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Previous release (v1)
2024-11-01 13:41:22, GGRNA.v2 : RefSeq release 226 (Sep, 2024)
LOCUS XM_039097013 7745 bp mRNA linear ROD 22-FEB-2024
DEFINITION PREDICTED: Rattus norvegicus ST8 alpha-N-acetyl-neuraminide
alpha-2,8-sialyltransferase 5 (St8sia5), transcript variant X4,
mRNA.
ACCESSION XM_039097013
VERSION XM_039097013.2
DBLINK BioProject: PRJNA1074393
KEYWORDS RefSeq.
SOURCE Rattus norvegicus (Norway rat)
ORGANISM Rattus norvegicus
Eukaryota; Metazoa; Chordata; Craniata; Vertebrata; Euteleostomi;
Mammalia; Eutheria; Euarchontoglires; Glires; Rodentia; Myomorpha;
Muroidea; Muridae; Murinae; Rattus.
COMMENT MODEL REFSEQ: This record is predicted by automated computational
analysis. This record is derived from a genomic sequence
(NC_086036) annotated using gene prediction method: Gnomon,
supported by EST evidence.
Also see:
Documentation of NCBI's Annotation Process
On Feb 22, 2024 this sequence version replaced XM_039097013.1.
##Genome-Annotation-Data-START##
Annotation Provider :: NCBI RefSeq
Annotation Status :: Full annotation
Annotation Name :: GCF_036323735.1-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 :: 02/09/2024
##Genome-Annotation-Data-END##
FEATURES Location/Qualifiers
source 1..7745
/organism="Rattus norvegicus"
/mol_type="mRNA"
/strain="BN/NHsdMcwi"
/bio_material="RGD 61498"
/db_xref="taxon:10116"
/chromosome="18"
/sex="male"
/tissue_type="kidney, spleen, liver"
/geo_loc_name="USA: Wisconsin, Milwaukee"
/lat_lon="43.05 N 88.04 W"
/collected_by="Rebecca Schilling, Melinda Dwinell"
gene 1..7745
/gene="St8sia5"
/gene_synonym="SATV; SIAT8-E; SIAT8E; ST8SiaV"
/note="ST8 alpha-N-acetyl-neuraminide
alpha-2,8-sialyltransferase 5; Derived by automated
computational analysis using gene prediction method:
Gnomon. Supporting evidence includes similarity to: 4
ESTs, 3 long SRA reads"
/db_xref="GeneID:364901"
/db_xref="RGD:1302934"
CDS 6281..7249
/gene="St8sia5"
/gene_synonym="SATV; SIAT8-E; SIAT8E; ST8SiaV"
/codon_start=1
/product="alpha-2,8-sialyltransferase 8E isoform X3"
/protein_id="XP_038952941.1"
/db_xref="GeneID:364901"
/db_xref="RGD:1302934"
/translation="
MDSGFFYTRDSVCPLQQPLRVKQSELFERWKSLQICKWAMDASEASLFNRSTLSRCCNAPNFLFTTQKNTPVETNLRYEVESSGLYHIDQEIFKMFPKEMPYYRSQFKKCAVVGNGGILKNSGCGKEINSADFVFRCNLPPISGIYTTDVGEKTDVVTVNPSIIIDRFHKLEKWRRPFFSVLQRYENASVLLPAFYNVRNTLVSFRVKYMLDDFQSRQPVYFFHPQYLSSVSRYWLSLGVRARRISTGLILVTAALELCEEVHLFGFWAFPMNPSGFFITHHYYDNVKPKPGFHAMPSEIFTFLRMHSRGILRVHTGTCNCC"
misc_feature 6407..7228
/gene="St8sia5"
/gene_synonym="SATV; SIAT8-E; SIAT8E; ST8SiaV"
/note="glycosyltransferase family 29; Region: GT29;
cl45931"
/db_xref="CDD:480271"
misc_feature order(6620..6628,6689..6694,6758..6760,7016..7024,
7076..7081,7118..7126,7160..7162)
/gene="St8sia5"
/gene_synonym="SATV; SIAT8-E; SIAT8E; ST8SiaV"
/note="active site"
/db_xref="CDD:467690"
polyA_site 7745
/gene="St8sia5"
/gene_synonym="SATV; SIAT8-E; SIAT8E; ST8SiaV"
/experiment="COORDINATES: polyA evidence [ECO:0006239]"
ORIGIN
gggcgcaattacgatctcacagcacagctgaagggactgagtcacctccaggtggtatgcagtagagagacagcacgccagggtaatgttgactctgaggtcccagctctggtgggagacgtgagagggattcttcacctgggctgtgggctggtcacccatgatgatgagcgctgtttaaatgtccacccatacatctctccccgcccttgactgttggaccaaacctgggtttaagaagactgcttctctgcagatttcccaaggaagatacatatagagaggtggcctattttaaccctaatatgggaaaactcacttactttaggctcacttactctctcccctacctctcccacttttttctgaaggtgggtgcagtgaactttattgatggtattgaaagagtagggctccctgggcccctcctgttattctgggggtctgggatggtaactgtgagggagatgctcagtgttgagggatgagttgggattgggattcctcagtgccctacagcctttctcttgttctcatgtcctcgctggggtgggtggtccagggattcttactccttggaggccacgtaggccgtgaggtccaccactctgctgctgtagccgtattcattgtcataccaggaaatgagctttacaaaggtgtcattgagagcaatgccagtcccagcatcgaaggtggaagagtgggagctgctgttgaagttgcaggagacaacctgatcctcagtgtaactcaagatgccctttagtgggccctcagatgtctgcttcgctatcttcttgatgtcttcatacttggcagccttcttcaggtgacagatccattccatgacagatatactgagggtaggaacatggaagaccatgtcaaatgagcttcccattcacctctgggatgaccttgcccatagccttggcagcaccagtggatacatggatgatgttctgggctactccatggccatcacaccacagttttccagaggggtcgtccacagtcttctgagtggcagtgatggcatggactatgatcttgggcccttccatgatggcaaagttgtcatggatgacctcggccaggggggcagttggtggtacagggagcactgtgacagtcttgagtgagttgtcatacatttcgtggttcacatccatcgcaagcactggggcatcatgggcagaatgggcagagatgctaacctttttggccccacccttcaagtggctccaagatagtgaagatactggtagactccatgcatactcggcaccagcaccaccccatttgatgttagcaggatgtcactcctggaagatgggtttggccttcccaatgacggcattctcagccttgactgtgctgttgaacttgccatgggtagagccacactggagcatgtagaccaggtaggccatgtagttgaggtcagtgatgcagtcagattcactttgccaggtaagaaggcagcccttctaatcagttgcctgatatggccaaatcctttcaccccgacctttaccatgtgtctaagggccaaggctggcactgcacaagaagacgtggctgtctctgaaacaggaaggagcagagagcctctttcccacttctgttctctcttcactcttcaggagggggatttttttttcctgatcccttgacctctgaggttaatattttccctgtctcagcctgcacctgggggttcacaatttcagaacaatcccgtttccaaggtggaacttgaggtgtaacagtgggcttgaacacttcccaatagcctggcccgcatgaccacccttccattctgcctcctgtaagagtgcctccccctcagggtagtttgagatgcgggctggctcagcgtgaacctttcagatgaattttcacttctttggaaaaataaagtgggcacaaaagagagacagatctcttgggttgcatccaaatgagaggaatttggagagtcggctttggcagaatcgctcctggctgggtgctggggaaacacagcaaagcaaatatggtgtcttcccccattcatcccacgtacctgatgtaggcctcccacggcccgacagtatcaggcttcaagcagatgaggttggtggtggaagtggaggctatgccaggaggctcttaagatagtgttgctttatgggcttccaacctctgagatttggggatcataatgagtctcagcacagtctcctctcttatggggcatctacactcacgagttcactctcagaaagtttccttccctctgattctgctcctgctcctgtaagttggcattaattcaactgttcagcagacagaaaggaggtcagtcacgcagttggagcatgccaaggaccccaaggttaaaataccccacacaggtaagctcctcacagcctcacgaaggtgttactgaggccccctgaagagacattcccaacagggccagatgccagctttgcccctgattcagggcattgtcttggagaggcagcactgcatgtttgggccatgtctccttaaaactgaagggaagccctagtgaactttctagcttcactgttttgattgacttttttctttttaaatcactacttttggaggtcacagagccaagcaatgcattcccagtctcccactggctttgctgatgcccctgagtgtgagtcttgtcagtactggttgtctaagttacttctcagggactctaagactgcttttgtcaaagctacaggctcactactaaagcccacataggtacccagtgactgatctcttggtgtcagagggccaaacccacccactatttcttaagccttcctcccataaggggccacgaggctggatcacacacaggcagatcatggctcatttcacccagtcacctctccctgcacctcaggccactcctccccataaccaccgtgtgaacatactctccattacaaaactcacagtttcagtggttatcctattctgcagcaggagaaacagggctggctcagtaaccacccctctgctgaagcagcttccaccatagcagccagctcccaggcaccctgacctgtcccctctcacacccctaccctctcaccttcctcgtggttccgcccttcttgcctgctccactgtctctgagcacttcacaccaggacttggcaaaggtgggaggacggagagaggtggagaacggaaggaaaaggaggtgggggctgggccaggaagccagtgtatcaatttgatatttgataatccaatcaggggtacttctagtgcccacctccccacccccacctccaaattaaaggctatagattctcctagaagctccacacactctcctagtttggtgggcaccaagactgtcactggagagtaagtgatggaggctcacaaagatggcaggaggccaccctccatcgagggctgtcctgtgagaagtccttcctcatactaagtgtgaccctttttcctgtgctcactaggagcttctacttgctttttattgcttcacagagcactaacatccatccgtcctctctgcagctgtccctgatgtgttggaaagcatcaatacttccccttcttcctggccctggaacccagtctccaacattccctcccctagctctactattcctcaagacttcagccattacccaccccaccccagtcttacattaacacatgcccacgaagcgttatctgctattgtcaaggtcactgtgacctctaagtggtcatatcagtgccaccttcccttcttccttgaccccactggcactgggtggagctgtcccttgtgtcctgaaaaggcccttggtccctgggctccacatcctggtttgtcctcgttcctgcataccgttcttctcagtctaacctcaggcctgtctttccccctccccacctctaagagctcatggggtgtctctgtccatcgactctggatcgtgtgttttgtcctgtgcatcccatttgtacctgactcttacctgctgcctctcaccctctgatggctgagggtcacagagaacactccttggccattctccttaccattcatacccaagtcattgggtggctccatcacaccactccgtagactttgttcatccaaatactgaatcttagcactcccctcagggtccatctctgcactactgctcaggtttctctcccctaccccttgctttcaacctcttggtgccatgcgccatctccttacactgctgagtttcttctcctctcggaacccccttctcagccagtgtgaacttttaaatcaaattatgttgtcccctgcctaaatgcttttcaaactcctgacccatgacccagcccttctgatgctaccaccctgttccagtcatcctggctgccgtcataccgcagctggctagctcttgctgtataaactggtcgcacatctgcccagggctgcatccctccctctgctcactgtctggagacaccttcactaacctggtcgtctcagagtccctctagtttcctacctgcattgcttctgcagcactcattctgctatgttgagaagcacctcgagggaggagccttggcctggctagttgatcactactaaggtagaaatagcctgacacgcaagggaggctcaacaagcattcagtgaggaagagataagccttcctgacccctgaggggtacaggcaggccacgaggaatcatgtttaagtcatttctaggggaggtggagatgtgcccagtgggtgttggcacagagaggggagggcaggaaggtggcctggagatgctgaccaggtagatctctgaatgaagtaagtaggaaaacatctcagagccagagtcagacaccagggaaacaggcagagcgaattacagcctgtgctggggcggagaccagggccactaccgaggcaaagatctggagggataaaggagaaggagatgacttgggtgcagctctgggcttagcacaaggagatggtgaccaaagcccagtagggtcagtgagacctccaaccaggggccatgttaagcagtcagagctaagctggacctcaggaatgctgtcagggtcccctggactggcttagaagaggttaccttacagggactgtgctggccgccaggtcaagggctgcagctggggaagggattatgggatggagtctctgaatttgttattgctccttacctacccagaccccaaccaaggggagcggtgacagtgcagactttgcaaagtggtgtggtagaacagactgaccatggggatatccagaactaattccagaacagcaaaatgtaagcttttatttatttagtttattcgtttattatttttgcagtgttagggtttaaatgtaggactttgcccatgctaagcaactactcaaccatccacctacactcacagcctgcttttaccttaattaaaaaaaaaataacattcaagatagatccttcctaagcgtccccagctggccttgaagtgactctagcccatgtaggccttgaacttgtggtcctcctgcttcagcctcccccagagctgggtttataagtctgtgccaccaggtccatgtcactaagcctgctgcctgttaatatttagaccttttagctctggtgactcctggcatagggaaaccacacctcagagagaacaggttaagtcaaagattgctgagcagacatggagggcccccggcaatgcctcctcccagcagtcacagcctttggcggctggtggtagggagccctgagtccctctgcacctatccgggggcacttacagccctggtacttgtcagtctgcagctctccgactgctttctgctgatggggcgtgtgctcgctccagacagcagctgttcttgtgctggaaatagcacggatctcgctgaagggctgtcgcctttgggagagaagggggctgcttattgacaaagcccccagggagccgtcgctgtcagagttggcgaggggcgactgctgaagtgatggagaccctggggttctgggcgcttggaagcctgagctttcctctctgtcgtacttcgaattttacaaggaacctttagaatttaactccacgagatgcctggagctgaggcaggagatcctggaggtgaaggtgctgtccatgtttgaacagtttgttcttcttctggaacgtctgtgatgctgtgagagagagaggagagatgatctgggtcaacccttcatctttaaggtggaggtgctccgcacctgtatggacagtgggtttttttacacacgtgactccgtttgccctctccaacaacctctgagggtgaagcagtctgaactgttcgaaaggtggaagagcctccagatatgcaaatgggcgatggacgcctcggaagccagcctcttcaacaggtccaccttgtccaggtgttgcaatgcccccaactttctcttcaccacccagaagaacaccccggttgagacgaatctcaggtatgaggtggagtccagtggcttgtatcacatcgaccaagagatcttcaaaatgtttcccaaggaaatgccctactaccgctctcagtttaagaagtgtgctgtggtgggcaatggcggcatcttgaagaacagcggctgcgggaaggagatcaacagcgctgacttcgtcttccggtgcaatctgccccctatctcagggatatataccacagatgtgggagagaagacagatgtggtcaccgtgaatcccagcatcataattgacaggttccacaagttggagaagtggcggcggcccttcttcagcgtgctgcagaggtacgagaacgcctcggtgctgctgccggccttctacaatgtgcgcaacaccctcgtgtccttccgagtcaagtacatgctggacgacttccagtcgcggcagcccgtctacttcttccatcctcagtacctgagcagcgtgtcgcgctactggctcagcctgggcgtgcgcgcacggcgcatcagcaccggcctcatcctggtcactgcggccctggagctctgcgaggaggtgcacctgttcggtttctgggccttccccatgaacccctccggcttcttcatcacgcaccactactatgacaatgtcaagcccaagcccggctttcatgctatgccctcggagatcttcaccttcctgcgcatgcacagccgcggcatcctccgcgtgcacacaggcacctgcaattgctgctgaaaaacaggcccaccacgggtgtttcagctcctgtcctcctccccgaaggatcccctgtccctgccattatggctgttgtcactccctaaggatttagggtttgtgtttgggtcctggggagggaggcagggagacattcatttaacaggatagagcacagatccaggtctcattcagacctttggctgcccgagtttcatacggggaactcagccataaagcaccatcttgaaactcacggcctgggtgccagcccttccagggaacaaacagtatgagtgtcctagtcacaccacctggctgagctcaaaagacttcagggatatctaatcaaaacccgtgttagcatatccccacgagtccaggagctgagagccatgccctttaaaacagctcttggacacacacagccttggtgcctctaggttccagcctgcatttaacctttgacaagaaggaaataaaccagaccagccatttgcactaagatcttcaa
//
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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