGSTRLEFPDFPIDDNRWHSIHVARFGNIGSLSVKEMSSNQKSPTKTSKSPGTANVLDVNNSTLMFVGGLGGQIKKSPAVKVTHFKGCLGEAFLNGKSIGLWNYIEREGKCRGCFGSSQNEDPSFHFDGSGYSVVEKSLPATVTQIIMLFNTFSPNGLLLYLGSYGTKDFLSIELFRGRVKVMTDLGSGPITLLTDRRYNNGTWYKIAFQRNRKQGVLAVIDAYNTSNKETKQGETPGASSDLNRLDKDPIYVGGLPRSRVVRRGVTTKSFVGCIKNLEISRSTFDLLRNSYGVRKGCLLEPIRSVSFLKGGYIELPPKSLSPESEWLVTFATTNSSGIILAALGGDVEKRGDREEAHVPFFSVMLIGGNIEVHVNPGDGTGLRKALLHAPTGTCSDGQAHSISLVRNRRIITVQLDENNPVEMKLGTLVESRTINVSNLYVGGIPEGEGTSLLTMRRSFHGCIKNLIFNLELLDFNSAVGHEQVDLDTCWLSERPKLAPDAEDSKLLPEPRAFPEQCVVDAALEYVPGAHQFGLTQNSHFILPFNQSAVRKKLSVELSIRTFASSGLIYYMAHQNQADYAVLQLHGGRLHFMFDLGKGRTKVSHPALLSDGKWHTVKTDYVKRKGFITVDGRESPMVTVVGDGTMLDVEGLFYLGGLPSQYQARKIGNITHSIPACIGDVTVNSKQLDKDSPVSAFTVNRCYAVAQEGTYFDGSGYAALVKEGYKVQSDVNITLEFRTSSQNGVLLGISTAKVDAIGLELVDGKVLFHVNNGAGRITAAYEPKTATVLCDGKWHTLQANKSKHRITLIVDGNAVGAESPHTQSTSVDTNNPIYVGGYPAGVKQKCLRSQTSFRGCLRKLALIKSPQVQSFDFSRAFELHGVFLHSCPGTES
No structure currently available in the PDB RCSB Databank.
Structural models
No AlphaFold model available for P25391.
SWISS-MODEL structural models
Modeller structural model (Homology modelling pipeline), Error: [1.34, 1.64] ÅDownload
The location of the lectin domain structural model is: 2700-3073
We infer [1.34, 1.64] Å as the interval of error of this structural model.
Template: 5IK4 chain: A, Q60675, NP_032507.2, sequence identity: 43.6%, coverage: 99.5%, location in sequence: 2740-3118, (2740-3118 in PDB).
Show the alignment used for the construction of the structural model, Download.
Show the plot of DOPE energy score, Download.
Ligand
Glycan ligands from structural data
No crystal structures of complexes with glycan ligand.
References
NCBI References (10 PubMed Identifiers)
  • Circular RNA hsa_circ_0000277 sequesters miR-4766-5p to upregulate LAMA1 and promote esophageal carcinoma progression. [34226522]
  • Spermatogonia Loss Correlates with LAMA 1 Expression in Human Prepubertal Testes Stored for Fertility Preservation. [33513766]
  • Organisation of extracellular matrix proteins laminin and agrin in pericapillary basal laminae in mouse brain. [32072250]
  • Hereditary Ataxia Overview [20301317]
  • Primary structure of the human laminin A chain. Limited expression in human tissues. [2049067]
  • Molecular cloning of the cDNA encoding human laminin A chain. [1714537]
  • Distribution and isolation of four laminin variants. tissue restricted distribution of heterotrimers assembled from five different subunits. [2099832]
  • Sulfatide-binding domain of the laminin A chain. [2373692]
  • Human laminin A chain (LAMA) gene: chromosomal mapping to locus 18p11.3. [2591971]
  • Human laminin: cloning and sequence analysis of cDNAs encoding A, B1 and B2 chains, and expression of the corresponding genes in human skin and cultured cells. [2733383]
UniProt Main References (4 PubMed Identifiers)
  • DNA sequence and analysis of human chromosome 18. [16177791]
  • Glycoproteomics analysis of human liver tissue by combination of multiple enzyme digestion and hydrazide chemistry. [19159218]
  • Mutations in LAMA1 cause cerebellar dysplasia and cysts with and without retinal dystrophy. [25105227]
  • A secreted tyrosine kinase acts in the extracellular environment. [25171405]
RNA
RNA (Transcript ID: NM_005559.4)
laminin subunit alpha 1
m7G-5')ppp(5'-GGACUCGCGUCCCGUGGAGCGUUCCAGGCGGGCGCGCGGCUUUCUCCCCAGACCCACCGAGUGGCGGCGGAGGCGAGAUGCGCGGGGGCGUGCUCCUGGUCUUGCUGCUGUGUGUCGCCGCGCAGUGCCGGCAGAGAGGCCUGUUUCCUGCCAUUCUCAAUCUUGCCAGCAAUGCUCACAUCAGCACCAAUGCCACCUGUGGCGAGAAGGGGCCGGAGAUGUUCUGCAAACUUGUGGAGCAUGUGCCAGGUCGGCCCGUCCGAAACCCACAGUGCCGGAUCUGUGAUGGCAACAGCGCAAACCCCAGAGAACGCCAUCCAAUAUCACAUGCCAUAGAUGGCACCAAUAACUGGUGGCAAAGUCCCAGCAUUCAGAAUGGGAGAGAAUAUCACUGGGUCACAAUCACUCUGGACUUAAGACAGGUCUUUCAAGUUGCAUAUGUCAUCAUUAAAGCUGCCAAUGCCCCUCGACCUGGAAACUGGAUUUUGGAGCGUUCUCUGGAUGGCACCACGUUCAGCCCCUGGCAGUAUUAUGCAGUCAGCGACUCAGAGUGUUUGUCUCGUUACAAUAUAACUCCAAGACGAGGGCCACCCACCUACAGGGCUGAUGAUGAAGUGAUCUGCACCUCCUAUUAUUCCAGAUUGGUGCCACUUGAGCAUGGAGAGAUUCAUACAUCACUCAUCAAUGGCAGACCAAGCGCUGACGAUCUUUCACCCAAGUUGUUGGAAUUCACUUCUGCACGAUAUAUUCGCCUUCGCUUGCAACGCAUUAGAACGCUCAAUGCAGAUCUCAUGACCCUUAGCCACCGGGAACCUAAAGAACUGGAUCCUAUUGUUACCAGACGCUAUUAUUAUUCAAUAAAGGACAUUUCUGUUGGAGGCAUGUGUAUCUGCUAUGGCCAUGCUAGUAGCUGCCCAUGGGAUGAAACUACAAAGAAACUGCAGUGUCAAUGUGAGCAUAAUACUUGCGGGGAGAGCUGUAACAGGUGCUGUCCUGGGUACCAUCAGCAGCCCUGGAGGCCGGGAACCGUGUCCUCCGGCAAUACAUGUGAAGCAUGUAAUUGUCACAAUAAAGCCAAAGACUGUUACUAUGAUGAAAGUGUUGCAAAGCAGAAGAAAAGUUUGAAUACUGCUGGACAGUUCAGAGGAGGAGGGGUUUGCAUAAAUUGCUUGCAGAACACCAUGGGAAUCAACUGUGAAACCUGUAUUGAUGGAUAUUAUAGACCACACAAAGUGUCUCCUUAUGAGGAUGAGCCUUGCCGCCCCUGUAAUUGUGACCCUGUGGGGUCCCUCAGUUCUGUCUGUAUUAAGGAUGACCUCCAUUCUGACUUACACAAUGGGAAGCAGCCAGGUCAGUGCCCAUGUAAGGAAGGUUAUACAGGAGAAAAAUGUGAUCGCUGCCAACUUGGCUAUAAGGAUUACCCGACCUGUGUCUCCUGUGGGUGCAACCCAGUGGGCAGUGCCAGUGAUGAGCCCUGCACAGGGCCCUGUGUUUGUAAGGAAAACGUUGAGGGGAAGGCCUGUGAUCGCUGCAAGCCAGGAUUCUAUAACUUGAAGGAAAAAAACCCCCGGGGCUGCUCCGAGUGCUUCUGCUUUGGCGUUUCUGAUGUCUGCAGCAGCCUCUCUUGGCCUGUUGGUCAGGUAAACAGUAUGUCCGGGUGGCUGGUCACCGACUUGAUCAGUCCCAGGAAGAUCCCGUCUCAGCAAGAUGCACUAGGCGGGCGCCAUCAGGUCAGCAUCAACAACACCGCGGUCAUGCAGAGACUGGCUCCCAAGUACUACUGGGCAGCCCCCGAGGCCUACCUUGGAAAUAAGCUGACUGCGUUUGGCGGAUUCCUGAAAUACACGGUGUCCUACGAUAUUCCGGUAGAGACGGUAGACAGUAACCUCAUGUCGCAUGCUGACGUCAUCAUUAAGGGAAACGGACUCACUUUAAGCACACAGGCUGAGGGUCUGUCAUUGCAGCCUUAUGAAGAGUACCUAAACGUGGUUAGACUUGUGCCUGAAAACUUCCAAGAUUUUCACAGCAAAAGGCAGAUUGAUCGUGACCAGCUGAUGACUGUCCUUGCCAAUGUGACACAUCUUUUGAUCAGAGCCAACUACAAUUCUGCAAAAAUGGCUCUUUACAGGUUGGAGUCCGUCUCUCUGGACAUAGCCAGCUCUAAUGCCAUCGACCUGGUGGUGGCCGCUGAUGUGGAGCACUGUGAAUGUCCGCAAGGCUACACAGGGACCUCCUGUGAGUCGUGCCUCUCUGGCUAUUACCGCGUGGAUGGAAUACUCUUUGGAGGAAUUUGUCAACCCUGUGAAUGCCACGGCCAUGCAGCUGAGUGUAAUGUUCACGGCGUUUGCAUUGCGUGUGCGCACAACACCACCGGCGUCCACUGUGAGCAGUGCUUGCCCGGCUUCUACGGGGAGCCUUCCCGAGGGACACCUGGGGACUGCCAGCCCUGCGCCUGCCCUCUCACCAUAGCCUCCAACAAUUUCAGCCCCACCUGCCACCUCAAUGAUGGAGAUGAAGUGGUCUGUGACUGGUGUGCCCCGGGCUACUCAGGAGCUUGGUGUGAGAGAUGUGCAGAUGGUUACUAUGGAAACCCAACAGUGCCUGGCGAAUCUUGUGUUCCCUGUGACUGCAGCGGCAACGUGGACCCCUCGGAGGCUGGUCACUGUGACUCAGUCACCGGGGAGUGCCUGAAGUGCCUGGGGAACACAGAUGGCGCCCACUGUGAAAGGUGUGCUGACGGGUUCUAUGGGGACGCUGUGACAGCCAAGAACUGCCGCGCCUGUGAAUGCCAUGUGAAAGGCUCCCAUUCUGCCGUGUGCCAUCUUGAGACCGGGCUCUGUGACUGCAAACCAAACGUGACUGGACAGCAGUGUGACCAGUGCUUGCAUGGCUAUUAUGGGCUGGACUCAGGCCAUGGCUGCCGGCCCUGCAACUGCAGCGUGGCAGGCUCCGUGUCAGAUGGCUGCACGGAUGAAGGCCAGUGUCACUGUGUCCCAGGUGUGGCAGGGAAAAGGUGUGACAGGUGUGCCCAUGGCUUCUACGCCUACCAGGAUGGUAGCUGUACACCCUGUGACUGCCCACACACUCAGAAUACCUGCGACCCAGAAACUGGAGAGUGUGUCUGCCCCCCUCACACACAGGGUGUGAAGUGUGAAGAAUGUGAGGAUGGGCACUGGGGCUACGAUGCGGAGGUGGGGUGCCAGGCCUGCAAUUGCAGUCUCGUGGGGUCGACUCAUCAUCGGUGCGAUGUGGUCACCGGCCAUUGCCAGUGCAAGUCAAAAUUUGGUGGCCGGGCCUGCGAUCAGUGUUCCUUGGGUUACAGAGACUUUCCCGACUGUGUUCCCUGUGACUGUGACCUGAGGGGGACGUCGGGGGACGCCUGCAACCUGGAGCAGGGUCUCUGCGGCUGUGUGGAGGAAACCGGGGCCUGCCCUUGCAAGGAAAAUGUCUUUGGUCCUCAGUGCAACGAAUGUCGAGAGGGCACCUUCGCUCUCCGCGCAGACAACCCCCUGGGCUGCAGCCCGUGCUUCUGCUCCGGGCUGUCCCACCUCUGCUCAGAGCUGGAGGACUACGUGAGGACCCCAGUAACGCUGGGCUCCGAUCAGCCUCUUCUGCGUGUGGUUUCUCAGAGUAACUUGAGGGGCACGACCGAGGGGGUUUACUACCAGGCCCCCGACUUCCUGCUGGAUGCCGCCACCGUCCGGCAGCACAUCCGUGCAGAGCCGUUUUACUGGCGGCUGCCGCAGCAGUUCCAAGGAGACCAGCUCAUGGCCUAUGGUGGCAAACUGAAGUACAGCGUGGCCUUCUAUUCUUUGGAUGGCGUCGGCACCUCCAAUUUUGAGCCUCAAGUUCUCAUCAAAGGUGGUCGGAUCAGAAAGCAAGUCAUUUACAUGGAUGCACCAGCCCCAGAGAAUGGAGUGAGACAGGAACAAGAAGUAGCAAUGAGAGAGAAUUUUUGGAAAUAUUUUAACUCUGUUUCUGAAAAACCUGUCACGCGAGAGGAUUUUAUGUCUGUCCUCAGCGAUAUUGAGUACAUCCUCAUCAAGGCAUCGUAUGGUCAAGGAUUACAGCAGAGCAGAAUCUCAGACAUUUCAAUGGAGGUUGGCAGAAAGGCUGAAAAGCUGCACCCAGAAGAAGAGGUUGCAUCUCUUUUAGAGAAUUGUGUCUGUCCUCCUGGCACUGUGGGAUUCUCAUGUCAGGACUGCGCCCCUGGGUACCACAGAGGGAAGCUCCCAGCAGGGAGUGACAGGGGACCACGCCCUCUGGUUGCUCCUUGUGUUCCCUGCAGUUGCAACAACCACAGUGACACCUGUGACCCCAACACCGGGAAGUGUCUGAACUGUGGCGAUAACACAGCAGGUGACCAUUGUGAUGUGUGUACUUCUGGCUACUACGGGAAGGUGACUGGCUCAGCAAGUGACUGUGCUCUGUGUGCCUGUCCUCACAGCCCUCCUGCCAGUUUUAGUCCCACUUGUGUCUUGGAAGGGGACCACGAUUUCCGUUGUGACGCCUGUCUCCUGGGCUAUGAAGGAAAACACUGUGAAAGGUGCUCCUCAAGCUAUUAUGGGAACCCUCAAACACCAGGUGGCAGUUGCCAGAAGUGUGACUGCAACCCGCACGGCUCUGUCCACGGUGACUGUGACCGCACAUCUGGGCAGUGCGUUUGCAGGCUGGGGGCCUCGGGGCUCCGGUGCGAUGAGUGUGAACCGAGGCACAUUCUGAUGGAAACAGAUUGUGUUUCCUGUGAUGAUGAGUGUGUAGGUGUGCUGCUGAAUGACUUGGAUGAGAUUGGUGAUGCCGUUCUUUCUCUGAACCUCACUGGCAUUAUCCCUGUCCCAUAUGGAAUUUUGUCAAACCUGGAAAAUACAACUAAAUAUCUCCAGGAAUCUUUAUUAAAAGAAAAUAUGCAAAAGGACCUGGGAAAAAUUAAGCUUGAAGGUGUUGCAGAAGAAACGGACAACCUGCAAAAGAAGCUCACUAGGAUGUUAGCGAGUACCCAAAAGGUGAAUAGGGCAACUGAGAGAAUCUUCAAGGAGAGUCAAGACCUGGCCAUAGCCAUUGAGAGGCUGCAGAUGAGCAUCACAGAAAUUAUGGAAAAGACAACUUUAAAUCAGACUUUGGAUGAAGAUUUCCUACUACCCAAUUCUACUCUUCAGAACAUGCAACAGAAUGGUACAUCUUUGCUAGAAAUCAUGCAGAUAAGAGACUUCACACAGUUGCACCAAAAUGCCACCCUUGAACUCAAGGCUGCUGAAGAUUUAUUGUCACAAAUUCAGGAAAAUUACCAGAAGCCGCUGGAAGAAUUGGAGGUAUUGAAAGAAGCAGCAAGCCACGUCCUUUCAAAGCACAACAAUGAACUAAAGGCGGCUGAGGCGCUCGUGAGGGAAGCUGAGGCAAAGAUGCAGGAAAGCAACCACCUGCUGCUCAUGGUCAAUGCUAAUCUGAGAGAAUUCAGUGAUAAAAAGCUGCAUGUUCAAGAAGAACAAAAUCUGACCUCAGAGCUCAUUGUCCAAGGAAGAGGAUUGAUAGAUGCUGCUGCUGCACAAACAGAUGCUGUACAAGAUGCUCUAGAGCACUUAGAGGAUCACCAGGAUAAGCUACUUUUAUGGUCUGCCAAAAUCAGGCACCACAUAGAUGACCUGGUCAUGCACAUGUCCCAAAGGAACGCAGUCGACCUGGUCUACAGAGCUGAGGACCAUGCCGCUGAGUUCCAGAGACUAGCAGAUGUUCUGUACAGUGGCCUUGAAAACAUCAGAAAUGUGUCCCUGAAUGCCACCAGUGCAGCCUAUGUCCAUUACAACAUCCAGAGCCUGAUUGAAGAAUCGGAGGAACUGGCCAGAGAUGCUCACAGGACUGUGACUGAGACGAGCCUGCUCUCAGAAUCCCUUGUUUCUAACGGGAAAGCGGCCGUGCAGCGCAGCUCCAGAUUUCUAAAAGAAGGCAACAACCUCAGCAGGAAGCUUCCAGGUAUUGCAUUGGAACUGAGUGAAUUGAGAAAUAAGACAAACAGAUUUCAAGAGAAUGCUGUUGAAAUUACCAGGCAAACCAAUGAAUCACUCUUGAUACUUAGAGCAAUUCCUAAAGGUAUAAGAGACAAGGGAGCCAAAACCAAAGAGCUGGCCACGUCUGCAAGCCAGAGCGCGGUGAGCACGCUGAGGGACGUGGCGGGGCUGAGCCAGGAGCUGCUGAACACAUCUGCCAGCCUGUCCAGGGUCAACACCACAUUACGAGAGACACACCAGCUUCUGCAGGACUCCACCAUGGCCACUCUGUUGGCUGGAAGAAAAGUCAAAGACGUGGAAAUUCAAGCCAACCUUUUGUUUGAUCGGUUGAAGCCUUUGAAGAUGUUAGAGGAGAAUCUGAGCAGAAACCUAUCAGAAAUUAAACUGUUGAUCAGCCAGGCCCGCAAACAAGCAGCUUCUAUUAAAGUCGCCGUGUCUGCAGACAGAGAUUGCAUCCGGGCCUACCAGCCUCAGAUUUCCUCUACCAACUACAAUACCUUAACACUAAAUGUUAAGACACAGGAACCCGAUAAUCUUCUCUUCUACCUCGGUAGCAGCACCGCUUCUGAUUUCCUUGCAGUGGAGAUGCGGCGAGGGAGAGUGGCCUUCCUGUGGGACCUGGGCUCCGGGUCCACACGCUUGGAGUUUCCAGACUUUCCCAUUGAUGACAACAGAUGGCACAGUAUCCAUGUAGCCAGAUUUGGAAACAUUGGUUCACUGAGUGUAAAGGAAAUGAGCUCAAAUCAAAAGUCACCAACAAAAACAAGUAAAUCCCCUGGGACAGCUAAUGUUCUGGAUGUAAACAAUUCAACACUCAUGUUUGUUGGAGGUCUUGGAGGACAAAUCAAGAAAUCUCCUGCUGUGAAGGUUACUCAUUUUAAAGGCUGCUUGGGGGAGGCCUUCCUGAAUGGAAAAUCCAUAGGCCUAUGGAACUAUAUUGAAAGGGAAGGCAAGUGCCGUGGGUGCUUCGGAAGCUCCCAGAAUGAAGACCCUUCCUUCCAUUUUGACGGGAGUGGGUACUCUGUCGUGGAGAAGUCACUUCCGGCUACCGUGACCCAGAUAAUCAUGCUUUUUAAUACCUUUUCACCUAAUGGACUUCUUCUCUACCUGGGUUCAUACGGCACAAAAGACUUUUUAUCCAUCGAGCUGUUUCGUGGCAGAGUGAAGGUUAUGACUGACCUGGGUUCAGGACCCAUUACCCUUUUGACAGACAGACGUUAUAACAAUGGAACCUGGUACAAAAUUGCCUUCCAGCGAAACCGGAAGCAAGGAGUGCUAGCAGUUAUCGAUGCCUAUAACACCAGUAAUAAAGAAACCAAGCAGGGCGAGACUCCGGGAGCAUCUUCUGACCUCAACCGCCUAGACAAGGACCCGAUUUAUGUGGGUGGAUUACCAAGGUCAAGAGUUGUAAGGAGAGGUGUCACCACCAAAAGCUUUGUGGGCUGCAUCAAGAACCUGGAAAUAUCCAGAUCAACCUUUGACUUACUCAGAAAUUCCUAUGGAGUGAGAAAAGGCUGUUUACUGGAGCCCAUCCGGAGUGUUAGCUUCCUGAAAGGCGGCUACAUUGAAUUGCCACCCAAAUCUUUGUCACCAGAAUCAGAAUGGCUGGUAACAUUUGCCACCACGAACAGCAGUGGCAUCAUCCUGGCUGCCCUCGGCGGGGAUGUGGAGAAGCGGGGUGAUCGUGAGGAAGCACACGUGCCCUUCUUUUCCGUCAUGCUGAUCGGAGGCAACAUUGAGGUACAUGUCAAUCCUGGGGAUGGGACAGGCCUGAGAAAAGCUCUCCUGCACGCUCCCACGGGUACCUGCAGUGAUGGACAAGCGCAUUCCAUCUCCUUGGUCAGGAAUCGGAGAAUUAUCACUGUCCAAUUGGAUGAGAACAAUCCUGUGGAAAUGAAGUUGGGCACAUUAGUAGAAAGCAGGACGAUAAAUGUGUCCAAUCUGUACGUCGGGGGAAUUCCAGAGGGAGAGGGGACGUCACUGCUCACAAUGAGAAGAUCGUUCCAUGGCUGUAUCAAAAACCUGAUCUUCAAUUUGGAACUUUUGGAUUUCAACAGUGCAGUUGGCCAUGAGCAAGUCGACCUGGACACCUGCUGGCUGUCAGAAAGGCCUAAGCUGGCUCCCGAUGCAGAGGACAGCAAGCUCUUGCCAGAGCCCCGGGCUUUUCCAGAACAGUGUGUGGUGGAUGCAGCUCUGGAGUACGUUCCCGGCGCUCACCAGUUUGGUCUCACACAAAACAGCCAUUUCAUCUUGCCUUUUAAUCAGUCGGCUGUCAGAAAGAAGCUCUCGGUUGAGCUAAGCAUCCGCACGUUCGCCUCCAGCGGCCUGAUUUACUACAUGGCUCAUCAGAACCAAGCAGACUACGCUGUGCUCCAGCUGCACGGGGGCCGCCUCCACUUCAUGUUUGACCUUGGCAAAGGCAGAACAAAGGUCUCUCACCCUGCACUGCUCAGUGAUGGCAAGUGGCACACGGUCAAGACAGACUAUGUUAAAAGAAAAGGCUUCAUAACUGUCGACGGCCGAGAGUCUCCCAUGGUGACUGUGGUGGGAGAUGGAACCAUGCUGGAUGUGGAGGGUUUGUUCUACCUAGGAGGCCUGCCCUCCCAGUACCAGGCCAGGAAAAUUGGAAAUAUCACCCACAGCAUCCCUGCCUGCAUUGGGGAUGUGACGGUUAACAGCAAACAGCUGGACAAGGACAGCCCGGUGUCUGCCUUCACGGUGAACAGGUGCUACGCAGUGGCCCAGGAAGGAACAUACUUUGACGGAAGCGGAUAUGCAGCUCUUGUCAAAGAGGGCUACAAAGUCCAGUCAGAUGUGAACAUCACACUGGAGUUUCGAACCUCCUCGCAGAAUGGCGUCCUCCUGGGGAUCAGCACUGCCAAAGUGGAUGCCAUUGGACUAGAGCUUGUGGACGGCAAGGUCUUGUUCCAUGUCAACAAUGGUGCUGGCAGGAUAACAGCUGCAUAUGAGCCCAAAACCGCCACUGUGCUCUGUGAUGGAAAAUGGCACACUCUUCAAGCUAACAAAAGCAAACACCGUAUCACUCUGAUUGUUGACGGGAACGCAGUUGGCGCUGAAAGUCCACACACCCAGUCUACCUCAGUGGACACCAACAAUCCCAUUUAUGUUGGUGGCUAUCCUGCUGGUGUGAAGCAAAAAUGCCUGCGCAGCCAGACCUCGUUCCGCGGGUGUUUGAGGAAGCUAGCUCUGAUUAAGAGCCCGCAGGUGCAGUCCUUUGACUUCAGCAGAGCGUUCGAACUGCACGGAGUUUUCCUUCAUUCCUGUCCUGGGACCGAGUCCUGAACUUCAAGCAGAAUCCUCAGUUGGAAUCAUUGCUAAUAUUUUGAGGAGAAGUGUAUGUGUGAAUUAAGAAUCUCUUCAGUUCAUAUUUCAUUUCCAACUCAGGUUAAGUGUUUCUGGGGAGAGAUGUUGUGUUUACGUUACACUAAAACCACAUGUGCAACAAAUACCUCCAUUAAAUGGUCUAAAAUGUAAAUUGAAUUCCCUGGCUCUCUUUUUAAACGUAUUUUUAAAAAAAUCUUUAUACACAUUGAAUGUUCUGUUGAUUACUUGAUAGUAUUUUAUGUUUUUCAUUUUGAGCUUUUUAAAAAAGUAUCAAUACAGAUGAUAACAGAUCAGA-3'- Poly-A tail
  • Coding region
;
DNA
DNA (Gene ID: 284217)
laminin subunit alpha 1
strand -
NCBI CDS gene sequence (9228 bp)
5'-ATGCGCGGGGGCGTGCTCCTGGTCTTGCTGCTGTGTGTCGCCGCGCAGTGCCGGCAGAGAGGCCTGTTTCCTGCCATTCTCAATCTTGCCAGCAATGCTCACATCAGCACCAATGCCACCTGTGGCGAGAAGGGGCCGGAGATGTTCTGCAAACTTGTGGAGCATGTGCCAGGTCGGCCCGTCCGAAACCCACAGTGCCGGATCTGTGATGGCAACAGCGCAAACCCCAGAGAACGCCATCCAATATCACATGCCATAGATGGCACCAATAACTGGTGGCAAAGTCCCAGCATTCAGAATGGGAGAGAATATCACTGGGTCACAATCACTCTGGACTTAAGACAGGTCTTTCAAGTTGCATATGTCATCATTAAAGCTGCCAATGCCCCTCGACCTGGAAACTGGATTTTGGAGCGTTCTCTGGATGGCACCACGTTCAGCCCCTGGCAGTATTATGCAGTCAGCGACTCAGAGTGTTTGTCTCGTTACAATATAACTCCAAGACGAGGGCCACCCACCTACAGGGCTGATGATGAAGTGATCTGCACCTCCTATTATTCCAGATTGGTGCCACTTGAGCATGGAGAGATTCATACATCACTCATCAATGGCAGACCAAGCGCTGACGATCTTTCACCCAAGTTGTTGGAATTCACTTCTGCACGATATATTCGCCTTCGCTTGCAACGCATTAGAACGCTCAATGCAGATCTCATGACCCTTAGCCACCGGGAACCTAAAGAACTGGATCCTATTGTTACCAGACGCTATTATTATTCAATAAAGGACATTTCTGTTGGAGGCATGTGTATCTGCTATGGCCATGCTAGTAGCTGCCCATGGGATGAAACTACAAAGAAACTGCAGTGTCAATGTGAGCATAATACTTGCGGGGAGAGCTGTAACAGGTGCTGTCCTGGGTACCATCAGCAGCCCTGGAGGCCGGGAACCGTGTCCTCCGGCAATACATGTGAAGCATGTAATTGTCACAATAAAGCCAAAGACTGTTACTATGATGAAAGTGTTGCAAAGCAGAAGAAAAGTTTGAATACTGCTGGACAGTTCAGAGGAGGAGGGGTTTGCATAAATTGCTTGCAGAACACCATGGGAATCAACTGTGAAACCTGTATTGATGGATATTATAGACCACACAAAGTGTCTCCTTATGAGGATGAGCCTTGCCGCCCCTGTAATTGTGACCCTGTGGGGTCCCTCAGTTCTGTCTGTATTAAGGATGACCTCCATTCTGACTTACACAATGGGAAGCAGCCAGGTCAGTGCCCATGTAAGGAAGGTTATACAGGAGAAAAATGTGATCGCTGCCAACTTGGCTATAAGGATTACCCGACCTGTGTCTCCTGTGGGTGCAACCCAGTGGGCAGTGCCAGTGATGAGCCCTGCACAGGGCCCTGTGTTTGTAAGGAAAACGTTGAGGGGAAGGCCTGTGATCGCTGCAAGCCAGGATTCTATAACTTGAAGGAAAAAAACCCCCGGGGCTGCTCCGAGTGCTTCTGCTTTGGCGTTTCTGATGTCTGCAGCAGCCTCTCTTGGCCTGTTGGTCAGGTAAACAGTATGTCCGGGTGGCTGGTCACCGACTTGATCAGTCCCAGGAAGATCCCGTCTCAGCAAGATGCACTAGGCGGGCGCCATCAGGTCAGCATCAACAACACCGCGGTCATGCAGAGACTGGCTCCCAAGTACTACTGGGCAGCCCCCGAGGCCTACCTTGGAAATAAGCTGACTGCGTTTGGCGGATTCCTGAAATACACGGTGTCCTACGATATTCCGGTAGAGACGGTAGACAGTAACCTCATGTCGCATGCTGACGTCATCATTAAGGGAAACGGACTCACTTTAAGCACACAGGCTGAGGGTCTGTCATTGCAGCCTTATGAAGAGTACCTAAACGTGGTTAGACTTGTGCCTGAAAACTTCCAAGATTTTCACAGCAAAAGGCAGATTGATCGTGACCAGCTGATGACTGTCCTTGCCAATGTGACACATCTTTTGATCAGAGCCAACTACAATTCTGCAAAAATGGCTCTTTACAGGTTGGAGTCCGTCTCTCTGGACATAGCCAGCTCTAATGCCATCGACCTGGTGGTGGCCGCTGATGTGGAGCACTGTGAATGTCCGCAAGGCTACACAGGGACCTCCTGTGAGTCGTGCCTCTCTGGCTATTACCGCGTGGATGGAATACTCTTTGGAGGAATTTGTCAACCCTGTGAATGCCACGGCCATGCAGCTGAGTGTAATGTTCACGGCGTTTGCATTGCGTGTGCGCACAACACCACCGGCGTCCACTGTGAGCAGTGCTTGCCCGGCTTCTACGGGGAGCCTTCCCGAGGGACACCTGGGGACTGCCAGCCCTGCGCCTGCCCTCTCACCATAGCCTCCAACAATTTCAGCCCCACCTGCCACCTCAATGATGGAGATGAAGTGGTCTGTGACTGGTGTGCCCCGGGCTACTCAGGAGCTTGGTGTGAGAGATGTGCAGATGGTTACTATGGAAACCCAACAGTGCCTGGCGAATCTTGTGTTCCCTGTGACTGCAGCGGCAACGTGGACCCCTCGGAGGCTGGTCACTGTGACTCAGTCACCGGGGAGTGCCTGAAGTGCCTGGGGAACACAGATGGCGCCCACTGTGAAAGGTGTGCTGACGGGTTCTATGGGGACGCTGTGACAGCCAAGAACTGCCGCGCCTGTGAATGCCATGTGAAAGGCTCCCATTCTGCCGTGTGCCATCTTGAGACCGGGCTCTGTGACTGCAAACCAAACGTGACTGGACAGCAGTGTGACCAGTGCTTGCATGGCTATTATGGGCTGGACTCAGGCCATGGCTGCCGGCCCTGCAACTGCAGCGTGGCAGGCTCCGTGTCAGATGGCTGCACGGATGAAGGCCAGTGTCACTGTGTCCCAGGTGTGGCAGGGAAAAGGTGTGACAGGTGTGCCCATGGCTTCTACGCCTACCAGGATGGTAGCTGTACACCCTGTGACTGCCCACACACTCAGAATACCTGCGACCCAGAAACTGGAGAGTGTGTCTGCCCCCCTCACACACAGGGTGTGAAGTGTGAAGAATGTGAGGATGGGCACTGGGGCTACGATGCGGAGGTGGGGTGCCAGGCCTGCAATTGCAGTCTCGTGGGGTCGACTCATCATCGGTGCGATGTGGTCACCGGCCATTGCCAGTGCAAGTCAAAATTTGGTGGCCGGGCCTGCGATCAGTGTTCCTTGGGTTACAGAGACTTTCCCGACTGTGTTCCCTGTGACTGTGACCTGAGGGGGACGTCGGGGGACGCCTGCAACCTGGAGCAGGGTCTCTGCGGCTGTGTGGAGGAAACCGGGGCCTGCCCTTGCAAGGAAAATGTCTTTGGTCCTCAGTGCAACGAATGTCGAGAGGGCACCTTCGCTCTCCGCGCAGACAACCCCCTGGGCTGCAGCCCGTGCTTCTGCTCCGGGCTGTCCCACCTCTGCTCAGAGCTGGAGGACTACGTGAGGACCCCAGTAACGCTGGGCTCCGATCAGCCTCTTCTGCGTGTGGTTTCTCAGAGTAACTTGAGGGGCACGACCGAGGGGGTTTACTACCAGGCCCCCGACTTCCTGCTGGATGCCGCCACCGTCCGGCAGCACATCCGTGCAGAGCCGTTTTACTGGCGGCTGCCGCAGCAGTTCCAAGGAGACCAGCTCATGGCCTATGGTGGCAAACTGAAGTACAGCGTGGCCTTCTATTCTTTGGATGGCGTCGGCACCTCCAATTTTGAGCCTCAAGTTCTCATCAAAGGTGGTCGGATCAGAAAGCAAGTCATTTACATGGATGCACCAGCCCCAGAGAATGGAGTGAGACAGGAACAAGAAGTAGCAATGAGAGAGAATTTTTGGAAATATTTTAACTCTGTTTCTGAAAAACCTGTCACGCGAGAGGATTTTATGTCTGTCCTCAGCGATATTGAGTACATCCTCATCAAGGCATCGTATGGTCAAGGATTACAGCAGAGCAGAATCTCAGACATTTCAATGGAGGTTGGCAGAAAGGCTGAAAAGCTGCACCCAGAAGAAGAGGTTGCATCTCTTTTAGAGAATTGTGTCTGTCCTCCTGGCACTGTGGGATTCTCATGTCAGGACTGCGCCCCTGGGTACCACAGAGGGAAGCTCCCAGCAGGGAGTGACAGGGGACCACGCCCTCTGGTTGCTCCTTGTGTTCCCTGCAGTTGCAACAACCACAGTGACACCTGTGACCCCAACACCGGGAAGTGTCTGAACTGTGGCGATAACACAGCAGGTGACCATTGTGATGTGTGTACTTCTGGCTACTACGGGAAGGTGACTGGCTCAGCAAGTGACTGTGCTCTGTGTGCCTGTCCTCACAGCCCTCCTGCCAGTTTTAGTCCCACTTGTGTCTTGGAAGGGGACCACGATTTCCGTTGTGACGCCTGTCTCCTGGGCTATGAAGGAAAACACTGTGAAAGGTGCTCCTCAAGCTATTATGGGAACCCTCAAACACCAGGTGGCAGTTGCCAGAAGTGTGACTGCAACCCGCACGGCTCTGTCCACGGTGACTGTGACCGCACATCTGGGCAGTGCGTTTGCAGGCTGGGGGCCTCGGGGCTCCGGTGCGATGAGTGTGAACCGAGGCACATTCTGATGGAAACAGATTGTGTTTCCTGTGATGATGAGTGTGTAGGTGTGCTGCTGAATGACTTGGATGAGATTGGTGATGCCGTTCTTTCTCTGAACCTCACTGGCATTATCCCTGTCCCATATGGAATTTTGTCAAACCTGGAAAATACAACTAAATATCTCCAGGAATCTTTATTAAAAGAAAATATGCAAAAGGACCTGGGAAAAATTAAGCTTGAAGGTGTTGCAGAAGAAACGGACAACCTGCAAAAGAAGCTCACTAGGATGTTAGCGAGTACCCAAAAGGTGAATAGGGCAACTGAGAGAATCTTCAAGGAGAGTCAAGACCTGGCCATAGCCATTGAGAGGCTGCAGATGAGCATCACAGAAATTATGGAAAAGACAACTTTAAATCAGACTTTGGATGAAGATTTCCTACTACCCAATTCTACTCTTCAGAACATGCAACAGAATGGTACATCTTTGCTAGAAATCATGCAGATAAGAGACTTCACACAGTTGCACCAAAATGCCACCCTTGAACTCAAGGCTGCTGAAGATTTATTGTCACAAATTCAGGAAAATTACCAGAAGCCGCTGGAAGAATTGGAGGTATTGAAAGAAGCAGCAAGCCACGTCCTTTCAAAGCACAACAATGAACTAAAGGCGGCTGAGGCGCTCGTGAGGGAAGCTGAGGCAAAGATGCAGGAAAGCAACCACCTGCTGCTCATGGTCAATGCTAATCTGAGAGAATTCAGTGATAAAAAGCTGCATGTTCAAGAAGAACAAAATCTGACCTCAGAGCTCATTGTCCAAGGAAGAGGATTGATAGATGCTGCTGCTGCACAAACAGATGCTGTACAAGATGCTCTAGAGCACTTAGAGGATCACCAGGATAAGCTACTTTTATGGTCTGCCAAAATCAGGCACCACATAGATGACCTGGTCATGCACATGTCCCAAAGGAACGCAGTCGACCTGGTCTACAGAGCTGAGGACCATGCCGCTGAGTTCCAGAGACTAGCAGATGTTCTGTACAGTGGCCTTGAAAACATCAGAAATGTGTCCCTGAATGCCACCAGTGCAGCCTATGTCCATTACAACATCCAGAGCCTGATTGAAGAATCGGAGGAACTGGCCAGAGATGCTCACAGGACTGTGACTGAGACGAGCCTGCTCTCAGAATCCCTTGTTTCTAACGGGAAAGCGGCCGTGCAGCGCAGCTCCAGATTTCTAAAAGAAGGCAACAACCTCAGCAGGAAGCTTCCAGGTATTGCATTGGAACTGAGTGAATTGAGAAATAAGACAAACAGATTTCAAGAGAATGCTGTTGAAATTACCAGGCAAACCAATGAATCACTCTTGATACTTAGAGCAATTCCTAAAGGTATAAGAGACAAGGGAGCCAAAACCAAAGAGCTGGCCACGTCTGCAAGCCAGAGCGCGGTGAGCACGCTGAGGGACGTGGCGGGGCTGAGCCAGGAGCTGCTGAACACATCTGCCAGCCTGTCCAGGGTCAACACCACATTACGAGAGACACACCAGCTTCTGCAGGACTCCACCATGGCCACTCTGTTGGCTGGAAGAAAAGTCAAAGACGTGGAAATTCAAGCCAACCTTTTGTTTGATCGGTTGAAGCCTTTGAAGATGTTAGAGGAGAATCTGAGCAGAAACCTATCAGAAATTAAACTGTTGATCAGCCAGGCCCGCAAACAAGCAGCTTCTATTAAAGTCGCCGTGTCTGCAGACAGAGATTGCATCCGGGCCTACCAGCCTCAGATTTCCTCTACCAACTACAATACCTTAACACTAAATGTTAAGACACAGGAACCCGATAATCTTCTCTTCTACCTCGGTAGCAGCACCGCTTCTGATTTCCTTGCAGTGGAGATGCGGCGAGGGAGAGTGGCCTTCCTGTGGGACCTGGGCTCCGGGTCCACACGCTTGGAGTTTCCAGACTTTCCCATTGATGACAACAGATGGCACAGTATCCATGTAGCCAGATTTGGAAACATTGGTTCACTGAGTGTAAAGGAAATGAGCTCAAATCAAAAGTCACCAACAAAAACAAGTAAATCCCCTGGGACAGCTAATGTTCTGGATGTAAACAATTCAACACTCATGTTTGTTGGAGGTCTTGGAGGACAAATCAAGAAATCTCCTGCTGTGAAGGTTACTCATTTTAAAGGCTGCTTGGGGGAGGCCTTCCTGAATGGAAAATCCATAGGCCTATGGAACTATATTGAAAGGGAAGGCAAGTGCCGTGGGTGCTTCGGAAGCTCCCAGAATGAAGACCCTTCCTTCCATTTTGACGGGAGTGGGTACTCTGTCGTGGAGAAGTCACTTCCGGCTACCGTGACCCAGATAATCATGCTTTTTAATACCTTTTCACCTAATGGACTTCTTCTCTACCTGGGTTCATACGGCACAAAAGACTTTTTATCCATCGAGCTGTTTCGTGGCAGAGTGAAGGTTATGACTGACCTGGGTTCAGGACCCATTACCCTTTTGACAGACAGACGTTATAACAATGGAACCTGGTACAAAATTGCCTTCCAGCGAAACCGGAAGCAAGGAGTGCTAGCAGTTATCGATGCCTATAACACCAGTAATAAAGAAACCAAGCAGGGCGAGACTCCGGGAGCATCTTCTGACCTCAACCGCCTAGACAAGGACCCGATTTATGTGGGTGGATTACCAAGGTCAAGAGTTGTAAGGAGAGGTGTCACCACCAAAAGCTTTGTGGGCTGCATCAAGAACCTGGAAATATCCAGATCAACCTTTGACTTACTCAGAAATTCCTATGGAGTGAGAAAAGGCTGTTTACTGGAGCCCATCCGGAGTGTTAGCTTCCTGAAAGGCGGCTACATTGAATTGCCACCCAAATCTTTGTCACCAGAATCAGAATGGCTGGTAACATTTGCCACCACGAACAGCAGTGGCATCATCCTGGCTGCCCTCGGCGGGGATGTGGAGAAGCGGGGTGATCGTGAGGAAGCACACGTGCCCTTCTTTTCCGTCATGCTGATCGGAGGCAACATTGAGGTACATGTCAATCCTGGGGATGGGACAGGCCTGAGAAAAGCTCTCCTGCACGCTCCCACGGGTACCTGCAGTGATGGACAAGCGCATTCCATCTCCTTGGTCAGGAATCGGAGAATTATCACTGTCCAATTGGATGAGAACAATCCTGTGGAAATGAAGTTGGGCACATTAGTAGAAAGCAGGACGATAAATGTGTCCAATCTGTACGTCGGGGGAATTCCAGAGGGAGAGGGGACGTCACTGCTCACAATGAGAAGATCGTTCCATGGCTGTATCAAAAACCTGATCTTCAATTTGGAACTTTTGGATTTCAACAGTGCAGTTGGCCATGAGCAAGTCGACCTGGACACCTGCTGGCTGTCAGAAAGGCCTAAGCTGGCTCCCGATGCAGAGGACAGCAAGCTCTTGCCAGAGCCCCGGGCTTTTCCAGAACAGTGTGTGGTGGATGCAGCTCTGGAGTACGTTCCCGGCGCTCACCAGTTTGGTCTCACACAAAACAGCCATTTCATCTTGCCTTTTAATCAGTCGGCTGTCAGAAAGAAGCTCTCGGTTGAGCTAAGCATCCGCACGTTCGCCTCCAGCGGCCTGATTTACTACATGGCTCATCAGAACCAAGCAGACTACGCTGTGCTCCAGCTGCACGGGGGCCGCCTCCACTTCATGTTTGACCTTGGCAAAGGCAGAACAAAGGTCTCTCACCCTGCACTGCTCAGTGATGGCAAGTGGCACACGGTCAAGACAGACTATGTTAAAAGAAAAGGCTTCATAACTGTCGACGGCCGAGAGTCTCCCATGGTGACTGTGGTGGGAGATGGAACCATGCTGGATGTGGAGGGTTTGTTCTACCTAGGAGGCCTGCCCTCCCAGTACCAGGCCAGGAAAATTGGAAATATCACCCACAGCATCCCTGCCTGCATTGGGGATGTGACGGTTAACAGCAAACAGCTGGACAAGGACAGCCCGGTGTCTGCCTTCACGGTGAACAGGTGCTACGCAGTGGCCCAGGAAGGAACATACTTTGACGGAAGCGGATATGCAGCTCTTGTCAAAGAGGGCTACAAAGTCCAGTCAGATGTGAACATCACACTGGAGTTTCGAACCTCCTCGCAGAATGGCGTCCTCCTGGGGATCAGCACTGCCAAAGTGGATGCCATTGGACTAGAGCTTGTGGACGGCAAGGTCTTGTTCCATGTCAACAATGGTGCTGGCAGGATAACAGCTGCATATGAGCCCAAAACCGCCACTGTGCTCTGTGATGGAAAATGGCACACTCTTCAAGCTAACAAAAGCAAACACCGTATCACTCTGATTGTTGACGGGAACGCAGTTGGCGCTGAAAGTCCACACACCCAGTCTACCTCAGTGGACACCAACAATCCCATTTATGTTGGTGGCTATCCTGCTGGTGTGAAGCAAAAATGCCTGCGCAGCCAGACCTCGTTCCGCGGGTGTTTGAGGAAGCTAGCTCTGATTAAGAGCCCGCAGGTGCAGTCCTTTGACTTCAGCAGAGCGTTCGAACTGCACGGAGTTTTCCTTCATTCCTGTCCTGGGACCGAGTCCTGA-3'
NCBI CDS gene sequence with introns (location: 6942079.. 7117720) (175642 bp)Download
NCBI CDS gene sequence with introns, 5'UTR and 3'UTR (location: 6941742.. 7117797) (176056 bp)Download
NCBI gene sequence (location: [6941742.. 7117797 + 1000]) (177056 bp)Download
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