Mapping Data Summary

• Symbol: D4Mit155
• Name: DNA segment, Chr 4, Massachusetts Institute of Technology 155
• ID: MGI:92781
• Chromosome: 4

19 mapping experiments

Experiment Type	Details	Chromosome	Reference
CROSS	Cross Type: Intercross	4	J:31419 Chua SC Jr, et al., Phenotypes of mouse diabetes and rat fatty due to mutations in the OB (leptin) receptor [see comments]. Science. 1996 Feb 16;271(5251):994-6
CROSS	Cross Type: Intercross	4	J:43504 Sheldon M, et al., Scrambler and yotari disrupt the disabled gene and produce a reeler-like phenotype in mice [see comments]. Nature. 1997 Oct 16;389(6652):730-3
CROSS	Cross Type: Backcross	4	J:37823 Tchernev VT, et al., Genetic mapping of 20 novel expressed sequence tags from midgestation mouse embryos suggests chromosomal clustering. Genomics. 1997 Feb 15;40(1):170-4
RI	RI/RC Set: BXA	4	J:41733 Prows DR, et al., Genotypes for 66 microsatellite markers in the AXB and BXA recombinant inbred mouse strains. Mamm Genome. 1998 Feb;9(2):160-1
RI	RI/RC Set: AXB	4	J:41733 Prows DR, et al., Genotypes for 66 microsatellite markers in the AXB and BXA recombinant inbred mouse strains. Mamm Genome. 1998 Feb;9(2):160-1
TEXT		4	J:45215 McCarthy LC, et al., A first-generation whole genome-radiation hybrid map spanning the mouse genome. Genome Res. 1997 Dec;7(12):1153-61
TEXT-Genetic Cross		4	J:30407 Tartaglia LA, et al., Identification and expression cloning of a leptin receptor, OB-R. Cell. 1995 Dec 29;83(7):1263-71
TEXT-Physical Mapping		4	J:81997 Bar I, et al., The gene encoding disabled-1 (DAB1), the intracellular adaptor of the Reelin pathway, reveals unusual complexity in human and mouse. J Biol Chem. 2003 Feb 21;278(8):5802-12
TEXT-Physical Mapping		4	J:31419 Chua SC Jr, et al., Phenotypes of mouse diabetes and rat fatty due to mutations in the OB (leptin) receptor [see comments]. Science. 1996 Feb 16;271(5251):994-6
TEXT-Physical Mapping		4	J:106743 Mouse Genome Informatics and NCBI UniSTS, UniSTS load for MIT markers. Database Download. 2006;
TEXT-Physical Mapping		4	J:43504 Sheldon M, et al., Scrambler and yotari disrupt the disabled gene and produce a reeler-like phenotype in mice [see comments]. Nature. 1997 Oct 16;389(6652):730-3
TEXT-QTL		4	J:68139 Casley WL, et al., Detection of quantitative trait loci affecting caffeine metabolism by interval mapping in a genome-wide scan of C3H/HeJ x APN F(2) mice. Drug Metab Dispos. 1999 Dec;27(12):1375-80
TEXT-QTL		4	J:104331 Harper JM, et al., Quantitative trait loci for insulin-like growth factor I, leptin, thyroxine, and corticosterone in genetically heterogeneous mice. Physiol Genomics. 2003 Sep 29;15(1):44-51
TEXT-QTL		4	J:83220 Jackson AU, et al., Genetic polymorphisms in mouse genes regulating age-sensitive and age-stable T cell subsets. Genes Immun. 2003 Jan;4(1):30-9
TEXT-QTL		4	J:117546 Reeves GM, et al., Quantitative trait loci modulate vertebral morphology and mechanical properties in a population of 18-month-old genetically heterogeneous mice. Bone. 2007 Feb;40(2):433-43
TEXT-QTL		4	J:92584 Volkman SK, et al., Quantitative trait loci that modulate femoral mechanical properties in a genetically heterogeneous mouse population. J Bone Miner Res. 2004 Sep;19(9):1497-505
TEXT-QTL		4	J:94352 Volkman SK, et al., Quantitative trait loci for femoral size and shape in a genetically heterogeneous mouse population. J Bone Miner Res. 2003 Aug;18(8):1497-505
TEXT-QTL		4	J:91543 Wolf N, et al., Quantitative trait locus mapping for age-related cataract severity and synechia prevalence using four-way cross mice. Invest Ophthalmol Vis Sci. 2004 Jun;45(6):1922-9
TEXT-Radiation Hybrid		4	J:68900 The Jackson Laboratory Mouse Radiation Hybrid Database, Mouse T31 Radiation Hybrid Data Load. Database Release. 2004;