NCBI Summary
The product of this gene contains multiple epidermal growth factor (EGF)-like and LamG domains. The protein is expressed in the photoreceptor layer of the retina, and the gene is mutated in autosomal recessive retinitis pigmentosa. Multiple transcript variants encoding different isoforms have been found for this gene. [provided by RefSeq, Dec 2008].
Protein
Protein (NP_001278938)
Protein eyes shut homolog
Protein eyes shut homolog (Epidermal growth factor-like protein 10) (EGF-like protein 10) (Epidermal growth factor-like protein 11) (EGF-like protein 11) (Protein spacemaker homolog)
EYS
eyes shut homolog
Undefined
Very low evidence
Laminin G-like
Undefined
b-sandwich / ConA-like
GlcA(b1-3)Xyl(a1-4)GlcA / Matriglycan on alpha-dystroglycan
Undefined
0.177
Protein sequence and protein families (fasta) (3165 amino acids) Download
MTDKSIVILSLMVFHSSFINGKTCRRQLVEEWHPQPSSYVVNWTLTENICLDFYRDCWFLGVNTKIDTSGNQAVPQICPLQIQLGDILVISSEPSLQFPEINLMNVSETSFVGCVQNTTTEDQLLFGCRLKGMHTVNSKWLSVGTHYFITVMASGPSPCPLGLRLNVTVKQQFCQESLSSEFCSGHGKCLSEAWSKTYSCHCQPPFSGKYCQELDACSFKPCKNNGSCINKRENWDEQAYECVCHPPFTGKNCSEIIGQCQPHVCFHGNCSNITSNSFICECDEQFSGPFCEVSAKPCVSLLFWKRGICPNSSSAYTYECPKGSSSQNGETDVSEFSLVPCQNGTDCIKISNDVMCICSPIFTDLLCKSIQTSCESFPLRNNATCKKCEKDYPCSCISGFTEKNCEKAIDHCKLLSINCLNEEWCFNIIGRFKYVCIPGCTKNPCWFLKNVYLIHQHLCYCGVTFHGICQDKGPAQFEYVWQLGFAGSEGEKCQGVIDAYFFLAANCTEDATYVNDPEDNNSSCWFPHEGTKEICANGCSCLSEEDSQEYRYLCFLRWAGNMYLENTTDDQENECQHEAVCKDEINRPRCSCSLSYIGRLCVVNVDYCLGNHSISVHGLCLALSHNCNCSGLQRYERNICEIDTEDCKSASCKNGTTSTHLRGYFFRKCVPGFKGTQCEIDIDECASHPCKNGATCIDQPGNYFCQCVPPFKVVDGFSCLCNPGYVGIRCEQDIDDCILNACEHNSTCKDLHLSYQCVCLSDWEGNFCEQESNECKMNPCKNNSTCTDLYKSYRCECTSGWTGQNCSEEINECDSDPCMNGGLCHESTIPGQFVCLCPPLYTGQFCHQRYNLCDLLHNPCRNNSTCLALVDANQHCICREEFEGKNCEIDVKDCLFLSCQDYGDCEDMVNNFRCICRPGFSGSLCEIEINECSSEPCKNNGTCVDLTNRFFCNCEPEYHGPFCELDVNKCKISPCLDEENCVYRTDGYNCLCAPGYTGINCEINLDECLSEPCLHDGVCIDGINHYTCDCKSGFFGTHCETNANDCLSNPCLHGRCTELINEYPCSCDADGTSTQCKIKINDCTSIPCMNEGFCQKSAHGFTCICPRGYTGAYCEKSIDNCAEPELNSVICLNGGICVDGPGHTFDCRCLPGFSGQFCEININECSSSPCLHGADCEDHINGYVCKCQPGWSGHHCENELECIPNSCVHELCMENEPGSTCLCTPGFMTCSIGLLCGDEIRRITCLTPIFQRTDPISTQTYTIPPSETLVSSFPSIKATRIPAIMDTYPVDQGPKQTGIVKHDILPTTGLATLRISTPLESYLLQELIVTRELSAKHSLLSSADVSSSRFLNFGIRDPAQIVQDKTSVSHMPIRTSAATLGFFFPDRRARTPFIMSSLMSDFIFPTQSLLFENCQTVALSATPTTSVIRSIPGADIELNRQSLLSRGFLLIAASISATPVVSRGAQEDIEEYSADSLISRREHWRLLSPSMSPIFPAKVIISKQVTILNSSALHRFSTKAFNPSEYQAITEASSNQRLTNIKSQAADSLRELSQTCATCSMTEIKSSREFSDQVLHSKQSHFYETFWMNSAILASWYALMGAQTITSGHSFSSATEITPSVAFTEVPSLFPSKKSAKRTILSSSLEESITLSSNLDVNLCLDKTCLSIVPSQTISSDLMNSDLTSKMTTDELSVSENILKLLKIRQYGITMGPTEVLNQESLLDMEKSKGSHTLFKLHPSDSSLDFELNLQIYPDVTLKTYSEITHANDFKNNLPPLTGSVPDFSEVTTNVAFYTVSATPALSIQTSSSMSVIRPDWPYFTDYMTSLKKEVKTSSEWSKWELQPSVQYQEFPTASRHLPFTRSLTLSSLESILAPQRLMISDFSCVRYYGDSYLEFQNVALNPQNNISLEFQTFSSYGLLLYVKQDSNLVDGFFIQLFIENGTLKYHFYCPGEAKFKSINTTVRVDNGQKYTLLIRQELDPCNAELTILGRNTQICESINHVLGKPLPKSGSVFIGGFPDLHGKIQMPVPVKNFTGCIEVIEINNWRSFIPSKAVKNYHINNCRSQGFMLSPTASFVDASDVTQGVDTMWTSVSPSVAAPSVCQQDVCHNGGTCHAIFLSSGIVSFQCDCPLHFTGRFCEKDAGLFFPSFNGNSYLELPFLKFVLEKEHNRTVTIYLTIKTNSLNGTILYSNGNNCGKQFLHLFLVEGRPSVKYGCGNSQNILTVSANYSINTNAFTPITIRYTTPVGSPGVVCMIEMTADGKPPVQKKDTEISHASQAYFESMFLGHIPANVQIHKKAGPVYGFRGCILDLQVNNKEFFIIDEARHGKNIENCHVPWCAHHLCRNNGTCISDNENLFCECPRLYSGKLCQFASCENNPCGNGATCVPKSGTDIVCLCPYGRSGPLCTDAINITQPRFSGTDAFGYTSFLAYSRISDISFHYEFHLKFQLANNHSALQNNLIFFTGQKGHGLNGDDFLAVGLLNGSVVYSYNLGSGIASIRSEPLNLSLGVHTVHLGKFFQEGWLKVDDHKNKSIIAPGRLVGLNVFSQFYVGGYSEYTPDLLPNGADFKNGFQGCIFTLQVRTEKDGHFRGLGNPEGHPNAGRSVGQCHASPCSLMKCGNGGTCIESGTSVYCNCTTGWKGSFCTETVSTCDPEHDPPHHCSRGATCISLPHGYTCFCPLGTTGIYCEQALILIVILEKPKPAERKVKKEALSISDPSFRSNELSWMSFASFHVRKKTHIQLQFQPLAADGILFYAAQHLKAQSGDFLCISLVNSSVQLRYNLGDRTIILETLQKVTINGSTWHIIKAGRVGAEGYLDLDGINVTEKASTKMSSLDTNTDFYIGGVSSLNLVNPMAIENEPVGFQGCIRQVIINNQELQLTEFGAKGGSNVGDCDGTACGYNTCRNGGECTVNGTTFSCRCLPDWAGNTCNQSVSCLNNLCLHQSLCIPDQSFSYSCLCTLGWVGRYCENKTSFSTAKFMGNSYIKYIDPNYRMRNLQFTTISLNFSTTKTEGLIVWMGIAQNEENDFLAIGLHNQTLKIAVNLGERISVPMSYNNGTFCCNKWHHVVVIQNQTLIKAYINNSLILSEDIDPHKNFVALNYDGICYLGGFEYGRKVNIVTQEIFKTNFVGKIKDVVFFQEPKNIELIKLEGYNVYDGDEQNEVT
No structure currently available in the PDB RCSB Databank.
Structural models
No AlphaFold model available for Q5T1H1.
SWISS-MODEL structural models
Modeller structural model (Homology modelling pipeline), Error: [1.59, 2.06] ÅDownload
The location of the lectin domain structural model is: 2717-2895
We infer [1.59, 2.06] Å as the interval of error of this structural model.
Template: 5IK4 chain: A, Q60675, NP_032507.2, sequence identity: 25.7%, coverage: 95.0%, 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)
  • EYS mutations and implementation of minigene assay for variant classification in EYS-associated retinitis pigmentosa in northern Sweden. [33833316]
  • A hypomorphic variant in EYS detected by genome-wide association study contributes toward retinitis pigmentosa. [33514863]
  • EYS is a major gene involved in retinitis pigmentosa in Japan: genetic landscapes revealed by stepwise genetic screening. [33247286]
  • Identification of Novel EYS Mutations by Targeted Sequencing Analysis. [33058741]
  • Identification of a 2 Mb human ortholog of Drosophila eyes shut/spacemaker that is mutated in patients with retinitis pigmentosa. [18976725]
  • Linkage validation of RP25 Using the 10K genechip array and further refinement of the locus by new linked families. [18510647]
  • Large-scale molecular analysis of a 34 Mb interval on chromosome 6q: major refinement of the RP25 interval. [18510646]
  • Refinement of the locus for autosomal recessive Retinitis pigmentosa (RP25) linked to chromosome 6q in a family of Pakistani origin. [10417302]
  • A major locus for autosomal recessive retinitis pigmentosa on 6q, determined by homozygosity mapping of chromosomal regions that contain gamma-aminobutyric acid-receptor clusters. [9585594]
  • Nonsyndromic Retinitis Pigmentosa Overview [20301590]
UniProt Main References (10 PubMed Identifiers)
  • EYS, encoding an ortholog of Drosophila spacemaker, is mutated in autosomal recessive retinitis pigmentosa. [18836446]
  • The secreted protein discovery initiative (SPDI), a large-scale effort to identify novel human secreted and transmembrane proteins: a bioinformatics assessment. [12975309]
  • The DNA sequence and analysis of human chromosome 6. [14574404]
  • The status, quality, and expansion of the NIH full-length cDNA project: the Mammalian Gene Collection (MGC). [15489334]
  • Identification of a novel homozygous nonsense mutation in EYS in a Chinese family with autosomal recessive retinitis pigmentosa. [20696082]
  • Eyes shut homolog is required for maintaining the ciliary pocket and survival of photoreceptors in zebrafish. [27737822]
  • EYS Is a Protein Associated with the Ciliary Axoneme in Rods and Cones. [27846257]
  • Mutation spectrum of EYS in Spanish patients with autosomal recessive retinitis pigmentosa. [21069908]
  • EYS is a major gene for rod-cone dystrophies in France. [20333770]
  • PEX6 is Expressed in Photoreceptor Cilia and Mutated in Deafblindness with Enamel Dysplasia and Microcephaly. [26593283]
All isoforms of this gene containing a lectin domain
NP_001136272.1, NP_001278938.1
RNA
RNA (Transcript ID: NM_001292009.2)
eyes shut homolog, transcript variant 4
m7G-5')ppp(5'-GAGAAACAAAGUGAUACACGCUAGGCAUGUCCAGACAUUAACCGUAAUCAGAAGCCUCCUAGGGUUGCAAGCCUCCUUGGCUAAUGGUUGGGCUUUGUGCCUCACUCUUCUCUUACACCUGGGGAGUCAAGUCUGGAUCCUCUGCUCCAUAUUUAUUUAGCAAAUAAAACACUGAUCUCAAACAGCAACGGAACCUGUGUACUUGAGGUGUUUUUUGAAAACUAAUCAGAAGAGGAAUGCUUAUCUCCCAAGAAAAUUGAAACCAUCUGUAAAAGAAUCUUGGCUGUGCUGUGUUUUGAUUAGAUUGAAGCUUGGUGUAAAGAGAAAACACAAAAGACCGCAGAAUAUUUACAACAUUUGAAUUCCUGUUUCUCCAUCAAAGCACAUUGUCAUCAAAGCUACUUUGGGUAUAGAAAAAAGGUCAAUUCCAAUUCCCAGGAAUCCUUAACCACAACUUUACUUGGAAAUUUCCGGUAAUACUUAAAACACCAUUUUGCAGCAAUUCUUUAUGAUAAACUGUAAAAUACAGCUACCCGAAAAUGACUGACAAAUCAAUCGUCAUUCUGAGCCUGAUGGUUUUUCACAGCUCUUUCAUAAAUGGAAAAACAUGUAGACGGCAAUUGGUGGAAGAAUGGCAUCCACAACCCUCAUCAUAUGUGGUAAAUUGGACACUAACAGAAAACAUCUGCUUGGACUUCUACAGAGAUUGCUGGUUUUUGGGUGUAAACACUAAAAUAGAUACUUCAGGCAAUCAAGCUGUUCCCCAGAUUUGCCCUUUGCAAAUUCAAUUAGGAGAUAUCCUUGUAAUUUCUUCUGAACCAUCUCUUCAAUUUCCAGAAAUAAAUUUGAUGAAUGUUUCUGAAACAUCUUUCGUUGGCUGUGUGCAAAAUACCACAACGGAAGAUCAGUUACUUUUUGGCUGCAGACUAAAAGGAAUGCACACUGUUAAUUCUAAGUGGCUGAGUGUUGGGACACAUUAUUUUAUCACAGUUAUGGCAAGUGGUCCAUCACCUUGUCCACUGGGACUUCGACUAAAUGUGACAGUGAAACAGCAGUUCUGCCAGGAAUCUCUGAGUUCAGAAUUUUGCUCUGGUCAUGGUAAAUGUCUUAGUGAAGCUUGGAGCAAGACAUAUAGCUGCCAUUGCCAGCCUCCAUUUUCUGGAAAAUACUGCCAGGAACUUGAUGCAUGUUCUUUUAAACCAUGUAAAAAUAAUGGCAGUUGCAUUAAUAAAAGAGAAAAUUGGGAUGAGCAAGCAUAUGAAUGUGUCUGUCACCCACCAUUUACAGGAAAGAAUUGCUCAGAAAUAAUUGGCCAGUGUCAACCACAUGUCUGUUUCCAUGGAAACUGCAGCAAUAUUACUUCAAAUAGUUUCAUUUGUGAAUGUGAUGAGCAAUUUUCAGGUCCAUUCUGUGAGGUGUCAGCAAAACCUUGUGUUUCUCUGCUUUUUUGGAAAAGAGGAAUUUGCCCAAAUAGCAGUUCUGCUUAUACUUAUGAAUGCCCAAAAGGAUCUUCCAGCCAAAAUGGUGAAACUGAUGUCAGUGAGUUUUCAUUAGUACCAUGUCAGAAUGGUACUGACUGCAUCAAAAUAUCAAAUGAUGUUAUGUGCAUCUGUUCACCAAUAUUUACAGAUUUGCUUUGUAAGAGCAUUCAAACAUCAUGUGAGUCAUUUCCUUUGAGGAAUAAUGCUACAUGUAAGAAAUGUGAGAAAGAUUAUCCUUGCAGCUGUAUAUCAGGAUUUACUGAAAAAAACUGUGAGAAAGCAAUUGACCACUGUAAACUGCUCAGCAUCAACUGUCUGAAUGAAGAAUGGUGUUUCAAUAUAAUUGGAAGAUUCAAAUAUGUAUGCAUUCCAGGGUGCACAAAAAAUCCAUGUUGGUUUUUGAAGAAUGUUUACCUAAUUCAUCAACACCUCUGCUACUGUGGAGUCACCUUCCAUGGUAUUUGCCAAGAUAAAGGUCCUGCUCAAUUUGAAUAUGUGUGGCAAUUGGGAUUUGCAGGAUCUGAAGGCGAAAAGUGCCAAGGGGUUAUUGAUGCCUAUUUCUUUCUGGCUGCAAACUGCACUGAAGAUGCAACCUAUGUGAACGAUCCUGAAGAUAAUAAUUCUUCAUGUUGGUUCCCACAUGAAGGCACAAAAGAGAUUUGUGCAAAUGGAUGCAGUUGUUUGAGUGAAGAAGACAGUCAGGAAUAUCGGUAUCUAUGUUUUCUCAGAUGGGCUGGCAACAUGUAUCUGGAAAAUACAACUGAUGAUCAAGAAAAUGAGUGUCAACAUGAAGCUGUUUGUAAAGAUGAAAUUAAUAGACCCAGAUGCAGCUGUUCUCUUAGUUACAUUGGCAGAUUGUGUGUUGUCAAUGUUGACUAUUGCUUAGGGAACCACAGUAUAUCAGUGCAUGGCCUCUGCCUGGCCCUUUCGCACAAUUGUAACUGUAGCGGUCUGCAAAGAUAUGAAAGGAACAUCUGUGAGAUAGAUACUGAAGACUGCAAAUCUGCGUCCUGCAAAAAUGGAACAACUAGUACACAUUUAAGGGGAUAUUUCUUCCGCAAGUGUGUCCCAGGAUUUAAAGGUACGCAAUGUGAAAUUGAUAUAGAUGAGUGUGCUUCACAUCCCUGCAAAAAUGGAGCCACCUGCAUUGACCAACCUGGUAAUUACUUCUGCCAGUGUGUGCCUCCAUUUAAAGUGGUUGAUGGCUUUUCCUGCUUAUGCAAUCCAGGCUAUGUUGGGAUAAGAUGUGAACAGGACAUUGAUGACUGCAUCCUGAAUGCCUGUGAGCACAAUUCUACCUGCAAAGACCUGCAUCUCAGCUACCAGUGUGUGUGCCUAUCUGAUUGGGAAGGAAAUUUUUGUGAACAAGAAUCCAAUGAGUGUAAAAUGAAUCCUUGCAAGAACAAUUCCACCUGUACUGACCUUUACAAAAGCUAUCGAUGUGAGUGUACAUCUGGAUGGACUGGACAGAACUGUAGUGAAGAAAUAAAUGAAUGCGACUCUGAUCCAUGCAUGAAUGGAGGUCUUUGUCAUGAAUCUACCAUCCCUGGACAAUUUGUAUGUCUGUGCCCACCCCUUUAUACUGGACAAUUUUGCCACCAACGCUAUAACCUUUGUGACCUACUUCAUAACCCUUGCAGAAACAACUCAACAUGCUUAGCUUUGGUAGACGCAAAUCAGCAUUGUAUUUGUAGAGAAGAAUUUGAAGGUAAAAACUGUGAAAUUGAUGUGAAAGACUGCCUCUUCCUUUCCUGCCAGGAUUAUGGUGACUGUGAAGAUAUGGUCAACAAUUUCAGGUGUAUUUGCAGACCUGGGUUUUCUGGAUCUCUGUGUGAAAUUGAAAUUAAUGAAUGUUCCUCUGAACCUUGCAAAAAUAAUGGAACAUGUGUGGAUCUGACAAACAGAUUUUUUUGUAAUUGUGAACCUGAGUACCAUGGGCCCUUCUGUGAACUUGAUGUAAAUAAAUGUAAAAUCUCACCUUGUCUAGAUGAAGAAAAUUGUGUCUACAGGACUGAUGGAUACAACUGCCUCUGUGCCCCUGGUUAUACAGGCAUCAACUGUGAAAUAAAUCUAGAUGAAUGCCUAUCAGAGCCCUGUCUCCAUGAUGGAGUUUGUAUCGAUGGCAUCAAUCAUUAUACCUGUGACUGCAAGAGUGGGUUUUUUGGAACACACUGUGAAACAAACGCCAAUGAUUGCCUUUCAAAUCCUUGUCUACAUGGAAGGUGCACAGAACUUAUUAAUGAAUAUCCAUGUUCAUGUGAUGCAGAUGGGACUAGCACACAAUGUAAGAUCAAAAUUAAUGACUGCACAUCAAUCCCUUGUAUGAAUGAAGGCUUCUGUCAGAAGUCAGCACAUGGAUUUACUUGCAUUUGCCCACGUGGAUACACUGGUGCAUACUGUGAAAAAAGCAUUGAUAAUUGUGCUGAGCCUGAACUUAAUUCAGUCAUCUGUCUUAAUGGAGGGAUCUGUGUUGAUGGGCCUGGACAUACUUUUGACUGCAGAUGUCUUCCUGGAUUUUCUGGUCAAUUUUGUGAAAUUAAUAUAAAUGAAUGCUCUUCAUCACCAUGUCUACAUGGUGCAGACUGUGAAGAUCACAUCAAUGGAUAUGUUUGCAAAUGCCAACCAGGAUGGUCUGGACACCACUGUGAGAAUGAGCUUGAGUGCAUUCCCAACUCAUGUGUUCAUGAACUCUGCAUGGAGAAUGAACCUGGCUCGACAUGUUUAUGCACACCUGGAUUUAUGACCUGCUCCAUUGGGCUUCUUUGUGGUGAUGAAAUAAGGAGAAUUACCUGUUUAACUCCCAUCUUUCAAAGAACAGAUCCCAUUUCCACACAGACAUAUACAAUUCCCCCUUCUGAGACUUUGGUCAGCAGCUUUCCAUCUAUAAAGGCUACUAGAAUACCAGCCAUAAUGGACACUUACCCAGUUGAUCAAGGUCCAAAACAGACAGGCAUUGUCAAGCACGACAUUCUCCCAACCACUGGUUUGGCAACAUUAAGAAUUAGCACACCCUUGGAAAGCUACUUACUCCAAGAACUGAUUGUCACUAGAGAGCUUUCAGCAAAACACAGUCUUCUUUCUUCCGCAGAUGUUUCCUCUUCUCGAUUCCUGAAUUUUGGUAUUCGUGACCCAGCACAAAUUGUCCAGGACAAAACAUCGGUAUCACAUAUGCCUAUUCGAACUUCAGCAGCCACACUAGGUUUCUUUUUUCCUGAUAGGAGAGCAAGGACCCCAUUUAUCAUGUCUUCCUUAAUGUCAGAUUUUAUUUUUCCUACACAAUCUUUAUUAUUUGAGAACUGUCAGACUGUUGCUUUAUCUGCUACCCCAACGACUUCAGUAAUUAGAAGCAUUCCAGGGGCUGAUAUUGAGCUAAACAGGCAGUCAUUACUCUCCCGUGGAUUCCUGCUUAUAGCUGCCUCCAUAAGUGCAACUCCAGUUGUCUCUAGGGGGGCUCAAGAGGAUAUUGAAGAAUAUUCAGCUGAUUCUUUAAUUUCAAGAAGAGAGCACUGGAGAUUGCUCAGCCCCUCGAUGUCUCCCAUUUUUCCUGCUAAGGUAAUUAUAUCUAAACAGGUAACCAUCUUAAACUCAUCAGCUCUGCACCGGUUCAGUACAAAAGCCUUCAAUCCCAGUGAAUAUCAGGCUAUUACUGAGGCUUCAAGCAACCAGAGACUCACAAACAUCAAAUCACAGGCUGCUGAUUCUUUAAGAGAAUUAAGCCAAACAUGUGCAACAUGUUCUAUGACUGAAAUAAAAUCCUCUCGUGAAUUCUCAGAUCAAGUUUUGCAUAGCAAACAGUCCCACUUUUAUGAGACAUUCUGGAUGAACUCAGCGAUAUUAGCCAGCUGGUAUGCACUAAUGGGAGCUCAAACUAUCACUUCUGGGCAUUCAUUUUCUUCUGCUACUGAAAUAACACCAUCAGUGGCAUUCACAGAAGUGCCAUCUUUAUUUCCUUCUAAAAAGAGUGCAAAAAGAACAAUUUUAUCCUCAUCCUUGGAAGAAUCCAUUACCCUAUCAAGUAAUUUGGAUGUUAAUUUAUGUUUGGAUAAGACUUGUUUAUCCAUUGUCCCUUCACAAACUAUCUCUUCAGACUUGAUGAAUUCUGAUUUGACUUCAAAAAUGACUACUGAUGAACUGUCAGUAUCAGAAAACAUUUUAAAACUAUUGAAAAUAAGACAAUAUGGCAUAACUAUGGGACCCACUGAGGUACUAAAUCAAGAGAGCUUAUUGGACAUGGAAAAAAGUAAAGGAUCUCAUACACUGUUCAAACUUCACCCAAGUGAUAGUUCUCUGGAUUUUGAGUUAAACUUACAAAUUUAUCCGGAUGUUACUUUAAAGACAUAUUCAGAAAUUACACAUGCAAAUGACUUCAAAAAUAAUCUGCCACCAUUGACAGGCUCAGUGCCUGAUUUUUCAGAAGUCACCACCAAUGUUGCAUUUUAUACAGUUUCAGCAACUCCAGCACUUUCAAUACAGACGUCUUCCUCCAUGUCUGUAAUUAGGCCAGAUUGGCCAUAUUUUACAGAUUAUAUGACCUCUCUUAAAAAAGAGGUCAAGACUUCUUCAGAAUGGUCCAAAUGGGAACUUCAGCCUAGUGUGCAAUAUCAGGAAUUUCCCACUGCAAGCCGGCAUCUUCCCUUCACUAGAUCUCUUACUUUGUCUUCACUGGAAUCCAUUCUGGCACCUCAACGGCUGAUGAUUUCUGAUUUCAGUUGUGUUCGUUAUUAUGGAGAUUCUUAUCUAGAAUUUCAGAAUGUGGCUUUAAAUCCACAAAAUAACAUCUCCCUAGAAUUUCAGACCUUCAGCUCCUAUGGACUUCUGCUGUAUGUCAAGCAAGACUCAAAUUUAGUAGAUGGAUUUUUUAUUCAAUUGUUUAUUGAAAAUGGUACUUUAAAGUACCACUUUUACUGUCCUGGUGAAGCAAAAUUUAAAAGCAUUAAUACUACUGUUAGAGUGGACAACGGGCAAAAGUAUACACUGCUUAUCAGGCAAGAAUUGGAUCCAUGUAACGCUGAGCUGACUAUUUUAGGGAGGAAUACACAAAUAUGCGAAUCUAUCAAUCAUGUACUCGGAAAACCCCUGCCAAAAUCAGGAUCUGUCUUCAUUGGUGGAUUUCCAGACCUUCAUGGGAAAAUCCAGAUGCCUGUACCAGUCAAGAAUUUUACUGGCUGCAUAGAAGUUAUAGAAAUAAAUAACUGGAGAUCUUUCAUUCCAUCCAAGGCAGUGAAAAACUAUCACAUUAACAAUUGCAGAUCCCAGGGAUUUAUGCUGUCUCCAACAGCCUCCUUUGUUGAUGCUUCUGAUGUGACACAAGGGGUUGAUACCAUGUGGACUUCUGUCAGCCCCUCUGUUGCAGCACCCUCUGUGUGCCAGCAGGAUGUAUGCCACAAUGGAGGCACAUGCCAUGCCAUCUUCCUCUCCAGUGGCAUAGUGUCAUUCCAAUGUGACUGUCCACUACAUUUCACUGGCCGCUUCUGUGAAAAAGAUGCAGGUUUAUUCUUUCCAUCUUUCAAUGGGAAUUCCUAUUUAGAACUGCCCUUUUUGAAGUUUGUCCUGGAGAAGGAACAUAACAGAACUGUUACCAUCUACUUGACUAUAAAAACAAACAGUUUAAAUGGAACUAUUCUUUACAGUAAUGGGAAUAAUUGUGGAAAGCAGUUUCUUCAUUUAUUUCUUGUGGAAGGAAGGCCAUCAGUUAAAUAUGGGUGUGGAAAUUCUCAAAAUAUUUUGACUGUUUCUGCUAAUUACAGCAUUAACACAAAUGCAUUCACCCCUAUCACAAUACGCUACACAACGCCUGUUGGCAGCCCUGGAGUUGUUUGUAUGAUUGAAAUGACUGCAGAUGGAAAACCUCCAGUACAGAAGAAAGACACAGAGAUUUCCCAUGCCUCUCAGGCAUAUUUUGAAUCAAUGUUCCUUGGCCAUAUUCCUGCAAAUGUUCAAAUUCAUAAGAAAGCAGGUCCUGUUUAUGGGUUCAGGGGCUGCAUUCUAGACCUUCAAGUAAACAACAAAGAAUUCUUCAUCAUCGAUGAAGCACGACAUGGAAAGAAUAUUGAGAACUGCCACGUCCCUUGGUGUGCUCAUCAUCUGUGCCGCAACAAUGGCACCUGCAUCAGUGAUAAUGAAAAUCUGUUUUGUGAGUGUCCAAGGCUGUAUUCAGGCAAGCUGUGCCAGUUUGCAAGUUGUGAAAACAACCCAUGUGGAAAUGGUGCCACCUGUGUUCCAAAAUCCGGAACAGAUAUUGUCUGCCUCUGCCCAUAUGGGAGGUCUGGACCCCUCUGCACUGAUGCUAUUAAUAUUACUCAGCCAAGGUUCAGUGGCACAGAUGCCUUUGGAUACACCUCAUUCCUGGCUUAUUCACGGAUCUCAGACAUCAGCUUCCAUUAUGAAUUCCACCUGAAGUUUCAGCUGGCAAACAACCACUCAGCACUGCAAAAUAACUUGAUAUUUUUUACUGGACAGAAAGGCCAUGGGUUGAAUGGCGAUGACUUCCUGGCUGUGGGCCUGCUCAAUGGCAGUGUGGUUUAUAGUUAUAACCUGGGGUCUGGCAUAGCAAGCAUCAGGAGCGAGCCCCUCAAUCUGAGCCUUGGAGUCCACACUGUUCAUCUGGGCAAGUUCUUCCAAGAGGGCUGGCUGAAGGUAGAUGAUCAUAAAAAUAAAUCCAUUAUCGCCCCAGGAAGACUGGUUGGUCUCAAUGUCUUCAGUCAGUUUUAUGUAGGUGGCUACAGUGAAUACACUCCAGAUCUCUUACCAAAUGGAGCAGAUUUUAAAAAUGGUUUUCAAGGCUGUAUUUUCACUCUUCAAGUUCGCACUGAGAAGGAUGGCCAUUUCAGAGGACUGGGAAAUCCUGAGGGCCACCCAAAUGCUGGACGCAGUGUUGGCCAGUGUCAUGCUUCUCCCUGCAGUUUAAUGAAAUGUGGCAAUGGUGGGACAUGCAUAGAGAGUGGAACUAGUGUUUACUGCAAUUGUACCACUGGGUGGAAAGGAUCAUUCUGCACAGAGACAGUUUCUACCUGUGAUCCUGAACAUGACCCUCCACACCACUGUAGCAGAGGAGCAACCUGCAUUUCAUUACCUCAUGGAUACACCUGUUUCUGUCCUCUAGGAACCACUGGAAUCUACUGUGAACAAGCACUUAUCCUCAUUGUGAUCUUGGAAAAGCCAAAACCAGCAGAACGGAAAGUGAAGAAGGAGGCUUUAUCCAUAAGUGAUCCAUCUUUCAGAAGCAAUGAGUUAUCCUGGAUGUCUUUUGCUUCCUUUCAUGUUCGAAAAAAGACACAUAUUCAAUUGCAGUUUCAGCCUCUCGCUGCAGAUGGUAUCCUAUUUUAUGCUGCACAACACUUAAAAGCCCAAUCAGGUGAUUUUUUAUGCAUCUCUUUAGUAAAUAGUUCCGUUCAACUUCGCUACAACCUUGGCGACAGAACUAUCAUUCUAGAAACUCUCCAAAAAGUAACUAUAAACGGAAGUACUUGGCAUAUAAUAAAAGCAGGAAGAGUUGGUGCAGAAGGCUACCUGGAUCUAGAUGGGAUAAAUGUAACAGAAAAGGCCUCCACUAAAAUGAGUUCUCUGGACACAAAUACAGACUUCUAUAUUGGAGGAGUAUCUUCUUUAAAUCUUGUAAAUCCCAUGGCAAUAGAAAAUGAACCUGUAGGUUUUCAAGGCUGUAUCCGACAAGUUAUCAUAAAUAAUCAAGAAUUACAAUUAACUGAAUUUGGAGCAAAAGGUGGCUCAAAUGUAGGUGACUGUGAUGGGACAGCCUGUGGGUACAACACAUGCAGAAAUGGAGGUGAAUGUACAGUAAAUGGCACAACUUUUUCUUGCAGAUGUUUGCCAGAUUGGGCUGGAAAUACAUGUAACCAGUCUGUGUCCUGUUUGAAUAAUCUUUGCCUCCACCAAUCUUUAUGUAUACCUGACCAAUCAUUUUCUUACAGUUGCCUGUGUACUUUGGGUUGGGUGGGAAGGUAUUGUGAAAACAAAACUUCAUUUUCAACUGCAAAAUUUAUGGGUAAUUCUUACAUUAAAUACAUUGAUCCAAAUUAUAGAAUGAGAAACCUCCAGUUCACUACUAUAUCCUUAAAUUUCAGUACCACUAAAACAGAAGGUCUAAUUGUAUGGAUGGGAAUAGCUCAAAAUGAAGAAAAUGAUUUUCUGGCAAUUGGUCUCCAUAAUCAGACCUUGAAAAUAGCAGUUAACUUGGGAGAAAGAAUCUCUGUGCCUAUGAGCUAUAACAAUGGCACAUUCUGUUGUAAUAAAUGGCACCAUGUAGUUGUAAUUCAAAAUCAGACUCUUAUCAAGGCCUACAUAAAUAACAGUCUAAUUCUUUCCGAGGAUAUUGAUCCACAUAAAAACUUUGUGGCUCUAAACUAUGAUGGCAUUUGUUAUCUAGGGGGCUUUGAAUAUGGUAGAAAGGUAAAUAUCGUUACUCAAGAGAUUUUUAAAACCAAUUUUGUUGGCAAAAUUAAAGAUGUUGUAUUUUUUCAGGAACCAAAAAACAUUGAACUAAUUAAAUUAGAAGGAUACAAUGUUUAUGAUGGAGAUGAACAAAAUGAGGUUACAUAAGUUAACACUAGAGAUUUUAGUACACACUAUACAUAAAUGCAGUUAUUUUGAUAGUUAUUUCUUUGAUACAUUGCUUACGGGGAAUCAACUGUUUACUAUAUUACCUGAAAUAGUCUAAAUGCUAACAUAUCUUUUUGAUAAGAUUGUAAAAUGUCACUGAAGGUUCUGAUUGUUUUUCCUACAUCUAAUUUAUCUGUAUAUAUUUUGAUUCAUGUUUUAACUCCAUUAGUUCAGUGCUUAUUCACAGAAUGUGCUUAUUCACUUUGCUUAUUCACUUUUUACCUAUCCCUAAUGCUUACAUUUUAAAAUCAACGUGUAAACACAAUUUUAAAAAUCAAUGUGUAAGCUGAACUUUAAAAUGUUUAAAAUUCAGUUGGGAAUGAAUUAGGGAUAGGUACAAAUAAGAAAAAAAUCAAGUUAUUAAUCAAAGGAAAAAUAAAAAUUAUACAAAGCAAUGUAACCAUAUUGUAUUACAUGGCUUAGCUACAACUUAUUUAUAUGAUUCAACAAUGUAAAACUUGAACAUAGAUUUAAACCAAAAAUUAUUGCAUGAAUGUAGAAAGAGAAGGUGAGAGGAGAGGAGAACAGGCUGGUAAGAGCUAAAUCCUUAUCUUUU-3'- Poly-A tail
  • Coding region
;
DNA
DNA (Gene ID: 346007)
EYS
eyes shut homolog
strand -
dJ1018A4.2, bA166P24.2, SPAM, bA307F22.3, dJ303F19.1, bA74E24.1
NCBI CDS gene sequence (9498 bp)
5'-ATGACTGACAAATCAATCGTCATTCTGAGCCTGATGGTTTTTCACAGCTCTTTCATAAATGGAAAAACATGTAGACGGCAATTGGTGGAAGAATGGCATCCACAACCCTCATCATATGTGGTAAATTGGACACTAACAGAAAACATCTGCTTGGACTTCTACAGAGATTGCTGGTTTTTGGGTGTAAACACTAAAATAGATACTTCAGGCAATCAAGCTGTTCCCCAGATTTGCCCTTTGCAAATTCAATTAGGAGATATCCTTGTAATTTCTTCTGAACCATCTCTTCAATTTCCAGAAATAAATTTGATGAATGTTTCTGAAACATCTTTCGTTGGCTGTGTGCAAAATACCACAACGGAAGATCAGTTACTTTTTGGCTGCAGACTAAAAGGAATGCACACTGTTAATTCTAAGTGGCTGAGTGTTGGGACACATTATTTTATCACAGTTATGGCAAGTGGTCCATCACCTTGTCCACTGGGACTTCGACTAAATGTGACAGTGAAACAGCAGTTCTGCCAGGAATCTCTGAGTTCAGAATTTTGCTCTGGTCATGGTAAATGTCTTAGTGAAGCTTGGAGCAAGACATATAGCTGCCATTGCCAGCCTCCATTTTCTGGAAAATACTGCCAGGAACTTGATGCATGTTCTTTTAAACCATGTAAAAATAATGGCAGTTGCATTAATAAAAGAGAAAATTGGGATGAGCAAGCATATGAATGTGTCTGTCACCCACCATTTACAGGAAAGAATTGCTCAGAAATAATTGGCCAGTGTCAACCACATGTCTGTTTCCATGGAAACTGCAGCAATATTACTTCAAATAGTTTCATTTGTGAATGTGATGAGCAATTTTCAGGTCCATTCTGTGAGGTGTCAGCAAAACCTTGTGTTTCTCTGCTTTTTTGGAAAAGAGGAATTTGCCCAAATAGCAGTTCTGCTTATACTTATGAATGCCCAAAAGGATCTTCCAGCCAAAATGGTGAAACTGATGTCAGTGAGTTTTCATTAGTACCATGTCAGAATGGTACTGACTGCATCAAAATATCAAATGATGTTATGTGCATCTGTTCACCAATATTTACAGATTTGCTTTGTAAGAGCATTCAAACATCATGTGAGTCATTTCCTTTGAGGAATAATGCTACATGTAAGAAATGTGAGAAAGATTATCCTTGCAGCTGTATATCAGGATTTACTGAAAAAAACTGTGAGAAAGCAATTGACCACTGTAAACTGCTCAGCATCAACTGTCTGAATGAAGAATGGTGTTTCAATATAATTGGAAGATTCAAATATGTATGCATTCCAGGGTGCACAAAAAATCCATGTTGGTTTTTGAAGAATGTTTACCTAATTCATCAACACCTCTGCTACTGTGGAGTCACCTTCCATGGTATTTGCCAAGATAAAGGTCCTGCTCAATTTGAATATGTGTGGCAATTGGGATTTGCAGGATCTGAAGGCGAAAAGTGCCAAGGGGTTATTGATGCCTATTTCTTTCTGGCTGCAAACTGCACTGAAGATGCAACCTATGTGAACGATCCTGAAGATAATAATTCTTCATGTTGGTTCCCACATGAAGGCACAAAAGAGATTTGTGCAAATGGATGCAGTTGTTTGAGTGAAGAAGACAGTCAGGAATATCGGTATCTATGTTTTCTCAGATGGGCTGGCAACATGTATCTGGAAAATACAACTGATGATCAAGAAAATGAGTGTCAACATGAAGCTGTTTGTAAAGATGAAATTAATAGACCCAGATGCAGCTGTTCTCTTAGTTACATTGGCAGATTGTGTGTTGTCAATGTTGACTATTGCTTAGGGAACCACAGTATATCAGTGCATGGCCTCTGCCTGGCCCTTTCGCACAATTGTAACTGTAGCGGTCTGCAAAGATATGAAAGGAACATCTGTGAGATAGATACTGAAGACTGCAAATCTGCGTCCTGCAAAAATGGAACAACTAGTACACATTTAAGGGGATATTTCTTCCGCAAGTGTGTCCCAGGATTTAAAGGTACGCAATGTGAAATTGATATAGATGAGTGTGCTTCACATCCCTGCAAAAATGGAGCCACCTGCATTGACCAACCTGGTAATTACTTCTGCCAGTGTGTGCCTCCATTTAAAGTGGTTGATGGCTTTTCCTGCTTATGCAATCCAGGCTATGTTGGGATAAGATGTGAACAGGACATTGATGACTGCATCCTGAATGCCTGTGAGCACAATTCTACCTGCAAAGACCTGCATCTCAGCTACCAGTGTGTGTGCCTATCTGATTGGGAAGGAAATTTTTGTGAACAAGAATCCAATGAGTGTAAAATGAATCCTTGCAAGAACAATTCCACCTGTACTGACCTTTACAAAAGCTATCGATGTGAGTGTACATCTGGATGGACTGGACAGAACTGTAGTGAAGAAATAAATGAATGCGACTCTGATCCATGCATGAATGGAGGTCTTTGTCATGAATCTACCATCCCTGGACAATTTGTATGTCTGTGCCCACCCCTTTATACTGGACAATTTTGCCACCAACGCTATAACCTTTGTGACCTACTTCATAACCCTTGCAGAAACAACTCAACATGCTTAGCTTTGGTAGACGCAAATCAGCATTGTATTTGTAGAGAAGAATTTGAAGGTAAAAACTGTGAAATTGATGTGAAAGACTGCCTCTTCCTTTCCTGCCAGGATTATGGTGACTGTGAAGATATGGTCAACAATTTCAGGTGTATTTGCAGACCTGGGTTTTCTGGATCTCTGTGTGAAATTGAAATTAATGAATGTTCCTCTGAACCTTGCAAAAATAATGGAACATGTGTGGATCTGACAAACAGATTTTTTTGTAATTGTGAACCTGAGTACCATGGGCCCTTCTGTGAACTTGATGTAAATAAATGTAAAATCTCACCTTGTCTAGATGAAGAAAATTGTGTCTACAGGACTGATGGATACAACTGCCTCTGTGCCCCTGGTTATACAGGCATCAACTGTGAAATAAATCTAGATGAATGCCTATCAGAGCCCTGTCTCCATGATGGAGTTTGTATCGATGGCATCAATCATTATACCTGTGACTGCAAGAGTGGGTTTTTTGGAACACACTGTGAAACAAACGCCAATGATTGCCTTTCAAATCCTTGTCTACATGGAAGGTGCACAGAACTTATTAATGAATATCCATGTTCATGTGATGCAGATGGGACTAGCACACAATGTAAGATCAAAATTAATGACTGCACATCAATCCCTTGTATGAATGAAGGCTTCTGTCAGAAGTCAGCACATGGATTTACTTGCATTTGCCCACGTGGATACACTGGTGCATACTGTGAAAAAAGCATTGATAATTGTGCTGAGCCTGAACTTAATTCAGTCATCTGTCTTAATGGAGGGATCTGTGTTGATGGGCCTGGACATACTTTTGACTGCAGATGTCTTCCTGGATTTTCTGGTCAATTTTGTGAAATTAATATAAATGAATGCTCTTCATCACCATGTCTACATGGTGCAGACTGTGAAGATCACATCAATGGATATGTTTGCAAATGCCAACCAGGATGGTCTGGACACCACTGTGAGAATGAGCTTGAGTGCATTCCCAACTCATGTGTTCATGAACTCTGCATGGAGAATGAACCTGGCTCGACATGTTTATGCACACCTGGATTTATGACCTGCTCCATTGGGCTTCTTTGTGGTGATGAAATAAGGAGAATTACCTGTTTAACTCCCATCTTTCAAAGAACAGATCCCATTTCCACACAGACATATACAATTCCCCCTTCTGAGACTTTGGTCAGCAGCTTTCCATCTATAAAGGCTACTAGAATACCAGCCATAATGGACACTTACCCAGTTGATCAAGGTCCAAAACAGACAGGCATTGTCAAGCACGACATTCTCCCAACCACTGGTTTGGCAACATTAAGAATTAGCACACCCTTGGAAAGCTACTTACTCCAAGAACTGATTGTCACTAGAGAGCTTTCAGCAAAACACAGTCTTCTTTCTTCCGCAGATGTTTCCTCTTCTCGATTCCTGAATTTTGGTATTCGTGACCCAGCACAAATTGTCCAGGACAAAACATCGGTATCACATATGCCTATTCGAACTTCAGCAGCCACACTAGGTTTCTTTTTTCCTGATAGGAGAGCAAGGACCCCATTTATCATGTCTTCCTTAATGTCAGATTTTATTTTTCCTACACAATCTTTATTATTTGAGAACTGTCAGACTGTTGCTTTATCTGCTACCCCAACGACTTCAGTAATTAGAAGCATTCCAGGGGCTGATATTGAGCTAAACAGGCAGTCATTACTCTCCCGTGGATTCCTGCTTATAGCTGCCTCCATAAGTGCAACTCCAGTTGTCTCTAGGGGGGCTCAAGAGGATATTGAAGAATATTCAGCTGATTCTTTAATTTCAAGAAGAGAGCACTGGAGATTGCTCAGCCCCTCGATGTCTCCCATTTTTCCTGCTAAGGTAATTATATCTAAACAGGTAACCATCTTAAACTCATCAGCTCTGCACCGGTTCAGTACAAAAGCCTTCAATCCCAGTGAATATCAGGCTATTACTGAGGCTTCAAGCAACCAGAGACTCACAAACATCAAATCACAGGCTGCTGATTCTTTAAGAGAATTAAGCCAAACATGTGCAACATGTTCTATGACTGAAATAAAATCCTCTCGTGAATTCTCAGATCAAGTTTTGCATAGCAAACAGTCCCACTTTTATGAGACATTCTGGATGAACTCAGCGATATTAGCCAGCTGGTATGCACTAATGGGAGCTCAAACTATCACTTCTGGGCATTCATTTTCTTCTGCTACTGAAATAACACCATCAGTGGCATTCACAGAAGTGCCATCTTTATTTCCTTCTAAAAAGAGTGCAAAAAGAACAATTTTATCCTCATCCTTGGAAGAATCCATTACCCTATCAAGTAATTTGGATGTTAATTTATGTTTGGATAAGACTTGTTTATCCATTGTCCCTTCACAAACTATCTCTTCAGACTTGATGAATTCTGATTTGACTTCAAAAATGACTACTGATGAACTGTCAGTATCAGAAAACATTTTAAAACTATTGAAAATAAGACAATATGGCATAACTATGGGACCCACTGAGGTACTAAATCAAGAGAGCTTATTGGACATGGAAAAAAGTAAAGGATCTCATACACTGTTCAAACTTCACCCAAGTGATAGTTCTCTGGATTTTGAGTTAAACTTACAAATTTATCCGGATGTTACTTTAAAGACATATTCAGAAATTACACATGCAAATGACTTCAAAAATAATCTGCCACCATTGACAGGCTCAGTGCCTGATTTTTCAGAAGTCACCACCAATGTTGCATTTTATACAGTTTCAGCAACTCCAGCACTTTCAATACAGACGTCTTCCTCCATGTCTGTAATTAGGCCAGATTGGCCATATTTTACAGATTATATGACCTCTCTTAAAAAAGAGGTCAAGACTTCTTCAGAATGGTCCAAATGGGAACTTCAGCCTAGTGTGCAATATCAGGAATTTCCCACTGCAAGCCGGCATCTTCCCTTCACTAGATCTCTTACTTTGTCTTCACTGGAATCCATTCTGGCACCTCAACGGCTGATGATTTCTGATTTCAGTTGTGTTCGTTATTATGGAGATTCTTATCTAGAATTTCAGAATGTGGCTTTAAATCCACAAAATAACATCTCCCTAGAATTTCAGACCTTCAGCTCCTATGGACTTCTGCTGTATGTCAAGCAAGACTCAAATTTAGTAGATGGATTTTTTATTCAATTGTTTATTGAAAATGGTACTTTAAAGTACCACTTTTACTGTCCTGGTGAAGCAAAATTTAAAAGCATTAATACTACTGTTAGAGTGGACAACGGGCAAAAGTATACACTGCTTATCAGGCAAGAATTGGATCCATGTAACGCTGAGCTGACTATTTTAGGGAGGAATACACAAATATGCGAATCTATCAATCATGTACTCGGAAAACCCCTGCCAAAATCAGGATCTGTCTTCATTGGTGGATTTCCAGACCTTCATGGGAAAATCCAGATGCCTGTACCAGTCAAGAATTTTACTGGCTGCATAGAAGTTATAGAAATAAATAACTGGAGATCTTTCATTCCATCCAAGGCAGTGAAAAACTATCACATTAACAATTGCAGATCCCAGGGATTTATGCTGTCTCCAACAGCCTCCTTTGTTGATGCTTCTGATGTGACACAAGGGGTTGATACCATGTGGACTTCTGTCAGCCCCTCTGTTGCAGCACCCTCTGTGTGCCAGCAGGATGTATGCCACAATGGAGGCACATGCCATGCCATCTTCCTCTCCAGTGGCATAGTGTCATTCCAATGTGACTGTCCACTACATTTCACTGGCCGCTTCTGTGAAAAAGATGCAGGTTTATTCTTTCCATCTTTCAATGGGAATTCCTATTTAGAACTGCCCTTTTTGAAGTTTGTCCTGGAGAAGGAACATAACAGAACTGTTACCATCTACTTGACTATAAAAACAAACAGTTTAAATGGAACTATTCTTTACAGTAATGGGAATAATTGTGGAAAGCAGTTTCTTCATTTATTTCTTGTGGAAGGAAGGCCATCAGTTAAATATGGGTGTGGAAATTCTCAAAATATTTTGACTGTTTCTGCTAATTACAGCATTAACACAAATGCATTCACCCCTATCACAATACGCTACACAACGCCTGTTGGCAGCCCTGGAGTTGTTTGTATGATTGAAATGACTGCAGATGGAAAACCTCCAGTACAGAAGAAAGACACAGAGATTTCCCATGCCTCTCAGGCATATTTTGAATCAATGTTCCTTGGCCATATTCCTGCAAATGTTCAAATTCATAAGAAAGCAGGTCCTGTTTATGGGTTCAGGGGCTGCATTCTAGACCTTCAAGTAAACAACAAAGAATTCTTCATCATCGATGAAGCACGACATGGAAAGAATATTGAGAACTGCCACGTCCCTTGGTGTGCTCATCATCTGTGCCGCAACAATGGCACCTGCATCAGTGATAATGAAAATCTGTTTTGTGAGTGTCCAAGGCTGTATTCAGGCAAGCTGTGCCAGTTTGCAAGTTGTGAAAACAACCCATGTGGAAATGGTGCCACCTGTGTTCCAAAATCCGGAACAGATATTGTCTGCCTCTGCCCATATGGGAGGTCTGGACCCCTCTGCACTGATGCTATTAATATTACTCAGCCAAGGTTCAGTGGCACAGATGCCTTTGGATACACCTCATTCCTGGCTTATTCACGGATCTCAGACATCAGCTTCCATTATGAATTCCACCTGAAGTTTCAGCTGGCAAACAACCACTCAGCACTGCAAAATAACTTGATATTTTTTACTGGACAGAAAGGCCATGGGTTGAATGGCGATGACTTCCTGGCTGTGGGCCTGCTCAATGGCAGTGTGGTTTATAGTTATAACCTGGGGTCTGGCATAGCAAGCATCAGGAGCGAGCCCCTCAATCTGAGCCTTGGAGTCCACACTGTTCATCTGGGCAAGTTCTTCCAAGAGGGCTGGCTGAAGGTAGATGATCATAAAAATAAATCCATTATCGCCCCAGGAAGACTGGTTGGTCTCAATGTCTTCAGTCAGTTTTATGTAGGTGGCTACAGTGAATACACTCCAGATCTCTTACCAAATGGAGCAGATTTTAAAAATGGTTTTCAAGGCTGTATTTTCACTCTTCAAGTTCGCACTGAGAAGGATGGCCATTTCAGAGGACTGGGAAATCCTGAGGGCCACCCAAATGCTGGACGCAGTGTTGGCCAGTGTCATGCTTCTCCCTGCAGTTTAATGAAATGTGGCAATGGTGGGACATGCATAGAGAGTGGAACTAGTGTTTACTGCAATTGTACCACTGGGTGGAAAGGATCATTCTGCACAGAGACAGTTTCTACCTGTGATCCTGAACATGACCCTCCACACCACTGTAGCAGAGGAGCAACCTGCATTTCATTACCTCATGGATACACCTGTTTCTGTCCTCTAGGAACCACTGGAATCTACTGTGAACAAGCACTTATCCTCATTGTGATCTTGGAAAAGCCAAAACCAGCAGAACGGAAAGTGAAGAAGGAGGCTTTATCCATAAGTGATCCATCTTTCAGAAGCAATGAGTTATCCTGGATGTCTTTTGCTTCCTTTCATGTTCGAAAAAAGACACATATTCAATTGCAGTTTCAGCCTCTCGCTGCAGATGGTATCCTATTTTATGCTGCACAACACTTAAAAGCCCAATCAGGTGATTTTTTATGCATCTCTTTAGTAAATAGTTCCGTTCAACTTCGCTACAACCTTGGCGACAGAACTATCATTCTAGAAACTCTCCAAAAAGTAACTATAAACGGAAGTACTTGGCATATAATAAAAGCAGGAAGAGTTGGTGCAGAAGGCTACCTGGATCTAGATGGGATAAATGTAACAGAAAAGGCCTCCACTAAAATGAGTTCTCTGGACACAAATACAGACTTCTATATTGGAGGAGTATCTTCTTTAAATCTTGTAAATCCCATGGCAATAGAAAATGAACCTGTAGGTTTTCAAGGCTGTATCCGACAAGTTATCATAAATAATCAAGAATTACAATTAACTGAATTTGGAGCAAAAGGTGGCTCAAATGTAGGTGACTGTGATGGGACAGCCTGTGGGTACAACACATGCAGAAATGGAGGTGAATGTACAGTAAATGGCACAACTTTTTCTTGCAGATGTTTGCCAGATTGGGCTGGAAATACATGTAACCAGTCTGTGTCCTGTTTGAATAATCTTTGCCTCCACCAATCTTTATGTATACCTGACCAATCATTTTCTTACAGTTGCCTGTGTACTTTGGGTTGGGTGGGAAGGTATTGTGAAAACAAAACTTCATTTTCAACTGCAAAATTTATGGGTAATTCTTACATTAAATACATTGATCCAAATTATAGAATGAGAAACCTCCAGTTCACTACTATATCCTTAAATTTCAGTACCACTAAAACAGAAGGTCTAATTGTATGGATGGGAATAGCTCAAAATGAAGAAAATGATTTTCTGGCAATTGGTCTCCATAATCAGACCTTGAAAATAGCAGTTAACTTGGGAGAAAGAATCTCTGTGCCTATGAGCTATAACAATGGCACATTCTGTTGTAATAAATGGCACCATGTAGTTGTAATTCAAAATCAGACTCTTATCAAGGCCTACATAAATAACAGTCTAATTCTTTCCGAGGATATTGATCCACATAAAAACTTTGTGGCTCTAAACTATGATGGCATTTGTTATCTAGGGGGCTTTGAATATGGTAGAAAGGTAAATATCGTTACTCAAGAGATTTTTAAAACCAATTTTGTTGGCAAAATTAAAGATGTTGTATTTTTTCAGGAACCAAAAAACATTGAACTAATTAAATTAGAAGGATACAATGTTTATGATGGAGATGAACAAAATGAGGTTACATAA-3'
NCBI CDS gene sequence with introns (location: 63720596.. 65495410) (1774815 bp)Download
NCBI CDS gene sequence with introns, 5'UTR and 3'UTR (location: 63719980.. 65707226) (1987247 bp)Download
NCBI gene sequence (location: [63719980.. 65707226 + 1000]) (1988247 bp)Download
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