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Vmn2r89 Gene Detail
Summary
  • Symbol
    Vmn2r89
  • Name
    vomeronasal 2, receptor 89
  • Synonyms
    V2r10, V2r11
Location &
Maps
more
  • Sequence Map
    Chr14:51689314-51698311 bp, + strand
    From Ensembl annotation of GRCm39
  • View this region in JBrowse
  • Genome Browsers
  • Genetic Map
    Chromosome 14, 26.53 cM
  • Mapping Data
    2 experiments
Strain
Comparison
more
  • SNPs within 2kb
    325 from dbSNP Build 142
  • Strain Annotations
    7
For selected strains:
Strain Gene Model ID Feature Type Coordinates Select Strains
C57BL/6J MGI_C57BL6J_1316707
protein coding gene Chr14:51689314-51698750 (+)
129S1/SvImJ no annotation
A/J no annotation
AKR/J MGP_AKRJ_G0035950
protein coding gene ChrX:124538391-124545465 (-)
BALB/cJ no annotation
C3H/HeJ MGP_C3HHeJ_G0021018
protein coding gene Chr14:45562656-45568464 (+)
C57BL/6NJ MGP_C57BL6NJ_G0021678
protein coding gene Chr14:47373841-47387780 (+)
CAROLI/EiJ no annotation
CAST/EiJ no annotation
CBA/J MGP_CBAJ_G0020986
protein coding gene Chr14:48841733-48849490 (+)
DBA/2J no annotation
FVB/NJ MGP_FVBNJ_G0021091
protein coding gene Chr14:43568371-43574242 (+)
LP/J no annotation
NOD/ShiLtJ no annotation
NZO/HlLtJ MGP_NZOHlLtJ_G0021706
protein coding gene Chr14:45248837-45257853 (+)
PWK/PhJ no annotation
SPRET/EiJ no annotation
WSB/EiJ no annotation



Homology
less
Mutations,
Alleles, and
Phenotypes
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  • Phenotype Summary
    2 phenotype references
Gene Ontology
(GO)
Classifications
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  • All GO Annotations
  • GO References
Molecular Function

carbohydrate derivative binding
cytoskeletal protein binding
DNA binding
enzyme regulator
hydrolase
ligase
lipid binding
oxidoreductase
RNA binding
signaling receptor activity
signaling receptor binding
transcription
transferase
transporter
Biological Process

carbohydrate derivative metabolism
cell differentiation
cell population proliferation
cellular component organization
DNA-templated transcription
establishment of localization
homeostatic process
immune system process
lipid metabolic process
programmed cell death
protein metabolic process
response to stimulus
signaling
system development
Cellular Component

cell projection
cytoplasmic vesicle
cytoskeleton
cytosol
endoplasmic reticulum
endosome
extracellular region
Golgi apparatus
mitochondrion
membraneless organelle
nucleus
organelle envelope
organelle lumen
plasma membrane
protein-containing complex
synapse
vacuole
Click cells to view annotations.
Expression
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Expression Overview

early conceptus
embryo ectoderm
embryo endoderm
embryo mesoderm
embryo mesenchyme
extraembryonic component
alimentary system
auditory system
branchial arches
cardiovascular system
connective tissue
endocrine system
exocrine system
hemolymphoid system
integumental system
limbs
liver and biliary system
musculoskeletal system
nervous system
olfactory system
reproductive system
respiratory system
urinary system
visual system
Click cells to view annotations.


  • Assay Results
  • Tissues
  • cDNA Data
  • Literature Summary
Sequences &
Gene Models
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Representative SequencesLengthStrain/SpeciesFlank
genomic ENSMUSG00000070448 Ensembl Gene Model | MGI Sequence Detail 8998 C57BL/6J ±  kb
transcript ENSMUST00000239412 Ensembl | MGI Sequence Detail 2732 Not Applicable  
polypeptide NP_001372115 RefSeq | MGI Sequence Detail 849 C57BL/6  
For the selected sequence
Protein
Information
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  • UniProt
    3 Sequences
  • InterPro Domains
    IPR000337 GPCR, family 3
    IPR000068 GPCR, family 3, extracellular calcium-sensing receptor-related
    IPR004073 GPCR, family 3, vomeronasal receptor, type 2
    IPR028082 Periplasmic binding protein-like I
    IPR001828 Receptor, ligand binding region
Molecular
Reagents
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  • All nucleic 6
    cDNA 5
    Other 1

    Microarray probesets 3
Other
Accession IDs
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MGI:1316722
References
more
  • Summaries
    All 18
    Developmental Gene Expression 1
    Gene Ontology 1
    Phenotypes 2
  • Earliest
    J:42391 Matsunami H, et al., A multigene family encoding a diverse array of putative pheromone receptors in mammals. Cell. 1997 Aug 22;90(4):775-84
  • Latest
    J:152814 Hornberg M, et al., Retinoic acid selectively inhibits death of basal vomeronasal neurons during late stage of neural circuit formation. J Neurochem. 2009 Aug;110(4):1263-75

Contributing Projects:
Mouse Genome Database (MGD), Gene Expression Database (GXD), Mouse Models of Human Cancer database (MMHCdb) (formerly Mouse Tumor Biology (MTB)), Gene Ontology (GO)
Citing These Resources
Funding Information
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last database update
11/05/2024
MGI 6.24
The Jackson Laboratory