Strain Name:

B6.SB-Yaa/J

Stock Number:

000483

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Availability:

Cryopreserved - Ready for recovery

Description

The genotypes of the animals provided may not reflect those discussed in the strain description or the mating scheme utilized by The Jackson Laboratory prior to cryopreservation. Please inquire for possible genotypes for this specific strain.

Strain Information

Type Congenic; Mutant Strain;
Additional information on Genetically Engineered and Mutant Mice.
Visit our online Nomenclature tutorial.
Additional information on Congenic nomenclature.
Specieslaboratory mouse
Background Strain C57BL/6J
Donor Strain SB/Le
GenerationN9 F48
Generation Definitions

Appearance
black, affected
Related Genotype: a/a X/Yaa (male)

black, unaffected
Related Genotype: a/a X/X (female)

Description
The Yaa gene, present on the Y chromosome in BXSB mice, is responsible for accelerated autoimmune disease. However, C57BL/6J mice carrying the Yaa gene do not demonstrate this autoimmune disease, and are indistinguishable from wildtype controls. A lupus-like syndrome can be seen in male F1 hybrids obtained by crossing male C57BL/6J mice carrying the Yaa gene with NZW females. Thus, the Yaa gene may not be sufficient to induce accelerated autoimmunity unless present on a susceptible genetic background.

Development
The Y chromosome from SB/Le was backcrossed onto C57BL/6J until reaching N9. From that point on, it has been maintained by sibling mating.

Control Information

  Control
   000664 C57BL/6J
 
  Considerations for Choosing Controls

Related Strains

View Strains carrying   Yaa     (7 strains)

Strains carrying other alleles of Yaa
000742   BXSB.B6-Yaa+/J
001925   BXSB.B6-Yaa+/MobJ
021330   BXSB.B6-Yaa+/MobJDcrJ
View Strains carrying other alleles of Yaa     (3 strains)

Additional Web Information

JAX® NOTES, Summer 2009; 514. JAX Researcher Identifies Critical Role of IL21 in Lupus Pathogenesis.

Phenotype

Phenotype Information

View Related Disease (OMIM) Terms

Related Disease (OMIM) Terms provided by MGI
- Characteristics of this human disease are associated with transgenes and other mutation types in the mouse.
Systemic Lupus Erythematosus; SLE
View Mammalian Phenotype Terms

Mammalian Phenotype Terms provided by MGI
      assigned by genotype

X/Yaa

        B6.SB-Yaa
  • immune system phenotype
  • decreased marginal zone B cell number   (MGI Ref ID J:127600)
  • increased splenocyte proliferation
    • hyperresponsive to imiquimod induced splenocyte proliferation   (MGI Ref ID J:127600)
  • hematopoietic system phenotype
  • decreased marginal zone B cell number   (MGI Ref ID J:127600)
  • increased splenocyte proliferation
    • hyperresponsive to imiquimod induced splenocyte proliferation   (MGI Ref ID J:127600)
  • cellular phenotype
  • increased splenocyte proliferation
    • hyperresponsive to imiquimod induced splenocyte proliferation   (MGI Ref ID J:127600)

The following phenotype information is associated with a similar, but not exact match to this JAX® Mice strain.

X/Yaa

        (SJL/J x BXSB)F1
  • mortality/aging
  • premature death
    • mean longevity for males is 308 +/- 26 days while only 8 of 16 reciprocal hybrid males died between 270 and 684 days   (MGI Ref ID J:6235)
  • immune system phenotype
  • enlarged lymph nodes
    • moderately enlarged   (MGI Ref ID J:6235)
    • at 18 to 25 weeks the combined weight of the axillary, mesenteric, and renal lymph nodes is increased 5-fold compared to C57BL/6J males   (MGI Ref ID J:6235)
  • increased susceptibility to autoimmune disorder
    • accelerated autoimmune syndrome relative to reciprocal hybrid males   (MGI Ref ID J:6235)

X/Yaa

        (C57BL/6J x BXSB)F1
  • mortality/aging
  • premature death
    • mean longevity for males is 332 +/- 14 days compared to 716 +/- 28 days for littermate females   (MGI Ref ID J:6235)
  • immune system phenotype
  • enlarged lymph nodes
    • moderately enlarged   (MGI Ref ID J:6235)
    • at 18 to 25 weeks the combined weight of the axillary, mesenteric, and renal lymph nodes is increased 5-fold compared to C57BL/6J males   (MGI Ref ID J:6235)
  • increased susceptibility to autoimmune disorder
    • accelerated autoimmune syndrome relative to reciprocal hybrid males   (MGI Ref ID J:6235)

X/Yaa

        BXSB/MpJ
  • mortality/aging
  • premature death
    • mean longevity for males is 155 +/- 13 days compared to 442 +/- 29 days for littermate females   (MGI Ref ID J:6235)
    • castration does not significantly alter longevity   (MGI Ref ID J:6235)
    • median survival is 8 months   (MGI Ref ID J:7308)
  • immune system phenotype
  • abnormal B cell differentiation
    • frequency of C3d receptor bearing cells is increased in young mice but declines with age   (MGI Ref ID J:108760)
  • abnormal lymph node morphology
    • infiltrated with a mixed population of lymphocytes, plasma cells, and histiocytes often blurring the architecture of the node   (MGI Ref ID J:6235)
    • enlarged lymph nodes
      • moderately enlarged   (MGI Ref ID J:6235)
      • at 18 to 25 weeks the combined weight of the axillary, mesenteric, and renal lymph nodes is increased 5-fold compared to C57BL/6J males   (MGI Ref ID J:6235)
  • glomerulonephritis
    • acute to subacute exudative and proliferative glomerulonephritis   (MGI Ref ID J:6235)
  • increased IgG1 level   (MGI Ref ID J:93740)
  • increased IgG3 level   (MGI Ref ID J:93740)
  • increased anti-erythrocyte antigen antibody level
    • erythrocyte autoantibodies were found in 7 of 13 males between 16 and 25 weeks of age   (MGI Ref ID J:6235)
  • increased circulating interleukin-21 level   (MGI Ref ID J:93740)
  • increased monocyte cell number
    • increase in peripheral blood mononuclear cells lacking T and B cells markers is seen by 2 months of age and bemose more severe with age   (MGI Ref ID J:7308)
    • at 8 months of age a 16-fold increase in monocytes is seen in males compared to females   (MGI Ref ID J:7308)
  • increased plasma cell number
    • increase in the frequency and absolute numbers of Ig-bearing cells associated with advanced autoimmune disease is seen in males but not females   (MGI Ref ID J:108760)
    • frequency of Ig-bearing cells is increased in the thymus   (MGI Ref ID J:108760)
  • increased spleen weight
    • 4-fold increase in spleen weight   (MGI Ref ID J:6235)
  • increased susceptibility to autoimmune disorder   (MGI Ref ID J:108760)
    • accelerated autoimmune syndrome relative to females of the same strain   (MGI Ref ID J:6235)
  • hematopoietic system phenotype
  • abnormal B cell differentiation
    • frequency of C3d receptor bearing cells is increased in young mice but declines with age   (MGI Ref ID J:108760)
  • decreased erythrocyte cell number
    • decreased at 16 weeks of age compared to C57BL/6J males   (MGI Ref ID J:6235)
  • increased IgG1 level   (MGI Ref ID J:93740)
  • increased IgG3 level   (MGI Ref ID J:93740)
  • increased monocyte cell number
    • increase in peripheral blood mononuclear cells lacking T and B cells markers is seen by 2 months of age and bemose more severe with age   (MGI Ref ID J:7308)
    • at 8 months of age a 16-fold increase in monocytes is seen in males compared to females   (MGI Ref ID J:7308)
  • increased plasma cell number
    • increase in the frequency and absolute numbers of Ig-bearing cells associated with advanced autoimmune disease is seen in males but not females   (MGI Ref ID J:108760)
    • frequency of Ig-bearing cells is increased in the thymus   (MGI Ref ID J:108760)
  • increased spleen weight
    • 4-fold increase in spleen weight   (MGI Ref ID J:6235)
  • renal/urinary system phenotype
  • glomerulonephritis
    • acute to subacute exudative and proliferative glomerulonephritis   (MGI Ref ID J:6235)
  • increased urine protein level
    • seen at 4 months of age   (MGI Ref ID J:7308)
  • homeostasis/metabolism phenotype
  • increased circulating interleukin-21 level   (MGI Ref ID J:93740)
  • increased urine protein level
    • seen at 4 months of age   (MGI Ref ID J:7308)

X/Yaa

        BXSB/MpJScr
  • mortality/aging
  • premature death   (MGI Ref ID J:10973)
  • immune system phenotype
  • decreased CD4-positive T cell number
    • pronounced decrease in CD4+ T cells with age   (MGI Ref ID J:10973)
  • glomerulonephritis
    • develop severe proliferative glomerulonephritis by 3 to 5 months of age   (MGI Ref ID J:10973)
  • increased IgG level   (MGI Ref ID J:10973)
  • increased anti-nuclear antigen antibody level
    • anti-nuclear antibody levels are elevated at 3 to 5 months of age   (MGI Ref ID J:10973)
  • increased monocyte cell number
    • monocytosis   (MGI Ref ID J:10973)
  • increased susceptibility to autoimmune disorder
    • accelerated autoimmune syndrome   (MGI Ref ID J:10973)
  • hematopoietic system phenotype
  • decreased CD4-positive T cell number
    • pronounced decrease in CD4+ T cells with age   (MGI Ref ID J:10973)
  • increased IgG level   (MGI Ref ID J:10973)
  • increased monocyte cell number
    • monocytosis   (MGI Ref ID J:10973)
  • renal/urinary system phenotype
  • glomerulonephritis
    • develop severe proliferative glomerulonephritis by 3 to 5 months of age   (MGI Ref ID J:10973)

X/Yaa

        (NZB x C57BL/6-Yaa)F1
  • immune system phenotype
  • increased monocyte cell number
    • CD11b+ monocyte numbers increase as mice age with a 3-fold increase by 10 months of age   (MGI Ref ID J:129409)
  • hematopoietic system phenotype
  • increased monocyte cell number
    • CD11b+ monocyte numbers increase as mice age with a 3-fold increase by 10 months of age   (MGI Ref ID J:129409)
View Research Applications

Research Applications
This mouse can be used to support research in many areas including:

Yaa related

Immunology, Inflammation and Autoimmunity Research
Autoimmunity
      lupus erythematosus

Genes & Alleles

Gene & Allele Information provided by MGI

 
Allele Symbol Yaa
Allele Name accelerated autoimmunity and lymphoproliferation
Allele Type Spontaneous
Common Name(s) Is(XOfd1-Mid1;Y)1Mp; Tp(X;Y)1Ekw;
Strain of OriginSB/Le
Gene Symbol and Name Yaa, accelerated autoimmunity and lymphoproliferation transposition
Chromosome Y
Gene Common Name(s) Tp(X;Y)1Ekw;
General Note In congenic C57BL/6 Yaa mice expression of Tlr7 is increased 2-fold.
Molecular Note An approximately 4 MB region of the X chromosome that includes at least 13 known genes (spanning from Ofd1 to Mid1) was translocated to the Y chromosome adjacent to the pseudoautosomal region. Increased RNA expression of Msl3, Tlr7, Tmsb4x and Rab9 was detected in follicular B cells. [MGI Ref ID J:109758] [MGI Ref ID J:111064] [MGI Ref ID J:140028]

Genotyping

Genotyping Information


Helpful Links

Genotyping resources and troubleshooting

References

References provided by MGI

Additional References

Morel L; Croker BP; Blenman KR; Mohan C; Huang G; Gilkeson G; Wakeland EK. 2000. Genetic reconstitution of systemic lupus erythematosus immunopathology with polycongenic murine strains. Proc Natl Acad Sci U S A 97(12):6670-5. [PubMed: 10841565]  [MGI Ref ID J:62719]

Murphy ED; Roths JB. 1979. A Y chromosome associated factor in strain BXSB producing accelerated autoimmunity and lymphoproliferation. Arthritis Rheum 22(11):1188-94. [PubMed: 315777]  [MGI Ref ID J:6235]

Wofsy D; Kerger CE; Seaman WE. 1984. Monocytosis in the BXSB model for systemic lupus erythematosus. J Exp Med 159(2):629-34. [PubMed: 6363600]  [MGI Ref ID J:7308]

Yaa related

Anders HJ; Krug A; Pawar RD. 2008. Molecular mimicry in innate immunity? The viral RNA recognition receptor TLR7 accelerates murine lupus. Eur J Immunol 38(7):1795-9. [PubMed: 18581336]  [MGI Ref ID J:137453]

Arabo A; Costa O; Tron F; Caston J. 2005. Spatial and motor abilities during the course of autoimmune disease in (NZW x BXSB)F1 lupus-prone mice. Behav Brain Res 165(1):126-37. [PubMed: 16168499]  [MGI Ref ID J:115747]

Baccala R; Gonzalez-Quintial R; Schreiber RD; Lawson BR; Kono DH; Theofilopoulos AN. 2012. Anti-IFN-alpha/beta Receptor Antibody Treatment Ameliorates Disease in Lupus-Predisposed Mice. J Immunol 189(12):5976-84. [PubMed: 23175700]  [MGI Ref ID J:190844]

Boehm GW; Sherman GF; Hoplight BJ 2nd; Hyde LA; Bradway DM; Galaburda AM; Ahmed SA; Denenberg VH. 1998. Learning in year-old female autoimmune BXSB mice. Physiol Behav 64(1):75-82. [PubMed: 9661985]  [MGI Ref ID J:49007]

Boross P; Arandhara VL; Martin-Ramirez J; Santiago-Raber ML; Carlucci F; Flierman R; van der Kaa J; Breukel C; Claassens JW; Camps M; Lubberts E; Salvatori D; Rastaldi MP; Ossendorp F; Daha MR; Cook HT; Izui S; Botto M; Verbeek JS. 2011. The inhibiting Fc receptor for IgG, FcgammaRIIB, is a modifier of autoimmune susceptibility. J Immunol 187(3):1304-13. [PubMed: 21724994]  [MGI Ref ID J:179175]

Bubier JA; Sproule TJ; Foreman O; Spolski R; Shaffer DJ; Morse HC 3rd; Leonard WJ; Roopenian DC. 2009. A critical role for IL-21 receptor signaling in the pathogenesis of systemic lupus erythematosus in BXSB-Yaa mice. Proc Natl Acad Sci U S A 106(5):1518-23. [PubMed: 19164519]  [MGI Ref ID J:144484]

Deane JA; Pisitkun P; Barrett RS; Feigenbaum L; Town T; Ward JM; Flavell RA; Bolland S. 2007. Control of Toll-like Receptor 7 Expression Is Essential to Restrict Autoimmunity and Dendritic Cell Proliferation. Immunity 27(5):801-10. [PubMed: 17997333]  [MGI Ref ID J:127600]

Denenberg VH; Hoplight B; Sherman GF; Mobraaten LE. 2001. Effects of the uterine environment and neocortical ectopias upon behavior of BXSB-Yaa+mice. Dev Psychobiol 38(3):154-63. [PubMed: 11279592]  [MGI Ref ID J:72331]

Denenberg VH; Sherman G; Schrott LM; Waters NS; Boehm GW; Galaburda AM; Mobraaten LE. 1996. Effects of embryo transfer and cortical ectopias upon the behavior of BXSB-Yaa and BXSB-Yaa + mice. Brain Res Dev Brain Res 93(1-2):100-8. [PubMed: 8804696]  [MGI Ref ID J:33655]

Eisenberg RA; Izui S; McConahey PJ; Hang L; Peters CJ; Theofilopoulos AN; Dixon FJ. 1980. Male determined accelerated autoimmune disease in BXSB mice: transfer by bone marrow and spleen cells. J Immunol 125(3):1032-6. [PubMed: 7410826]  [MGI Ref ID J:6372]

Fairhurst AM; Hwang SH; Wang A; Tian XH; Boudreaux C; Zhou XJ; Casco J; Li QZ; Connolly JE; Wakeland EK. 2008. Yaa autoimmune phenotypes are conferred by overexpression of TLR7. Eur J Immunol 38(7):1971-8. [PubMed: 18521959]  [MGI Ref ID J:137309]

Fossati L; Iwamoto M; Merino R; Izui S. 1995. Selective enhancing effect of the Yaa gene on immune responses against self and foreign antigens. Eur J Immunol 25(1):166-73. [PubMed: 7843228]  [MGI Ref ID J:22499]

Fossati L; Sobel ES; Iwamoto M; Cohen PL; Eisenberg RA; Izui S. 1995. The Yaa gene-mediated acceleration of murine lupus: Yaa- T cells from non-autoimmune mice collaborate with Yaa+ B cells to produce lupus autoantibodies in vivo. Eur J Immunol 25(12):3412-7. [PubMed: 8566031]  [MGI Ref ID J:31227]

Hang LM; Izui S; Dixon FJ. 1981. (NZW x BXSB)F1 hybrid. A model of acute lupus and coronary vascular disease with myocardial infarction. J Exp Med 154(1):216-21. [PubMed: 7252427]  [MGI Ref ID J:38157]

Hudgins CC; Steinberg RT; Klinman DM; Reeves MJ; Steinberg AD. 1985. Studies of consomic mice bearing the Y chromosome of the BXSB mouse. J Immunol 134(6):3849-54. [PubMed: 3989299]  [MGI Ref ID J:7823]

Hugin AW; Fossati-Jimack L; Izui S. 2000. The autoimmune accelerating yaa mutation does not accelerate murine AIDS. Cell Immunol 200(2):76-80. [PubMed: 10753498]  [MGI Ref ID J:114277]

Hyde LA; Stavnezer AJ; Bimonte HA; Sherman GF; Denenberg VH. 2002. Spatial and nonspatial Morris maze learning: impaired behavioral flexibility in mice with ectopias located in the prefrontal cortex. Behav Brain Res 133(2):247-59. [PubMed: 12110458]  [MGI Ref ID J:108472]

Izui S; Masuda K; Yoshida H. 1984. Acute SLE in F1 hybrids between SB/Le and NZW mice; prominently enhanced formation of gp70 immune complexes by a Y chromosome-associated factor from SB/Le mice. J Immunol 132(2):701-4. [PubMed: 6690614]  [MGI Ref ID J:7276]

Izui S; Merino R; Fossati L; Iwamoto M. 1994. The role of the Yaa gene in lupus syndrome. Int Rev Immunol 11(3):211-30. [PubMed: 7930846]  [MGI Ref ID J:21990]

Jansson L; Holmdahl R. 1994. The Y chromosome-linked autoimmune accelerating yaa gene suppresses collagen-induced arthritis. Eur J Immunol 24(5):1213-7. [PubMed: 8181531]  [MGI Ref ID J:18810]

Kamada H; Takaoka Y; Kitagaki K; Nagai H. 1995. Effect of cyclophosphamide on lymphokine production in MRL/lpr.Yaa mice. Inflamm Res 44(11):491-8. [PubMed: 8597884]  [MGI Ref ID J:30518]

Kawano H; Abe M; Zhang D; Saikawa T; Fujimori M; Hirose S; Shirai T. 1992. Heterozygosity of the major histocompatibility complex controls the autoimmune disease in (NZW x BXSB) F1 mice. Clin Immunol Immunopathol 65(3):308-14. [PubMed: 1451334]  [MGI Ref ID J:3381]

Khaled AR; Butfiloski EJ; Villas B; Sobel ES; Schiffenbauer J. 1999. Aberrant expression of the NF-kappaB and IkappaB proteins in B cells from viable motheaten mice. Autoimmunity 30(2):115-28. [PubMed: 10435725]  [MGI Ref ID J:117314]

Kikuchi S; Amano H; Amano E; Fossati-Jimack L; Santiago-Raber ML; Moll T; Ida A; Kotzin BL; Izui S. 2005. Identification of 2 major loci linked to autoimmune hemolytic anemia in NZB mice. Blood 106(4):1323-9. [PubMed: 15860660]  [MGI Ref ID J:117292]

Kikuchi S; Fossati-Jimack L; Moll T; Amano H; Amano E; Ida A; Ibnou-Zekri N; Laporte C; Santiago-Raber ML; Rozzo SJ; Kotzin BL; Izui S. 2005. Differential role of three major New Zealand black-derived loci linked with Yaa-induced murine lupus nephritis. J Immunol 174(2):1111-7. [PubMed: 15634937]  [MGI Ref ID J:95829]

Kikuchi S; Santiago-Raber ML; Amano H; Amano E; Fossati-Jimack L; Moll T; Kotzin BL; Izui S. 2006. Contribution of NZB autoimmunity 2 to Y-linked autoimmune acceleration-induced monocytosis in association with murine systemic lupus. J Immunol 176(5):3240-7. [PubMed: 16493085]  [MGI Ref ID J:129409]

Kim HJ; Wang X; Radfar S; Sproule TJ; Roopenian DC; Cantor H. 2011. CD8+ T regulatory cells express the Ly49 Class I MHC receptor and are defective in autoimmune prone B6-Yaa mice. Proc Natl Acad Sci U S A 108(5):2010-5. [PubMed: 21233417]  [MGI Ref ID J:169125]

Kofler R; McConahey PJ; Duchosal MA; Balderas RS; Theofilopoulos AN; Dixon FJ. 1991. An autosomal recessive gene that delays expression of lupus in BXSB mice. J Immunol 146(4):1375-9. [PubMed: 1991974]  [MGI Ref ID J:10973]

Kono DH; Balomenos D; Park MS; Theofilopoulos AN. 2000. Development of lupus in BXSB mice is independent of IL-4. J Immunol 164(1):38-42. [PubMed: 10604990]  [MGI Ref ID J:112421]

Kuroki A; Moll T; Lopez-Hoyos M; Fossati-Jimack L; Ibnou-Zekri N; Kikuchi S; Merino J; Merino R; Izui S. 2004. Enforced Bcl-2 expression in B lymphocytes induces rheumatoid factor and anti-DNA production, but the Yaa mutation promotes only anti-DNA production. Eur J Immunol 34(4):1077-84. [PubMed: 15048718]  [MGI Ref ID J:88856]

Leiter EH; Prochazka M; Shultz LD. 1987. Effect of immunodeficiency on diabetogenesis in genetically diabetic (db/db) mice. J Immunol 138(10):3224-9. [PubMed: 3553324]  [MGI Ref ID J:32752]

Lin Q; Xiu Y; Jiang Y; Tsurui H; Nakamura K; Kodera S; Ohtsuji M; Ohtsuji N; Shiroiwa W; Tsukamoto K; Amano H; Amano E; Kinoshita K; Sudo K; Nishimura H; Izui S; Shirai T; Hirose S. 2006. Genetic dissection of the effects of stimulatory and inhibitory IgG Fc receptors on murine lupus. J Immunol 177(3):1646-54. [PubMed: 16849473]  [MGI Ref ID J:137977]

Maeda K; Malykhin A; Teague-Weber BN; Sun XH; Farris AD; Coggeshall KM. 2009. Interleukin-6 aborts lymphopoiesis and elevates production of myeloid cells in systemic lupus erythematosus-prone B6.Sle1.Yaa animals. Blood 113(19):4534-40. [PubMed: 19224760]  [MGI Ref ID J:148718]

McPhee CG; Bubier JA; Sproule TJ; Park G; Steinbuck MP; Schott WH; Christianson GJ; Morse HC 3rd; Roopenian DC. 2013. IL-21 is a double-edged sword in the systemic lupus erythematosus-like disease of BXSB.Yaa mice. J Immunol 191(9):4581-8. [PubMed: 24078696]  [MGI Ref ID J:206236]

McPhee CG; Sproule TJ; Shin DM; Bubier JA; Schott WH; Steinbuck MP; Avenesyan L; Morse HC 3rd; Roopenian DC. 2011. MHC class I family proteins retard systemic lupus erythematosus autoimmunity and B cell lymphomagenesis. J Immunol 187(9):4695-704. [PubMed: 21964024]  [MGI Ref ID J:179430]

Merino R; Fossati L; Lacour M; Lemoine R; Higaki M; Izui S. 1992. H-2-linked control of the Yaa gene-induced acceleration of lupus-like autoimmune disease in BXSB mice. Eur J Immunol 22(2):295-9. [PubMed: 1537372]  [MGI Ref ID J:2011]

Merino R; Iwamoto M; Gershwin ME; Izui S. 1994. The Yaa gene abrogates the major histocompatibility complex association of murine lupus in (NZB x BXSB)F1 hybrid mice. J Clin Invest 94(2):521-5. [PubMed: 8040305]  [MGI Ref ID J:19547]

Merino R; Shibata T; De Kossodo S; Izui S. 1989. Differential effect of the autoimmune Yaa and lpr genes on the acceleration of lupus-like syndrome in MRL/MpJ mice. Eur J Immunol 19(11):2131-7. [PubMed: 2599002]  [MGI Ref ID J:108759]

Moll T; Martinez-Soria E; Santiago-Raber ML; Amano H; Pihlgren-Bosch M; Marinkovic D; Izui S. 2005. Differential activation of anti-erythrocyte and anti-DNA autoreactive B lymphocytes by the Yaa mutation. J Immunol 174(2):702-9. [PubMed: 15634889]  [MGI Ref ID J:132847]

Morel L; Croker BP; Blenman KR; Mohan C; Huang G; Gilkeson G; Wakeland EK. 2000. Genetic reconstitution of systemic lupus erythematosus immunopathology with polycongenic murine strains. Proc Natl Acad Sci U S A 97(12):6670-5. [PubMed: 10841565]  [MGI Ref ID J:62719]

Murphy ED; Roths JB. 1979. A Y chromosome associated factor in strain BXSB producing accelerated autoimmunity and lymphoproliferation. Arthritis Rheum 22(11):1188-94. [PubMed: 315777]  [MGI Ref ID J:6235]

Ozaki K; Spolski R; Ettinger R; Kim HP; Wang G; Qi CF; Hwu P; Shaffer DJ; Akilesh S; Roopenian DC; Morse HC 3rd; Lipsky PE; Leonard WJ. 2004. Regulation of B cell differentiation and plasma cell generation by IL-21, a novel inducer of Blimp-1 and Bcl-6. J Immunol 173(9):5361-71. [PubMed: 15494482]  [MGI Ref ID J:93740]

Pisetsky DS; Klatt C; Dawson D; Roths JB. 1985. The influence of Yaa on anti-DNA responses of B6-lpr mice. Clin Immunol Immunopathol 37(3):369-76. [PubMed: 3931946]  [MGI Ref ID J:109825]

Pisitkun P; Deane JA; Difilippantonio MJ; Tarasenko T; Satterthwaite AB; Bolland S. 2006. Autoreactive B cell responses to RNA-related antigens due to TLR7 gene duplication. Science 312(5780):1669-72. [PubMed: 16709748]  [MGI Ref ID J:109758]

Rankin J; Boyle JJ; Rose SJ; Gabriel L; Lewis M; Thiruudaian V; Rogers NJ; Izui S; Morley BJ. 2007. The Bxs6 locus of BXSB mice is sufficient for high-level expression of gp70 and the production of gp70 immune complexes. J Immunol 178(7):4395-401. [PubMed: 17371996]  [MGI Ref ID J:145049]

Rosenblatt N; Hartmann KU; Loor F. 1994. The Yaa gene-dependent B-cell deficiency worsens the generalized lymphadenopathy and autoimmunity of C57BL/6-gld male mice. Immunology 83(3):476-83. [PubMed: 7835973]  [MGI Ref ID J:21189]

Rosenblatt N; Hartmann KU; Loor F. 1994. The Yaa mutation induces the development of autoimmunity in mice heterozygous for the gld (generalized lymphadenopathy disease) mutation. Cell Immunol 156(2):519-28. [PubMed: 8025960]  [MGI Ref ID J:19169]

Santiago ML; Fossati L; Jacquet C; Muller W; Izui S; Reininger L. 1997. Interleukin-4 protects against a genetically linked lupus-like autoimmune syndrome. J Exp Med 185(1):65-70. [PubMed: 8996242]  [MGI Ref ID J:37574]

Santiago ML; Mary C; Parzy D; Jacquet C; Montagutelli X; Parkhouse RM; Lemoine R; Izui S; Reininger L. 1998. Linkage of a major quantitative trait locus to Yaa gene-induced lupus-like nephritis in (NZW x C57BL/6)F1 mice. Eur J Immunol 28(12):4257-67. [PubMed: 9862363]  [MGI Ref ID J:52110]

Santiago-Raber ML; Kikuchi S; Borel P; Uematsu S; Akira S; Kotzin BL; Izui S. 2008. Evidence for genes in addition to Tlr7 in the Yaa translocation linked with acceleration of systemic lupus erythematosus. J Immunol 181(2):1556-62. [PubMed: 18606711]  [MGI Ref ID J:137656]

Schrott LM; Waters NS; Boehm GW; Sherman GF; Morrison L; Rosen GD; Behan PO; Galaburda AM; Denenberg VH. 1993. Behavior, cortical ectopias, and autoimmunity in BXSB-Yaa and BXSB-Yaa+ mice. Brain Behav Immun 7(3):205-23. [PubMed: 8147964]  [MGI Ref ID J:14455]

Shimizu M; Sekine K; Matsuzawa A; Iwaguchi T. 1992. Cell electrophoretic characterization of abnormally expanded lymphocytes in autoimmune lprcg, lpr, gld and Yaa mice, and of thymocyte subsets. Electrophoresis 13(3):136-42. [PubMed: 1592043]  [MGI Ref ID J:2361]

Smith HR; Chused TM; Steinberg AD. 1983. The effect of the X-linked immune deficiency gene (xid) upon the Y chromosome-related disease of BXSB mice. J Immunol 131(3):1257-62. [PubMed: 6886419]  [MGI Ref ID J:7172]

Subramanian S; Tus K; Li QZ; Wang A; Tian XH; Zhou J; Liang C; Bartov G; McDaniel LD; Zhou XJ; Schultz RA; Wakeland EK. 2006. A Tlr7 translocation accelerates systemic autoimmunity in murine lupus. Proc Natl Acad Sci U S A 103(26):9970-5. [PubMed: 16777955]  [MGI Ref ID J:111064]

Suzuki H; Yasukawa K; Saito T; Narazaki M; Hasegawa A; Taga T; Kishimoto T. 1993. Serum soluble interleukin-6 receptor in MRL/lpr mice is elevated with age and mediates the interleukin-6 signal. Eur J Immunol 23(5):1078-82. [PubMed: 8477802]  [MGI Ref ID J:4970]

Taguchi N; Hashimoto Y; Naiki M; Farr AG; Boyd RL; Ansari AA; Shultz LD; Kotzin BL; Dorshkind K; Ikehara S; Gershwin ME. 1999. Abnormal thymic expression of epithelial cell adhesion molecule (EP-CAM) in New Zealand Black (NZB) mice. J Autoimmun 13(4):393-404. [PubMed: 10585755]  [MGI Ref ID J:59174]

Takahashi S; Fossati L; Iwamoto M; Merino R; Motta R; Kobayakawa T; Izui S. 1996. Imbalance towards Th1 predominance is associated with acceleration of lupus-like autoimmune syndrome in MRL mice. J Clin Invest 97(7):1597-604. [PubMed: 8601623]  [MGI Ref ID J:32235]

Takeoka Y; Taguchi N; Shultz L; Boyd RL; Naiki M; Ansari AA; Gershwin ME. 1999. Apoptosis and the thymic microenvironment in murine lupus. J Autoimmun 13(3):325-34. [PubMed: 10550220]  [MGI Ref ID J:58407]

Teuscher C; Noubade R; Spach K; McElvany B; Bunn JY; Fillmore PD; Zachary JF; Blankenhorn EP. 2006. Evidence that the Y chromosome influences autoimmune disease in male and female mice. Proc Natl Acad Sci U S A 103(21):8024-9. [PubMed: 16702550]  [MGI Ref ID J:110221]

The Australian Phenomics Facility at The Australian National University. 2006. Heritable mouse mutants from the ENU mutagenesis program at the Australian Phenomics Facility at The Australian National University MGI Direct Data Submission :.  [MGI Ref ID J:104190]

Theofilopoulos AN; Eisenberg RA; Bourdon M; Crowell JS Jr; Dixon FJ. 1979. Distribution of lymphocytes identified by surface markers in murine strains with systemic lupus erythematosus-like syndromes. J Exp Med 149(2):516-34. [PubMed: 762500]  [MGI Ref ID J:108760]

Waisberg M; Tarasenko T; Vickers BK; Scott BL; Willcocks LC; Molina-Cruz A; Pierce MA; Huang CY; Torres-Velez FJ; Smith KG; Barillas-Mury C; Miller LH; Pierce SK; Bolland S. 2011. Genetic susceptibility to systemic lupus erythematosus protects against cerebral malaria in mice. Proc Natl Acad Sci U S A 108(3):1122-7. [PubMed: 21187399]  [MGI Ref ID J:169698]

Wilber A; O'Connor TP; Lu ML; Karimi A; Schneider MC. 2003. Dnase1l3 deficiency in lupus-prone MRL and NZB/W F1 mice. Clin Exp Immunol 134(1):46-52. [PubMed: 12974753]  [MGI Ref ID J:109815]

Wofsy D; Kerger CE; Seaman WE. 1984. Monocytosis in the BXSB model for systemic lupus erythematosus. J Exp Med 159(2):629-34. [PubMed: 6363600]  [MGI Ref ID J:7308]

Yoh K; Shibuya K; Morito N; Nakano T; Ishizaki K; Shimohata H; Nose M; Izui S; Shibuya A; Koyama A; Engel JD; Yamamoto M; Takahashi S. 2003. Transgenic overexpression of GATA-3 in T lymphocytes improves autoimmune glomerulonephritis in mice with a BXSB/MpJ-Yaa genetic background. J Am Soc Nephrol 14(10):2494-502. [PubMed: 14514727]  [MGI Ref ID J:131473]

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Health & husbandry

Health & Colony Maintenance Information

Animal Health Reports

Production of mice from cryopreserved embryos or sperm occurs in a maximum barrier room, G200.

Pricing and Purchasing

Pricing, Supply Level & Notes, Controls


Pricing for USA, Canada and Mexico shipping destinations View International Pricing

Cryopreserved

Cryopreserved Mice - Ready for Recovery

Price (US dollars $)
Cryorecovery* $3300.00
Animals Provided

At least two mice that carry the mutation (if it is a mutant strain) will be provided. Their genotypes may not reflect those discussed in the strain description. Please inquire for possible genotypes and see additional details below.

Standard Supply

Cryopreserved. Ready for recovery. Please refer to pricing and supply notes on the strain data sheet for further information.

Supply Notes

  • Cryorecovery - Standard.
    Progeny testing is not required.

    The average number of mice provided from recovery of our cryopreserved strains is 10. The total number of animals provided, their gender and genotype will vary. We willfulfill your order by providing at least two pair of mice, at least one animal of each pair carrying the mutation of interest. Please inquire if larger numbers of animals with specific genotype and genders are needed. Animals typically ship between 10 and 14 weeks from the date of your order. If a second cryorecovery is needed in order to provide the minimum number of animals, animals will ship within 25 weeks. IMPORTANT NOTE: The genotypes of animals provided may not reflect the mating scheme utilized by The Jackson Laboratory prior to cryopreservation, or that discussed in the strain description. Please inquire about possible genotypes which will be recovered for this specific strain. The Jackson Laboratory cannot guarantee the reproductive success of mice shipped to your facility. If the mice are lost after the first three days (post-arrival) or do not produce progeny at your facility, a new order and fee will be necessary.

    Cryorecovery to establish a Dedicated Supply for greater quantities of mice. Mice recovered can be used to establish a dedicated colony to contractually supply you mice according to your requirements. Price by quotation. For more information on Dedicated Supply, please contact JAX® Services, Tel: 1-800-422-6423 (from U.S.A., Canada or Puerto Rico only) or 1-207-288-5845 (from any location).

Pricing for International shipping destinations View USA Canada and Mexico Pricing

Cryopreserved

Cryopreserved Mice - Ready for Recovery

Price (US dollars $)
Cryorecovery* $4290.00
Animals Provided

At least two mice that carry the mutation (if it is a mutant strain) will be provided. Their genotypes may not reflect those discussed in the strain description. Please inquire for possible genotypes and see additional details below.

Standard Supply

Cryopreserved. Ready for recovery. Please refer to pricing and supply notes on the strain data sheet for further information.

Supply Notes

  • Cryorecovery - Standard.
    Progeny testing is not required.

    The average number of mice provided from recovery of our cryopreserved strains is 10. The total number of animals provided, their gender and genotype will vary. We willfulfill your order by providing at least two pair of mice, at least one animal of each pair carrying the mutation of interest. Please inquire if larger numbers of animals with specific genotype and genders are needed. Animals typically ship between 10 and 14 weeks from the date of your order. If a second cryorecovery is needed in order to provide the minimum number of animals, animals will ship within 25 weeks. IMPORTANT NOTE: The genotypes of animals provided may not reflect the mating scheme utilized by The Jackson Laboratory prior to cryopreservation, or that discussed in the strain description. Please inquire about possible genotypes which will be recovered for this specific strain. The Jackson Laboratory cannot guarantee the reproductive success of mice shipped to your facility. If the mice are lost after the first three days (post-arrival) or do not produce progeny at your facility, a new order and fee will be necessary.

    Cryorecovery to establish a Dedicated Supply for greater quantities of mice. Mice recovered can be used to establish a dedicated colony to contractually supply you mice according to your requirements. Price by quotation. For more information on Dedicated Supply, please contact JAX® Services, Tel: 1-800-422-6423 (from U.S.A., Canada or Puerto Rico only) or 1-207-288-5845 (from any location).

View USA Canada and Mexico Pricing View International Pricing

Standard Supply

Cryopreserved. Ready for recovery. Please refer to pricing and supply notes on the strain data sheet for further information.

General Supply Notes

  • View the complete collection of spontaneous mutants in the Mouse Mutant Resource.

Control Information

  Control
   000664 C57BL/6J
 
  Considerations for Choosing Controls
  Control Pricing Information for Genetically Engineered Mutant Strains.
 

Payment Terms and Conditions

Terms are granted by individual review and stated on the customer invoice(s) and account statement. These transactions are payable in U.S. currency within the granted terms. Payment for services, products, shipping containers, and shipping costs that are rendered are expected within the payment terms indicated on the invoice or stated by contract. Invoices and account balances in arrears of stated terms may result in The Jackson Laboratory pursuing collection activities including but not limited to outside agencies and court filings.


See Terms of Use tab for General Terms and Conditions


The Jackson Laboratory's Genotype Promise

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
JAX® Mice
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JAX® Services
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Tel: 1-800-422-6423 or 1-207-288-5845
Fax: 1-207-288-6150
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Terms of Use

Terms of Use


General Terms and Conditions


Contact information

General inquiries regarding Terms of Use

Contracts Administration

phone:207-288-6470

JAX® Mice, Products & Services Conditions of Use

"MICE" means mouse strains, their progeny derived by inbreeding or crossbreeding, unmodified derivatives from mouse strains or their progeny supplied by The Jackson Laboratory ("JACKSON"). "PRODUCTS" means biological materials supplied by JACKSON, and their derivatives. "RECIPIENT" means each recipient of MICE, PRODUCTS, or services provided by JACKSON including each institution, its employees and other researchers under its control. MICE or PRODUCTS shall not be: (i) used for any purpose other than the internal research, (ii) sold or otherwise provided to any third party for any use, or (iii) provided to any agent or other third party to provide breeding or other services. Acceptance of MICE or PRODUCTS from JACKSON shall be deemed as agreement by RECIPIENT to these conditions, and departure from these conditions requires JACKSON's prior written authorization.

No Warranty

MICE, PRODUCTS AND SERVICES ARE PROVIDED “AS IS”. JACKSON EXTENDS NO WARRANTIES OF ANY KIND, EITHER EXPRESS, IMPLIED, OR STATUTORY, WITH RESPECT TO MICE, PRODUCTS OR SERVICES, INCLUDING ANY IMPLIED WARRANTY OF MERCHANTABILITY OR FITNESS FOR A PARTICULAR PURPOSE, OR ANY WARRANTY OF NON-INFRINGEMENT OF ANY PATENT, TRADEMARK, OR OTHER INTELLECTUAL PROPERTY RIGHTS.

In case of dissatisfaction for a valid reason and claimed in writing by a purchaser within ninety (90) days of receipt of mice, products or services, JACKSON will, at its option, provide credit or replacement for the mice or product received or the services provided.

No Liability

In no event shall JACKSON, its trustees, directors, officers, employees, and affiliates be liable for any causes of action or damages, including any direct, indirect, special, or consequential damages, arising out of the provision of MICE, PRODUCTS or services, including economic damage or injury to property and lost profits, and including any damage arising from acts or negligence on the part of JACKSON, its agents or employees. Unless prohibited by law, in purchasing or receiving MICE, PRODUCTS or services from JACKSON, purchaser or recipient, or any party claiming by or through them, expressly releases and discharges JACKSON from all such causes of action or damages, and further agrees to defend and indemnify JACKSON from any costs or damages arising out of any third party claims.

MICE and PRODUCTS are to be used in a safe manner and in accordance with all applicable governmental rules and regulations.

The foregoing represents the General Terms and Conditions applicable to JACKSON’s MICE, PRODUCTS or services. In addition, special terms and conditions of sale of certain MICE, PRODUCTS or services may be set forth separately in JACKSON web pages, catalogs, price lists, contracts, and/or other documents, and these special terms and conditions shall also govern the sale of these MICE, PRODUCTS and services by JACKSON, and by its licensees and distributors.

Acceptance of delivery of MICE, PRODUCTS or services shall be deemed agreement to these terms and conditions. No purchase order or other document transmitted by purchaser or recipient that may modify the terms and conditions hereof, shall be in any way binding on JACKSON, and instead the terms and conditions set forth herein, including any special terms and conditions set forth separately, shall govern the sale of MICE, PRODUCTS or services by JACKSON.


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