黒谷明美

クロタニアケミ (Akemi Kurotani)

基本情報

所属: 国立研究開発法人宇宙航空研究開発機構宇宙科学研究所准教授

学位: 工学博士(1988年3月大阪大学)
理学修士(1984年3月お茶の水女子大学)

通称等の別名: 黒谷（和泉）明美
J-GLOBAL ID: 200901010521776467
researchmap会員ID: 1000144546

研究キーワード

研究分野

経歴

1988年 - 1996年

宇宙科学研究所助手
1988年 - 1996年

Institute of Space and Astronautical Science,
1987年 - 1988年

放送大学教務補佐員
1987年 - 1988年

University of the Air, Research Assistant
Research Associate

学歴

1983年4月 - 1987年3月

大阪大学基礎工学研究科物理系
1981年4月 - 1983年3月

お茶の水女子大学大学院理学研究科生物学専攻
1977年4月 - 1981年3月

お茶の水女子大学理学部生物学科

論文

Effects of gravity on spicule formation in cultured micromeres of sea urchin embryo

A. Izumi-Kurotani, M. Kiyomoto, M. Imai, H. Eguchi

Advances in Space Research 38(6) 1112-1116 2006年査読有り

To investigate the effects of gravity on morphogenesis at the cellular level, we have proposed a new experimental system with micromeres from sea urchin embryos [Izumi-Kurotani, A., Kiyomoto, M. Morphogenesis and gravity in a whole Amphibian Embryo and in isolated blastomeres of sea urchins, in: Marthy, H. -J. (Ed.), Developmental Biology Research in Space. Adv. Space Biol. Med. vol. 9, Elsevier, Amsterdam, pp. 83-99, 2003]. We studied spicule formation in cultured micromeres of sea urchin embryo under various conditions of gravity: hypergravity by a centrifuge and simulated microgravity in a vertical clinostat. Spicule elongation was suppressed under both experimental conditions. © 2005 COSPAR.

MISC

Morphogenesis and gravity in a whole amphibianembryo and in isolated blastomeres of sea urchins (共著）

Advances in Space Biology and Medicine 9 83-99 2003年
Morphogenesis and Gravity in a Whole Amphibian Embryo and in Isolated Blastomeres of Sea Urchins

Akemi Izumi-Kurotani, Masato Kiyomoto

Advances in Space Biology and Medicine 9 83-99 2003年

Fertilization and subsequent embryogenesis of newts occurred normally under microgravity in two Astronewt flight experiments. By accumulation of the results from the amphibian flight experiments including 'Astronewt', it is considered that gravity has rather small effects on the early development of amphibian eggs. However, some temporary abnormalities, which recover in the course of the further developmental process, have been observed. Some regulations may occur in whole embryos. For a thorough knowledge about the role of gravity in morphogenesis, we need to investigate the gravitational effects on a single cell in a whole embryo. We propose a new experimental system with sea urchin embryos and micromeres for further studies at a cellular level of the effects of gravity on morphogenesis. © 2003 Elsevier Science B.V. All rights reserved.
Japanese Red-Belled Newts in Space-Astronaut Experiment on Space Shuttle IML-2 and Space Flyer Unit （共著）

Biological Sciences in Space 15 (Supplement), pp.96-103 2001年
The Frog in Space (FRIS) Experiment Onboard Space Station Mir: Final Report and Follow-on Studies （共著）

Biological Sciences in Space 15 (Supplement), pp.17-24 2001年
Japanese Red-Belled Newts in Space-Astronaut Experiment on Space Shuttle IML-2 and Space Flyer Unit （jointly worked）

Biological Sciences in Space 15 (Supplement), pp.96-103 2001年