2024-05-03 08:55:05, GGRNA.v2 : RefSeq release 222 (Jan, 2024)
LOCUS NM_001410822 6806 bp mRNA linear PRI 01-JAN-2023 DEFINITION Homo sapiens ATPase phospholipid transporting 10B (putative) (ATP10B), transcript variant 9, mRNA. ACCESSION NM_001410822 XM_011534472 VERSION NM_001410822.1 KEYWORDS RefSeq. SOURCE Homo sapiens (human) ORGANISM Homo sapiens Eukaryota; Metazoa; Chordata; Craniata; Vertebrata; Euteleostomi; Mammalia; Eutheria; Euarchontoglires; Primates; Haplorrhini; Catarrhini; Hominidae; Homo. REFERENCE 1 (bases 1 to 6806) AUTHORS Ishiguro M, Yoshino H, Li Y, Ikeda A, Funayama M, Nishioka K and Hattori N. TITLE Genetic analysis of ATP10B for Parkinson's disease in Japan JOURNAL Parkinsonism Relat Disord 88, 10-12 (2021) PUBMED 34091411 REMARK GeneRIF: Genetic analysis of ATP10B for Parkinson's disease in Japan. REFERENCE 2 (bases 1 to 6806) AUTHORS Martin S, Smolders S, Van den Haute C, Heeman B, van Veen S, Crosiers D, Beletchi I, Verstraeten A, Gossye H, Gelders G, Pals P, Hamouda NN, Engelborghs S, Martin JJ, Eggermont J, De Deyn PP, Cras P, Baekelandt V, Vangheluwe P and Van Broeckhoven C. CONSRTM BELNEU consortium TITLE Mutated ATP10B increases Parkinson's disease risk by compromising lysosomal glucosylceramide export JOURNAL Acta Neuropathol 139 (6), 1001-1024 (2020) PUBMED 32172343 REMARK GeneRIF: Mutated ATP10B increases Parkinson's disease risk by compromising lysosomal glucosylceramide export. REFERENCE 3 (bases 1 to 6806) AUTHORS Segawa K, Kurata S and Nagata S. TITLE Human Type IV P-type ATPases That Work as Plasma Membrane Phospholipid Flippases and Their Regulation by Caspase and Calcium JOURNAL J Biol Chem 291 (2), 762-772 (2016) PUBMED 26567335 REFERENCE 4 (bases 1 to 6806) AUTHORS Naito T, Takatsu H, Miyano R, Takada N, Nakayama K and Shin HW. TITLE Phospholipid Flippase ATP10A Translocates Phosphatidylcholine and Is Involved in Plasma Membrane Dynamics JOURNAL J Biol Chem 290 (24), 15004-15017 (2015) PUBMED 25947375 REFERENCE 5 (bases 1 to 6806) AUTHORS Takatsu H, Baba K, Shima T, Umino H, Kato U, Umeda M, Nakayama K and Shin HW. TITLE ATP9B, a P4-ATPase (a putative aminophospholipid translocase), localizes to the trans-Golgi network in a CDC50 protein-independent manner JOURNAL J Biol Chem 286 (44), 38159-38167 (2011) PUBMED 21914794 REMARK Erratum:[J Biol Chem. 2015 Jan 9;290(2):886] REFERENCE 6 (bases 1 to 6806) AUTHORS Schmutz J, Martin J, Terry A, Couronne O, Grimwood J, Lowry S, Gordon LA, Scott D, Xie G, Huang W, Hellsten U, Tran-Gyamfi M, She X, Prabhakar S, Aerts A, Altherr M, Bajorek E, Black S, Branscomb E, Caoile C, Challacombe JF, Chan YM, Denys M, Detter JC, Escobar J, Flowers D, Fotopulos D, Glavina T, Gomez M, Gonzales E, Goodstein D, Grigoriev I, Groza M, Hammon N, Hawkins T, Haydu L, Israni S, Jett J, Kadner K, Kimball H, Kobayashi A, Lopez F, Lou Y, Martinez D, Medina C, Morgan J, Nandkeshwar R, Noonan JP, Pitluck S, Pollard M, Predki P, Priest J, Ramirez L, Retterer J, Rodriguez A, Rogers S, Salamov A, Salazar A, Thayer N, Tice H, Tsai M, Ustaszewska A, Vo N, Wheeler J, Wu K, Yang J, Dickson M, Cheng JF, Eichler EE, Olsen A, Pennacchio LA, Rokhsar DS, Richardson P, Lucas SM, Myers RM and Rubin EM. TITLE The DNA sequence and comparative analysis of human chromosome 5 JOURNAL Nature 431 (7006), 268-274 (2004) PUBMED 15372022 REFERENCE 7 (bases 1 to 6806) AUTHORS Halleck MS, Lawler JF JR, Blackshaw S, Gao L, Nagarajan P, Hacker C, Pyle S, Newman JT, Nakanishi Y, Ando H, Weinstock D, Williamson P and Schlegel RA. TITLE Differential expression of putative transbilayer amphipath transporters JOURNAL Physiol Genomics 1 (3), 139-150 (1999) PUBMED 11015572 REMARK Publication Status: Online-Only COMMENT VALIDATED REFSEQ: This record has undergone validation or preliminary review. The reference sequence was derived from AC011363.6, AC008456.6 and AC008388.7. On Aug 16, 2022 this sequence version replaced XM_011534472.3. ##Evidence-Data-START## Transcript exon combination :: SRR11853562.26661.1, SRR11853565.24095.1 [ECO:0000332] RNAseq introns :: mixed sample support SAMEA1966682, SAMEA1968540 [ECO:0006172] ##Evidence-Data-END## PRIMARY REFSEQ_SPAN PRIMARY_IDENTIFIER PRIMARY_SPAN COMP 1-557 AC011363.6 47518-48074 c 558-762 AC011363.6 33146-33350 c 763-848 AC011363.6 11854-11939 c 849-955 AC008456.6 54740-54846 956-1087 AC008456.6 58392-58523 1088-1215 AC008456.6 62675-62802 1216-1468 AC008456.6 64378-64630 1469-1707 AC008456.6 66617-66855 1708-1899 AC008456.6 76399-76590 1900-2503 AC008456.6 78034-78637 2504-2613 AC008456.6 81011-81120 2614-2740 AC008456.6 83020-83146 2741-2925 AC008456.6 86059-86243 2926-3247 AC008456.6 91898-92219 3248-3324 AC008456.6 94943-95019 3325-3450 AC008456.6 96282-96407 3451-3651 AC008456.6 100014-100214 3652-3732 AC008456.6 107845-107925 3733-3837 AC008456.6 109288-109392 3838-4025 AC008388.7 120055-120242 c 4026-6806 AC008388.7 113679-116459 c FEATURES Location/Qualifiers source 1..6806 /organism="Homo sapiens" /mol_type="mRNA" /db_xref="taxon:9606" /chromosome="5" /map="5q34" gene 1..6806 /gene="ATP10B" /gene_synonym="ATPVB" /note="ATPase phospholipid transporting 10B (putative)" /db_xref="GeneID:23120" /db_xref="HGNC:HGNC:13543" /db_xref="MIM:619791" exon 1..557 /gene="ATP10B" /gene_synonym="ATPVB" /inference="alignment:Splign:2.1.0" misc_feature 163..165 /gene="ATP10B" /gene_synonym="ATPVB" /note="upstream in-frame stop codon" CDS 172..4473 /gene="ATP10B" /gene_synonym="ATPVB" /EC_number="7.6.2.1" /note="isoform 6 is encoded by transcript variant 9; probable phospholipid-transporting ATPase VB; P4-ATPase flippase complex alpha subunit ATP10B; ATPase, class V, type 10B" /codon_start=1 /product="phospholipid-transporting ATPase VB isoform 6" /protein_id="NP_001397751.1" /db_xref="CCDS:CCDS93811.1" /db_xref="GeneID:23120" /db_xref="HGNC:HGNC:13543" /db_xref="MIM:619791" /translation="
MKKEGRKRWKRKEDKKRVVVSNLLFEGWSHKENPNRHHRGNQIKTSKYTVLSFVPKNIFEQLHRFANLYFVGIAVLNFIPVVNAFQPEVSMIPICVILAVTAIKDAWEDLRRYKSDKVINNRECLIYSRKEQTYVQKCWKDVRVGDFIQMKCNEIVPADILLLFSSDPNGICHLETASLDGETNLKQRCVVKGFSQQEVQFEPELFHNTIVCEKPNNHLNKFKGYMEHPDQTRTGFGCESLLLRGCTIRNTEMAVGIVIYAGHETKAMLNNSGPRYKRSKIERRMNIDIFFCIGILILMCLIGAVGHSIWNGTFEEHPPFDVPDANGSFLPSALGGFYMFLTMIILLQVLIPISLYVSIELVKLGQVFFLSNDLDLYDEETDLSIQCRALNIAEDLGQIQYIFSDKTGTLTENKMVFRRCTIMGSEYSHQENAKRLETPKELDSDGEEWTQYQCLSFSARWAQDPATMRSQKGAQPLRRSQSARVPIQGHYRQRSMGHRESSQPPVAFSSSIEKDVTPDKNLLTKVRDAALWLETLSDSRPAKASLSTTSSIADFFLALTICNSVMVSTTTEPRQRVTIKPSSKALGTSLEKIQQLFQKLKLLSLSQSFSSTAPSDTDLGESLGANVATTDSDERDDASVCSGGDSTDDGGYRSSMWDQGDILESGSGTSLEEALEAPATDLARPEFCYEAESPDEAALVHAAHAYSFTLVSRTPEQVTVRLPQGTCLTFSLLCTLGFDSVRKRMSVVVRHPLTGEIVVYTKGADSVIMDLLEDPACVPDINMEKKLRKIRARTQKHLDLYARDGLRTLCIAKKVVSEEDFRRWASFRREAEASLDNRDELLMETAQHLENQLTLLGATGIEDRLQEGVPDTIATLREAGIQLWVLTGDKQETAVNIAHSCRLLNQTDTVYTINTENQETCESILNCALEELKQFRELQKPDRKLFGFRLPSKTPSITSEAVVPEAGLVIDGKTLNAIFQGKLEKKFLELTQYCRSVLCCRSTPLQKSMIVKLVRDKLRVMTLSIGDGANDVSMIQAADIGIGISGQEGMQAVMSSDFAITRFKHLKKLLLVHGHWCYSRLARMVVYYLYKNVCYVNLLFWYQFFCGFSSSTMIDYWQMIFFNLFFTSLPPLVFGVLDKDISAETLLALPELYKSGQNSECYNLSTFWISMVDAFYQSLICFFIPYLAYKGSDIDVFTFGTPINTISLTTILLHQAMEMKTWTIFHGVVLLGSFLMYFLVSLLYNATCVICNSPTNPYWVMEGQLSNPTFYLVCFLTPVVALLPRYFFLSLQGTCGKSLISKAQKIDKLPPDKRNLEIQSWRSRQRPAPVPEVARPTHHPVSSITGQDFSASTPKSSNPPKRKHVEESVLHEQRCGTECMRDDSCSGDSSAQLSSGEHLLGPNRIMAYSRGQTDMCRCSKRSSHRRSQSSLTI"
misc_feature 289..3726 /gene="ATP10B" /gene_synonym="ATPVB" /note="Aminophospholipid translocases (APLTs), similar to Saccharomyces cerevisiae Dnf1-3p, Drs2p, and human ATP8A2, -10D, -11B, -11C; Region: P-type_ATPase_APLT_Dnf-like; cd02073" /db_xref="CDD:319770" misc_feature order(1384..1392,2383..2385,2455..2463,2689..2691, 2830..2838,3172..3174,3181..3183,3190..3192,3250..3252, 3259..3261) /gene="ATP10B" /gene_synonym="ATPVB" /note="putative ATP binding site [chemical binding]; other site" /db_xref="CDD:319770" exon 558..762 /gene="ATP10B" /gene_synonym="ATPVB" /inference="alignment:Splign:2.1.0" exon 763..848 /gene="ATP10B" /gene_synonym="ATPVB" /inference="alignment:Splign:2.1.0" exon 849..955 /gene="ATP10B" /gene_synonym="ATPVB" /inference="alignment:Splign:2.1.0" exon 956..1087 /gene="ATP10B" /gene_synonym="ATPVB" /inference="alignment:Splign:2.1.0" exon 1088..1215 /gene="ATP10B" /gene_synonym="ATPVB" /inference="alignment:Splign:2.1.0" exon 1216..1468 /gene="ATP10B" /gene_synonym="ATPVB" /inference="alignment:Splign:2.1.0" exon 1469..1707 /gene="ATP10B" /gene_synonym="ATPVB" /inference="alignment:Splign:2.1.0" exon 1708..1899 /gene="ATP10B" /gene_synonym="ATPVB" /inference="alignment:Splign:2.1.0" exon 1900..2503 /gene="ATP10B" /gene_synonym="ATPVB" /inference="alignment:Splign:2.1.0" exon 2504..2613 /gene="ATP10B" /gene_synonym="ATPVB" /inference="alignment:Splign:2.1.0" exon 2614..2740 /gene="ATP10B" /gene_synonym="ATPVB" /inference="alignment:Splign:2.1.0" exon 2741..2925 /gene="ATP10B" /gene_synonym="ATPVB" /inference="alignment:Splign:2.1.0" exon 2926..3247 /gene="ATP10B" /gene_synonym="ATPVB" /inference="alignment:Splign:2.1.0" exon 3248..3324 /gene="ATP10B" /gene_synonym="ATPVB" /inference="alignment:Splign:2.1.0" exon 3325..3450 /gene="ATP10B" /gene_synonym="ATPVB" /inference="alignment:Splign:2.1.0" exon 3451..3651 /gene="ATP10B" /gene_synonym="ATPVB" /inference="alignment:Splign:2.1.0" exon 3652..3732 /gene="ATP10B" /gene_synonym="ATPVB" /inference="alignment:Splign:2.1.0" exon 3733..3837 /gene="ATP10B" /gene_synonym="ATPVB" /inference="alignment:Splign:2.1.0" exon 3838..4025 /gene="ATP10B" /gene_synonym="ATPVB" /inference="alignment:Splign:2.1.0" exon 4026..6806 /gene="ATP10B" /gene_synonym="ATPVB" /inference="alignment:Splign:2.1.0" regulatory 6775..6780 /regulatory_class="polyA_signal_sequence" /gene="ATP10B" /gene_synonym="ATPVB" /note="hexamer: AATAAA" polyA_site 6806 /gene="ATP10B" /gene_synonym="ATPVB" /note="major polyA site" ORIGIN
acacctgttctctgcaggctctttccttgtcatgtttctcccctggggtttgcagcctggcttttcatttttagtatccttctgaaagaagagagaaaaattttcagcaaagaaggcaagtaaaagatgaaaattaaattatgagaattaaaaagacaacattgagcagagatgaaaaaggaagggaggaaaaggtggaaaagaaaagaagacaagaagcgagtagtggtctctaacttgctctttgaaggatggtctcacaaagagaaccccaacagacatcatcgtgggaatcaaatcaagaccagcaagtacaccgtgttgtccttcgtccccaaaaacatttttgagcagctacaccggtttgccaatctctattttgtgggcattgcggttctgaattttatccctgtggtcaatgctttccagcctgaggtgagcatgataccaatctgtgttatcctggcagtcactgccatcaaggacgcttgggaagacctccggaggtacaaatcggataaagtcatcaataaccgagagtgcctcatctacagcagaaaagagcagacctatgtgcagaagtgctggaaggatgtgcgcgtgggagacttcatccaaatgaaatgcaatgagattgtcccagcagacatactcctccttttttcctctgaccccaatgggatatgccatctggaaactgccagcttggatggagagacaaacctcaagcaaagatgtgtcgtgaagggcttctcacagcaggaggtacagttcgaaccagagcttttccacaataccatcgtgtgtgagaaacccaacaaccacctcaacaaatttaagggttatatggagcatcctgaccagaccaggactggctttggctgtgagagtcttctgcttcgaggctgcaccatcagaaacaccgagatggctgttggcattgtcatctatgcaggccatgagacgaaagccatgctgaacaacagtggcccccggtacaaacgcagcaagattgagcggcgcatgaatatagacatcttcttctgcattgggatcctcatcctcatgtgccttattggagctgtaggtcacagcatctggaatgggacctttgaagaacaccctcccttcgatgtgccagatgccaatggcagcttccttcccagtgcccttgggggcttctacatgttcctcacaatgatcatcctgctccaggtgctgatccccatctctttgtatgtctccattgagctggtgaagctcgggcaagtgttcttcttgagcaatgaccttgacctgtatgatgaagagaccgatttatccattcaatgtcgagccctcaacatcgcagaggacttgggccagatccagtacatcttctccgataagacggggaccctgacagagaacaagatggtgttccgacgttgcaccatcatgggcagcgagtattctcaccaagaaaatgctaagcgactggagaccccaaaggagctggactcagatggtgaagagtggacccaataccaatgcctgtccttctcggctagatgggcccaggatccagcaactatgagaagccaaaaaggtgctcagcctctgaggaggagccagagtgcccgggtgcccatccagggccactaccggcaaaggtctatggggcaccgtgaaagctcacagcctcctgtggccttcagcagctccatagaaaaagatgtaactccagataaaaacctactgaccaaggttcgagatgctgccctgtggttggagaccttgtcagacagcagacctgccaaggcttccctctccaccacctcctccattgctgatttcttccttgccttaaccatctgcaactctgtcatggtgtccacaaccaccgagcccaggcagagggtcaccatcaaaccctcaagcaaggctctggggacgtccctggagaagattcagcagctcttccagaagttgaagctattgagcctcagccagtcattctcatccactgcaccctctgacacagacctcggggagagcttaggggccaacgtggccaccacagactcggatgagagagatgatgcatctgtgtgcagtggaggtgactccactgatgacggtggctacaggagcagcatgtgggaccagggcgacatcctggagtctgggtcaggcacttccttggaggaggcattggaggccccagccacagacctggccaggcctgagttctgttacgaggctgagagccctgatgaggccgccctggtgcacgctgcccatgcctacagcttcacactagtgtcccggacacctgagcaggtgactgtgcgcctgccccagggcacctgcctcaccttcagcctcctctgcaccctgggctttgactctgtcaggaagagaatgtctgtggttgtgaggcacccactgactggcgagattgttgtctacaccaagggtgctgactcggtcatcatggacctgctggaagacccagcctgcgtacctgacattaatatggaaaagaagctgagaaaaatccgagcccggacccaaaagcatctagacttgtatgcaagagatggcctgcgcacactatgcattgccaagaaggttgtaagcgaagaggacttccggagatgggccagtttccggcgtgaggctgaggcatccctcgacaaccgagatgagcttctcatggaaactgcacagcatctggagaatcaactcaccttacttggagccactgggatcgaagaccggctgcaggaaggagttccagatacgattgccactctgcgggaggctgggatccagctctgggtcctgactggagataagcaggagacagcggtcaacattgcccattcctgcagactgttaaatcagaccgacactgtttataccatcaatacagagaatcaggagacctgtgaatccatcctcaattgtgcattggaagagctaaagcaatttcgtgaactacagaagccagaccgcaagctctttggattccgcttaccttccaagacaccatccatcacctcagaagctgtggttccagaagctggattggtcatcgatgggaagacattgaatgccatcttccagggaaagctagagaagaagtttctggaattgacccagtattgtcggtccgtcctgtgctgccgctccacgccactccagaagagtatgatagtcaagctggtgcgagacaagttgcgcgtcatgaccctttccataggtgatggagcaaatgatgtaagcatgattcaagctgctgatattggaattggaatatctggacaggaaggcatgcaggctgtcatgtccagcgactttgccatcacccgctttaagcatctcaagaagttgctgctcgtgcatggccactggtgttactcgcgcctggccaggatggtggtgtactacctctacaagaacgtgtgctacgtcaacctgctcttctggtatcagttcttctgtggtttctccagctccaccatgattgattactggcagatgatattcttcaatctcttctttacctccttgcctcctcttgtctttggagtccttgacaaagacatctctgcagaaacactcctggcattgcctgagctatacaagagtggccagaactctgagtgctataacctgtcgactttctggatttctatggtggatgcattctaccagagcctcatctgtttctttatcccttacctggcctataagggctctgatatagatgtctttacctttgggacaccaatcaacaccatctccctcaccacaatccttttgcaccaggcaatggaaatgaagacatggaccattttccacggagtcgtgctcctcggcagcttcctgatgtactttctggtatccctcctgtacaatgccacctgcgtcatctgcaacagccccaccaatccctattgggtgatggaaggccagctctcaaaccccactttctacctcgtctgctttctcacaccagttgttgctcttctcccaagatactttttcctgtctctgcaaggaacttgtgggaagtctctaatctcaaaagctcagaaaattgacaaactccccccagacaaaagaaacctggaaatccagagttggagaagcagacagaggcctgcccctgtccccgaagtggctcgaccaactcaccacccagtgtcatctatcacaggacaggacttcagtgccagcaccccaaagagctctaaccctcccaagaggaagcatgtggaagagtcagtactccacgaacagagatgtggcacggagtgcatgagggatgactcatgctcaggggactcctcagctcaactctcatccggggagcacctgctgggacctaacaggataatggcctactcaagaggacagactgatatgtgccggtgctcaaagaggagcagccatcgccgatcccagagttcactgaccatatgaggagctgcagaaatctgtacaaactcaacagaggccacctagtcactggtccacataacccttgaccccttcttcttcatagaggaaacaatgtgccagtcttattcttttcttcaacaaccttgacttccatggaggaagtgctggccccaaggggtctgacacaaagacgggaaacccagtcggcctctagttttctgctgctctcaggcagcacatcttgcaaacagtttggagaaggaggctgtttttgttgaatcgagttctcaaatcggtttagaccaaagccattcttctgaccctctagataagcgtagcctacaacccagtgccgtaagtttccaagattcaagaagtgtatcaacccaggcaatatctcaggatatggaagtttctgggtttatttacccctcagtgcccagagttaaagtttcagaagagacttgtgcacataagggcttcatctcaagtgtattgcagtaatggctgaatcggggttaacatcccttccaggcacagcgagttggttctgctttttgcctgtaagccaaagaaaagccacatctaaaaagctactactaaaagccagaaagaaaagtggatttgaactcagtgtcacagactcttctgagtgttttagggtcacagctagtgtaagaggcatgaagaatagacatgcaaaagggaacgggtgcaccagagacccctgttttggctgacagaccatatgtcccaccagctggggaatctgacaagaggacataggtggcactctttttttaaagctatttattgtatctatttttaaataaaattgcccatcctcattcagctcttagaacaaaagcaaaaaaccctgtaaatcaggagatataagcacatctgcacccagaataggcccatatgatagggcaaccctgagcttaaacaatgacatcttcaagggtagaactaatctgaaaccccattcagcctattccagaatggggataggctgaaacccccttccagcctctggaagacactggcctgcatcagttagagtcagagcaagtgtcacttcacagggaaaagaaggattatatagacttcctatccctagagtttataaatgtcaactatataaaaaaagctcaaaacagtgttaaaggaatgaacagtagaattttaataggctgtccaaagaagccaggtctgctgtgggcaagtatagcctaaccctagtcttgtaaaataagccagaaagggttactgagccaccttaagctagtacctatatagtaggcaaaaagtacagaaatagatgcaataagtgtggtgagtctttgagcctacgagtcatgccaccagccataagttgacctatcacttgagaacctcctcagcaaagatgccagaaaacattcaatcaagttggcaaatgacacagggagctggccctctgaccatcttcctggcaaacctggactggaagggccatttgcagcactgtcctggagctaatacactgtttcactgcctctgccatataatgatgccagcactagccagctggtgggtatttggaggaatcctgcatgaggattgcccaataaggggcaggtacacatacctggcaaagtgatgatgatgtgaattgtttccagtgaggggattgagtcaaaacttggatctcaggtacctcaatttttcccccaatttctggctactactaaaagccagaaagaacagaacagtggcctcaggagatctgagtttgaatccttgctctctaggatgcaggtggcttgaagcagaatgccacacctgcaagttgattagaactgcctttcttcccaggcttgacataggtattaagtcaaaattacatgaaacccagtggtaaaaaagcctctgaaagctgtaacaccctcagtaataacaaaagggatttttatttcacagctaaagggaaaataggtggagaagttaaaaaataatgtctgatcctgttcctaagttccaaactatagccaacactctgatgctgctctttttcttgtaggaccaaccgtcccagtttgcctgggactttctcatttttacagagtcccaaatcctaggaaactggagcaactggtacaactggtcacctactcttgcccctctgtaaatcaagccaactgtgaccatccaatgtgccatcttacagggaaaagttataaccactattcccctataacataatgctaatgattgtacttagtacatttttatacttttatgatattttactgattggaaatgtcatcctttattaaaaataaacatggttttccatagttgcctgccaa
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If you use GGRNA in your work, please cite:
Naito Y, Bono H. (2012)
GGRNA: an ultrafast, transcript-oriented search engine for genes and transcripts.
Nucleic Acids Res., 40, W592-W596.
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