Kyushu University [Kunimasa Ohta (Professor) Faculty of Arts and Science, Division for Experimental Natural Science]

Kunimasa Ohta

Last modified date：2023.01.04

Professor / Stem Cell Biology / Division for Experimental Natural Science / Faculty of Arts and Science

Presentations

1.	Anamika Datta, Arif Istiaq, and Kunimasa Ohta, Extrinsic ribosome stimuli promotes stem-cell like characteristics in mouse primary fibroblast, 第４５回日本分子生物学会, 2022.12.
2.	Arif Istiaq and Kunimasa Ohta, Cellar dynamics in Exo-ribosome mediated multipotency induction in somatic cells, 第3回日独合同若手ミーティング, 2021.11.
3.	Mikiko Kudo and Kunimasa Ohta, Akhirin regulates neural stem cell proliferation through microglial activation, 第3回日独合同若手ミーティング, 2021.11.
4.	Kunimasa Ohta, DYSFUNCTION OF THE PROTEOGLYCAN TSUKUSHI CAUSES HYDROCEPHALUS THROUGH ALTERED NEUROGENESIS IN THE SUBVENTRICULAR ZONE IN MICE, ISSCR/JSRM 2021 virtual Tokyo International Symposium, 2021.10.
5.	Kudo Mikiko, Arif Istiaq, and Kunimasa Ohta, Functional analysis of the soluble protein Akhirin in the developing brain nerve stem cell niche, 第５４回日本発生生物学会, 2021.06.
6.	Ohta, K., Ahmad, A., and Ito, N., Dysfunction of the proteoglycan Tsukushi causes hydrocephalus through altered neurogenesis in the subventricular zone in mice, 幹細胞シンポジウム, 2021.05.
7.	Ohta, K., Adil, I., Anam, B., Ito, N., Disruption of Tsukushi function leads to the hydrocephalus by aberrent neurogenesis in the brain, 日本分子生物学会, 2020.12.
8.	Istiaq, A., Kuod, M., Nakayama, S., Takashi, K., Ohta, K., Intracellular interaction of bacterial ribosome in mammalian cell towards cellular transdifferentiation, 日本分子生物学会, 2020.12.
9.	Ohta, K., Ahmad, S., Anam, B., Ito, N., Dysfunction of Tsukushi function leads to the hydrocephalus by aberrant neurogenesis in the brain, 日本発生生物学会, 2020.09.
10.	Kudo, M., Anam, B., Ahmad, S., Ito, N., Ohta, K., Transdifferentiation of human cancer cells by ribosome, 日本発生生物学会, 2020.09.
11.	Istiaq, A., Urata, K., Nakamura, K., Anam, B., Ahmad, S., Kudo, M., Ito, N., Ohta, K., Incorporation of bacterial ribosome in diverse mammalian cells, 日本発生生物学会, 2020.09.
12.	Kunimasa Ohta, Lactic Acid Bacteria Converts Human Fibroblasts to Multipotent cells, Kumamoto - NCBS/InStem Partnership Meeting, 2019.03.
13.	Kunimasa Ohta, Ribosome converts human fibroblasts to multipoint cells, International Symposium Frontline in Developmental Biology, 2018.03.
14.	Kunimasa Ohta, Lactic acid bacteria convert human fibroblasts into multipotent cells, The 6th Beneficial Microbes Conference, 2017.10.
15.	Kunimasa Ohta, Ribosome Incorporation into Somatic Cells Promotes Reprogramming towards Multipotency without Activating Cell Proliferation, Joint Meeting of the German and Japanese Society of Developmental Biologists, 2017.03.

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