ID/Version |
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Sequence description from provider |
RecName: Full=CX3C chemokine receptor 1 {ECO:0000303|PubMed:9918795}; Short=C-X3-C CKR-1 {ECO:0000303|PubMed:9918795}; Short=CX3CR1 {ECO:0000303|PubMed:9918795}; Short=mCX3CR1 {ECO:0000303|PubMed:9918795};AltName: Full=Fractalkine | ||||||||||||||
Provider | SWISS-PROT | ||||||||||||||
Sequence |
Polypeptide
354
aa
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Source | |||||||||||||||
Annotated genes and markers |
Follow the symbol links to get more information on the GO terms,
expression assays, orthologs, phenotypic alleles, and other information
for the genes or markers below.
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Sequence references in MGI |
J:51793
Combadiere C, et al., Gene cloning, RNA distribution, and functional expression of mCX3CR1, a mouse chemotactic receptor for the CX3C chemokine fractalkine. Biochem Biophys Res Commun. 1998 Dec 30;253(3):728-32
J:81822 Lesnik P, et al., Decreased atherosclerosis in CX3CR1-/- mice reveals a role for fractalkine in atherogenesis. J Clin Invest. 2003 Feb;111(3):333-40 J:82033 Haskell CA, et al., Targeted deletion of CX(3)CR1 reveals a role for fractalkine in cardiac allograft rejection. J Clin Invest. 2001 Sep;108(5):679-88 J:84544 Jung S, et al., Analysis of fractalkine receptor CX(3)CR1 function by targeted deletion and green fluorescent protein reporter gene insertion. Mol Cell Biol. 2000 Jun;20(11):4106-14 J:90912 Geissmann F, et al., Blood monocytes consist of two principal subsets with distinct migratory properties. Immunity. 2003 Jul;19(1):71-82 J:95694 Niess JH, et al., CX3CR1-mediated dendritic cell access to the intestinal lumen and bacterial clearance. Science. 2005 Jan 14;307(5707):254-8 J:110266 Cardona AE, et al., Control of microglial neurotoxicity by the fractalkine receptor. Nat Neurosci. 2006 Jul;9(7):917-24 J:129712 Huang D, et al., The neuronal chemokine CX3CL1/fractalkine selectively recruits NK cells that modify experimental autoimmune encephalomyelitis within the central nervous system. FASEB J. 2006 May;20(7):896-905 J:132951 Lu P, et al., Protective Roles of the Fractalkine/CX3CL1-CX3CR1 Interactions in Alkali-Induced Corneal Neovascularization through Enhanced Antiangiogenic Factor Expression. J Immunol. 2008 Mar 15;180(6):4283-91 J:145036 Landsman L, et al., CX3CR1 is required for monocyte homeostasis and atherogenesis by promoting cell survival. Blood. 2009 Jan 22;113(4):963-72 J:166138 Mionnet C, et al., CX3CR1 is required for airway inflammation by promoting T helper cell survival and maintenance in inflamed lung. Nat Med. 2010 Nov;16(11):1305-12 J:175794 Paolicelli RC, et al., Synaptic pruning by microglia is necessary for normal brain development. Science. 2011 Sep 9;333(6048):1456-8 J:211924 Zhan Y, et al., Deficient neuron-microglia signaling results in impaired functional brain connectivity and social behavior. Nat Neurosci. 2014 Mar;17(3):400-6 J:255660 Leonardi I, et al., CX3CR1(+) mononuclear phagocytes control immunity to intestinal fungi. Science. 2018 Jan 12;359(6372):232-236 J:263697 Haskell CA, et al., Molecular uncoupling of fractalkine-mediated cell adhesion and signal transduction. Rapid flow arrest of CX3CR1-expressing cells is independent of G-protein activation. J Biol Chem. 1999 Apr 9;274(15):10053-8 J:292518 Huttlin EL, et al., A tissue-specific atlas of mouse protein phosphorylation and expression. Cell. 2010 Dec 23;143(7):1174-89 J:306002 Doron I, et al., Human gut mycobiota tune immunity via CARD9-dependent induction of anti-fungal IgG antibodies. Cell. 2021 Feb 18;184(4):1017-1031.e14 |
Mouse Genome Database (MGD), Gene Expression Database (GXD), Mouse Models of Human Cancer database (MMHCdb) (formerly Mouse Tumor Biology (MTB)), Gene Ontology (GO) |
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last database update 12/10/2024 MGI 6.24 |
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