Strain Information | |
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Image | ![]() |
BRC No. | RBRC00886 |
Type | Transgene![]() |
Species | Mus musculus |
Strain name | B6;B6C3-Tg(Acro3-EGFP)01Osb |
Former Common name | B6;C3 Tg(acro3-EGFP)01Osb (Nov. 2011), B6C3F1; B6C3F1 TgN(acro3-EGFP)/Osb01 |
H-2 Haplotype | |
ES Cell line | |
Background strain | B6C3F1[C57BL/6N and C3H/HeN] |
Appearance | black [a/a B/B C/C] |
Strain development | Developed by Masaru Okabe, Research Institute for Microbial Diseases, Osaka University. Acr3-EGFP transgene was injected into the pronuclei of B6C3F1 fertilized eggs. The mice were crossed to C57BL/6. |
Strain description | Transgenic mice expressing GFP in the sperm acrosome from acr3-EGFP. Acr3-EGFP, in which EGFP with a proacrosin signal peptide and proacrosin N-terminal peptide were connected to the acrosin promoter. |
Colony maintenance | Carrier x Carrier (Homozygote x Homozygote) |
References | Real-time observation of acrosomal dispersal from mouse sperm using GFP as a marker protein. Nakanishi T, Ikawa M, Yamada S, Parvinen M, Baba T, Nishimune Y, Okabe M FEBS Lett., 449, 277-283 (1999). 10338148 |
Health Report | |
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Examination Date / Room / Rack |
Gene | |||||||
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Gene Symbol | Gene Name | Chr. | Allele Symbol | Allele Name | Common Names | Promoter | Diseases Related to This Gene |
GFP | Green Fluorescent Protein (Aequorea victoria) | UN | mouse proacrosin promoter, mouse proacrosin signal peptide, acrosin N-terminal peptide |
Phenotype | |
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Annotation by Mammalian phenotyhpe ontology | |
Detailed phenotype data |
Ordering Information | |
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Donor DNA | mouse proacrosin promoter, mouse proacrosin signal peptide, acrosin N-terminal peptide, Jellyfish GFP cDNA, rabbit beta-globin polyadenylation signal |
Research application | Fluorescent Proteins/lacZ System |
Specific Term and Conditions | The RECIPIENT of BIOLOGICAL RESOURCE shall obtain a prior written consent on use of it from the DEPOSITOR. In publishing the research results obtained by use of the BIOLOGICAL RESOURCE, a citation of the following literature(s) designated by the DEPOSITOR is requested. FEBS Lett., 449, 277-283 (1999). RECIPIENT which wants to use the BIOLOGICAL RESOURCE for the purpose other than education or not-for-profit research is requested to enter into a Material Transfer Agreement with Osaka University (https://www.ccb.osaka-u.ac.jp/en/). The RECIPIENT which wants to use the BIOLOGICAL RESOURCE even after five years must obtain a written consent from the DEPOSITOR again. |
Depositor | Masaru Okabe (Osaka University) |
Strain Status | ![]() ![]() |
Strain Availability | Recovered litters from cryopreserved embryos (2 to 4 months) Cryopreserved sperm (within 1 month) Cryopreserved embryos (within 1 month) |
Additional Info. | Necessary documents for ordering:
Genotyping protocol -PCR- |
BRC mice in Publications |
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Nakagiri H, Ogawa T, Ikeda N, Terasaka S, Nukada Y, Miyazawa M. Application of testicular organ culture system for the evaluation of spermatogenesis impairment. Sci Rep 14(1) 21581(2024) 39285184 |
Hashimoto K, Odaka H, Ishikawa-Yamauchi Y, Nagata S, Nakamura H, Kimura H, Sato T, Makiyama K, Ogawa T. Culture-space control is effective in promoting haploid cell formation and spermiogenesis in vitro in neonatal mice. Sci Rep 13(1) 12354(2023) 37524742 |
Hirano K, Nonami Y, Nakamura Y, Sato T, Sato T, Ishiguro KI, Ogawa T, Yoshida S. Temperature sensitivity of DNA double-strand break repair underpins heat-induced meiotic failure in mouse spermatogenesis. Commun Biol 5(1) 504(2022) 35618762 |
Okugi K, Kuwahara N, Yanome N, Yamada K, Ito T, Takano A, Ohira S, Nagai A, Toné S. An in vitro system for experimentally induced cryptorchidism. Histochem Cell Biol 157(3) 297-307(2022) 35190876 |
Fukunaga H, Kaminaga K, Sato T, Watanabe R, Ogawa T, Yokoya A, Prise KM. The Tissue-Sparing Effect of Spatially Fractionated X-rays for Maintaining Spermatogenesis: A Radiobiological Approach for the Preservation of Male Fertility after Radiotherapy. J Clin Med 9(4) (2020) 32290436 |
Yamanaka H, Komeya M, Nakamura H, Sanjo H, Sato T, Yao M, Kimura H, Fujii T, Ogawa T. A monolayer microfluidic device supporting mouse spermatogenesis with improved visibility. Biochem Biophys Res Commun 500(4) 885-891(2018) 29705697 |
Fukunaga H, Kaminaga K, Sato T, Usami N, Watanabe R, Butterworth KT, Ogawa T, Yokoya A, Prise KM. Application of an Ex Vivo Tissue Model to Investigate Radiobiological Effects on Spermatogenesis. Radiat Res 189(6) 661-667(2018) 29595376 |
Komeya M, Hayashi K, Nakamura H, Yamanaka H, Sanjo H, Kojima K, Sato T, Yao M, Kimura H, Fujii T, Ogawa T. Pumpless microfluidic system driven by hydrostatic pressure induces and maintains mouse spermatogenesis in vitro. Sci Rep 7(1) 15459(2017) 29133858 |
Komeya M, Kimura H, Nakamura H, Yokonishi T, Sato T, Kojima K, Hayashi K, Katagiri K, Yamanaka H, Sanjo H, Yao M, Kamimura S, Inoue K, Ogonuki N, Ogura A, Fujii T, Ogawa T. Long-term ex vivo maintenance of testis tissues producing fertile sperm in a microfluidic device. Sci Rep 6 21472(2016) 26892171 |
Sato T, Katagiri K, Yokonishi T, Kubota Y, Inoue K, Ogonuki N, Matoba S, Ogura A, Ogawa T. In vitro production of fertile sperm from murine spermatogonial stem cell lines. Nat Commun 2 472(2011) 21915114 |
Sato T, Katagiri K, Gohbara A, Inoue K, Ogonuki N, Ogura A, Kubota Y, Ogawa T. In vitro production of functional sperm in cultured neonatal mouse testes. Nature 471(7339) 504-7(2011) 21430778 |
Gohbara A, Katagiri K, Sato T, Kubota Y, Kagechika H, Araki Y, Araki Y, Ogawa T. In vitro murine spermatogenesis in an organ culture system. Biol Reprod 83(2) 261-7(2010) 20393168 |