2024-11-15 19:45:15, GGRNA.v2 : RefSeq release 226 (Sep, 2024)
LOCUS NM_001005709 2814 bp mRNA linear VRT 28-OCT-2016 DEFINITION Xenopus tropicalis claudin 3 (cldn3), mRNA. ACCESSION NM_001005709 VERSION NM_001005709.1 KEYWORDS RefSeq. SOURCE Xenopus tropicalis (tropical clawed frog) ORGANISM Xenopus tropicalis Eukaryota; Metazoa; Chordata; Craniata; Vertebrata; Euteleostomi; Amphibia; Batrachia; Anura; Pipoidea; Pipidae; Xenopodinae; Xenopus; Silurana. REFERENCE 1 (bases 1 to 2814) AUTHORS Klein SL, Strausberg RL, Wagner L, Pontius J, Clifton SW and Richardson P. TITLE Genetic and genomic tools for Xenopus research: The NIH Xenopus initiative JOURNAL Dev. Dyn. 225 (4), 384-391 (2002) PUBMED 12454917 COMMENT PROVISIONAL REFSEQ: This record has not yet been subject to final NCBI review. The reference sequence was derived from BC075291.1. ##Evidence-Data-START## Transcript exon combination :: BC075291.1 [ECO:0000332] ##Evidence-Data-END## FEATURES Location/Qualifiers source 1..2814 /organism="Xenopus tropicalis" /mol_type="mRNA" /db_xref="taxon:8364" /chromosome="2" /map="2" gene 1..2814 /gene="cldn3" /gene_synonym="claudin-3; cpe-r2; cpetr2; hrvp1; rvp1" /note="claudin 3" /db_xref="GeneID:448229" /db_xref="Xenbase:XB-GENE-972426" misc_feature 331..333 /gene="cldn3" /gene_synonym="claudin-3; cpe-r2; cpetr2; hrvp1; rvp1" /note="upstream in-frame stop codon" CDS 352..993 /gene="cldn3" /gene_synonym="claudin-3; cpe-r2; cpetr2; hrvp1; rvp1" /codon_start=1 /product="claudin-3" /protein_id="NP_001005709.1" /db_xref="GeneID:448229" /db_xref="Xenbase:XB-GENE-972426" /translation="
MSMGLEILGVALSIVGWLGTVISCALPMWRVTAFIGNNIVVAQTIWEGLWMNCVVQSTGQMQCKMYDSLLALPQDLQAARALMVISIVIAVLGVLISIIGAKCTNCVQDESAKAKIMIVSGVIFILSGLMTLIPVSWSANTIIRDFYNPLVVDAQKRELGSSMYIGWAASALLMLGGAMLCCSCPPKEKYPTSRVAYSAARSTNPGYDRKDYV"
misc_feature 358..891 /gene="cldn3" /gene_synonym="claudin-3; cpe-r2; cpetr2; hrvp1; rvp1" /note="PMP-22/EMP/MP20/Claudin family; Region: PMP22_Claudin; cl21598" /db_xref="CDD:473919" ORIGIN
cgcctatttacctgaaggacattctctactgggcagcctgggcactcatccaagcagagcagccaaccagatacagggttgaacaagtcagtgcaccagtacaggcaacctcacagacacagaggaaacagaaccacaagaaactctgaagctggagacaagagtcataggcagtatatttcaacagagacttcactacaaagggtaccttaacagagacatcaggctcaacagactgccaaagatcaattaaagtggtttctgaaggaaatagttcatctagcagctgtttctctaagaatcatcatctggtcatcttcaacaccgtcctgacatctcttacctgtcaacatgtctatgggactagagattctaggtgtggcgctttctatcgttggctggctaggaactgtgattagctgcgctctacctatgtggagggtaaccgcattcattggtaacaacattgtggtggcccagaccatttgggaaggactatggatgaactgtgtggtgcagagcacagggcaaatgcagtgcaaaatgtacgactccctcttagctcttcctcaagacctccaagcagctcgcgccctgatggtgatctccattgtcattgctgtgctgggagttctcatatccatcattggtgccaagtgcactaattgtgtccaggatgagtcagccaaggccaaaattatgatcgtttctggagttatctttatcctttctggccttatgacacttatccctgtgtcctggtctgcaaacactattatccgtgatttctacaatcctttggtagtggatgcacaaaagagagagcttggctcctcaatgtacattggatgggcagcctctgctcttcttatgcttgggggagcaatgctctgctgttcttgccccccaaaagagaagtaccctacttcaagggtggcttattcagctgccaggtcaacaaatcctggttatgacagaaaagactatgtctgaaatggacattctgggtccttatgaaggactgaagggactgtcttgtattggacttgtgacaagcaaaagggagcaaaaggaagaagttaccccctccataaactaacatttacaattattcctctaggtactgcatttgttgatatttgttatatatatgctatatattattttagatgtattgccccttttgactgcacagtgtgcatttgttgtgttagtgtttgaatgtgcactgtaaagatattaatgttttccattgccgtggcatttgtagaatattcttgaacagggaggggcattcggtggcagagatgaggtggctgtactgcattaaccgtttccataaatgcagcttactttcttttgtctaaatacaaagcattacactgctctatccattgatatttcattatccatggaaacctcccattagatactgatgcaataccattcccaaattaggcaatattattgattactgcaagatgatatatttaattattctcatggatgaattttgcatttggacctgttttgttgctagtagaatctgatggtctatactttgtttccaacaatagagataatgcatcagttttacagtaaaccaactgtctgccttctgtttcatgtctgtttgttctttgttttgctcctcctcctgtcccctttcttactgtaggttacatgtcaggttggaatttgacccatttcctctctattggctcctagttttccctgcagattgtatagtaaggcagtgttaccttctcattatctcagatttgaaacacaacccatcccttgtctagctttgtgtaaatattcctgcagagtggggtcaaactacctgttttttaggagttactttaagcttgagcgtggcatattaacagtattcttgttaatggataacagcccagatatagcacttctcactagcagtacctatggtgttagatatggcactggaatgttaactctgccccttatacgcaagaatacacttcatcaaaaataagttctaaaccttactatctacaattatttttaatgtttattttaattaccatgtccctggatataatttcagtatctcagtcaatgaggtctttctaatgagcatcaagcagtaaaaaactctaattaaacagtcacttatttcacacaagtgggtcactcacaagacctgttcttagtcccatggcctctaactaggctgtcctagctaaggaacatgaaacagatggagtgttgcaagctacctacgccagagatacaattttattttaacttcttttgtattttatcaatggaggcacattcactgtacagaaatatgcatataaatatatagataggcagttaaatgtttatatatactctacacacacatgtataaatgtataggtccacacctttttgttatcccagtgaaattctgtttcatattttaacttcaacaactaatcaacacatcacaaaagcattttgcagtttggatgaaaatttcaacagcattttttactctgcaccaaaatttgtgtgatttgtattccttccattgctaccactgttttatattaaccttttgtttttctttaatattgtgtatcagttagtaagcaggtagatatgaaatgtacatgttttctgtcccatcatctaggagcacattgtatttacgccagtgatggtgcattgcattgtacattgtacatcaagtttatcattattatgtatatattaaaacaccttttgactgaaaatatattaaacacttcctataaatcaaaaaaaaaaaaaaaaaaaaaaaaa
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Creative Commons Attribution 4.0 International License (CC BY 4.0).
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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