Symbol Name ID Chromosome |
Igf1
insulin-like growth factor 1 MGI:96432 10 |
Experiment Type | Details | Chromosome | Reference |
---|---|---|---|
CROSS |
Cross Type: Backcross Mapping Panel: Copeland-Jenkins |
10 | J:38059 Belaaouaj A, et al., Characterization of the mouse neutrophil elastase gene and localization to chromosome 10. Mamm Genome. 1997 Jan;8(1):5-8 |
CROSS |
Cross Type: Backcross Mapping Panel: Copeland-Jenkins |
10 | J:33214 Berger R, et al., The characterization and localization of the mouse thymopoietin/lamina-associated polypeptide 2 gene and its alternatively spliced products. Genome Res. 1996 May;6(5):361-70 |
CROSS |
Cross Type: Backcross Mapping Panel: Copeland-Jenkins |
10 | J:21571 Brott BK, et al., MEK2 is a kinase related to MEK1 and is differentially expressed in murine tissues. Cell Growth Differ. 1993 Nov;4(11):921-9 |
CROSS |
Cross Type: Backcross Mapping Panel: Copeland-Jenkins |
10 | J:47933 Burwinkel B, et al., Structure of the human paralemmin gene (PALM), mapping to human chromosome 19p13.3 and mouse chromosome 10, and exclusion of coding mutations in grizzled, mocha, jittery, and hesitant mice. Genomics. 1998 May 1;49(3):462-6 |
CROSS |
Cross Type: Backcross Mapping Panel: Copeland-Jenkins |
10 | J:10748 Copeland NG, et al., Mast cell growth factor maps near the steel locus on mouse chromosome 10 and is deleted in a number of steel alleles. Cell. 1990 Oct 5;63(1):175-83 |
CROSS |
Cross Type: Backcross Mapping Panel: Copeland-Jenkins |
10 | J:54120 Fletcher CF, et al., Exon structure of the nuclear factor I DNA-binding domain from C. elegans to mammals. Mamm Genome. 1999 Apr;10(4):390-6 |
CROSS |
Cross Type: Backcross Mapping Panel: JAX Mouse Mutant Resource BCB |
10 | J:21510 Johnson KR, et al., Identification and genetic mapping of 151 dispersed members of 16 ribosomal protein multigene families in the mouse. Mamm Genome. 1994 Nov;5(11):670-87 |
CROSS |
Cross Type: Backcross |
10 | J:44966 Johnson KR, et al., A major gene affecting age-related hearing loss in C57BL/6J mice. Hear Res. 1997 Dec;114(1-2):83-92 |
CROSS |
Cross Type: Backcross Mapping Panel: Copeland-Jenkins |
10 | J:10716 Justice MJ, et al., A genetic linkage map of mouse chromosome 10: localization of eighteen molecular markers using a single interspecific backcross. Genetics. 1990 Aug;125(4):855-66 |
CROSS |
Cross Type: Backcross Mapping Panel: Copeland-Jenkins |
10 | J:70024 Kojima T, et al., Genomic organization of the Shc-related phosphotyrosine adapters and characterization of the full-length Sck/ShcB: specific association of p68-Sck/ShcB with pp135. Biochem Biophys Res Commun. 2001 Jun 22;284(4):1039-47 |
CROSS |
Cross Type: Backcross |
10 | J:1608 Kwon BS, et al., A melanocyte-specific gene, Pmel 17, maps near the silver coat color locus on mouse chromosome 10 and is in a syntenic region on human chromosome 12. Proc Natl Acad Sci U S A. 1991 Oct 15;88(20):9228-32 |
CROSS |
Cross Type: Backcross Mapping Panel: Copeland-Jenkins |
10 | J:29690 Lee CH, et al., Genomic structure, promoter identification, and chromosomal mapping of a mouse nuclear orphan receptor expressed in embryos and adult testes. Genomics. 1995 Nov 1;30(1):46-52 |
CROSS |
Cross Type: Backcross |
10 | J:11034 Taylor BA, et al., Localization of the gene encoding insulin-like growth factor I on mouse chromosome 10. Cytogenet Cell Genet. 1991;56(1):57-8 |
CROSS |
Cross Type: Backcross |
10 | J:11034 Taylor BA, et al., Localization of the gene encoding insulin-like growth factor I on mouse chromosome 10. Cytogenet Cell Genet. 1991;56(1):57-8 |
CROSS |
Cross Type: Backcross |
10 | J:11034 Taylor BA, et al., Localization of the gene encoding insulin-like growth factor I on mouse chromosome 10. Cytogenet Cell Genet. 1991;56(1):57-8 |
CROSS |
Cross Type: Backcross |
10 | J:3520 Taylor BA, et al., Close linkage of Mdm-1, a gene amplified and overexpressed in a transformed 3T3 cell line, with gamma interferon (Ifg) on Chromosome 10 of the mouse. Mamm Genome. 1992;3(12):700-4 |
CROSS |
Cross Type: Backcross |
10 | J:3520 Taylor BA, et al., Close linkage of Mdm-1, a gene amplified and overexpressed in a transformed 3T3 cell line, with gamma interferon (Ifg) on Chromosome 10 of the mouse. Mamm Genome. 1992;3(12):700-4 |
CROSS |
Cross Type: Backcross |
10 | J:4406 Taylor RG, et al., Identification of the mutation in murine histidinemia (his) and genetic mapping of the murine histidase locus (Hal) on chromosome 10. Genomics. 1993 Apr;16(1):231-40 |
CROSS |
Cross Type: Backcross Mapping Panel: Copeland-Jenkins |
10 | J:22311 Thia KY, et al., The natural killer cell serine protease gene Lmet1 maps to mouse chromosome 10. Immunogenetics. 1995;41(1):47-9 |
TEXT | 10 | J:13549 Collins AC, et al., Growth quantitative trait loci (QTL) on mouse chromosome 10 in a Quackenbush-Swiss x C57BL/6J backcross. Mamm Genome. 1993;4(8):454-8 | |
TEXT-Genetic Cross | 10 | J:24137 Horvat S, et al., Interval mapping of high growth (hg), a major locus that increases weight gain in mice. Genetics. 1995 Apr;139(4):1737-48 | |
TEXT-Genetic Cross | 10 | J:24137 Horvat S, et al., Interval mapping of high growth (hg), a major locus that increases weight gain in mice. Genetics. 1995 Apr;139(4):1737-48 | |
TEXT-Genetic Cross | 10 | J:32785 Horvat S, et al., Fine genetic mapping of the region surrounding the high growth (hg) locus in mouse chromosome 10: targeting random amplified polymorphic DNA (RAPD) markers. Mamm Genome. 1996 Apr;7(4):312-4 | |
TEXT-Genetic Cross | 10 | J:14556 Medrano JF, et al., The high growth gene (hg) in mice is located in Chromosome 10 linked to Igf-1, in Advances in Gene Technology: Feeding the World in the 21st Century. 1992:12. | |
TEXT-Physical Mapping | 10 | J:80000 The FANTOM Consortium and The RIKEN Genome Exploration Research Group Phase I & II Team, Analysis of the mouse transcriptome based on functional annotation of 60,770 full-length cDNAs. Nature. 2002;420:563-573 | |
TEXT-QTL | 10 | J:69083 Blankenhorn EP, et al., Genetic analysis of the influence of pertussis toxin on experimental allergic encephalomyelitis susceptibility: an environmental agent can override genetic checkpoints. J Immunol. 2000 Mar 15;164(6):3420-5 | |
TEXT-QTL | 10 | J:111677 Delahunty KM, et al., Congenic mice provide in vivo evidence for a genetic locus that modulates serum insulin-like growth factor-I and bone acquisition. Endocrinology. 2006 Aug;147(8):3915-23 | |
TEXT-QTL | 10 | J:88536 Ishikawa A, et al., Mapping major quantitative trait loci for postnatal growth in an intersubspecific backcross between C57BL/6J and Philippine wild mice by using principal component analysis. Genes Genet Syst. 2004 Feb;79(1):27-39 | |
TEXT-QTL | 10 | J:109795 Kenney-Hunt JP, et al., Quantitative trait loci for body size components in mice. Mamm Genome. 2006 Jun;17(6):526-37 | |
TEXT-QTL | 10 | J:97801 Nandakumar KS, et al., A genetic contamination in MHC-congenic mouse strains reveals a locus on chromosome 10 that determines autoimmunity and arthritis susceptibility. Eur J Immunol. 2005 Apr;35(4):1275-82 | |
TEXT-QTL | 10 | J:66640 Rosen CJ, et al., Mapping quantitative trait loci for serum insulin-like growth factor-1 levels in mice. Bone. 2000 Oct;27(4):521-8 | |
TEXT-QTL-Candidate Genes | 10 | J:99477 Brown AC, et al., Searching QTL by gene expression: analysis of diabesity. BMC Genet. 2005 Mar 10;6(1):12 |
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 11/12/2024 MGI 6.24 |
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