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- Description
- Disease & phenotype
- Genes & alleles
- Genotyping
- Health & care
- References
- Pricing & purchasing
- Terms of use
Description
Strain Information
Former Names c17 (Changed: 15-DEC-04 ) Type Congenic; Mutant Strain; Additional information on Genetically Engineered and Mutant Mice. Visit our online Nomenclature tutorial. Additional information on Congenic nomenclature. Mating System Homozygote x Homozygote (Female x Male) 01-MAR-06 Species laboratory mouse Background Strain C57BL/6 Donor Strain NOD/Uf Generation N8F54 (16-OCT-12)
Generation DefinitionsAppearance
black
Related Genotype: a/aDescription
This strain is congenic for a 19 cM segment of Chr 17 extending from D17Mit21 through D17Mit10 that includes the major histocompatibility complex, H2, and the insulin dependent diabetes susceptibility locus Idd1. The name given this segment in the primary reference is c17. Upon histologic examination of the pancreas, a significantly higher percentage of B6.NOD-(D17Mit21-D17Mit10) congenic mice than of C57BL/6J control mice were found to exhibit periinsulitis, and more extensive mononuclear cell infiltrates were observed in the pancreata of these mice. The pancreatic infiltrates were not associated specifically with the islets. Insulitis (intraislet infiltration) was extremely rare, and no more than one affected islet was observed in a single animal, even in cases where extensive perivascular/periductal infiltrates existed. Male and female B6.NOD-(D17Mit21-D17Mit10) mice exhibited similar incidence of pancreatic infiltration; in contrast, female NOD mice are more susceptible than males to both insulitis and diabetes.Development
Genomic segments found in earlier linkage studies to include diabetogenic loci were transferred from NOD/Uf to C57BL/6 by six successive backcrosses (to N7). Sibs of each lineage were then intercrossed to generate homozygotes for each segment. Microsatellite analysis was used to type mice for loci in the regions of interest.
Control Information
| Control | ||
|---|---|---|
| 000664 C57BL/6J | ||
| Considerations for Choosing Controls | ||
Related Strains
Strains carrying H2g7 allele
View Strains carrying H2g7 (12 strains)
006500 129.NOD-(D17Mit175-H2)/J 010972 B10.NOD-(rs13459151-rs13483054)/1107MrkJ 004309 NOD.ALR-(D17Mit16-D17Mit10)/LtJ 004308 NOD.ALR-(D17Mit16-H2-D)/LtJ
Additional Web Information
JAX® NOTES, Spring 1999; 477. Control Strains for NOD/LtJ Mice in Diabetes Research.
Phenotype
Phenotype Information
Currently there is no phenotype information for this strain.This mouse can be used to support research in many areas including:H2g7 related
Immunology, Inflammation and Autoimmunity Research
CD Antigens, Antigen Receptors, and Histocompatibility Markers
Genes & Alleles
Gene & Allele Information provided by MGI
| Gene Symbol and Name | D17Mit10, DNA segment, Chr 17, Massachusetts Institute of Technology 10 | ||
|---|---|---|---|
| Chromosome | 17 | ||
| Gene Symbol and Name | D17Mit21, DNA segment, Chr 17, Massachusetts Institute of Technology 21 | ||
| Chromosome | 17 | ||
| Allele Symbol | H2g7 | ||
| Allele Name | g7 variant | ||
| Allele Type | Not Applicable | ||
| Gene Symbol and Name | H2, histocompatibility-2, MHC | ||
| Chromosome | 17 | ||
| Gene Common Name(s) | H-2; MHC-II; | ||
| Allele Symbol | Idd1NOD/Uf | ||
| Allele Name | NOD/Uf | ||
| Allele Type | QTL | ||
| Strain of Origin | NOD/Uf | ||
| Gene Symbol and Name | Idd1, insulin dependent diabetes susceptibility 1 | ||
| Chromosome | 17 | ||
| Gene Common Name(s) | Idd-1; | ||
| General Note |
NOD is homozygous for recessive alleles for susceptibility at all three loci, Idd1s, Idd2s, and Idd3s. The dominant alleles for non-susceptibility to IDD, Idd1r, etc., occur in the NON strain. Homozygosity for the recessive alleles at all three loci is necessary for the development of IDD.The Idd1 locus is linked to the major histocompatibility locus on Chr 17, but Idd2 is on Chr 9 (1) and Idd3 is on Chr 3 (J:8783, J:3351). This locus is also linked to peripheral CD4 lymphocytosis. | ||
| Molecular Note | This allele confers increased periinsulitis and increased CD4 lymphocytosis compared to C57BL/6. [MGI Ref ID J:33172] | ||
References
References provided by MGI
Selected Reference(s)
Yui MA; Muralidharan K; Moreno-Altamirano B; Perrin G; Chestnut K; Wakeland EK. 1996. Production of congenic mouse strains carrying NOD-derived diabetogenic genetic intervals: an approach for the genetic dissection of complex traits. Mamm Genome 7(5):331-4. [PubMed: 8661724] [MGI Ref ID J:33172]
Additional References
H2g7 relatedIdd1NOD/Uf relatedAuger JL; Haasken S; Steinert EM; Binstadt BA. 2012. Incomplete TCR-beta allelic exclusion accelerates spontaneous autoimmune arthritis in K/BxN TCR transgenic mice. Eur J Immunol 42(9):2354-62. [PubMed: 22706882] [MGI Ref ID J:187944]
Belizaire R; Unanue ER. 2009. Targeting proteins to distinct subcellular compartments reveals unique requirements for MHC class I and II presentation. Proc Natl Acad Sci U S A 106(41):17463-8. [PubMed: 19805168] [MGI Ref ID J:153672]
Binstadt BA; Hebert JL; Ortiz-Lopez A; Bronson R; Benoist C; Mathis D. 2009. The same systemic autoimmune disease provokes arthritis and endocarditis via distinct mechanisms. Proc Natl Acad Sci U S A 106(39):16758-63. [PubMed: 19805369] [MGI Ref ID J:153217]
Carrasco-Marin E; Shimizu J; Kanagawa O; Unanue ER. 1996. The class II MHC I-Ag7 molecules from non-obese diabetic mice are poor peptide binders. J Immunol 156(2):450-8. [PubMed: 8543793] [MGI Ref ID J:30538]
Choisy-Rossi CM; Holl TM; Pierce MA; Chapman HD; Serreze DV. 2004. Enhanced pathogenicity of diabetogenic T cells escaping a non-MHC gene-controlled near death experience. J Immunol 173(6):3791-800. [PubMed: 15356126] [MGI Ref ID J:167508]
Driver JP; Chen YG; Zhang W; Asrat S; Serreze DV. 2011. Unmasking genes in a type 1 diabetes-resistant mouse strain that enhances pathogenic CD8 T-cell responses. Diabetes 60(4):1354-9. [PubMed: 21307079] [MGI Ref ID J:171763]
Driver JP; Scheuplein F; Chen YG; Grier AE; Wilson SB; Serreze DV. 2010. Invariant natural killer T-cell control of type 1 diabetes: a dendritic cell genetic decision of a silver bullet or Russian roulette. Diabetes 59(2):423-32. [PubMed: 19903740] [MGI Ref ID J:164162]
Ferreira C; Singh Y; Furmanski AL; Wong FS; Garden OA; Dyson J. 2009. Non-obese diabetic mice select a low-diversity repertoire of natural regulatory T cells. Proc Natl Acad Sci U S A 106(20):8320-5. [PubMed: 19359477] [MGI Ref ID J:148537]
Fossati G; Cooke A; Papafio RQ; Haskins K; Stockinger B. 1999. Triggering a second T cell receptor on diabetogenic T cells can prevent induction of diabetes. J Exp Med 190(4):577-83. [PubMed: 10449528] [MGI Ref ID J:108724]
Gray D; Abramson J; Benoist C; Mathis D. 2007. Proliferative arrest and rapid turnover of thymic epithelial cells expressing Aire. J Exp Med 204(11):2521-8. [PubMed: 17908938] [MGI Ref ID J:126040]
Jasinski JM; Yu L; Nakayama M; Li MM; Lipes MA; Eisenbarth GS; Liu E. 2006. Transgenic insulin (B:9-23) T-cell receptor mice develop autoimmune diabetes dependent upon RAG genotype, H-2g7 homozygosity, and insulin 2 gene knockout. Diabetes 55(7):1978-84. [PubMed: 16804066] [MGI Ref ID J:111874]
Klein J; Figueroa F; David CS. 1983. H-2 haplotypes, genes and antigens: second listing. II. The H-2 complex. Immunogenetics 17(6):553-96. [PubMed: 6407984] [MGI Ref ID J:7097]
Kouskoff V; Korganow AS; Duchatelle V; Degott C; Benoist C; Mathis D. 1996. Organ-specific disease provoked by systemic autoimmunity. Cell 87(5):811-22. [PubMed: 8945509] [MGI Ref ID J:36815]
Lee JS; Scandiuzzi L; Ray A; Wei J; Hofmeyer KA; Abadi YM; Loke P; Lin J; Yuan J; Serreze DV; Allison JP; Zang X. 2012. B7x in the periphery abrogates pancreas-specific damage mediated by self-reactive CD8 T cells. J Immunol 189(8):4165-74. [PubMed: 22972920] [MGI Ref ID J:190522]
Lee MS; Mueller R; Wicker LS; Peterson LB; Sarvetnick N. 1996. IL-10 is necessary and sufficient for autoimmune diabetes in conjunction with NOD MHC homozygosity. J Exp Med 183(6):2663-8. [PubMed: 8676087] [MGI Ref ID J:153576]
Leiter EH. 1998. NOD Mice and Related Strains: Origins, Husbandry and Biology Introduction. In: NOD Mice and Related Strains: Research Applications in Diabetes, AIDS, Cancer, and Other Diseases. RG Landes, Austin. [MGI Ref ID J:110093]
Levisetti MG; Lewis DM; Suri A; Unanue ER. 2008. Weak proinsulin peptide-major histocompatibility complexes are targeted in autoimmune diabetes in mice. Diabetes 57(7):1852-60. [PubMed: 18398138] [MGI Ref ID J:138230]
Luhder F; Katz J; Benoist C; Mathis D. 1998. Major histocompatibility complex class II molecules can protect from diabetes by positively selecting T cells with additional specificities. J Exp Med 187(3):379-87. [PubMed: 9449718] [MGI Ref ID J:108722]
Ma YD; Park C; Zhao H; Oduro KA Jr; Tu X; Long F; Allen PM; Teitelbaum SL; Choi K. 2009. Defects in osteoblast function but no changes in long-term repopulating potential of hematopoietic stem cells in a mouse chronic inflammatory arthritis model. Blood 114(20):4402-10. [PubMed: 19759358] [MGI Ref ID J:154922]
Mahler M; Bristol IJ; Leiter EH; Workman AE; Birkenmeier EH; Elson CO; Sundberg JP. 1998. Differential susceptibility of inbred mouse strains to dextran sulfate sodium-induced colitis. Am J Physiol 274(3 Pt 1):G544-51. [PubMed: 9530156] [MGI Ref ID J:46553]
Mangada J; Pearson T; Brehm MA; Wicker LS; Peterson LB; Shultz LD; Serreze DV; Rossini AA; Greiner DL. 2009. Idd loci synergize to prolong islet allograft survival induced by costimulation blockade in NOD mice. Diabetes 58(1):165-73. [PubMed: 18984741] [MGI Ref ID J:146982]
Martin-Orozco N; Chen Z; Poirot L; Hyatt E; Chen A; Kanagawa O; Sharpe A; Mathis D; Benoist C. 2003. Paradoxical dampening of anti-islet self-reactivity but promotion of diabetes by OX40 ligand. J Immunol 171(12):6954-60. [PubMed: 14662903] [MGI Ref ID J:86926]
Martinez RJ; Zhang N; Thomas SR; Nandiwada SL; Jenkins MK; Binstadt BA; Mueller DL. 2012. Arthritogenic self-reactive CD4+ T cells acquire an FR4hiCD73hi anergic state in the presence of Foxp3+ regulatory T cells. J Immunol 188(1):170-81. [PubMed: 22124124] [MGI Ref ID J:180819]
Pearson T; Markees TG; Serreze DV; Pierce MA; Marron MP; Wicker LS; Peterson LB; Shultz LD; Mordes JP; Rossini AA; Greiner DL. 2003. Genetic disassociation of autoimmunity and resistance to costimulation blockade-induced transplantation tolerance in nonobese diabetic mice. J Immunol 171(1):185-95. [PubMed: 12816997] [MGI Ref ID J:109845]
Podolin PL; Pressey A; DeLarato NH; Fischer PA; Peterson LB; Wicker LS. 1993. I-E+ nonobese diabetic mice develop insulitis and diabetes. J Exp Med 178(3):793-803. [PubMed: 8350054] [MGI Ref ID J:14178]
Serreze DV; Gallichan WS; Snider DP; Croitoru K; Rosenthal KL; Leiter EH; Christianson GJ; Dudley ME; Roopenian DC. 1996. MHC class I-mediated antigen presentation and induction of CD8+ cytotoxic T-cell responses in autoimmune diabetes-prone NOD mice. Diabetes 45(7):902-8. [PubMed: 8666141] [MGI Ref ID J:33688]
Suwanai H; Wilcox MA; Mathis D; Benoist C. 2010. A defective Il15 allele underlies the deficiency in natural killer cell activity in nonobese diabetic mice. Proc Natl Acad Sci U S A 107(20):9305-10. [PubMed: 20439722] [MGI Ref ID J:160284]
Taylor JJ; Martinez RJ; Titcombe PJ; Barsness LO; Thomas SR; Zhang N; Katzman SD; Jenkins MK; Mueller DL. 2012. Deletion and anergy of polyclonal B cells specific for ubiquitous membrane-bound self-antigen. J Exp Med 209(11):2065-77. [PubMed: 23071255] [MGI Ref ID J:190897]
Turley SJ; Lee JW; Dutton-Swain N; Mathis D; Benoist C. 2005. Endocrine self and gut non-self intersect in the pancreatic lymph nodes. Proc Natl Acad Sci U S A 102(49):17729-33. [PubMed: 16317068] [MGI Ref ID J:104385]
Victoratos P; Kollias G. 2009. Induction of autoantibody-mediated spontaneous arthritis critically depends on follicular dendritic cells. Immunity 30(1):130-42. [PubMed: 19119026] [MGI Ref ID J:143728]
Wang JX; Bair AM; King SL; Shnayder R; Huang YF; Shieh CC; Soberman RJ; Fuhlbrigge RC; Nigrovic PA. 2012. Ly6G ligation blocks recruitment of neutrophils via a beta2-integrin-dependent mechanism. Blood 120(7):1489-98. [PubMed: 22661700] [MGI Ref ID J:189105]
Wei J; Loke P; Zang X; Allison JP. 2011. Tissue-specific expression of B7x protects from CD4 T cell-mediated autoimmunity. J Exp Med 208(8):1683-94. [PubMed: 21727190] [MGI Ref ID J:177612]
Wong FS; Du W; Thomas IJ; Wen L. 2005. The influence of the major histocompatibility complex on development of autoimmune diabetes in RIP-B7.1 mice. Diabetes 54(7):2032-40. [PubMed: 15983204] [MGI Ref ID J:109830]
Yoshida T; Jiang F; Honjo T; Okazaki T. 2008. PD-1 deficiency reveals various tissue-specific autoimmunity by H-2b and dose-dependent requirement of H-2g7 for diabetes in NOD mice. Proc Natl Acad Sci U S A 105(9):3533-8. [PubMed: 18299579] [MGI Ref ID J:132764]
Zhang C; Todorov I; Lin CL; Atkinson M; Kandeel F; Forman S; Zeng D. 2007. Elimination of insulitis and augmentation of islet beta cell regeneration via induction of chimerism in overtly diabetic NOD mice. Proc Natl Acad Sci U S A 104(7):2337-42. [PubMed: 17267595] [MGI Ref ID J:119749]
Koarada S; Wu Y; Yim YS; Wakeland EW; Ridgway WM. 2004. Nonobese diabetic CD4 lymphocytosis maps outside the MHC locus on chromosome 17. Immunogenetics 56(5):333-7. [PubMed: 15309345] [MGI Ref ID J:92304]
Prochazka M; Leiter EH; Serreze DV; Coleman DL. 1987. Three recessive loci required for insulin-dependent diabetes in nonobese diabetic mice [published erratum appears in Science 1988 Nov 11;242(4880):945] Science 237(4812):286-9. [PubMed: 2885918] [MGI Ref ID J:8783]
Todd JA; Aitman TJ; Cornall RJ; Ghosh S; Hall JR; Hearne CM; Knight AM; Love JM; McAleer MA; Prins JB; Rodrigues N; Lathrop M; Pressey A; DeLarato NH; Peterson LB; Wicker LS. 1991. Genetic analysis of autoimmune type 1 diabetes mellitus in mice [see comments] Nature 351(6327):542-7. [PubMed: 1675432] [MGI Ref ID J:3351]
Health & husbandry
Health & Colony Maintenance Information
Animal Health Reports
Room Number AX11
Colony Maintenance
Mating System Homozygote x Homozygote (Female x Male) 01-MAR-06 Diet Information LabDiet® 5K52/5K67
Pricing and Purchasing
Pricing, Supply Level & Notes, Controls
| Pricing for USA, Canada and Mexico shipping destinations |
|
Live Mice
Price per mouse (US dollars $) Gender Genotypes Provided Individual Mouse $110.00 Female or Male Homozygous
Price per Pair (US dollars $) Pair Genotype $220.00 Homozygous x Homozygous Standard Supply
Repository-Live. Repository-Live represents an exclusive set of over 1500 unique mouse models maintained at The Jackson Laboratory to support a vast array of research areas. The breeding colonies for Repository Strains provide mice for both large and small orders and fluctuate in size depending on current demand for each strain. Repository-live orders are treated as custom orders. Within 2 business days, we respond to each availability inquiry or order with various delivery options. Repository Strains typically are delivered at 4 to 8 weeks of age and will not exceed 12 weeks of age on the day of shipping.
| Pricing for International shipping destinations |
|
Live Mice
Price per mouse (US dollars $) Gender Genotypes Provided Individual Mouse $143.00 Female or Male Homozygous
Price per Pair (US dollars $) Pair Genotype $286.00 Homozygous x Homozygous Standard Supply
Repository-Live. Repository-Live represents an exclusive set of over 1500 unique mouse models maintained at The Jackson Laboratory to support a vast array of research areas. The breeding colonies for Repository Strains provide mice for both large and small orders and fluctuate in size depending on current demand for each strain. Repository-live orders are treated as custom orders. Within 2 business days, we respond to each availability inquiry or order with various delivery options. Repository Strains typically are delivered at 4 to 8 weeks of age and will not exceed 12 weeks of age on the day of shipping.
|
|
|
Standard Supply
Repository-Live. Repository-Live represents an exclusive set of over 1500 unique mouse models maintained at The Jackson Laboratory to support a vast array of research areas. The breeding colonies for Repository Strains provide mice for both large and small orders and fluctuate in size depending on current demand for each strain. Repository-live orders are treated as custom orders. Within 2 business days, we respond to each availability inquiry or order with various delivery options. Repository Strains typically are delivered at 4 to 8 weeks of age and will not exceed 12 weeks of age on the day of shipping.
General Supply Notes
- View the complete collection of spontaneous mutants in the Mouse Mutant Resource.
- Genomic DNA is available for this strain from the Mouse DNA Resource.
Control Information
| Control | ||
|---|---|---|
| 000664 C57BL/6J | ||
| Considerations for Choosing Controls | ||
| Control Pricing Information for Genetically Engineered Mutant Strains. | ||
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The Jackson Laboratory has rigorous genetic quality control and mutant gene genotyping programs to ensure the genetic background of JAX® Mice strains as well as the genotypes of strains with identified molecular mutations. JAX® Mice strains are only made available to researchers after meeting our standards. However, the phenotype of each strain may not be fully characterized and/or captured in the strain data sheets. Therefore, we cannot guarantee a strain's phenotype will meet all expectations. To ensure that JAX® Mice will meet the needs of individual research projects or when requesting a strain that is new to your research, we suggest ordering and performing tests on a small number of mice to determine suitability for your particular project.Ordering Information
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