Strain Information | |
---|---|
Image | |
BRC No. | RBRC01071 |
Type | Targeted Mutation |
Species | Mus musculus |
Strain name | B6.129P2-Rbpj<tm1Hon>/HonRbrc |
Former Common name | Floxed RBP-J |
H-2 Haplotype | |
ES Cell line | E14 [129P2/OlaHsd] |
Background strain | |
Appearance | black [a/a B/B C/C] |
Strain development | Developed by Tasuku Honjo, Graduate School of Medicine, Kyoto University. The construct was electoroporated into E14 ES cells derived from 129P2/OlaHsd. The mutant mice were crossed to C57BL/6. |
Strain description | Rbpj floxed mice. Rbpj, recombination signal binding protein for immunoglobulin kappa J region is a transcriptional factor of a Notch/RBP-J signaling pathway play a role in fate determination in various lineages. Exon 6 and 7 of Rbpj gene was flanked by loxP sites, and a neomycin resistance gene was inserted between exon 7 and the loxP site. Conditional RBP-J deficient mice can be generated by crossing with tissue-specific Cre mice. |
Colony maintenance | Homozygote x Homozygote. Homozygous mice are viable and fertile. |
References | Inducible gene knockout of transcription factor recombination signal binding protein-J reveals its essential role in T versus B lineage decision. Han H, Tanigaki K, Yamamoto N, Kuroda K, Yoshimoto M, Nakahata T, Ikuta K, Honjo T Int. Immunol., 14, 637-645 (2002). 12039915 |
Health Report | |
---|---|
Examination Date / Room / Rack | 2024/05/27Room:4-CRack:C 2024/02/26Room:4-CRack:C 2023/12/04Room:4-CRack:C 2023/11/27Room:4-CRack:C 2023/08/28Room:4-CRack:C 2023/05/29Room:4-CRack:C 2023/02/27Room:4-CRack:C 2022/11/29Room:4-CRack:C |
Gene | |||||||
---|---|---|---|---|---|---|---|
Gene Symbol | Gene Name | Chr. | Allele Symbol | Allele Name | Common Names | Promoter | Diseases Related to This Gene |
Rbpj | recombination signal binding protein for immunoglobulin kappa J region | 5 | Rbpj | targeted mutation 1, Tasuku Honjo | |||
loxP | phage P1 loxP | 5 | loxP | ||||
loxP | phage P1 loxP | 5 | loxP | ||||
neo | neomycin resistance gene (E. coli) | 5 | mouse phosphoglycerate kinase promoter (PGK promoter) |
Phenotype | |
---|---|
Annotation by Mammalian phenotyhpe ontology | more 73 phenotypes |
Detailed phenotype data |
Ordering Information | |
---|---|
Donor DNA | phage P1 loxP sites, E. coli neo, mouse RBP-J genomic DNA, mouse phosphoglycerate kinase promoter (PGK promoter) |
Research application | Cre/loxP system |
Specific Term and Conditions | 1) The RECIPIENT shall use the BIOLOGICAL RESOURCE only for academic research for the purpose of publishing the research results. 2) In publishing the research results obtained by use of the BIOLOGICAL RESOURCE, an acknowledgment to the DEPOSITOR and a citation of the following literature(s) designated by the DEPOSITOR are requested. Int, Immunol., 14, 637-645 (2002). 3) RECIPIENT shall notify the PROVIDER upon filing a patent application claiming modification of the BIOLOGICAL RESOURCE or method(s) of manufacture or use(s) of the BIOLOGICAL RESOURCE. |
Depositor | Tasuku Honjo (Kyoto University) |
Strain Status | Live mice Frozen embryos Frozen sperm |
Strain Availability | Cryopreserved sperm (within 1 month) Cryopreserved embryos (within 1 month) Live mouse (1 to 3 months) |
Additional Info. | Necessary documents for ordering:
Genotyping protocol -PCR- |
BRC mice in Publications |
---|
Fujimoto M, Takagi Y, Muraki K, Nozaki K, Yamamoto N, Tsuji M, Hashimoto N, Honjo T, Tanigaki K. RBP-J promotes neuronal differentiation and inhibits oligodendroglial development in adult neurogenesis. Dev Biol 332(2) 339-50(2009) 19501584 |
Niwa Y, Masamizu Y, Liu T, Nakayama R, Deng CX, Kageyama R. The initiation and propagation of Hes7 oscillation are cooperatively regulated by Fgf and notch signaling in the somite segmentation clock. Dev Cell 13(2) 298-304(2007) 17681139 |
Liu Z, Owen T, Fang J, Srinivasan RS, Zuo J. In vivo Notch reactivation in differentiating cochlear hair cells induces Sox2 and Prox1 expression but does not disrupt hair cell maturation. Dev Dyn 241(4) 684-96(2012) 22354878 |
Mead TJ, Yutzey KE. Notch pathway regulation of neural crest cell development in vivo. Dev Dyn 241(2) 376-89(2012) 22275227 |
Zong Y, Panikkar A, Xu J, Antoniou A, Raynaud P, Lemaigre F, Stanger BZ. Notch signaling controls liver development by regulating biliary differentiation. Development 136(10) 1727-39(2009) 19369401 |
Obata Y, Kimura S, Nakato G, Iizuka K, Miyagawa Y, Nakamura Y, Furusawa Y, Sugiyama M, Suzuki K, Ebisawa M, Fujimura Y, Yoshida H, Iwanaga T, Hase K, Ohno H. Epithelial-stromal interaction via Notch signaling is essential for the full maturation of gut-associated lymphoid tissues. EMBO Rep 15(12) 1297-304(2014) 25378482 |
Sawaguchi S, Varshney S, Ogawa M, Sakaidani Y, Yagi H, Takeshita K, Murohara T, Kato K, Sundaram S, Stanley P, Okajima T. O-GlcNAc on NOTCH1 EGF repeats regulates ligand-induced Notch signaling and vascular development in mammals. Elife 6 (2017) 28395734 |
Nakamura M, Shibata K, Hatano S, Sato T, Ohkawa Y, Yamada H, Ikuta K, Yoshikai Y. A genome-wide analysis identifies a notch-RBP-Jκ-IL-7Rα axis that controls IL-17-producing γδ T cell homeostasis in mice. J Immunol 194(1) 243-51(2015) 25429074 |
Obata Y, Takahashi D, Ebisawa M, Kakiguchi K, Yonemura S, Jinnohara T, Kanaya T, Fujimura Y, Ohmae M, Hase K, Ohno H. Epithelial cell-intrinsic Notch signaling plays an essential role in the maintenance of gut immune homeostasis. J Immunol 188(5) 2427-36(2012) 22279105 |
Ito T, Kwon HY, Zimdahl B, Congdon KL, Blum J, Lento WE, Zhao C, Lagoo A, Gerrard G, Foroni L, Goldman J, Goh H, Kim SH, Kim DW, Chuah C, Oehler VG, Radich JP, Jordan CT, Reya T. Regulation of myeloid leukaemia by the cell-fate determinant Musashi. Nature 466(7307) 765-8(2010) 20639863 |
Hosaka Y, Saito T, Sugita S, Hikata T, Kobayashi H, Fukai A, Taniguchi Y, Hirata M, Akiyama H, Chung UI, Kawaguchi H. Notch signaling in chondrocytes modulates endochondral ossification and osteoarthritis development. Proc Natl Acad Sci U S A 110(5) 1875-80(2013) 23319657 |