NCBI Summary
This gene encodes one of the vertebrate laminin alpha chains. Laminins, a family of extracellular matrix glycoproteins, are the major noncollagenous constituent of basement membranes. They have been implicated in a wide variety of biological processes including cell adhesion, differentiation, migration, signaling, neurite outgrowth and metastasis. Laminins are composed of 3 non identical chains: laminin alpha, beta and gamma (formerly A, B1, and B2, respectively) and they form a cruciform structure consisting of 3 short arms, each formed by a different chain, and a long arm composed of all 3 chains. Each laminin chain is a multidomain protein encoded by a distinct gene. The protein encoded by this gene is the alpha-5 subunit of of laminin-10 (laminin-511), laminin-11 (laminin-521) and laminin-15 (laminin-523). [provided by RefSeq, Jun 2013].
Protein
Protein (NP_005551)
Laminin subunit alpha-5
Laminin subunit alpha-5 (Laminin-10 subunit alpha) (Laminin-11 subunit alpha) (Laminin-15 subunit alpha)
LAMA5
laminin subunit alpha 5
Undefined
Low evidence
Laminin G-like
Undefined
b-sandwich / ConA-like
GlcA(b1-3)Xyl(a1-4)GlcA / Matriglycan on alpha-dystroglycan
NP_005551
3911
O15230
ENSP00000252999.3
O15230
0.165
10.1016/j.sbi.2018.11.007
PFAM, InterPro, CPX-1779, CPX-1780, CPX-1783, CPX-1784
Protein sequence and protein families (fasta) (3695 amino acids) Download
MAKRLCAGSALCVRGPRGPAPLLLVGLALLGAARAREEAGGGFSLHPPYFNLAEGARIAASATCGEEAPARGSPRPTEDLYCKLVGGPVAGGDPNQTIRGQYCDICTAANSNKAHPASNAIDGTERWWQSPPLSRGLEYNEVNVTLDLGQVFHVAYVLIKFANSPRPDLWVLERSMDFGRTYQPWQFFASSKRDCLERFGPQTLERITRDDAAICTTEYSRIVPLENGEIVVSLVNGRPGAMNFSYSPLLREFTKATNVRLRFLRTNTLLGHLMGKALRDPTVTRRYYYSIKDISIGGRCVCHGHADACDAKDPTDPFRLQCTCQHNTCGGTCDRCCPGFNQQPWKPATANSANECQSCNCYGHATDCYYDPEVDRRRASQSLDGTYQGGGVCIDCQHHTTGVNCERCLPGFYRSPNHPLDSPHVCRRCNCESDFTDGTCEDLTGRCYCRPNFSGERCDVCAEGFTGFPSCYPTPSSSNDTREQVLPAGQIVNCDCSAAGTQGNACRKDPRVGRCLCKPNFQGTHCELCAPGFYGPGCQPCQCSSPGVADDRCDPDTGQCRCRVGFEGATCDRCAPGYFHFPLCQLCGCSPAGTLPEGCDEAGRCLCQPEFAGPHCDRCRPGYHGFPNCQACTCDPRGALDQLCGAGGLCRCRPGYTGTACQECSPGFHGFPSCVPCHCSAEGSLHAACDPRSGQCSCRPRVTGLRCDTCVPGAYNFPYCEAGSCHPAGLAPVDPALPEAQVPCMCRAHVEGPSCDRCKPGFWGLSPSNPEGCTRCSCDLRGTLGGVAECQPGTGQCFCKPHVCGQACASCKDGFFGLDQADYFGCRSCRCDIGGALGQSCEPRTGVCRCRPNTQGPTCSEPARDHYLPDLHHLRLELEEAATPEGHAVRFGFNPLEFENFSWRGYAQMAPVQPRIVARLNLTSPDLFWLVFRYVNRGAMSVSGRVSVREEGRSATCANCTAQSQPVAFPPSTEPAFITVPQRGFGEPFVLNPGTWALRVEAEGVLLDYVVLLPSAYYEAALLQLRVTEACTYRPSAQQSGDNCLLYTHLPLDGFPSAAGLEALCRQDNSLPRPCPTEQLSPSHPPLITCTGSDVDVQLQVAVPQPGRYALVVEYANEDARQEVGVAVHTPQRAPQQGLLSLHPCLYSTLCRGTARDTQDHLAVFHLDSEASVRLTAEQARFFLHGVTLVPIEEFSPEFVEPRVSCISSHGAFGPNSAACLPSRFPKPPQPIILRDCQVIPLPPGLPLTHAQDLTPAMSPAGPRPRPPTAVDPDAEPTLLREPQATVVFTTHVPTLGRYAFLLHGYQPAHPTFPVEVLINAGRVWQGHANASFCPHGYGCRTLVVCEGQALLDVTHSELTVTVRVPKGRWLWLDYVLVVPENVYSFGYLREEPLDKSYDFISHCAAQGYHISPSSSSLFCRNAAASLSLFYNNGARPCGCHEVGATGPTCEPFGGQCPCHAHVIGRDCSRCATGYWGFPNCRPCDCGARLCDELTGQCICPPRTIPPDCLLCQPQTFGCHPLVGCEECNCSGPGIQELTDPTCDTDSGQCKCRPNVTGRRCDTCSPGFHGYPRCRPCDCHEAGTAPGVCDPLTGQCYCKENVQGPKCDQCSLGTFSLDAANPKGCTRCFCFGATERCRSSSYTRQEFVDMEGWVLLSTDRQVVPHERQPGTEMLRADLRHVPEAVPEAFPELYWQAPPSYLGDRVSSYGGTLRYELHSETQRGDVFVPMESRPDVVLQGNQMSITFLEPAYPTPGHVHRGQLQLVEGNFRHTETRNTVSREELMMVLASLEQLQIRALFSQISSAVFLRRVALEVASPAGQGALASNVELCLCPASYRGDSCQECAPGFYRDVKGLFLGRCVPCQCHGHSDRCLPGSGVCVDCQHNTEGAHCERCQAGFVSSRDDPSAPCVSCPCPLSVPSNNFAEGCVLRGGRTQCLCKPGYAGASCERCAPGFFGNPLVLGSSCQPCDCSGNGDPNLLFSDCDPLTGACRGCLRHTTGPRCEICAPGFYGNALLPGNCTRCDCTPCGTEACDPHSGHCLCKAGVTGRRCDRCQEGHFGFDGCGGCRPCACGPAAEGSECHPQSGQCHCRPGTMGPQCRECAPGYWGLPEQGCRRCQCPGGRCDPHTGRCNCPPGLSGERCDTCSQQHQVPVPGGPVGHSIHCEVCDHCVVLLLDDLERAGALLPAIHEQLRGINASSMAWARLHRLNASIADLQSQLRSPLGPRHETAQQLEVLEQQSTSLGQDARRLGGQAVGTRDQASQLLAGTEATLGHAKTLLAAIRAVDRTLSELMSQTGHLGLANASAPSGEQLLRTLAEVERLLWEMRARDLGAPQAAAEAELAAAQRLLARVQEQLSSLWEENQALATQTRDRLAQHEAGLMDLREALNRAVDATREAQELNSRNQERLEEALQRKQELSRDNATLQATLHAARDTLASVFRLLHSLDQAKEELERLAASLDGARTPLLQRMQTFSPAGSKLRLVEAAEAHAQQLGQLALNLSSIILDVNQDRLTQRAIEASNAYSRILQAVQAAEDAAGQALQQADHTWATVVRQGLVDRAQQLLANSTALEEAMLQEQQRLGLVWAALQGARTQLRDVRAKKDQLEAHIQAAQAMLAMDTDETSKKIAHAKAVAAEAQDTATRVQSQLQAMQENVERWQGQYEGLRGQDLGQAVLDAGHSVSTLEKTLPQLLAKLSILENRGVHNASLALSASIGRVRELIAQARGAASKVKVPMKFNGRSGVQLRTPRDLADLAAYTALKFYLQGPEPEPGQGTEDRFVMYMGSRQATGDYMGVSLRDKKVHWVYQLGEAGPAVLSIDEDIGEQFAAVSLDRTLQFGHMSVTVERQMIQETKGDTVAPGAEGLLNLRPDDFVFYVGGYPSTFTPPPLLRFPGYRGCIEMDTLNEEVVSLYNFERTFQLDTAVDRPCARSKSTGDPWLTDGSYLDGTGFARISFDSQISTTKRFEQELRLVSYSGVLFFLKQQSQFLCLAVQEGSLVLLYDFGAGLKKAVPLQPPPPLTSASKAIQVFLLGGSRKRVLVRVERATVYSVEQDNDLELADAYYLGGVPPDQLPPSLRRLFPTGGSVRGCVKGIKALGKYVDLKRLNTTGVSAGCTADLLVGRAMTFHGHGFLRLALSNVAPLTGNVYSGFGFHSAQDSALLYYRASPDGLCQVSLQQGRVSLQLLRTEVKTQAGFADGAPHYVAFYSNATGVWLYVDDQLQQMKPHRGPPPELQPQPEGPPRLLLGGLPESGTIYNFSGCISNVFVQRLLGPQRVFDLQQNLGSVNVSTGCAPALQAQTPGLGPRGLQATARKASRRSRQPARHPACMLPPHLRTTRDSYQFGGSLSSHLEFVGILARHRNWPSLSMHVLPRSSRGLLLFTARLRPGSPSLALFLSNGHFVAQMEGLGTRLRAQSRQRSRPGRWHKVSVRWEKNRILLVTDGARAWSQEGPHRQHQGAEHPQPHTLFVGGLPASSHSSKLPVTVGFSGCVKRLRLHGRPLGAPTRMAGVTPCILGPLEAGLFFPGSGGVITLDLPGATLPDVGLELEVRPLAVTGLIFHLGQARTPPYLQLQVTEKQVLLRADDGAGEFSTSVTRPSVLCDGQWHRLAVMKSGNVLRLEVDAQSNHTVGPLLAAAAGAPAPLYLGGLPEPMAVQPWPPAYCGCMRRLAVNRSPVAMTRSVEVHGAVGASGCPAA
Mol* PDB structure viewerUniLectin3D
Structural models
AlphaFold v2: AF-O15230-F1Download
Model Confidence:
  •    Very high (pLDDT > 90)
  •    Confident (90 > pLDDT > 70)
  •    Low (70 > pLDDT > 50)
  •    Very low (pLDDT < 50)

  AlphaFold produces a per-residue confidence score (pLDDT) between 0 and 100. Some regions with low pLDDT may be unstructured in isolation.

Oligomerization and Known Interactions
Laminin is a complex glycoprotein, consisting of three different polypeptide chains (alpha, beta, gamma), which are bound to each other by disulfide bonds into a cross-shaped molecule comprising one long and three short arms with globules at each end. Alpha-5 is a subunit of laminin-10 (laminin-511), laminin-11 (laminin-521) and laminin-15 (laminin-523)
Annotation
Ligand
Glycan ligands from structural data
No crystal structures of complexes with glycan ligand.
Expression
Human Protein Atlas
GeneCards
Functionality temporarily unavailable.
ProteomicsDB
References
NCBI References (10 PubMed Identifiers)
  • Biallelic mutations in LAMA5 disrupts a skeletal noncanonical focal adhesion pathway and produces a distinct bent bone dysplasia. [33242826]
  • Knockdown of the alpha5 laminin chain affects differentiation of colorectal cancer cells and their sensitivity to chemotherapy. [32334043]
  • The lymph node stromal laminin alpha5 shapes alloimmunity. [32017712]
  • Plasma level of laminin 5 and collagen IV in cryptorchidism. [31978696]
  • Maternal alloimmune IgG causes anti-glomerular basement membrane disease in perinatal transgenic mice that express human laminin alpha5. [31530475]
  • Adhesion of cultured bovine aortic endothelial cells to laminin-1 mediated by dystroglycan. [10207021]
  • Presence of laminin alpha5 chain and lack of laminin alpha1 chain during human muscle development and in muscular dystrophies. [9353324]
  • Tissue-specific expression of the human laminin alpha5-chain, and mapping of the gene to human chromosome 20q13.2-13.3 and to distal mouse chromosome 2 near the locus for the ragged (Ra) mutation. [9271224]
  • Fibulin-2 binds to the short arms of laminin-5 and laminin-1 via conserved amino acid sequences. [9006922]
  • Molecular cloning of a novel laminin chain, alpha 5, and widespread expression in adult mouse tissues. [7499364]
UniProt Main References (10 PubMed Identifiers)
  • Recombinant human laminin-10 (alpha5beta1gamma1). Production, purification, and migration-promoting activity on vascular endothelial cells. [11821406]
  • The DNA sequence and comparative analysis of human chromosome 20. [11780052]
  • The status, quality, and expansion of the NIH full-length cDNA project: the Mammalian Gene Collection (MGC). [15489334]
  • Prediction of the coding sequences of unidentified human genes. XXI. The complete sequences of 60 new cDNA clones from brain which code for large proteins. [11572484]
  • Prediction of the coding sequences of unidentified human genes. IX. The complete sequences of 100 new cDNA clones from brain which can code for large proteins in vitro. [9628581]
  • Laminin expression in adult and developing retinae: evidence of two novel CNS laminins. [10964957]
  • Glycoproteomics analysis of human liver tissue by combination of multiple enzyme digestion and hydrazide chemistry. [19159218]
  • Quantitative phosphoproteomic analysis of T cell receptor signaling reveals system-wide modulation of protein-protein interactions. [19690332]
  • Initial characterization of the human central proteome. [21269460]
  • An enzyme assisted RP-RPLC approach for in-depth analysis of human liver phosphoproteome. [24275569]
All isoforms of this gene containing a lectin domain
XP_011527121.1, XP_011527120.1, NP_005551.3, XP_006723859.1
RNA
RNA (Transcript ID: NM_005560.6)
NM_005560.6
laminin subunit alpha 5
All isoforms of LAMA5 containing a lectin domain
ENST00000252999.7
68..11155 (or 62309336.. 62367245)
62309065.. 62367312
NCBI Matured mRNA sequence 11426 NTPDownload 
m7G-5')ppp(5'-AGACCCGCCGGGCUCCCGCCGCGCGCGCUGUCCCUGGAGCUCGGGGACGCGGCCCGGAGCCGGGAAGAUGGCGAAGCGGCUCUGCGCGGGGAGCGCACUGUGUGUUCGCGGCCCCCGGGGCCCCGCGCCGCUGCUGCUGGUCGGGCUGGCGCUGCUGGGCGCGGCGCGGGCGCGGGAGGAGGCGGGCGGCGGCUUCAGCCUGCACCCGCCCUACUUCAACCUGGCCGAGGGCGCCCGCAUCGCCGCCUCCGCGACCUGCGGAGAGGAGGCCCCGGCGCGCGGCUCCCCGCGCCCCACCGAGGACCUUUACUGCAAGCUGGUAGGGGGCCCCGUGGCCGGCGGCGACCCCAACCAGACCAUCCGGGGCCAGUACUGUGACAUCUGCACGGCUGCCAACAGCAACAAGGCACACCCCGCGAGCAAUGCCAUCGAUGGCACGGAGCGCUGGUGGCAGAGUCCACCGCUGUCCCGCGGCCUGGAGUACAACGAGGUCAACGUCACCCUGGACCUGGGCCAGGUCUUCCACGUGGCCUACGUCCUCAUCAAGUUUGCCAACUCACCCCGGCCGGACCUCUGGGUGCUGGAGCGGUCCAUGGACUUCGGCCGCACCUACCAGCCCUGGCAGUUCUUUGCCUCCUCCAAGAGGGACUGUCUGGAGCGGUUCGGGCCACAGACGCUGGAGCGCAUCACACGGGACGACGCGGCCAUCUGCACCACCGAGUACUCACGCAUCGUGCCCCUGGAGAACGGAGAGAUCGUGGUGUCCCUGGUGAACGGACGUCCGGGCGCCAUGAAUUUCUCCUACUCGCCGCUGCUACGUGAGUUCACCAAGGCCACCAACGUCCGCCUGCGCUUCCUGCGUACCAACACGCUGCUGGGCCAUCUCAUGGGGAAGGCGCUGCGGGACCCCACGGUCACCCGCCGGUAUUAUUACAGCAUCAAGGAUAUCAGCAUCGGAGGCCGCUGUGUCUGCCACGGCCACGCGGAUGCCUGCGAUGCCAAAGACCCCACGGACCCGUUCAGGCUGCAGUGCACCUGCCAGCACAACACCUGCGGGGGCACCUGCGACCGCUGCUGCCCCGGCUUCAAUCAGCAGCCGUGGAAGCCUGCGACUGCCAACAGUGCCAACGAGUGCCAGUCCUGUAACUGCUACGGCCAUGCCACCGACUGUUACUACGACCCUGAGGUGGACCGGCGCCGCGCCAGCCAGAGCCUGGAUGGCACCUAUCAGGGUGGGGGUGUCUGUAUCGACUGCCAGCACCACACCACCGGCGUCAACUGUGAGCGCUGCCUGCCCGGCUUCUACCGCUCUCCCAACCACCCUCUCGACUCGCCCCACGUCUGCCGCCGCUGCAACUGCGAGUCCGACUUCACGGAUGGCACCUGCGAGGACCUGACGGGUCGAUGCUACUGCCGGCCCAACUUCUCUGGGGAGCGGUGUGACGUGUGUGCCGAGGGCUUCACGGGCUUCCCAAGCUGCUACCCGACGCCCUCGUCCUCCAAUGACACCAGGGAGCAGGUGCUGCCAGCCGGCCAGAUUGUGAAUUGUGACUGCAGCGCGGCAGGGACCCAGGGCAACGCCUGCCGGAAGGACCCAAGGGUGGGACGCUGUCUGUGCAAACCCAACUUCCAAGGCACCCAUUGUGAGCUCUGCGCGCCAGGGUUCUACGGCCCCGGCUGCCAGCCCUGCCAGUGUUCCAGCCCUGGAGUGGCCGAUGACCGCUGUGACCCUGACACAGGCCAGUGCAGGUGCCGAGUGGGCUUCGAGGGGGCCACAUGUGAUCGCUGUGCCCCCGGCUACUUUCACUUCCCUCUCUGCCAGUUGUGUGGCUGCAGCCCUGCAGGAACCUUGCCCGAGGGCUGCGAUGAGGCCGGCCGCUGCCUAUGCCAGCCUGAGUUUGCUGGACCUCAUUGUGACCGGUGCCGCCCUGGCUACCAUGGUUUCCCCAACUGCCAAGCAUGCACCUGCGACCCUCGGGGAGCCCUGGACCAGCUCUGUGGGGCGGGAGGUUUGUGCCGCUGCCGCCCCGGCUACACAGGCACUGCCUGCCAGGAAUGCAGCCCCGGCUUUCACGGCUUCCCCAGCUGUGUCCCCUGCCACUGCUCUGCUGAAGGCUCCCUGCACGCAGCCUGUGACCCCCGGAGUGGGCAGUGCAGCUGCCGGCCCCGUGUGACGGGGCUGCGGUGUGACACAUGUGUGCCCGGUGCCUACAACUUCCCCUACUGCGAAGCUGGCUCUUGCCACCCUGCCGGUCUGGCCCCAGUGGAUCCUGCCCUUCCUGAGGCACAGGUUCCCUGUAUGUGCCGGGCUCACGUGGAGGGGCCGAGCUGUGACCGCUGCAAACCUGGGUUCUGGGGACUGAGCCCCAGCAACCCCGAGGGCUGUACCCGCUGCAGCUGCGACCUCAGGGGCACACUGGGUGGAGUUGCUGAGUGCCAGCCGGGCACCGGCCAGUGCUUCUGCAAGCCCCACGUGUGCGGCCAGGCCUGCGCGUCCUGCAAGGAUGGCUUCUUUGGACUGGAUCAGGCUGACUAUUUUGGCUGCCGCAGCUGCCGGUGUGACAUUGGCGGUGCACUGGGCCAGAGCUGUGAACCGAGGACGGGCGUCUGCCGGUGCCGCCCCAACACCCAGGGCCCCACCUGCAGCGAGCCUGCGAGGGACCACUACCUCCCGGACCUGCACCACCUGCGCCUGGAGCUGGAGGAGGCUGCCACACCUGAGGGUCACGCCGUGCGCUUUGGCUUCAACCCCCUCGAGUUCGAGAACUUCAGCUGGAGGGGCUACGCGCAGAUGGCACCUGUCCAGCCCAGGAUCGUGGCCAGGCUGAACCUGACCUCCCCUGACCUUUUCUGGCUCGUCUUCCGAUACGUCAACCGGGGGGCCAUGAGUGUGAGCGGGCGGGUCUCUGUGCGAGAGGAGGGCAGGUCGGCCACCUGCGCCAACUGCACAGCACAGAGUCAGCCCGUGGCCUUCCCACCCAGCACGGAGCCUGCCUUCAUCACCGUGCCCCAGAGGGGCUUCGGAGAGCCCUUUGUGCUGAACCCUGGCACCUGGGCCCUGCGUGUGGAGGCCGAAGGGGUGCUCCUGGACUACGUGGUUCUGCUGCCUAGCGCAUACUACGAGGCGGCGCUCCUGCAGCUGCGGGUGACUGAGGCCUGCACAUACCGUCCCUCUGCCCAGCAGUCUGGCGACAACUGCCUCCUCUACACACACCUCCCCCUGGAUGGCUUCCCCUCGGCCGCCGGGCUGGAGGCCCUGUGUCGCCAGGACAACAGCCUGCCCCGGCCCUGCCCCACGGAGCAGCUCAGCCCGUCGCACCCGCCACUGAUCACCUGCACGGGCAGUGAUGUGGACGUCCAGCUUCAAGUGGCAGUGCCACAGCCAGGCCGCUAUGCCCUAGUGGUGGAGUACGCCAAUGAGGAUGCCCGCCAGGAGGUGGGCGUGGCCGUGCACACCCCACAGCGGGCCCCCCAGCAGGGGCUGCUCUCCCUGCACCCCUGCCUGUACAGCACCCUGUGCCGGGGCACUGCCCGGGAUACCCAGGACCACCUGGCUGUCUUCCACCUGGACUCGGAGGCCAGCGUGAGGCUCACAGCCGAACAGGCACGCUUCUUCCUGCACGGGGUCACUCUGGUGCCCAUUGAGGAGUUCAGCCCGGAGUUCGUGGAGCCCCGGGUCAGCUGCAUCAGCAGCCACGGCGCCUUUGGCCCCAACAGUGCCGCCUGUCUGCCCUCGCGCUUCCCAAAGCCGCCCCAGCCCAUCAUCCUCAGGGACUGCCAGGUGAUCCCGCUGCCGCCCGGCCUCCCGCUGACCCACGCGCAGGAUCUCACUCCAGCCAUGUCCCCAGCUGGACCCCGACCUCGGCCCCCCACCGCUGUGGACCCUGAUGCAGAGCCCACCCUGCUGCGUGAGCCCCAGGCCACCGUGGUCUUCACCACCCAUGUGCCCACGCUGGGCCGCUAUGCCUUCCUGCUGCACGGCUACCAGCCAGCCCACCCCACCUUCCCCGUGGAAGUCCUCAUCAACGCCGGCCGCGUGUGGCAGGGCCACGCCAACGCCAGCUUCUGUCCACAUGGCUACGGCUGCCGCACCCUGGUGGUGUGUGAGGGCCAGGCCCUGCUGGACGUGACCCACAGCGAGCUCACUGUGACCGUGCGUGUGCCCAAGGGCCGGUGGCUCUGGCUGGAUUAUGUACUCGUGGUCCCUGAGAACGUCUACAGCUUUGGCUACCUCCGGGAGGAGCCCCUGGAUAAAUCCUAUGACUUCAUCAGCCACUGCGCAGCCCAGGGCUACCACAUCAGCCCCAGCAGCUCAUCCCUGUUCUGCCGAAACGCUGCUGCUUCCCUCUCCCUCUUCUAUAACAACGGAGCCCGUCCAUGUGGCUGCCACGAAGUAGGUGCUACAGGCCCCACGUGUGAGCCCUUCGGGGGCCAGUGUCCCUGCCAUGCCCAUGUCAUUGGCCGUGACUGCUCCCGCUGUGCCACCGGAUACUGGGGCUUCCCCAACUGCAGGCCCUGUGACUGCGGUGCCCGCCUCUGUGACGAGCUCACGGGCCAGUGCAUCUGCCCGCCACGCACCAUCCCGCCCGACUGCCUGCUGUGCCAGCCCCAGACCUUUGGCUGCCACCCCCUGGUCGGCUGUGAGGAGUGUAACUGCUCAGGGCCCGGCAUCCAGGAGCUCACAGACCCUACCUGUGACACAGACAGCGGCCAGUGCAAGUGCAGACCCAACGUGACUGGGCGCCGCUGUGAUACCUGCUCUCCGGGCUUCCAUGGCUACCCCCGCUGCCGCCCCUGUGACUGUCACGAGGCGGGCACUGCGCCUGGCGUGUGUGACCCCCUCACAGGGCAGUGCUACUGUAAGGAGAACGUGCAGGGCCCCAAAUGUGACCAGUGCAGCCUUGGGACCUUCUCACUGGAUGCUGCCAACCCCAAAGGUUGCACCCGCUGCUUCUGCUUUGGGGCCACGGAGCGCUGCCGGAGCUCGUCCUACACCCGCCAGGAGUUCGUGGAUAUGGAGGGAUGGGUGCUGCUGAGCACUGACCGGCAGGUGGUGCCCCACGAGCGGCAGCCAGGGACGGAGAUGCUCCGUGCAGACCUGCGGCACGUGCCUGAGGCUGUGCCCGAGGCUUUCCCCGAGCUGUACUGGCAGGCCCCACCCUCCUACCUGGGGGACCGGGUGUCAUCCUACGGUGGGACCCUCCGUUAUGAACUGCACUCAGAGACCCAGCGGGGAGAUGUCUUUGUCCCCAUGGAGAGCAGGCCGGAUGUGGUGCUGCAGGGCAACCAGAUGAGCAUCACAUUCCUGGAGCCGGCAUACCCCACGCCUGGCCACGUUCACCGUGGGCAGCUGCAGCUGGUGGAGGGGAACUUCCGGCAUACGGAGACGCGCAACACUGUGUCCCGCGAGGAGCUCAUGAUGGUGCUGGCCAGCCUGGAGCAGCUGCAGAUCCGUGCCCUCUUCUCACAGAUCUCCUCGGCUGUCUUCCUGCGCAGGGUGGCACUGGAGGUGGCCAGCCCAGCAGGCCAGGGGGCCCUGGCCAGCAAUGUGGAGCUGUGCCUGUGCCCCGCCAGCUACCGGGGGGACUCAUGCCAGGAAUGUGCCCCCGGCUUCUAUCGGGACGUCAAAGGUCUCUUCCUGGGCCGAUGUGUCCCUUGUCAGUGCCAUGGACACUCAGACCGCUGCCUCCCUGGCUCUGGCGUCUGUGUGGACUGCCAGCACAACACCGAAGGGGCCCACUGUGAGCGCUGCCAGGCUGGCUUCGUGAGCAGCAGGGACGACCCCAGCGCCCCCUGUGUCAGCUGCCCCUGCCCCCUCUCAGUGCCUUCCAACAACUUCGCCGAGGGCUGUGUCCUGCGAGGCGGCCGCACCCAGUGCCUCUGCAAACCUGGUUAUGCAGGUGCCUCCUGCGAGCGGUGUGCGCCCGGAUUCUUUGGGAACCCACUGGUGCUGGGCAGCUCCUGCCAGCCAUGCGACUGCAGCGGCAACGGUGACCCCAACUUGCUCUUCAGCGACUGCGACCCCCUGACGGGCGCCUGCCGUGGCUGCCUGCGCCACACCACUGGGCCCCGCUGCGAGAUCUGUGCCCCCGGCUUCUACGGCAACGCCCUGCUGCCCGGCAACUGCACCCGGUGCGACUGUACCCCAUGUGGGACAGAGGCCUGCGACCCCCACAGCGGGCACUGCCUGUGCAAGGCGGGCGUGACUGGGCGGCGCUGUGACCGCUGCCAGGAGGGACAUUUUGGUUUCGAUGGCUGCGGGGGCUGCCGCCCGUGUGCUUGUGGACCGGCCGCCGAGGGCUCCGAGUGCCACCCCCAGAGCGGACAGUGCCACUGCCGACCAGGGACCAUGGGACCCCAGUGCCGCGAGUGUGCCCCUGGCUACUGGGGGCUCCCUGAGCAGGGCUGCAGGCGCUGCCAGUGCCCUGGGGGCCGCUGUGACCCUCACACGGGCCGCUGCAACUGCCCCCCGGGGCUCAGCGGGGAGCGCUGCGACACCUGCAGCCAGCAGCAUCAGGUGCCUGUUCCAGGCGGGCCUGUGGGCCACAGCAUCCACUGUGAAGUGUGUGACCACUGUGUGGUCCUGCUCCUGGAUGACCUGGAACGGGCCGGCGCCCUCCUCCCCGCCAUUCACGAGCAACUGCGUGGCAUCAAUGCCAGCUCCAUGGCCUGGGCCCGUCUGCACAGGCUGAACGCCUCCAUCGCUGACCUGCAGAGCCAGCUCCGGAGCCCCCUGGGCCCCCGCCAUGAGACGGCACAGCAGCUGGAGGUGCUGGAGCAGCAGAGCACAAGCCUCGGGCAGGACGCACGGCGGCUAGGCGGCCAGGCCGUGGGGACCCGAGACCAGGCGAGCCAAUUGCUGGCCGGCACCGAGGCCACACUGGGCCAUGCGAAGACGCUGUUGGCGGCCAUCCGGGCUGUGGACCGCACCCUGAGCGAGCUCAUGUCCCAGACGGGCCACCUGGGGCUGGCCAAUGCCUCGGCUCCAUCAGGUGAGCAGCUGCUCCGGACACUGGCCGAGGUGGAGCGGCUGCUCUGGGAGAUGCGGGCCCGGGACCUGGGGGCCCCGCAGGCAGCAGCUGAGGCUGAGUUGGCUGCAGCACAGAGAUUGCUGGCCCGGGUGCAGGAGCAGCUGAGCAGCCUCUGGGAGGAGAACCAGGCACUGGCCACACAAACCCGCGACCGGCUGGCCCAGCACGAGGCCGGCCUCAUGGACCUGCGAGAGGCUUUGAACCGGGCAGUGGACGCCACACGGGAGGCCCAGGAGCUCAACAGCCGCAACCAGGAGCGCCUGGAGGAAGCCCUGCAAAGGAAGCAGGAGCUGUCCCGGGACAAUGCCACCCUGCAGGCCACUCUGCAUGCGGCUAGGGACACCCUGGCCAGCGUCUUCAGAUUGCUGCACAGCCUGGACCAGGCUAAGGAGGAGCUGGAGCGCCUCGCCGCCAGCCUGGAUGGGGCUCGGACCCCACUGCUGCAGAGGAUGCAGACCUUCUCCCCGGCGGGCAGCAAGCUGCGUCUAGUGGAGGCCGCCGAGGCCCACGCACAGCAGCUGGGCCAGCUGGCACUCAAUCUGUCCAGCAUCAUCCUGGACGUCAACCAGGACCGCCUCACCCAGAGGGCCAUCGAGGCCUCCAACGCCUACAGCCGCAUCCUGCAGGCCGUGCAGGCUGCCGAGGAUGCUGCUGGCCAGGCCCUGCAGCAGGCGGACCACACGUGGGCGACGGUGGUGCGGCAGGGCCUGGUGGACCGAGCCCAGCAGCUCCUGGCCAACAGCACUGCACUAGAAGAGGCCAUGCUCCAGGAACAGCAGAGGCUGGGCCUUGUGUGGGCUGCCCUCCAGGGUGCCAGGACCCAGCUCCGAGAUGUCCGGGCCAAGAAGGACCAGCUGGAGGCGCACAUCCAGGCGGCGCAGGCCAUGCUUGCCAUGGACACAGACGAGACAAGCAAGAAGAUCGCACAUGCCAAGGCUGUGGCUGCUGAAGCCCAGGACACCGCCACCCGUGUGCAGUCCCAGCUGCAGGCCAUGCAGGAGAAUGUGGAGCGGUGGCAGGGCCAGUACGAGGGCCUGCGGGGCCAGGACCUGGGCCAGGCAGUGCUUGACGCAGGCCACUCAGUGUCCACCCUGGAGAAGACGCUGCCCCAGCUGCUGGCCAAGCUGAGCAUCCUGGAGAACCGUGGGGUGCACAACGCCAGCCUGGCCCUGUCCGCCAGCAUUGGCCGCGUGCGAGAGCUCAUUGCCCAGGCCCGGGGGGCUGCCAGUAAGGUCAAGGUGCCCAUGAAGUUCAACGGGCGCUCAGGGGUGCAGCUGCGCACCCCACGGGAUCUUGCCGACCUUGCUGCCUACACUGCCCUCAAGUUCUACCUGCAGGGCCCAGAGCCUGAGCCUGGGCAGGGUACCGAGGAUCGCUUUGUGAUGUACAUGGGCAGCCGCCAGGCCACUGGGGACUACAUGGGUGUGUCUCUGCGUGACAAGAAGGUGCACUGGGUGUAUCAGCUGGGUGAGGCGGGCCCUGCAGUCCUAAGCAUCGAUGAGGACAUUGGGGAGCAGUUCGCAGCUGUCAGCCUGGACAGGACUCUCCAGUUUGGCCACAUGUCCGUCACAGUGGAGAGACAGAUGAUCCAGGAAACCAAGGGUGACACGGUGGCCCCUGGGGCAGAGGGGCUGCUCAACCUGCGGCCAGACGACUUCGUCUUCUACGUCGGGGGGUACCCCAGUACCUUCACGCCCCCUCCCCUGCUUCGCUUCCCCGGCUACCGGGGCUGCAUCGAGAUGGACACGCUGAAUGAGGAGGUGGUCAGCCUCUACAACUUCGAGAGGACCUUCCAGCUGGACACGGCUGUGGACAGGCCUUGUGCCCGCUCCAAGUCGACCGGGGACCCGUGGCUCACGGACGGCUCCUACCUGGACGGCACCGGCUUCGCCCGCAUCAGCUUCGACAGUCAGAUCAGCACCACCAAGCGCUUCGAGCAGGAGCUGCGGCUCGUGUCCUACAGCGGGGUGCUCUUCUUCCUGAAGCAGCAGAGCCAGUUCCUGUGCUUGGCCGUGCAAGAAGGCAGCCUCGUGCUGUUGUAUGACUUUGGGGCUGGCCUGAAAAAGGCCGUCCCACUGCAGCCCCCACCGCCCCUGACCUCGGCCAGCAAGGCGAUCCAGGUGUUCCUGCUGGGGGGCAGCCGCAAGCGUGUGCUGGUGCGUGUGGAGCGGGCCACGGUGUACAGCGUGGAGCAGGACAAUGAUCUGGAGCUGGCCGACGCCUACUACCUGGGGGGCGUGCCGCCCGACCAGCUGCCCCCGAGCCUGCGACGGCUCUUCCCCACCGGAGGCUCAGUCCGUGGCUGCGUCAAAGGCAUCAAGGCCCUGGGCAAGUAUGUGGACCUCAAGCGGCUGAACACGACAGGCGUGAGCGCCGGCUGCACCGCCGACCUGCUGGUGGGGCGCGCCAUGACUUUCCAUGGCCACGGCUUCCUUCGCCUGGCGCUCUCGAACGUGGCACCGCUCACUGGCAACGUCUACUCCGGCUUCGGCUUCCACAGCGCCCAGGACAGUGCCCUGCUCUACUACCGGGCGUCCCCGGAUGGGCUAUGCCAGGUGUCCCUGCAGCAGGGCCGUGUGAGCCUACAGCUCCUGAGGACUGAAGUGAAAACUCAAGCGGGCUUCGCCGAUGGUGCCCCCCAUUACGUCGCCUUCUACAGCAAUGCCACGGGAGUCUGGCUGUAUGUCGAUGACCAGCUCCAGCAGAUGAAGCCCCACCGGGGACCACCCCCCGAGCUCCAGCCGCAGCCUGAGGGGCCCCCGAGGCUCCUCCUGGGAGGCCUGCCUGAGUCUGGCACCAUUUACAACUUCAGUGGCUGCAUCAGCAACGUCUUCGUGCAGCGGCUCCUGGGCCCACAGCGCGUAUUUGAUCUGCAGCAGAACCUGGGCAGCGUCAAUGUGAGCACGGGCUGUGCACCCGCCCUGCAAGCCCAGACCCCGGGCCUGGGGCCUAGAGGACUGCAGGCCACCGCCCGGAAGGCCUCCCGCCGCAGCCGUCAGCCCGCCCGGCAUCCUGCCUGCAUGCUGCCCCCACACCUCAGGACCACCCGAGACUCCUACCAGUUUGGGGGUUCCCUGUCCAGUCACCUGGAGUUUGUGGGCAUCCUGGCCCGACAUAGGAACUGGCCCAGUCUCUCCAUGCACGUCCUCCCGCGAAGCUCCCGAGGCCUCCUCCUCUUCACUGCCCGUCUGAGGCCCGGCAGCCCCUCCCUGGCGCUCUUCCUGAGCAAUGGCCACUUCGUUGCACAGAUGGAAGGCCUCGGGACUCGGCUCCGCGCCCAGAGCCGCCAGCGCUCCCGGCCUGGCCGCUGGCACAAGGUCUCCGUGCGCUGGGAGAAGAACCGGAUCCUGCUGGUGACGGACGGGGCCCGGGCCUGGAGCCAGGAGGGGCCGCACCGGCAGCACCAGGGGGCAGAGCACCCCCAGCCCCACACCCUCUUUGUGGGCGGCCUCCCGGCCAGCAGCCACAGCUCCAAACUUCCGGUGACCGUCGGGUUCAGCGGCUGUGUGAAGAGACUGAGGCUGCACGGGAGGCCCCUGGGGGCCCCCACACGGAUGGCAGGGGUCACACCCUGCAUCUUGGGCCCCCUGGAGGCGGGCCUGUUCUUCCCAGGCAGCGGGGGAGUUAUCACUUUAGACCUCCCAGGAGCUACACUGCCUGAUGUGGGCCUGGAACUGGAGGUGCGGCCCCUGGCAGUCACCGGACUGAUCUUCCACUUGGGCCAGGCCCGGACGCCCCCCUACUUGCAGUUGCAGGUGACCGAGAAGCAAGUCCUGCUGCGGGCGGAUGACGGAGCAGGGGAGUUCUCCACGUCAGUGACCCGCCCCUCAGUGCUGUGUGAUGGCCAGUGGCACCGGCUAGCGGUGAUGAAAAGCGGGAAUGUGCUCCGGCUGGAGGUGGACGCGCAGAGCAACCACACCGUGGGCCCCUUGCUGGCGGCUGCAGCUGGUGCCCCAGCCCCUCUGUACCUCGGGGGCCUGCCUGAGCCCAUGGCCGUGCAGCCCUGGCCCCCCGCCUACUGCGGCUGCAUGAGGAGGCUGGCGGUGAACCGGUCCCCCGUCGCCAUGACUCGCUCUGUGGAGGUCCACGGGGCAGUGGGGGCCAGUGGCUGCCCAGCCGCCUAGGACACAGCCAACCCCGGCCCCUGGUCAGGCCCCUGCAGCUGCCUCACACCGCCCCUUGUGCUCGCCUCAUAGGUGUCUAUUUGGACUCUAAGCUCUACGGGUGACAGAUCUUGUUUCUGAAGAUGGUUUAAGUUAUAGCUUCUUAAACGAAAGAAUAAAAUACUGCAAAAUGUUUUUAUAUUUGGCCCUUCCACCCAUUUUUAAUUGUGAGAGAUUUGUCACCAAUCAUCACUGGUUCCUCCUUAAAAAUUAAAAAGUAACUUCUGUGUAA-3'- Poly-A tail
  • Coding region
mRNA-related data
DNA
DNA (Gene ID: 3911)
LAMA5
laminin subunit alpha 5
NC_000020.11
20  62309336.. 62367245
62309336.. 62367245
strand -
CCDS33502.1
MGI:105382
ClinVar, dbVar
ENSG00000130702
uc002ycq.5
INSDC: AF443072
6485
601033
OTTHUMG00000032908
ENA, DDBJ, Monarch
Gene-related data
NCBI CDS gene sequence (11088 bp)
5'-ATGGCGAAGCGGCTCTGCGCGGGGAGCGCACTGTGTGTTCGCGGCCCCCGGGGCCCCGCGCCGCTGCTGCTGGTCGGGCTGGCGCTGCTGGGCGCGGCGCGGGCGCGGGAGGAGGCGGGCGGCGGCTTCAGCCTGCACCCGCCCTACTTCAACCTGGCCGAGGGCGCCCGCATCGCCGCCTCCGCGACCTGCGGAGAGGAGGCCCCGGCGCGCGGCTCCCCGCGCCCCACCGAGGACCTTTACTGCAAGCTGGTAGGGGGCCCCGTGGCCGGCGGCGACCCCAACCAGACCATCCGGGGCCAGTACTGTGACATCTGCACGGCTGCCAACAGCAACAAGGCACACCCCGCGAGCAATGCCATCGATGGCACGGAGCGCTGGTGGCAGAGTCCACCGCTGTCCCGCGGCCTGGAGTACAACGAGGTCAACGTCACCCTGGACCTGGGCCAGGTCTTCCACGTGGCCTACGTCCTCATCAAGTTTGCCAACTCACCCCGGCCGGACCTCTGGGTGCTGGAGCGGTCCATGGACTTCGGCCGCACCTACCAGCCCTGGCAGTTCTTTGCCTCCTCCAAGAGGGACTGTCTGGAGCGGTTCGGGCCACAGACGCTGGAGCGCATCACACGGGACGACGCGGCCATCTGCACCACCGAGTACTCACGCATCGTGCCCCTGGAGAACGGAGAGATCGTGGTGTCCCTGGTGAACGGACGTCCGGGCGCCATGAATTTCTCCTACTCGCCGCTGCTACGTGAGTTCACCAAGGCCACCAACGTCCGCCTGCGCTTCCTGCGTACCAACACGCTGCTGGGCCATCTCATGGGGAAGGCGCTGCGGGACCCCACGGTCACCCGCCGGTATTATTACAGCATCAAGGATATCAGCATCGGAGGCCGCTGTGTCTGCCACGGCCACGCGGATGCCTGCGATGCCAAAGACCCCACGGACCCGTTCAGGCTGCAGTGCACCTGCCAGCACAACACCTGCGGGGGCACCTGCGACCGCTGCTGCCCCGGCTTCAATCAGCAGCCGTGGAAGCCTGCGACTGCCAACAGTGCCAACGAGTGCCAGTCCTGTAACTGCTACGGCCATGCCACCGACTGTTACTACGACCCTGAGGTGGACCGGCGCCGCGCCAGCCAGAGCCTGGATGGCACCTATCAGGGTGGGGGTGTCTGTATCGACTGCCAGCACCACACCACCGGCGTCAACTGTGAGCGCTGCCTGCCCGGCTTCTACCGCTCTCCCAACCACCCTCTCGACTCGCCCCACGTCTGCCGCCGCTGCAACTGCGAGTCCGACTTCACGGATGGCACCTGCGAGGACCTGACGGGTCGATGCTACTGCCGGCCCAACTTCTCTGGGGAGCGGTGTGACGTGTGTGCCGAGGGCTTCACGGGCTTCCCAAGCTGCTACCCGACGCCCTCGTCCTCCAATGACACCAGGGAGCAGGTGCTGCCAGCCGGCCAGATTGTGAATTGTGACTGCAGCGCGGCAGGGACCCAGGGCAACGCCTGCCGGAAGGACCCAAGGGTGGGACGCTGTCTGTGCAAACCCAACTTCCAAGGCACCCATTGTGAGCTCTGCGCGCCAGGGTTCTACGGCCCCGGCTGCCAGCCCTGCCAGTGTTCCAGCCCTGGAGTGGCCGATGACCGCTGTGACCCTGACACAGGCCAGTGCAGGTGCCGAGTGGGCTTCGAGGGGGCCACATGTGATCGCTGTGCCCCCGGCTACTTTCACTTCCCTCTCTGCCAGTTGTGTGGCTGCAGCCCTGCAGGAACCTTGCCCGAGGGCTGCGATGAGGCCGGCCGCTGCCTATGCCAGCCTGAGTTTGCTGGACCTCATTGTGACCGGTGCCGCCCTGGCTACCATGGTTTCCCCAACTGCCAAGCATGCACCTGCGACCCTCGGGGAGCCCTGGACCAGCTCTGTGGGGCGGGAGGTTTGTGCCGCTGCCGCCCCGGCTACACAGGCACTGCCTGCCAGGAATGCAGCCCCGGCTTTCACGGCTTCCCCAGCTGTGTCCCCTGCCACTGCTCTGCTGAAGGCTCCCTGCACGCAGCCTGTGACCCCCGGAGTGGGCAGTGCAGCTGCCGGCCCCGTGTGACGGGGCTGCGGTGTGACACATGTGTGCCCGGTGCCTACAACTTCCCCTACTGCGAAGCTGGCTCTTGCCACCCTGCCGGTCTGGCCCCAGTGGATCCTGCCCTTCCTGAGGCACAGGTTCCCTGTATGTGCCGGGCTCACGTGGAGGGGCCGAGCTGTGACCGCTGCAAACCTGGGTTCTGGGGACTGAGCCCCAGCAACCCCGAGGGCTGTACCCGCTGCAGCTGCGACCTCAGGGGCACACTGGGTGGAGTTGCTGAGTGCCAGCCGGGCACCGGCCAGTGCTTCTGCAAGCCCCACGTGTGCGGCCAGGCCTGCGCGTCCTGCAAGGATGGCTTCTTTGGACTGGATCAGGCTGACTATTTTGGCTGCCGCAGCTGCCGGTGTGACATTGGCGGTGCACTGGGCCAGAGCTGTGAACCGAGGACGGGCGTCTGCCGGTGCCGCCCCAACACCCAGGGCCCCACCTGCAGCGAGCCTGCGAGGGACCACTACCTCCCGGACCTGCACCACCTGCGCCTGGAGCTGGAGGAGGCTGCCACACCTGAGGGTCACGCCGTGCGCTTTGGCTTCAACCCCCTCGAGTTCGAGAACTTCAGCTGGAGGGGCTACGCGCAGATGGCACCTGTCCAGCCCAGGATCGTGGCCAGGCTGAACCTGACCTCCCCTGACCTTTTCTGGCTCGTCTTCCGATACGTCAACCGGGGGGCCATGAGTGTGAGCGGGCGGGTCTCTGTGCGAGAGGAGGGCAGGTCGGCCACCTGCGCCAACTGCACAGCACAGAGTCAGCCCGTGGCCTTCCCACCCAGCACGGAGCCTGCCTTCATCACCGTGCCCCAGAGGGGCTTCGGAGAGCCCTTTGTGCTGAACCCTGGCACCTGGGCCCTGCGTGTGGAGGCCGAAGGGGTGCTCCTGGACTACGTGGTTCTGCTGCCTAGCGCATACTACGAGGCGGCGCTCCTGCAGCTGCGGGTGACTGAGGCCTGCACATACCGTCCCTCTGCCCAGCAGTCTGGCGACAACTGCCTCCTCTACACACACCTCCCCCTGGATGGCTTCCCCTCGGCCGCCGGGCTGGAGGCCCTGTGTCGCCAGGACAACAGCCTGCCCCGGCCCTGCCCCACGGAGCAGCTCAGCCCGTCGCACCCGCCACTGATCACCTGCACGGGCAGTGATGTGGACGTCCAGCTTCAAGTGGCAGTGCCACAGCCAGGCCGCTATGCCCTAGTGGTGGAGTACGCCAATGAGGATGCCCGCCAGGAGGTGGGCGTGGCCGTGCACACCCCACAGCGGGCCCCCCAGCAGGGGCTGCTCTCCCTGCACCCCTGCCTGTACAGCACCCTGTGCCGGGGCACTGCCCGGGATACCCAGGACCACCTGGCTGTCTTCCACCTGGACTCGGAGGCCAGCGTGAGGCTCACAGCCGAACAGGCACGCTTCTTCCTGCACGGGGTCACTCTGGTGCCCATTGAGGAGTTCAGCCCGGAGTTCGTGGAGCCCCGGGTCAGCTGCATCAGCAGCCACGGCGCCTTTGGCCCCAACAGTGCCGCCTGTCTGCCCTCGCGCTTCCCAAAGCCGCCCCAGCCCATCATCCTCAGGGACTGCCAGGTGATCCCGCTGCCGCCCGGCCTCCCGCTGACCCACGCGCAGGATCTCACTCCAGCCATGTCCCCAGCTGGACCCCGACCTCGGCCCCCCACCGCTGTGGACCCTGATGCAGAGCCCACCCTGCTGCGTGAGCCCCAGGCCACCGTGGTCTTCACCACCCATGTGCCCACGCTGGGCCGCTATGCCTTCCTGCTGCACGGCTACCAGCCAGCCCACCCCACCTTCCCCGTGGAAGTCCTCATCAACGCCGGCCGCGTGTGGCAGGGCCACGCCAACGCCAGCTTCTGTCCACATGGCTACGGCTGCCGCACCCTGGTGGTGTGTGAGGGCCAGGCCCTGCTGGACGTGACCCACAGCGAGCTCACTGTGACCGTGCGTGTGCCCAAGGGCCGGTGGCTCTGGCTGGATTATGTACTCGTGGTCCCTGAGAACGTCTACAGCTTTGGCTACCTCCGGGAGGAGCCCCTGGATAAATCCTATGACTTCATCAGCCACTGCGCAGCCCAGGGCTACCACATCAGCCCCAGCAGCTCATCCCTGTTCTGCCGAAACGCTGCTGCTTCCCTCTCCCTCTTCTATAACAACGGAGCCCGTCCATGTGGCTGCCACGAAGTAGGTGCTACAGGCCCCACGTGTGAGCCCTTCGGGGGCCAGTGTCCCTGCCATGCCCATGTCATTGGCCGTGACTGCTCCCGCTGTGCCACCGGATACTGGGGCTTCCCCAACTGCAGGCCCTGTGACTGCGGTGCCCGCCTCTGTGACGAGCTCACGGGCCAGTGCATCTGCCCGCCACGCACCATCCCGCCCGACTGCCTGCTGTGCCAGCCCCAGACCTTTGGCTGCCACCCCCTGGTCGGCTGTGAGGAGTGTAACTGCTCAGGGCCCGGCATCCAGGAGCTCACAGACCCTACCTGTGACACAGACAGCGGCCAGTGCAAGTGCAGACCCAACGTGACTGGGCGCCGCTGTGATACCTGCTCTCCGGGCTTCCATGGCTACCCCCGCTGCCGCCCCTGTGACTGTCACGAGGCGGGCACTGCGCCTGGCGTGTGTGACCCCCTCACAGGGCAGTGCTACTGTAAGGAGAACGTGCAGGGCCCCAAATGTGACCAGTGCAGCCTTGGGACCTTCTCACTGGATGCTGCCAACCCCAAAGGTTGCACCCGCTGCTTCTGCTTTGGGGCCACGGAGCGCTGCCGGAGCTCGTCCTACACCCGCCAGGAGTTCGTGGATATGGAGGGATGGGTGCTGCTGAGCACTGACCGGCAGGTGGTGCCCCACGAGCGGCAGCCAGGGACGGAGATGCTCCGTGCAGACCTGCGGCACGTGCCTGAGGCTGTGCCCGAGGCTTTCCCCGAGCTGTACTGGCAGGCCCCACCCTCCTACCTGGGGGACCGGGTGTCATCCTACGGTGGGACCCTCCGTTATGAACTGCACTCAGAGACCCAGCGGGGAGATGTCTTTGTCCCCATGGAGAGCAGGCCGGATGTGGTGCTGCAGGGCAACCAGATGAGCATCACATTCCTGGAGCCGGCATACCCCACGCCTGGCCACGTTCACCGTGGGCAGCTGCAGCTGGTGGAGGGGAACTTCCGGCATACGGAGACGCGCAACACTGTGTCCCGCGAGGAGCTCATGATGGTGCTGGCCAGCCTGGAGCAGCTGCAGATCCGTGCCCTCTTCTCACAGATCTCCTCGGCTGTCTTCCTGCGCAGGGTGGCACTGGAGGTGGCCAGCCCAGCAGGCCAGGGGGCCCTGGCCAGCAATGTGGAGCTGTGCCTGTGCCCCGCCAGCTACCGGGGGGACTCATGCCAGGAATGTGCCCCCGGCTTCTATCGGGACGTCAAAGGTCTCTTCCTGGGCCGATGTGTCCCTTGTCAGTGCCATGGACACTCAGACCGCTGCCTCCCTGGCTCTGGCGTCTGTGTGGACTGCCAGCACAACACCGAAGGGGCCCACTGTGAGCGCTGCCAGGCTGGCTTCGTGAGCAGCAGGGACGACCCCAGCGCCCCCTGTGTCAGCTGCCCCTGCCCCCTCTCAGTGCCTTCCAACAACTTCGCCGAGGGCTGTGTCCTGCGAGGCGGCCGCACCCAGTGCCTCTGCAAACCTGGTTATGCAGGTGCCTCCTGCGAGCGGTGTGCGCCCGGATTCTTTGGGAACCCACTGGTGCTGGGCAGCTCCTGCCAGCCATGCGACTGCAGCGGCAACGGTGACCCCAACTTGCTCTTCAGCGACTGCGACCCCCTGACGGGCGCCTGCCGTGGCTGCCTGCGCCACACCACTGGGCCCCGCTGCGAGATCTGTGCCCCCGGCTTCTACGGCAACGCCCTGCTGCCCGGCAACTGCACCCGGTGCGACTGTACCCCATGTGGGACAGAGGCCTGCGACCCCCACAGCGGGCACTGCCTGTGCAAGGCGGGCGTGACTGGGCGGCGCTGTGACCGCTGCCAGGAGGGACATTTTGGTTTCGATGGCTGCGGGGGCTGCCGCCCGTGTGCTTGTGGACCGGCCGCCGAGGGCTCCGAGTGCCACCCCCAGAGCGGACAGTGCCACTGCCGACCAGGGACCATGGGACCCCAGTGCCGCGAGTGTGCCCCTGGCTACTGGGGGCTCCCTGAGCAGGGCTGCAGGCGCTGCCAGTGCCCTGGGGGCCGCTGTGACCCTCACACGGGCCGCTGCAACTGCCCCCCGGGGCTCAGCGGGGAGCGCTGCGACACCTGCAGCCAGCAGCATCAGGTGCCTGTTCCAGGCGGGCCTGTGGGCCACAGCATCCACTGTGAAGTGTGTGACCACTGTGTGGTCCTGCTCCTGGATGACCTGGAACGGGCCGGCGCCCTCCTCCCCGCCATTCACGAGCAACTGCGTGGCATCAATGCCAGCTCCATGGCCTGGGCCCGTCTGCACAGGCTGAACGCCTCCATCGCTGACCTGCAGAGCCAGCTCCGGAGCCCCCTGGGCCCCCGCCATGAGACGGCACAGCAGCTGGAGGTGCTGGAGCAGCAGAGCACAAGCCTCGGGCAGGACGCACGGCGGCTAGGCGGCCAGGCCGTGGGGACCCGAGACCAGGCGAGCCAATTGCTGGCCGGCACCGAGGCCACACTGGGCCATGCGAAGACGCTGTTGGCGGCCATCCGGGCTGTGGACCGCACCCTGAGCGAGCTCATGTCCCAGACGGGCCACCTGGGGCTGGCCAATGCCTCGGCTCCATCAGGTGAGCAGCTGCTCCGGACACTGGCCGAGGTGGAGCGGCTGCTCTGGGAGATGCGGGCCCGGGACCTGGGGGCCCCGCAGGCAGCAGCTGAGGCTGAGTTGGCTGCAGCACAGAGATTGCTGGCCCGGGTGCAGGAGCAGCTGAGCAGCCTCTGGGAGGAGAACCAGGCACTGGCCACACAAACCCGCGACCGGCTGGCCCAGCACGAGGCCGGCCTCATGGACCTGCGAGAGGCTTTGAACCGGGCAGTGGACGCCACACGGGAGGCCCAGGAGCTCAACAGCCGCAACCAGGAGCGCCTGGAGGAAGCCCTGCAAAGGAAGCAGGAGCTGTCCCGGGACAATGCCACCCTGCAGGCCACTCTGCATGCGGCTAGGGACACCCTGGCCAGCGTCTTCAGATTGCTGCACAGCCTGGACCAGGCTAAGGAGGAGCTGGAGCGCCTCGCCGCCAGCCTGGATGGGGCTCGGACCCCACTGCTGCAGAGGATGCAGACCTTCTCCCCGGCGGGCAGCAAGCTGCGTCTAGTGGAGGCCGCCGAGGCCCACGCACAGCAGCTGGGCCAGCTGGCACTCAATCTGTCCAGCATCATCCTGGACGTCAACCAGGACCGCCTCACCCAGAGGGCCATCGAGGCCTCCAACGCCTACAGCCGCATCCTGCAGGCCGTGCAGGCTGCCGAGGATGCTGCTGGCCAGGCCCTGCAGCAGGCGGACCACACGTGGGCGACGGTGGTGCGGCAGGGCCTGGTGGACCGAGCCCAGCAGCTCCTGGCCAACAGCACTGCACTAGAAGAGGCCATGCTCCAGGAACAGCAGAGGCTGGGCCTTGTGTGGGCTGCCCTCCAGGGTGCCAGGACCCAGCTCCGAGATGTCCGGGCCAAGAAGGACCAGCTGGAGGCGCACATCCAGGCGGCGCAGGCCATGCTTGCCATGGACACAGACGAGACAAGCAAGAAGATCGCACATGCCAAGGCTGTGGCTGCTGAAGCCCAGGACACCGCCACCCGTGTGCAGTCCCAGCTGCAGGCCATGCAGGAGAATGTGGAGCGGTGGCAGGGCCAGTACGAGGGCCTGCGGGGCCAGGACCTGGGCCAGGCAGTGCTTGACGCAGGCCACTCAGTGTCCACCCTGGAGAAGACGCTGCCCCAGCTGCTGGCCAAGCTGAGCATCCTGGAGAACCGTGGGGTGCACAACGCCAGCCTGGCCCTGTCCGCCAGCATTGGCCGCGTGCGAGAGCTCATTGCCCAGGCCCGGGGGGCTGCCAGTAAGGTCAAGGTGCCCATGAAGTTCAACGGGCGCTCAGGGGTGCAGCTGCGCACCCCACGGGATCTTGCCGACCTTGCTGCCTACACTGCCCTCAAGTTCTACCTGCAGGGCCCAGAGCCTGAGCCTGGGCAGGGTACCGAGGATCGCTTTGTGATGTACATGGGCAGCCGCCAGGCCACTGGGGACTACATGGGTGTGTCTCTGCGTGACAAGAAGGTGCACTGGGTGTATCAGCTGGGTGAGGCGGGCCCTGCAGTCCTAAGCATCGATGAGGACATTGGGGAGCAGTTCGCAGCTGTCAGCCTGGACAGGACTCTCCAGTTTGGCCACATGTCCGTCACAGTGGAGAGACAGATGATCCAGGAAACCAAGGGTGACACGGTGGCCCCTGGGGCAGAGGGGCTGCTCAACCTGCGGCCAGACGACTTCGTCTTCTACGTCGGGGGGTACCCCAGTACCTTCACGCCCCCTCCCCTGCTTCGCTTCCCCGGCTACCGGGGCTGCATCGAGATGGACACGCTGAATGAGGAGGTGGTCAGCCTCTACAACTTCGAGAGGACCTTCCAGCTGGACACGGCTGTGGACAGGCCTTGTGCCCGCTCCAAGTCGACCGGGGACCCGTGGCTCACGGACGGCTCCTACCTGGACGGCACCGGCTTCGCCCGCATCAGCTTCGACAGTCAGATCAGCACCACCAAGCGCTTCGAGCAGGAGCTGCGGCTCGTGTCCTACAGCGGGGTGCTCTTCTTCCTGAAGCAGCAGAGCCAGTTCCTGTGCTTGGCCGTGCAAGAAGGCAGCCTCGTGCTGTTGTATGACTTTGGGGCTGGCCTGAAAAAGGCCGTCCCACTGCAGCCCCCACCGCCCCTGACCTCGGCCAGCAAGGCGATCCAGGTGTTCCTGCTGGGGGGCAGCCGCAAGCGTGTGCTGGTGCGTGTGGAGCGGGCCACGGTGTACAGCGTGGAGCAGGACAATGATCTGGAGCTGGCCGACGCCTACTACCTGGGGGGCGTGCCGCCCGACCAGCTGCCCCCGAGCCTGCGACGGCTCTTCCCCACCGGAGGCTCAGTCCGTGGCTGCGTCAAAGGCATCAAGGCCCTGGGCAAGTATGTGGACCTCAAGCGGCTGAACACGACAGGCGTGAGCGCCGGCTGCACCGCCGACCTGCTGGTGGGGCGCGCCATGACTTTCCATGGCCACGGCTTCCTTCGCCTGGCGCTCTCGAACGTGGCACCGCTCACTGGCAACGTCTACTCCGGCTTCGGCTTCCACAGCGCCCAGGACAGTGCCCTGCTCTACTACCGGGCGTCCCCGGATGGGCTATGCCAGGTGTCCCTGCAGCAGGGCCGTGTGAGCCTACAGCTCCTGAGGACTGAAGTGAAAACTCAAGCGGGCTTCGCCGATGGTGCCCCCCATTACGTCGCCTTCTACAGCAATGCCACGGGAGTCTGGCTGTATGTCGATGACCAGCTCCAGCAGATGAAGCCCCACCGGGGACCACCCCCCGAGCTCCAGCCGCAGCCTGAGGGGCCCCCGAGGCTCCTCCTGGGAGGCCTGCCTGAGTCTGGCACCATTTACAACTTCAGTGGCTGCATCAGCAACGTCTTCGTGCAGCGGCTCCTGGGCCCACAGCGCGTATTTGATCTGCAGCAGAACCTGGGCAGCGTCAATGTGAGCACGGGCTGTGCACCCGCCCTGCAAGCCCAGACCCCGGGCCTGGGGCCTAGAGGACTGCAGGCCACCGCCCGGAAGGCCTCCCGCCGCAGCCGTCAGCCCGCCCGGCATCCTGCCTGCATGCTGCCCCCACACCTCAGGACCACCCGAGACTCCTACCAGTTTGGGGGTTCCCTGTCCAGTCACCTGGAGTTTGTGGGCATCCTGGCCCGACATAGGAACTGGCCCAGTCTCTCCATGCACGTCCTCCCGCGAAGCTCCCGAGGCCTCCTCCTCTTCACTGCCCGTCTGAGGCCCGGCAGCCCCTCCCTGGCGCTCTTCCTGAGCAATGGCCACTTCGTTGCACAGATGGAAGGCCTCGGGACTCGGCTCCGCGCCCAGAGCCGCCAGCGCTCCCGGCCTGGCCGCTGGCACAAGGTCTCCGTGCGCTGGGAGAAGAACCGGATCCTGCTGGTGACGGACGGGGCCCGGGCCTGGAGCCAGGAGGGGCCGCACCGGCAGCACCAGGGGGCAGAGCACCCCCAGCCCCACACCCTCTTTGTGGGCGGCCTCCCGGCCAGCAGCCACAGCTCCAAACTTCCGGTGACCGTCGGGTTCAGCGGCTGTGTGAAGAGACTGAGGCTGCACGGGAGGCCCCTGGGGGCCCCCACACGGATGGCAGGGGTCACACCCTGCATCTTGGGCCCCCTGGAGGCGGGCCTGTTCTTCCCAGGCAGCGGGGGAGTTATCACTTTAGACCTCCCAGGAGCTACACTGCCTGATGTGGGCCTGGAACTGGAGGTGCGGCCCCTGGCAGTCACCGGACTGATCTTCCACTTGGGCCAGGCCCGGACGCCCCCCTACTTGCAGTTGCAGGTGACCGAGAAGCAAGTCCTGCTGCGGGCGGATGACGGAGCAGGGGAGTTCTCCACGTCAGTGACCCGCCCCTCAGTGCTGTGTGATGGCCAGTGGCACCGGCTAGCGGTGATGAAAAGCGGGAATGTGCTCCGGCTGGAGGTGGACGCGCAGAGCAACCACACCGTGGGCCCCTTGCTGGCGGCTGCAGCTGGTGCCCCAGCCCCTCTGTACCTCGGGGGCCTGCCTGAGCCCATGGCCGTGCAGCCCTGGCCCCCCGCCTACTGCGGCTGCATGAGGAGGCTGGCGGTGAACCGGTCCCCCGTCGCCATGACTCGCTCTGTGGAGGTCCACGGGGCAGTGGGGGCCAGTGGCTGCCCAGCCGCCTAG-3'
NCBI CDS gene sequence with introns (location: 62309336.. 62367245) (57910 bp)Download
NCBI Gene Viewer (CDS + introns)
NCBI CDS gene sequence with introns, 5'UTR and 3'UTR (location: 62309065.. 62367312) (58248 bp)Download
NCBI Gene Viewer (CDS + introns + Untranslated regions)
NCBI gene sequence (location: [62309065.. 62367312 + 1000]) (59248 bp)Download
NCBI Gene Viewer (CDS + introns + Untranslated regions + 1000 dNTP to potentially reach the promotor)
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