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Previous release (v1)
2026-01-18 13:20:30, GGRNA.v2 : RefSeq release 232 (Sep, 2025)
LOCUS NM_001399666 5148 bp mRNA linear ROD 30-APR-2025
DEFINITION Rattus norvegicus solute carrier family 39, member 9 (Slc39a9),
transcript variant 2, mRNA.
ACCESSION NM_001399666
VERSION NM_001399666.1
KEYWORDS RefSeq; RefSeq Select.
SOURCE Rattus norvegicus (Norway rat)
ORGANISM Rattus norvegicus
Eukaryota; Metazoa; Chordata; Craniata; Vertebrata; Euteleostomi;
Mammalia; Eutheria; Euarchontoglires; Glires; Rodentia; Myomorpha;
Muroidea; Muridae; Murinae; Rattus.
REFERENCE 1 (bases 1 to 5148)
AUTHORS Kabbesh,H., Bulldan,A., Konrad,L. and Scheiner-Bobis,G.
TITLE The Role of ZIP9 and Androgen Receptor in the Establishment of
Tight Junctions between Adult Rat Sertoli Cells
JOURNAL Biology (Basel) 11 (5), 668 (2022)
PUBMED 35625396
REMARK Publication Status: Online-Only
REFERENCE 2 (bases 1 to 5148)
AUTHORS Bulldan,A., Dietze,R., Shihan,M. and Scheiner-Bobis,G.
TITLE Non-classical testosterone signaling mediated through ZIP9
stimulates claudin expression and tight junction formation in
Sertoli cells
JOURNAL Cell Signal 28 (8), 1075-1085 (2016)
PUBMED 27164415
REMARK GeneRIF: in Sertoli cells, testosterone acts through the receptor
ZIP9 to trigger the non-classical signaling cascade, resulting in
increased claudin expression and tight junction formation.
COMMENT VALIDATED REFSEQ: This record has undergone validation or
preliminary review. The reference sequence was derived from
JAXUCZ010000006.1.
##Evidence-Data-START##
Transcript exon combination :: SRR26360194.1926056.1,
SRR26360190.2481192.1 [ECO:0000332]
RNAseq introns :: single sample supports all introns
SAMEA5760383, SAMEA5760386
[ECO:0000348]
##Evidence-Data-END##
##RefSeq-Attributes-START##
RefSeq Select criteria :: based on conservation, expression,
longest protein
##RefSeq-Attributes-END##
PRIMARY REFSEQ_SPAN PRIMARY_IDENTIFIER PRIMARY_SPAN COMP
1-776 JAXUCZ010000006.1 106022858-106023633
777-885 JAXUCZ010000006.1 106041636-106041744
886-1086 JAXUCZ010000006.1 106045341-106045541
1087-1155 JAXUCZ010000006.1 106052009-106052077
1156-1241 JAXUCZ010000006.1 106054231-106054316
1242-1376 JAXUCZ010000006.1 106055335-106055469
1377-5148 JAXUCZ010000006.1 106057963-106061734
FEATURES Location/Qualifiers
source 1..5148
/organism="Rattus norvegicus"
/mol_type="mRNA"
/strain="BN"
/db_xref="taxon:10116"
/chromosome="6"
/map="6q24"
gene 1..5148
/gene="Slc39a9"
/note="solute carrier family 39, member 9"
/db_xref="GeneID:314275"
/db_xref="RGD:1311236"
exon 1..776
/gene="Slc39a9"
/inference="alignment:Splign:2.1.0"
misc_feature 663..665
/gene="Slc39a9"
/note="upstream in-frame stop codon"
CDS 681..1607
/gene="Slc39a9"
/note="isoform 1 is encoded by transcript variant 2; zinc
transporter ZIP9; ZIP-9; zrt- and Irt-like protein 9;
solute carrier family 39 (zinc transporter), member 9"
/codon_start=1
/product="zinc transporter ZIP9 isoform 1"
/protein_id="NP_001386595.1"
/db_xref="GeneID:314275"
/db_xref="RGD:1311236"
/translation="
MDDFLSISLLSLAMLVGCYVAGIIPLAVNFSEERLKLVTVLGAGLLCGTALAVIVPEGVHALYEEVLEGKHHQASEAKQNVIASDKAAEISVVHEHEHSHDHTQLHAYIGVSLVLGFVFMLLVDQIGSSHVHSTDDPESARPSSSKITTTLGLVVHAAADGVALGAAASTSQTSVQLIVFVAIMLHKAPAAFGLVSFLMHAGLERNRIRKHLLVFALAAPAMSMLTYLGLSKSSKEALSEVNATGVAMLFSAGTFLYVATVHVLPEVGGMGHSHRPDTTGGRGLSRLEVAALVLGCLIPLILSIGHQH"
misc_feature 705..1586
/gene="Slc39a9"
/note="ZIP Zinc transporter; Region: Zip; pfam02535"
/db_xref="CDD:396884"
exon 777..885
/gene="Slc39a9"
/inference="alignment:Splign:2.1.0"
exon 886..1086
/gene="Slc39a9"
/inference="alignment:Splign:2.1.0"
exon 1087..1155
/gene="Slc39a9"
/inference="alignment:Splign:2.1.0"
exon 1156..1241
/gene="Slc39a9"
/inference="alignment:Splign:2.1.0"
exon 1242..1376
/gene="Slc39a9"
/inference="alignment:Splign:2.1.0"
exon 1377..5148
/gene="Slc39a9"
/inference="alignment:Splign:2.1.0"
ORIGIN
gagacaatccggaagtgggagtaatgaagaggtgccacttggcggccatggcagctgtagtattggcggctcagggtcagggcctggctgagggaagtaccatgggtagcaccgggtgtaggacagagacagcgtcgtatcgactttgctgttgaatcctccagcccattgttagagacttgcaggacatcttgcccgactctagactcgaaaggtactttgctggcactggtgggctggtcccttccctgggggcgtatcacctgcggtgccacccctgggaactggtaccgcgtgtggagaagacacttgggtttacctttttttttcctgctgctaccagggacgttgtcttggggagcgggtcgtcgtgtcaccctcattctgacgattaaggagatctctttttgcacaatttctccatctgttacctaccggaatcccagtgactggcaaccaagtacctaagactgcgcaaagttttctctggtgctagtatcagcaaaaggagcttgcttcttaagagagcggcgggcttcatgaactcaccggccggtggcaaggctgaaagaagtgaggaaattcccgttttcttggaagaccacacgtttaaacagcccaagcgccgtttgaaactggaattttaaagcctggtggaggggtgactacaggagggcagaatggatgactttctctccattagtctgctgtctttggcaatgttggtgggatgttacgtggctggaatcattcctttggctgttaatttctcagaggaacggctgaagctggtgactgtgttgggtgctggccttctctgtggaactgcactggcagtcatcgtgccggaaggggtgcatgcactttatgaggaggtcctggagggaaaacaccaccaagccagtgaagcgaagcagaatgtgattgcatcagacaaagcagcagaaatatcagttgtccatgagcatgagcacagccacgaccacacacagctgcatgcctacattggtgtgtccctggtactgggcttcgttttcatgttgctcgtggaccagattggcagctcccatgtgcattccactgacgatccagaatcagcaaggcccagcagttccaaaatcaccaccacactggggctggttgtccatgctgcagctgatggtgtagctttgggagcagcagcctctacttcacagaccagtgtccagttaattgtgttcgtggcaataatgctacataaggctccagcagcatttgggctggtttccttcctgatgcatgctggcctggagcggaatcgaatcagaaagcacttgctggtctttgcactggcagcaccagccatgtccatgctgacgtacttaggattaagtaagagcagtaaagaagccctttcagaggtcaatgccactggagtggccatgcttttctctgccgggacatttctttacgttgccaccgtccatgtcctccctgaggtgggtggaatggggcacagccacagacctgacaccactggagggagaggcctcagccgccttgaggtggcagccctggttctgggttgcctcataccactcatcctctcaataggacaccagcactaaccagtcaggttccagcctcagtccacggccattgccatcggggaagaactagcgtgtgacgctcctcacttcctcagtgtcttgtctcaccttgcccatctccacccctgttcctagagtccaagggagatgagagtcaatcgtggaaagtgggacagcatatagcaggaacatcagaattagacagactttgtgttgtcttttaaagggactttgatgtattgagttttgatgtttctcttaaccctattctcagggaagatggaatttagttttaaagaaaagtggagaacttcatacaatgaaatagtaattatgaaacttcagtgttctgtaattaagctaaagttttttcccttagtatagaggctctgccactttacccattggttttaacatggttctcaccatgtaagactggtgctttagcatctgtgccacagccttgagagaaggcgggaacacccatcccttagatgctaaagatgatggcaactaatttgaggttagaataaggaaaataagagcaggagaaaaaagctgaactgaacccaaaagaaacatccactgaaaggggtgtctagagtcatcaacagctcctttgcacgtgcctccctaaatagagcctgcccttccttccagtagagcaatggaggtgggactggcttttgaagaggggtctgttatcatatagcatttttttaaaaagtatcttttgcagaatacttgtctgtagcacactcttagtagccagattctgttcaggcacaggatttctgtcaagaacagtctgatcacagtgaaattaagggatgttaaattttccaggaatttggatagttactgatatcttgtagtaacctttttaaaaagtaacactattacaaagtatgttgtccttttcttccagtcagtggttctcaaccctctgaacactgcaatcctttaatacagttcctcatgttgtggtgccctcccaaccataaaattattttgttgctacttcataactgtaattttactactgttatgatctgtaatgtaaatgtctgatacaggctatctgatatgccacctttgtgggcatcgagacttacaggttgagaagcgctgttctaagtatttcttttagcagcctctgtccctctggctgagcccttgcccagagtggagagtgtttctgtccactccgtagctcttgagcagaaggcggtggggctgtatcagaagggagtatctgctgctggcctcagtctccttgaaatcatgtctgcatcccactcttcccgtgctcttcccctccccagcctacccccactgtgtactactactgctggtgatgtcagtccttgtgtgaggtgaattctcaccacttctttaaccatgaagacagcactgtttcttcttcatttccttcacctaagttacctttgtgcccaatacaacttttttacaccctcaaaaatgtcacctcctcatgagagttgacacagtcactagtactctgataatttaagaaattgagacagcaaaagtattcaacaaaggtaattcttccatgtttgccaaaatctgaataaatcctagtcagataaatgtataatactgtattaatttacattttctgtaccatttcagaaacactttacataaacagggagccaaggctagttttttcagagcagtgagtgcagtcattgtgttttctgtgacatctgtgccagcatgcctgtagattttctctcctgaattgtcactaggtcagccggcagctgtggggttaaacttgtgcgccctctgctggctgtagtggagaaagcagcagaaatgagacgcagctctgtgtggaggctggtacccattgcatcccgagctaaagtgttaatgtgtgcagtgtgggagttgggggtgactctcgtaataggtgactaggaaaggtttgggctcatctagtccttccaaagtacagatgtcttgatctctctagaggctcactttgtcggggtggtccgggtagaagcagcttctgtcaccttgctccgtgcagtggtcagacacttgttgtgctggccagagcctcttgttcagcagtgccttgccaactcactcgaagttgggctagaatatcatgttgggtagggccttggactctggcaaggagtgaaccatcaaacgtccaaatctgccttcctctctgggcctcagtagtagtgagctttccatgcctggagctgctgcctggggactgagtcccttccctgctctgcaggctcagatagccatatgactcttaatagggctcagatgcaggagaggcagcaggaaccagcagagcctccatctagtgggggagaggtcgctcatgcagcaggcagtgccccgaaagcagccaccttgatcgcttcacaacacgtttcagttctgttttcttcctcctaactccctctggaggtgtggatgccttaatgtgcaaacacacttgaacacattggtgatacttgagctgctgccacgattacaagtggaattatgggctaccaaagaagcaattgatgaaaaagcatgggctatccttcctcatgaccaaagcaatcttatttgggattagagttcctttcccccagaatctagatgcatcccccctccccagttcccagtgttgtcagtctccgagtcagcagggcagtgatgtccgtttgattccgctttcctgtgtgtgctattgccagcttggttcttacaggcagactttctggcctgaaaatgccaacggttggaatggcactacccactgagccaagtcaacctgttctggggatctgggtcattagaagaaagggagggtctgttcttttagaaaggggaaaatagatttgtttaaatcagtctgtcaccactggctggttttatttttcaagaattagagctaggaggaacatagcagtgacagagcgtgttaagccttgaccctcatgctagtgaggttctgaacatgggactgtatgtcaatagcacaagcctctaaaacacccttaccttttgggccagagccccagactactggggctcacacagtcatcgggcaagagtcctggaggcagacttgtgttcagtgcagagtgggacgcacccctgaagagcactggctgagatactacacaactcagcctttttaactcgagacatcgaagttcagctcgggagagctgagggtgggggctggtgggaaaggactggcagacagtaggacttccttacatgtgctcagccctcacagagccaagcacagagactggctttgctctgtctgccgtgtcttcccgaaaactgggactctaatggtaacaccatgattcccctggtttggtggcctaaacggtgattttaaatgtctccttttctggattctttgtatacataaactcattccatggatggctgccttataattttgtgtctttccactttaattgtgaatggtttaaaaattgctgtttccgatttgttttatgatattaaatttttattagtgcatacctta
//
by
@meso_cacase at
DBCLS
This page is licensed under a
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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