Search Results - "Nagamatsu, Go"

Regulation of primordial follicle formation, dormancy, and activation in mice by NAGAMATSU, Go

“…In female reproduction, the oocyte number is limited after birth. To achieve a continuous ovulatory cycle, oocytes are stored in primordial follicles…”
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Oocyte aging in comparison to stem cells in mice by Nagamatsu, Go

“…To maintain homeostasis, many tissues contain stem cells that can self-renew and differentiate. Based on these functions, stem cells can reconstitute the…”
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Reconstitution in vitro of the entire cycle of the mouse female germ line by Hikabe, Orie, Hamazaki, Nobuhiko, Nagamatsu, Go, Obata, Yayoi, Hirao, Yuji, Hamada, Norio, Shimamoto, So, Imamura, Takuya, Nakashima, Kinichi, Saitou, Mitinori, Hayashi, Katsuhiko

“…Using a protocol that recapitulates both meiosis and oocyte growth in vitro , the authors induce mouse pluripotent stem cells to differentiate into fully…”
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Stem cells, in vitro gametogenesis and male fertility by Nagamatsu, Go, Hayashi, Katsuhiko

“…Reconstitution in culture of biological processes, such as differentiation and organization, is a key challenge in regenerative medicine, and one in which stem…”
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Generation of ovarian follicles from mouse pluripotent stem cells by Yoshino, Takashi, Suzuki, Takahiro, Nagamatsu, Go, Yabukami, Haruka, Ikegaya, Mika, Kishima, Mami, Kita, Haruka, Imamura, Takuya, Nakashima, Kinichi, Nishinakamura, Ryuichi, Tachibana, Makoto, Inoue, Miki, Shima, Yuichi, Morohashi, Ken-Ichirou, Hayashi, Katsuhiko

“…Oocytes mature in a specialized fluid-filled sac, the ovarian follicle, which provides signals needed for meiosis and germ cell growth. Methods have been…”
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Environmental factors for establishment of the dormant state in oocytes by Hayashi, Katsuhiko, Shimamoto, So, Nagamatsu, Go

“…Guaranteeing the sustainability of gametogenesis is a fundamental issue for perpetuating the species. In the mammalian ovary, sustainability is accomplished by…”
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Regulation of Glycolysis by Pdk Functions as a Metabolic Checkpoint for Cell Cycle Quiescence in Hematopoietic Stem Cells by Takubo, Keiyo, Nagamatsu, Go, Kobayashi, Chiharu I., Nakamura-Ishizu, Ayako, Kobayashi, Hiroshi, Ikeda, Eiji, Goda, Nobuhito, Rahimi, Yasmeen, Johnson, Randall S., Soga, Tomoyoshi, Hirao, Atsushi, Suematsu, Makoto, Suda, Toshio

“…Defining the metabolic programs that underlie stem cell maintenance will be essential for developing strategies to manipulate stem cell capacity. Mammalian…”
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Generation of functional oocytes from male mice in vitro by Murakami, Kenta, Hamazaki, Nobuhiko, Hamada, Norio, Nagamatsu, Go, Okamoto, Ikuhiro, Ohta, Hiroshi, Nosaka, Yoshiaki, Ishikura, Yukiko, Kitajima, Tomoya S., Semba, Yuichiro, Kunisaki, Yuya, Arai, Fumio, Akashi, Koichi, Saitou, Mitinori, Kato, Kiyoko, Hayashi, Katsuhiko

“…Sex chromosome disorders severely compromise gametogenesis in both males and females. In oogenesis, the presence of an additional Y chromosome or the loss of…”
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Dual role of Ovol2 on the germ cell lineage segregation during gastrulation in mouse embryogenesis by Naitou, Yuki, Nagamatsu, Go, Hamazaki, Nobuhiko, Shirane, Kenjiro, Hayashi, Masafumi, Hayashi, Makoto, Kobayashi, Satoru, Hayashi, Katsuhiko

“…In mammals, primordial germ cells (PGCs), the origin of the germ line, are specified from the epiblast at the posterior region where gastrulation…”
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Germ cell-intrinsic effects of sex chromosomes on early oocyte differentiation in mice by Hamada, Norio, Hamazaki, Nobuhiko, Shimamoto, So, Hikabe, Orie, Nagamatsu, Go, Takada, Yuki, Kato, Kiyoko, Hayashi, Katsuhiko

“…A set of sex chromosomes is required for gametogenesis in both males and females, as represented by sex chromosome disorders causing agametic phenotypes…”
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Identification of drug candidate against prostate cancer from the aspect of somatic cell reprogramming by Kosaka, Takeo, Nagamatsu, Go, Saito, Shigeru, Oya, Mototsugu, Suda, Toshio, Horimoto, Katsuhisa

“…Considering the similarities between the transcriptional programming involved in cancer progression and somatic cell reprogramming, we tried to identify drugs…”
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The first round of mouse spermatogenesis is a distinctive program that lacks the self-renewing spermatogonia stage by Yoshida, Shosei, Sukeno, Mamiko, Nakagawa, Toshinori, Ohbo, Kazuyuki, Nagamatsu, Go, Suda, Toshio, Nabeshima, Yo-ichi

“…Mammalian spermatogenesis is maintained by a continuous supply of differentiating cells from self-renewing stem cells. The stem cell activity resides in a…”
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A Germ Cell-specific Gene, Prmt5, Works in Somatic Cell Reprogramming by Nagamatsu, Go, Kosaka, Takeo, Kawasumi, Miyuri, Kinoshita, Taisuke, Takubo, Keiyo, Akiyama, Hideo, Sudo, Tetsuo, Kobayashi, Takashi, Oya, Mototsugu, Suda, Toshio

“…Germ cells possess the unique ability to acquire totipotency during development in vivo as well as give rise to pluripotent stem cells under the appropriate…”
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Context-dependent modification of PFKFB3 in hematopoietic stem cells promotes anaerobic glycolysis and ensures stress hematopoiesis by Watanuki, Shintaro, Kobayashi, Hiroshi, Sugiura, Yuki, Yamamoto, Masamichi, Karigane, Daiki, Shiroshita, Kohei, Sorimachi, Yuriko, Fujita, Shinya, Morikawa, Takayuki, Koide, Shuhei, Oshima, Motohiko, Nishiyama, Akira, Murakami, Koichi, Haraguchi, Miho, Tamaki, Shinpei, Yamamoto, Takehiro, Yabushita, Tomohiro, Tanaka, Yosuke, Nagamatsu, Go, Honda, Hiroaki, Okamoto, Shinichiro, Goda, Nobuhito, Tamura, Tomohiko, Nakamura-Ishizu, Ayako, Suematsu, Makoto, Iwama, Atsushi, Suda, Toshio, Takubo, Keiyo

“…Metabolic pathways are plastic and rapidly change in response to stress or perturbation. Current metabolic profiling techniques require lysis of many cells,…”
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Correction: Context-dependent modification of PFKFB3 in hematopoietic stem cells promotes anaerobic glycolysis and ensures stress hematopoiesis by Watanuki, Shintaro, Kobayashi, Hiroshi, Sugiura, Yuki, Yamamoto, Masamichi, Karigane, Daiki, Shiroshita, Kohei, Sorimachi, Yuriko, Fujita, Shinya, Morikawa, Takayuki, Koide, Shuhei, Oshima, Motohiko, Nishiyama, Akira, Murakami, Koichi, Haraguchi, Miho, Tamaki, Shinpei, Yamamoto, Takehiro, Yabushita, Tomohiro, Tanaka, Yosuke, Nagamatsu, Go, Honda, Hiroaki, Okamoto, Shinichiro, Goda, Nobuhito, Tamura, Tomohiko, Nakamura-Ishizu, Ayako, Suematsu, Makoto, Iwama, Atsushi, Suda, Toshio, Takubo, Keiyo

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Stem cell defects in ATM-deficient undifferentiated spermatogonia through DNA damage-induced cell-cycle arrest by Takubo, Keiyo, Ohmura, Masako, Azuma, Masaki, Nagamatsu, Go, Yamada, Wakako, Arai, Fumio, Hirao, Atsushi, Suda, Toshio

“…Mammalian spermatogenesis is maintained by stem cell capacity within undifferentiated spermatogonial subpopulation. Here, using a combination of surface…”
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Telomerase Reverse Transcriptase Has an Extratelomeric Function in Somatic Cell Reprogramming by Kinoshita, Taisuke, Nagamatsu, Go, Saito, Shigeru, Takubo, Keiyo, Horimoto, Katsuhisa, Suda, Toshio

“…Reactivation of the endogenous telomerase reverse transcriptase (TERT) catalytic subunit and telomere elongation occur during the reprogramming of somatic…”
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Conversion of primordial germ cells to pluripotent stem cells: methods for cell tracking and culture conditions by Nagamatsu, Go, Suda, Toshio

“…Primordial germ cells (PGCs) are unipotent cells committed to germ lineage: PGCs can only differentiate into gametes in vivo. However, upon fertilization, germ…”
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Nucleostemin is indispensable for the maintenance and genetic stability of hematopoietic stem cells by Yamashita, Masayuki, Nitta, Eriko, Nagamatsu, Go, Ikushima, Yoshiko Matsumoto, Hosokawa, Kentaro, Arai, Fumio, Suda, Toshio

“…•Nucleostemin is highly expressed in immature hematopoietic cells including HSCs.•Nucleostemin depletion impairs the self-renewal capacity of…”
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Optimal Ratio of Transcription Factors for Somatic Cell Reprogramming by Nagamatsu, Go, Saito, Shigeru, Kosaka, Takeo, Takubo, Keiyo, Kinoshita, Taisuke, Oya, Mototsugu, Horimoto, Katsuhisa, Suda, Toshio

“…Somatic cell reprogramming is achieved by four reprogramming transcription factors (RTFs), Oct3/4, Sox2, Klf4, and c-Myc. However, in addition to the induction…”
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