Adult mouse brain gene expression patterns bear an embryologic imprint. Zapala et al. (2005). Proc Natl Acad Sci U S A.
Source: Pearson correlation with 245,286 interactions from GEO
Tags:
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Adult mouse brain gene expression patterns bear an embryologic imprint. Zapala et al. (2005). Proc Natl Acad Sci U S A.
Source: Pearson correlation with 245,286 interactions from GEO
Tags:
Genetic heterogeneity of Myc-induced mammary tumors reflecting diverse phenotypes including metastatic potential. Andrechek et al. (2009). Proc Natl Acad Sci U S A.
Source: Pearson correlation with 331,709 interactions from GEO
Tags:
Effect of synthetic dietary triglycerides: a novel research paradigm for nutrigenomics. Sanderson et al. (2008). PLoS One.
Source: Pearson correlation with 174,138 interactions from GEO
Tags:
Expression analysis of G Protein-Coupled Receptors in mouse macrophages. Lattin et al. (2008). Immunome Res.
Source: Pearson correlation with 556,291 interactions from GEO
Accurate and precise transcriptional profiles from 50 pg of total RNA or 100 flow-sorted primary lymphocytes. Shearstone et al. (2006). Genomics.
Source: Pearson correlation with 324,971 interactions from GEO
Tags:
Interstrain differences in the liver effects of trichloroethylene in a multistrain panel of inbred mice. Bradford et al. (2011). Toxicol Sci.
Source: Pearson correlation with 296,247 interactions from GEO
Tags:
Chimeric mouse tumor models reveal differences in pathway activation between ERBB family- and KRAS-dependent lung adenocarcinomas. Zhou et al. (2010). Nat Biotechnol.
Source: Pearson correlation with 408,335 interactions from GEO
Tags:
Key stages in mammary gland development. Secretory activation in the mammary gland: it's not just about milk protein synthesis! Anderson et al. (2007). Breast Cancer Res.
Source: Pearson correlation with 217,439 interactions from GEO
Tags:
Identification of early molecular markers for breast cancer. Kretschmer et al. (2011). Mol Cancer.
Source: Pearson correlation with 506,947 interactions from GEO
Tags:
Genomewide discovery and classification of candidate ovarian fertility genes in the mouse. Gallardo et al. (2007). Genetics.
Source: Pearson correlation with 540,560 interactions from GEO
Tags:
Gene expression analysis suggests that EBF-1 and PPARgamma2 induce adipogenesis of NIH-3T3 cells with similar efficiency and kinetics. Akerblad et al. (2005). Physiol Genomics.
Source: Pearson correlation with 203,941 interactions from GEO
Tags:
Blood gene expression signatures predict invasive candidiasis. Zaas et al. (2010). Sci Transl Med.
Source: Pearson correlation with 376,750 interactions from GEO
Tags:
Mapping of clinical and expression quantitative trait loci in a sex-dependent effect of host susceptibility to mouse-adapted influenza H3N2/HK/1/68. Boivin et al. (2012). J Immunol.
Source: Pearson correlation with 220,941 interactions from GEO
Tags:
Using ribosomal protein genes as reference: a tale of caution. Thorrez et al. (2008). PLoS One.
Source: Pearson correlation with 576,058 interactions from GEO
Tags:
Involution of the mouse mammary gland is associated with an immune cascade and an acute-phase response, involving LBP, CD14 and STAT3. Stein et al. (2004). Breast Cancer Res.
Source: Pearson correlation with 225,087 interactions from GEO
Tags:
Immune responses to Pneumocystis murina are robust in healthy mice but largely absent in CD40 ligand-deficient mice. Hernandez-Novoa et al. (2008). J Leukoc Biol.
Source: Pearson correlation with 227,843 interactions from GEO
Tags:
Hepatic cytochrome P-450 reductase-null mice show reduced transcriptional response to quercetin and reveal physiological homeostasis between jejunum and liver. Mutch et al. (2006). Am J Physiol Gastrointest Liver Physiol.
Source: Pearson correlation with 318,014 interactions from GEO
Tags:
Utilization of pathway signatures to reveal distinct types of B lymphoma in the Emicro-myc model and human diffuse large B-cell lymphoma. Mori et al. (2008). Cancer Res.
Source: Pearson correlation with 496,893 interactions from GEO
Tags:
Mouse cardiac surgery: comprehensive techniques for the generation of mouse models of human diseases and their application for genomic studies. Tarnavski et al. (2004). Physiol Genomics.
Source: Pearson correlation with 228,287 interactions from GEO
Tags:
Deficiency of CXCR2, but not other chemokine receptors, attenuates autoantibody-mediated arthritis in a murine model. Jacobs et al. (2010). Arthritis Rheum.
Source: Pearson correlation with 223,440 interactions from GEO
Tags:
A gene atlas of the mouse and human protein-encoding transcriptomes. Su et al. (2004). Proc Natl Acad Sci U S A.
Source: 577,576 interactions from MouseFunc
The functional landscape of mouse gene expression. Zhang et al. (2004). J Biol.
Source: 531,440 interactions from MouseFunc
A mouse atlas of gene expression: large-scale digital gene-expression profiles from precisely defined developing C57BL/6J mouse tissues and cells. Siddiqui et al. (2005). Proc Natl Acad Sci U S A.
Source: 637,873 interactions from MouseFunc
Tags:
Source: Direct interaction with 29 interactions from iRefIndex
Source: Direct interaction with 151 interactions from BioGRID
The mouse genome database (MGD): new features facilitating a model system. Eppig et al. (2007). Nucleic Acids Res.
Source: 138,616 interactions from MouseFunc
Tags:
Online Mendelian Inheritance in Man (OMIM), a knowledgebase of human genes and genetic disorders. Hamosh et al. (2005). Nucleic Acids Res.
Source: 2,799 interactions from MouseFunc
EnsMart: a generic system for fast and flexible access to biological data. Kasprzyk et al. (2004). Genome Res.
Source: 630,188 interactions from MouseFunc
Source: Direct interaction with 20 interactions from Pathway Commons
Source: Direct interaction with 225 interactions from Pathway Commons
Source: Direct interaction with 47 interactions from Pathway Commons
Targeted tandem affinity purification of PSD-95 recovers core postsynaptic complexes and schizophrenia susceptibility proteins. Fernández et al. (2009). Mol Syst Biol.
Source: Direct interaction with 245 interactions from iRefIndex
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Interaction and assembly of murine pre-replicative complex proteins in yeast and mouse cells. Kneissl et al. (2003). J Mol Biol.
Source: Direct interaction with 90 interactions from iRefIndex
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Proteomics analysis identifies phosphorylation-dependent alpha-synuclein protein interactions. McFarland et al. (2008). Mol Cell Proteomics.
Source: Direct interaction with 163 interactions from iRefIndex
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An Oct4-centered protein interaction network in embryonic stem cells. van den Berg et al. (2010). Cell Stem Cell.
Source: Direct interaction with 272 interactions from iRefIndex
Tags:
Source: Direct interaction with 2,083 interactions from iRefIndex
Source: Direct interaction with 1,289 interactions from iRefIndex
Source: Direct interaction with 3,701 interactions from BioGRID
Source: Direct interaction with 596 interactions from iRefIndex
Source: Direct interaction with 1,778 interactions from iRefIndex
Source: Direct interaction with 7,987 interactions from iRefIndex
Source: Direct interaction with 215 interactions from iRefIndex
Source: Direct interaction with 1,711 interactions from iRefIndex
Source: Direct interaction with 129 interactions from iRefIndex
Source: Direct interaction with 2,952 interactions from iRefIndex
Source: Direct interaction with 259 interactions from iRefIndex
Source: Direct interaction with 4 interactions from I2D
A Rich1/Amot complex regulates the Cdc42 GTPase and apical-polarity proteins in epithelial cells. Wells et al. (2006). Cell.
Note: I2D predictions of protein protein interactions using Wells-Pawson-2006 Homo sapiens data
Source: Direct interaction with 8 interactions from I2D
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A map of the interactome network of the metazoan C. elegans. Li et al. (2004). Science.
Note: I2D predictions of protein protein interactions using Li-Vidal-2004 Caenorhabditis elegans data
Source: Direct interaction with 13 interactions from I2D
A map of the interactome network of the metazoan C. elegans. Li et al. (2004). Science.
Note: I2D predictions of protein protein interactions using Li-Vidal-2004 Caenorhabditis elegans data
Source: Direct interaction with 446 interactions from I2D
Screening for PTB domain binding partners and ligand specificity using proteome-derived NPXY peptide arrays. Smith et al. (2006). Mol Cell Biol.
Note: I2D predictions of protein protein interactions using Smith-Pawson-2006 Homo sapiens data
Source: Direct interaction with 9 interactions from I2D
Tags:
Online predicted human interaction database. Brown et al. (2005). Bioinformatics.
Source: 273,988 interactions from MouseFunc
Comparative assessment of large-scale data sets of protein-protein interactions. von Mering et al. (2002). Nature.
Note: I2D predictions of protein protein interactions using vonMering-Bork-2002 Saccharomyces cerevisiae data
Source: Direct interaction with 971 interactions from I2D
BIND--a data specification for storing and describing biomolecular interactions, molecular complexes and pathways. Bader et al. (2000). Bioinformatics.
Note: I2D predictions of protein protein interactions using BIND Rattus norvegicus data
Source: Direct interaction with 438 interactions from I2D
A proteomics strategy to elucidate functional protein-protein interactions applied to EGF signaling. Blagoev et al. (2003). Nat Biotechnol.
Note: I2D predictions of protein protein interactions using Blagoev-Mann-2003 Homo sapiens data
Source: Direct interaction with 64 interactions from I2D
Tags:
MINT: a Molecular INTeraction database. Zanzoni et al. (2002). FEBS Lett.
Note: I2D predictions of protein protein interactions using MINT Rattus norvegicus data
Source: Direct interaction with 448 interactions from I2D
BioGRID: a general repository for interaction datasets. Stark et al. (2006). Nucleic Acids Res.
Note: I2D predictions of protein protein interactions using BioGRID Saccharomyces cerevisiae data
Source: Direct interaction with 10,526 interactions from I2D
Comparative assessment of large-scale data sets of protein-protein interactions. von Mering et al. (2002). Nature.
Note: I2D predictions of protein protein interactions using vonMering-Bork-2002 Saccharomyces cerevisiae data
Source: Direct interaction with 2,304 interactions from I2D
WW domains provide a platform for the assembly of multiprotein networks. Ingham et al. (2005). Mol Cell Biol.
Note: I2D predictions of protein protein interactions using Ingham-Pawson-2005 Homo sapiens data
Source: Direct interaction with 216 interactions from I2D
Tags:
The IntAct molecular interaction database in 2010. Aranda et al. (2010). Nucleic Acids Res.
Note: I2D predictions of protein protein interactions using IntAct Rattus norvegicus data
Source: Direct interaction with 870 interactions from I2D
Application of an integrated physical and functional screening approach to identify inhibitors of the Wnt pathway. Miller et al. (2009). Mol Syst Biol.
Note: I2D predictions of protein protein interactions using Miller-Attisano-2009 Homo sapiens data
Source: Direct interaction with 545 interactions from I2D
Tags:
A quantitative protein interaction network for the ErbB receptors using protein microarrays. Jones et al. (2006). Nature.
Note: I2D predictions of protein protein interactions using Jones-MacBeath-2006 Homo sapiens data
Source: Direct interaction with 122 interactions from I2D
Tags:
Systematic identification of SH3 domain-mediated human protein-protein interactions by peptide array target screening. Wu et al. (2007). Proteomics.
Note: I2D predictions of protein protein interactions using Wu-Li-2007 Homo sapiens data
Source: Direct interaction with 285 interactions from I2D
Tags:
Inparanoid: a comprehensive database of eukaryotic orthologs. O'Brien et al. (2005). Nucleic Acids Res.
Source: 614,952 interactions from MouseFunc
Systematic interactome mapping and genetic perturbation analysis of a C. elegans TGF-beta signaling network. Tewari et al. (2004). Mol Cell.
Note: I2D predictions of protein protein interactions usingTewari-Vidal-2004 Caenorhabditis elegans data
Source: Direct interaction with 14 interactions from I2D
Tags:
BioGRID: a general repository for interaction datasets. Stark et al. (2006). Nucleic Acids Res.
Note: I2D predictions of protein protein interactions using BioGRID Homo sapiens data
Source: Direct interaction with 19,879 interactions from I2D
BIND--a data specification for storing and describing biomolecular interactions, molecular complexes and pathways. Bader et al. (2000). Bioinformatics.
Note: I2D predictions of protein protein interactions using BIND Homo sapiens data
Source: Direct interaction with 3,826 interactions from I2D
Comparative assessment of large-scale data sets of protein-protein interactions. von Mering et al. (2002). Nature.
Note: I2D predictions of protein protein interactions using vonMering-Bork-2002 Saccharomyces cerevisiae data
Source: Direct interaction with 12,811 interactions from I2D
Cell-specific information processing in segregating populations of Eph receptor ephrin-expressing cells. Jørgensen et al. (2009). Science.
Note: I2D predictions of protein protein interactions using Jorgensen-Pawson-2009 Homo sapiens data
Source: Direct interaction with 887 interactions from I2D
Tags:
The IntAct molecular interaction database in 2010. Aranda et al. (2010). Nucleic Acids Res.
Note: I2D predictions of protein protein interactions using IntAct Homo sapiens data
Source: Direct interaction with 19,325 interactions from I2D
Development of human protein reference database as an initial platform for approaching systems biology in humans. Peri et al. (2003). Genome Res.
Note: I2D predictions of protein protein interactions using HPRD Homo sapiens data
Source: Direct interaction with 24,918 interactions from I2D
Tags:
BioGRID: a general repository for interaction datasets. Stark et al. (2006). Nucleic Acids Res.
Note: I2D predictions of protein protein interactions using BioGRID Rattus norvegicus data
Source: Direct interaction with 101 interactions from I2D
InnateDB: facilitating systems-level analyses of the mammalian innate immune response. Lynn et al. (2008). Mol Syst Biol.
Note: I2D predictions of protein protein interactions using INNATEDB Homo sapiens data
Source: Direct interaction with 3,507 interactions from I2D
Tags:
A human MAP kinase interactome. Bandyopadhyay et al. (2010). Nat Methods.
Note: I2D predictions of protein protein interactions using Bandyopadhyay-Ideker-2010 Homo sapiens data
Source: Direct interaction with 356 interactions from I2D
Tags:
Source: Direct interaction with 27 interactions from I2D
The IntAct molecular interaction database in 2010. Aranda et al. (2010). Nucleic Acids Res.
Note: I2D predictions of protein protein interactions using IntAct Drosophila melanogaster data
Source: Direct interaction with 3,247 interactions from I2D
Network organization of the human autophagy system. Behrends et al. (2010). Nature.
Note: I2D predictions of protein protein interactions using Behrends-Harper-2010 Homo sapiens data
Source: Direct interaction with 13,343 interactions from I2D
An in vivo map of the yeast protein interactome. Tarassov et al. (2008). Science.
Note: I2D predictions of protein protein interactions using Tarassov-Michnick-2008 Saccharomyces cerevisiae data
Source: Direct interaction with 394 interactions from I2D
Tags:
Global landscape of protein complexes in the yeast Saccharomyces cerevisiae. Krogan et al. (2006). Nature.
Note: I2D predictions of protein protein interactions using Krogan-Greenblatt-2006 Saccharomyces cerevisiae data
Source: Direct interaction with 1,374 interactions from I2D
Protein interaction mapping: a Drosophila case study. Formstecher et al. (2005). Genome Res.
Note: I2D predictions of protein protein interactions using Formstecher-Daviet-2005 Drosophila melanogaster data
Source: Direct interaction with 424 interactions from I2D
Tags:
A map of the interactome network of the metazoan C. elegans. Li et al. (2004). Science.
Note: I2D predictions of protein protein interactions using Li-Vidal-2004 Caenorhabditis elegans data
Source: Direct interaction with 92 interactions from I2D
BIND--a data specification for storing and describing biomolecular interactions, molecular complexes and pathways. Bader et al. (2000). Bioinformatics.
Note: I2D predictions of protein protein interactions using BIND Saccharomyces cerevisiae data
Source: Direct interaction with 1,293 interactions from I2D
The IntAct molecular interaction database in 2010. Aranda et al. (2010). Nucleic Acids Res.
Note: I2D predictions of protein protein interactions using IntAct Caenorhabditis elegans data
Source: Direct interaction with 1,141 interactions from I2D
A human protein-protein interaction network: a resource for annotating the proteome. Stelzl et al. (2005). Cell.
Note: I2D predictions of protein protein interactions using Stelzl-Wanker-2005 Homo sapiens data
Source: Direct interaction with 564 interactions from I2D
Tags:
A human MAP kinase interactome. Bandyopadhyay et al. (2010). Nat Methods.
Note: I2D predictions of protein protein interactions using Bandyopadhyay-Ideker-2010 Homo sapiens data
Source: Direct interaction with 906 interactions from I2D
Tags:
A map of the interactome network of the metazoan C. elegans. Li et al. (2004). Science.
Note: I2D predictions of protein protein interactions using Li-Vidal-2004 Caenorhabditis elegans data
Source: Direct interaction with 142 interactions from I2D
Global landscape of protein complexes in the yeast Saccharomyces cerevisiae. Krogan et al. (2006). Nature.
Note: I2D predictions of protein protein interactions using Krogan-Greenblatt-2006 Saccharomyces cerevisiae data
Source: Direct interaction with 1,359 interactions from I2D
BioGRID: a general repository for interaction datasets. Stark et al. (2006). Nucleic Acids Res.
Note: I2D predictions of protein protein interactions using BioGRID Drosophila melanogaster data
Source: Direct interaction with 3,456 interactions from I2D
Towards a proteome-scale map of the human protein-protein interaction network. Rual et al. (2005). Nature.
Note: I2D predictions of protein protein interactions using Rual-Vidal-2004 Homo sapiens data
Source: Direct interaction with 447 interactions from I2D
High-quality binary protein interaction map of the yeast interactome network. Yu et al. (2008). Science.
Note: I2D predictions of protein protein interactions using Yu Gold Standard Saccharomyces cerevisiae data
Source: Direct interaction with 308 interactions from I2D
Tags:
MINT: a Molecular INTeraction database. Zanzoni et al. (2002). FEBS Lett.
Note: I2D predictions of protein protein interactions using MINT Homo sapiens data
Source: Direct interaction with 8,346 interactions from I2D
Source: Pearson correlation with 737,298 interactions from InterPro
Source: Pearson correlation with 692,400 interactions from Pfam
peroxisome proliferator activated receptor alpha [Source:MGI Symbol;Acc:MGI:104740]
Functions:
Synonyms: ENSMUSG00000022383; ENSMUSP00000059719; ENSMUSP00000105049; ENSMUSP00000105050; 19013; Ppara; MGI:104740; NP_001106889; NP_035274; NM_001113418; NM_011144; 'Nr1c1'; 'Ppar'; 'PPAR-alpha'; 'PPARalpha'; 4933429D07Rik; AW742785; Nr1c1; Ppar; PPAR-alpha; PPARalpha; P23204; PPARA_MOUSE;
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nuclear receptor coactivator 4 [Source:MGI Symbol;Acc:MGI:1350932]
Functions:
Synonyms: ENSMUSG00000056234; ENSMUSP00000107625; ENSMUSP00000126071; ENSMUSP00000126222; ENSMUSP00000126780; ENSMUSP00000128739; ENSMUSP00000129422; ENSMUSP00000129917; ENSMUSP00000131253; 27057; 627557; Ncoa4; MGI:1350932; NP_001029160; NP_062718; XP_930848; NM_001033988; NM_019744; XM_925755; XR_106488; 1110034E15Rik; 4432406M01Rik; AI227008; ARA70; EG627557; Gm6768; Rfg;
More at Entrez
fatty acid binding protein 1, liver [Source:MGI Symbol;Acc:MGI:95479]
Functions:
Synonyms: ENSMUSG00000054422; ENSMUSP00000064655; 14080; Fabp1; MGI:95479; NP_059095; NM_017399; 'Fabpl'; 'L-FABP'; Fabpl; L-FABP; FABPL_MOUSE; P12710;
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chromodomain helicase DNA binding protein 9 [Source:MGI Symbol;Acc:MGI:1924001]
Functions:
Synonyms: ENSMUSG00000056608; ENSMUSP00000046356; ENSMUSP00000105243; ENSMUSP00000127759; ENSMUSP00000131754; 109151; Chd9; MGI:1924001; NP_796198; NM_177224; 'AD013'; 1810014J18Rik; 9030205D12Rik; A330063D19Rik; AD013; mKIAA0308; PRIC320; CHD9_MOUSE; Q8BYH8;
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retinoid X receptor gamma [Source:MGI Symbol;Acc:MGI:98216]
Functions:
Synonyms: ENSMUSG00000015843; ENSMUSP00000015987; ENSMUSP00000107011; ENSMUSP00000107015; ENSMUSP00000107017; 20183; Rxrg; MGI:98216; NP_001153203; NP_033133; NM_001159731; NM_009107; 'Nr2b3'; Nr2b3; P28705; RXRG_MOUSE;
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mitochondrial trans-2-enoyl-CoA reductase [Source:MGI Symbol;Acc:MGI:1349441]
Functions:
Synonyms: ENSMUSG00000028910; ENSMUSP00000030742; ENSMUSP00000114543; 26922; Mecr; MGI:1349441; NP_079573; NM_025297; 'Nrbf1'; AI195831; Nrbf1; MECR_MOUSE; Q9DCS3;
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nuclear receptor coactivator 6 [Source:MGI Symbol;Acc:MGI:1929915]
Functions:
Synonyms: ENSMUSG00000038369; ENSMUSP00000045386; ENSMUSP00000105294; ENSMUSP00000105295; ENSMUSP00000118113; 56406; Ncoa6; MGI:1929915; NP_001229487; NP_062799; NM_001242558; NM_019825; 'AIB3'; 'ASC2'; 'NRC'; 'PRIP'; 'RAP250'; AIB3; mKIAA0181; NRC; RAP250;
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epoxide hydrolase 2, cytoplasmic [Source:MGI Symbol;Acc:MGI:99500]
Functions:
Synonyms: ENSMUSG00000022040; ENSMUSP00000069209; ENSMUSP00000106758; 13850; Ephx2; MGI:99500; NP_031966; NM_007940; 'Eph2'; AW106936; Eph2; HYES_MOUSE; P34914;
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nuclear receptor subfamily 1, group H, member 3 [Source:MGI Symbol;Acc:MGI:1352462]
Functions:
Synonyms: ENSMUSG00000002108; ENSMUSP00000002177; ENSMUSP00000106986; ENSMUSP00000106987; ENSMUSP00000106988; 22259; Nr1h3; MGI:1352462; NP_001171201; NP_038867; NM_001177730; NM_013839; 'Unr1'; AU018371; RLD1; Unr1; NR1H3_MOUSE; Q9Z0Y9;
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SH3 and cysteine rich domain 3 [Source:MGI Symbol;Acc:MGI:3606571]
Functions:
Synonyms: ENSMUSG00000040287; ENSMUSP00000048148; ENSMUSP00000124638; ENSMUSP00000125124; 237611; Stac3; MGI:3606571; NP_808375; NM_177707; 9830125E18; Q8BZ71; STAC3_MOUSE;
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nuclear receptor coactivator 1 [Source:MGI Symbol;Acc:MGI:1276523]
Functions:
Synonyms: ENSMUSG00000020647; ENSMUSP00000072285; ENSMUSP00000082971; 17977; Ncoa1; MGI:1276523; NP_035011; NM_010881; 'bHLHe74'; 'KAT13A'; 'SRC-1'; 'SRC-a/NCoA-1'; 'SRC1'; bHLHe74; KAT13A; SRC-1; SRC1; NCOA1_MOUSE; P70365;
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acyl-Coenzyme A dehydrogenase, short chain [Source:MGI Symbol;Acc:MGI:87868]
Functions:
Synonyms: ENSMUSG00000029545; ENSMUSP00000031524; ENSMUSP00000119640; 11409; Acads; MGI:87868; NP_031409; NM_007383; 'Bcd-1'; 'Hdlq8'; 'SCAD'; AI196007; Bcd-1; Hdlq8; SCAD; ACADS_MOUSE; Q07417;
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adenylate kinase 3 [Source:MGI Symbol;Acc:MGI:1860835]
Functions:
Synonyms: ENSMUSG00000024782; ENSMUSP00000025696; ENSMUSP00000121867; 56248; Ak3; MGI:1860835; NP_067274; NM_021299; AA407498; AI506714; Ak3l; Akl3l; KAD3_MOUSE; Q9WTP7;
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peroxisome proliferator activated receptor gamma [Source:MGI Symbol;Acc:MGI:97747]
Functions:
Synonyms: ENSMUSG00000000440; ENSMUSP00000000450; ENSMUSP00000131962; 19016; Pparg; MGI:97747; NP_001120802; NP_035276; NM_001127330; NM_011146; 'Nr1c3'; 'PPAR-gamma'; 'Ppar-gamma2'; 'PPARgamma'; 'PPARgamma2'; Nr1c3; PPAR-gamma; PPAR-gamma2; PPARgamma; PPARgamma2;
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growth arrest and DNA-damage-inducible 45 alpha [Source:MGI Symbol;Acc:MGI:107799]
Functions:
Synonyms: ENSMUSG00000036390; ENSMUSP00000044034; 13197; Gadd45a; MGI:107799; NP_031862; NM_007836; 'Ddit1'; AA545191; Ddit1; GADD45; GA45A_MOUSE; P48316;
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ATP-binding cassette, sub-family D (ALD), member 3 [Source:MGI Symbol;Acc:MGI:1349216]
Functions:
Synonyms: ENSMUSG00000028127; ENSMUSP00000029770; 19299; Abcd3; MGI:1349216; NP_033017; NM_008991; 'PMP70'; 'Pxmp1'; AI313901; AU018866; AW146054; PMP68; PMP70; Pxmp1; ABCD3_MOUSE; P55096;
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deoxyuridine triphosphatase [Source:MGI Symbol;Acc:MGI:1346051]
Functions:
Synonyms: ENSMUSG00000027203; ENSMUSP00000057854; ENSMUSP00000080767; 110074; Dut; MGI:1346051; NP_001153118; NP_076084; NM_001159646; NM_023595; 'D2Bwg0749e'; 'Dutp'; 'dUTPase'; 5031412I06Rik; 5133400F09Rik; D2Bwg0749e; Dutp; dUTPase;
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dehydrogenase/reductase (SDR family) member 4 [Source:MGI Symbol;Acc:MGI:90169]
Functions:
Synonyms: ENSMUSG00000022210; ENSMUSP00000022821; 28200; Dhrs4; MGI:90169; NP_001033027; NP_109611; NM_001037938; NM_030686; 'D14Ucla2'; 'RRD'; AI043103; AI790593; D14Ucla2; mouNRDR; NDRD; PHCR; PSCD; RRD;
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RAR-related orphan receptor gamma [Source:MGI Symbol;Acc:MGI:104856]
Functions:
Synonyms: ENSMUSG00000028150; ENSMUSP00000029795; ENSMUSP00000096476; ENSMUSP00000102911; ENSMUSP00000102913; 19885; Rorc; MGI:104856; NP_035411; NM_011281; 'RORgamma'; 'Thor'; Nr1f3; RORgamma; Thor; TOR;
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peroxisome proliferator activator receptor delta [Source:MGI Symbol;Acc:MGI:101884]
Functions:
Synonyms: ENSMUSG00000002250; ENSMUSP00000002320; ENSMUSP00000133077; 19015; Ppard; MGI:101884; NP_035275; NM_011145; 'Nr1c2'; 'NUC1'; 'PPAR-delta'; 'Pparb'; 'Pparb/d'; 'PPARdelta/beta'; Nr1c2; NUC-1; NUC1; PPAR-beta; PPAR-delta; PPAR[b]; Pparb; Pparb/d; PPARdelta; P35396; PPARD_MOUSE;
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acetyl-Coenzyme A acyltransferase 2 (mitochondrial 3-oxoacyl-Coenzyme A thiolase) [Source:MGI Symbol;Acc:MGI:1098623]
Functions:
Synonyms: ENSMUSG00000036880; ENSMUSP00000037348; 52538; Acaa2; MGI:1098623; NP_803421; NM_177470; 'D18Ertd240e'; 0610011L04Rik; AI255831; AI265397; D18Ertd240e; Q8BWT1; THIM_MOUSE;
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| query genes | n/a | 1 / 1 |
| fatty acid metabolic process | 1.9E-9 | 9 / 213 |
| monocarboxylic acid metabolic process | 1.54E-8 | 9 / 290 |
| fatty acid oxidation | 6.27E-8 | 6 / 60 |
| lipid oxidation | 6.27E-8 | 6 / 62 |
| ligand-activated sequence-specific DNA binding RNA polymerase II transcription factor activity | 6.27E-8 | 5 / 24 |
| lipid modification | 1.98E-6 | 6 / 113 |
| positive regulation of fatty acid metabolic process | 3.03E-5 | 4 / 28 |
| fatty acid binding | 9.49E-5 | 4 / 38 |
| intracellular receptor mediated signaling pathway | 1.36E-4 | 5 / 118 |
| regulation of cholesterol storage | 2.08E-4 | 3 / 11 |
| positive regulation of fatty acid oxidation | 2.08E-4 | 3 / 11 |
| negative regulation of lipid storage | 2.18E-4 | 3 / 12 |
| regulation of fatty acid metabolic process | 2.18E-4 | 4 / 53 |
| cholesterol storage | 2.18E-4 | 3 / 12 |
| retinoid X receptor binding | 2.64E-4 | 3 / 13 |
| monocarboxylic acid binding | 2.7E-4 | 4 / 58 |
| regulation of receptor biosynthetic process | 3.71E-4 | 3 / 15 |
| retinoic acid receptor binding | 4.31E-4 | 3 / 16 |
| regulation of cellular ketone metabolic process | 7.17E-4 | 4 / 77 |
| regulation of fatty acid oxidation | 7.5E-4 | 3 / 20 |
| receptor biosynthetic process | 7.5E-4 | 3 / 20 |
| sequence-specific DNA binding RNA polymerase II transcription factor activity | 8.29E-4 | 5 / 203 |
| nuclear hormone receptor binding | 1.01E-3 | 4 / 88 |
| microbody | 1.12E-3 | 4 / 92 |
| peroxisome | 1.12E-3 | 4 / 92 |
| drug binding | 1.13E-3 | 4 / 94 |
| positive regulation of lipid metabolic process | 1.13E-3 | 4 / 94 |
| regulation of lipid storage | 1.28E-3 | 3 / 26 |
| negative regulation of response to external stimulus | 1.45E-3 | 4 / 102 |
| hormone receptor binding | 1.77E-3 | 4 / 108 |
| lipid transport | 2.96E-3 | 4 / 124 |
| fatty acid beta-oxidation | 4.22E-3 | 3 / 40 |
| carboxylic acid binding | 5.3E-3 | 4 / 148 |
| lipid localization | 5.3E-3 | 4 / 148 |
| lipid storage | 5.3E-3 | 3 / 44 |
| fatty acid catabolic process | 7.39E-3 | 3 / 50 |
| monocarboxylic acid catabolic process | 7.64E-3 | 3 / 51 |
| small molecule catabolic process | 9.89E-3 | 4 / 177 |
| regulation of lipid metabolic process | 9.89E-3 | 4 / 179 |
| negative regulation of inflammatory response | 9.89E-3 | 3 / 57 |
| sequestering of triglyceride | 2.33E-2 | 2 / 11 |
| negative regulation of defense response | 2.33E-2 | 3 / 77 |
| chromatin binding | 3.32E-2 | 4 / 249 |
| cellular lipid catabolic process | 4.03E-2 | 3 / 94 |
| inflammatory response | 4.09E-2 | 4 / 266 |
| receptor metabolic process | 4.5E-2 | 3 / 99 |
| blood circulation | 4.72E-2 | 4 / 279 |
| placenta development | 4.74E-2 | 3 / 103 |
| circulatory system process | 4.74E-2 | 4 / 281 |
| regulation of macrophage derived foam cell differentiation | 4.74E-2 | 2 / 17 |
| carboxylic acid catabolic process | 5.11E-2 | 3 / 109 |
| organic acid catabolic process | 5.11E-2 | 3 / 109 |
| foam cell differentiation | 5.11E-2 | 2 / 18 |
| macrophage derived foam cell differentiation | 5.11E-2 | 2 / 18 |
| regulation of response to external stimulus | 5.31E-2 | 4 / 300 |
| ligand-dependent nuclear receptor binding | 5.31E-2 | 2 / 19 |
| lipid catabolic process | 7.6E-2 | 3 / 127 |
| regulation of blood pressure | 8.42E-2 | 3 / 133 |
| mitochondrial matrix | 8.42E-2 | 3 / 133 |
| response to steroid hormone stimulus | 8.46E-2 | 3 / 134 |
3.1.1
19 July 2012 20:00:00
server5.baderlab.med.utoronto.ca:80
server5.baderlab.med.utoronto.ca
192.168.81.45
19 May 2013 19:16:36
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192.168.81.45
184.72.91.94
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