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2024-09-08 09:50:13, GGRNA.v2 : RefSeq release 225 (Jul, 2024)

LOCUS       XM_054559084            3560 bp    mRNA    linear   PRI 06-MAR-2024
DEFINITION  PREDICTED: Pongo abelii claudin 12 (CLDN12), transcript variant X1,
            mRNA.
ACCESSION   XM_054559084
VERSION     XM_054559084.2
DBLINK      BioProject: PRJNA944618
KEYWORDS    RefSeq.
SOURCE      Pongo abelii (Sumatran orangutan)
  ORGANISM  Pongo abelii
            Eukaryota; Metazoa; Chordata; Craniata; Vertebrata; Euteleostomi;
            Mammalia; Eutheria; Euarchontoglires; Primates; Haplorrhini;
            Catarrhini; Hominidae; Pongo.
COMMENT     MODEL REFSEQ:  This record is predicted by automated computational
            analysis. This record is derived from a genomic sequence
            (NC_071991) annotated using gene prediction method: Gnomon,
            supported by mRNA evidence.
            Also see:
                Documentation of NCBI's Annotation Process
            
            On Mar 6, 2024 this sequence version replaced XM_054559084.1.
            
            ##Genome-Annotation-Data-START##
            Annotation Provider         :: NCBI RefSeq
            Annotation Status           :: Full annotation
            Annotation Name             :: GCF_028885655.2-RS_2024_02
            Annotation Pipeline         :: NCBI eukaryotic genome annotation
                                           pipeline
            Annotation Software Version :: 10.2
            Annotation Method           :: Best-placed RefSeq; Gnomon;
                                           cmsearch; tRNAscan-SE
            Features Annotated          :: Gene; mRNA; CDS; ncRNA
            Annotation Date             :: 02/27/2024
            ##Genome-Annotation-Data-END##
FEATURES             Location/Qualifiers
     source          1..3560
                     /organism="Pongo abelii"
                     /mol_type="mRNA"
                     /isolate="AG06213"
                     /db_xref="taxon:9601"
                     /chromosome="6"
                     /sex="male"
                     /tissue_type="fibroblast"
     gene            1..3560
                     /gene="CLDN12"
                     /gene_synonym="Claudin-12"
                     /note="claudin 12; Derived by automated computational
                     analysis using gene prediction method: Gnomon. Supporting
                     evidence includes similarity to: 1 mRNA, 107 long SRA
                     reads, 9 Proteins"
                     /db_xref="GeneID:100174503"
     CDS             278..1012
                     /gene="CLDN12"
                     /gene_synonym="Claudin-12"
                     /codon_start=1
                     /product="claudin-12 isoform X1"
                     /protein_id="XP_054415059.1"
                     /db_xref="GeneID:100174503"
                     /translation="
MGCRDVHAATVLSFLCGIASVAGLFAGTLLPNWRKLRLITFNRNEKNLTVYTGLWVKCARYDGSSDCLMYDTTWYSSVDQLDLRVLQFALPLSMLIAMGALLLCLIGMCNTAFRSSVPNIKLAKCLVNSAGCHLVAGLLFFLAGTVSLSPSIWVIFYNIHLNKKFEPVFSFDYAVYVTIASAGGLFMTSLILFIWYCTCKSLPSPFWQPLYSHPPSMHTYSQPYSARSRLSAIEIDIPVVSHTT"
     polyA_site      3560
                     /gene="CLDN12"
                     /gene_synonym="Claudin-12"
                     /experiment="COORDINATES: polyA evidence [ECO:0006239]"
ORIGIN      

gaagcctccggtgtacttcgctgggaacgcacttcctgggacgctgagagggagacgctccaagaggctcctcagtgtgggcgagtaaaatgccctgcgtgtgagaagcaggctcagattattgctactctgtattcagatctgcatgtgtttcttctaagctgaataaagctgttttggaactgtcaggtacctcaaaggatgaagaaaacgaggcacagggaagttctgaatctggcccaagtctgactgacagcactccacaagcttgcctgccatgggctgtcgggatgtccacgcagccacagtcctttccttcctgtgtggaatcgcctcagtagcaggcctctttgcagggactctgcttcccaactggagaaaattacgattgatcacattcaacagaaacgagaagaacctgactgtttacacaggcctgtgggtgaaatgtgcccggtatgacgggagcagtgactgcctgatgtacgacactacttggtactcatcagttgaccagctggacctgcgtgtcctccagtttgccctacctctcagcatgctgatcgccatgggtgccctgctgctgtgcctgattggaatgtgcaacactgccttcaggtcctcagtgcccaacatcaaactggccaagtgtctggtcaatagtgcaggttgccacctggtggctgggctgctgtttttcctggcaggtactgtgagcctctcgccatctatctgggtcatcttttataacatccatctgaacaagaagtttgagccagtcttttcatttgactatgcagtgtatgtcactattgctagtgctgggggcctgtttatgacttcccttatactgtttatttggtattgtacatgcaaatctttgccttctcctttctggcaaccattgtactcccatccacccagtatgcatacttactcacagccctattcagcacgctctcgcctctctgccattgaaattgacattccagtagtttcacacaccacttaatggggaaatagttaattgttaaagaaaacttcttgtagcctcacattccccttgtgcaaagagctcttttggacctacatacattttcctttgtttttgaccaatcaatgaagccaaatttgtatgtcctagtagaatgaagtgctgctagtttttatgagaagtacattatattaaatgtgaatttttttaattttgcttcttatactggaaggaattttagccttcatattgatatctaattaattatttaagtggaagaggcctgcatcacaattgaggtaatttagagcaacatgttaaagaatgatggttagcagaagctgttgtataccatcttcatgaatatttcagtgtgtatttttctttttctataatacctttaactgcaaagaaaaggcagtttcaaatataagaaatttatttcaggtaagggtaatattttaatagtagtcaataatctagcttaaggctgtaactcttctcttggggctaattgtatgaataggtgtcagtatgttgaagattactttcttttgtgactttcttctacctcatgccagtgtttaaaagtaaaatgtattttaaatgatgttagaataagactaccattctaaatatcacctacttatgaataacatgtaataatttttaacattaatgattccataaattgtattattggggttagaatgtgctttatgacaggttagtgtttcctctgaggcagaaaactcttttttggagatatcatccatcaagcagtactcgtgcccatatgcaatctcttagtggctaagagaaataaataaaagggccataatggtttgttctctttcagacataatttagtaggggacaagaagtctgttcttcagtgactacactagagatttactctggtgactgccttttgagttatgggtgaagtaaggtatggctttaccataaccttgattcattcacccttgatgcatttctcgcccccatcactgattatttccttgagcatatatttttgcctaactaacactttagtaggtgctatagaggatacatgaaaagtatgagatctggtcccatccagtaagacattttaatagagaagatcaaaatgttacctgacagttggggaataatctgacttcattgtcagttggccttaacttcttaatcattgatccaggaatatttcaaccagagacacaagtttctgtcagacagacaaattgtacaacaccaacaatatcctggaccttgaaattctgtttacttcagtccattgtatccttaaggcacctgtgctagcctagattttgtaataacactgatttatgagaatgggcaaaagtggtagggaaattgttccctctccacttctgaaagtatgatgatgtattaaggatggaggagttattaaaaatgtctcttctgatgaggtaacaattagatgaaaccatgttaaaactgagatgaacacttagaaattcagggatattgggtcgttagccttatgaatttgagctgcttatttaattggtgtaatttgctacatattagtactatattcataaggattttttattaaccattgcagattttacaaacagctagttatatggtaaacagattattatgcctttttgcaattctgaatatgattctagtatttgtgtagatgtatttggtactttttcccctaattccaacactagtttatatatagagcaaataaatctagttgtataaatttttaaatgccgtcagtagaaagcacacaaggttatgatttttttaattactggcttctgatttctttcacttctgatccttttcgtttttctcagatgtagctgagtcttgatcattttaagacaacgatgggtagaattttgagattaatattaattttttccctttttgttaatttcagtcccctctcactatgcttttgtccagaaggatcaagaattctaccatcccttgggtctttgtgtataaacaatgttaaataaaggtagactcagtctttaacatattagacagttttttagtccatgggattgtaaatataaacattaactttcctataagaatcttttggctttgtaatctatagcctcaaattggtatttattatggattcactagacaaacagctgtttccttattgtcttttttctttagtgtttctgatttgctatcagtagctatttttaaagccatcaaaggaaaataattatttacagtttttgaagtcacttttgagccctcatcaagctctcattgtgatgggagggatacctttttgttgttaaaagcctattattgttaaaggccttttatggaaaccaacttggaaaacaaccttaaacgtggatgtatcagatttggtttatccagccgtgggagagaaaacaaacctaagtttactttacttgtacatatacactacaatggatagtatatttgctgtaaactacaatgtaaaacctcaataaaagtgcactgtacttcttaatgtttattaaaagatgtatttttacaa
//

by @meso_cacase at DBCLS
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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. [Full Text]