山下 高廣

Last Update: 2019/09/27 08:59:47

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Name(Kanji/Kana/Abecedarium Latinum)
山下 高廣/ヤマシタ タカヒロ/Yamashita, Takahiro
Primary Affiliation(Org1/Job title)
Graduate Schools Science/Assistant Professor
Faculty
Org1 Job title
理学部
Contact Address
Type Address(Japanese) Address(English)
Office 京都市左京区北白川追分町 京都大学理学部1号館419室 Room 419, First Building of Faculty of Science, Kyoto University, Kitashirakawa-oiwakecho, Sakyo-ku, Kyoto 606-8502, Japan
Phone
Type Number
Office 075-753-4211
Academic Organizations You are Affiliated to in Japan
Organization name(Japanese) Organization name(English)
日本動物学会 The Zoological Science of Japan
日本生物物理学会 The Biophysical Society of Japan
日本生化学会 The Japanese Biochemical Society
Academic Degree
Field(Japanese) Field(English) University(Japanese) University(English) Method
修士(理学) 京都大学
博士(理学) 京都大学
Graduate School
University(Japanese) University(English) Faculty(Japanese) Faculty(English) Major(Japanese) Major(English) Degree
京都大学 大学院理学研究科博士後期課程生物科学専攻 修了
京都大学 大学院理学研究科修士課程生物科学専攻 修了
Work Experience
Period Organization(Japanese) Organization(English) Job title(Japanese) Job title(English)
2002/04/01-2004/03/31 京都大学 Kyoto University 日本学術振興会特別研究員 Research Fellow of JSPS
2004/04/01- 京都大学 Kyoto University 助教 Assistant Professor
Language of Instruction
Language
English
researchmap URL
https://researchmap.jp/read0193093
Research Topics
(Japanese)
ロドプシン及びG蛋白質共役型受容体の構造・機能相関
(English)
Structure and function relationship in rhodopsin and G protein-coupled receptors
Fields of research (key words)
Key words(Japanese) Key words(English)
生物物理学 Biophysics
動物生理学 Animal physiology
生化学 Biochemistry
Published Papers
Author Author(Japanese) Author(English) Title Title(Japanese) Title(English) Bibliography Bibliography(Japanese) Bibliography(English) Publication date Refereed paper Language Publishing type Disclose
Fujiyabu C, Sato K, Utari NML, Ohuchi H, Shichida Y, Yamashita T Fujiyabu C, Sato K, Utari NML, Ohuchi H, Shichida Y, Yamashita T Fujiyabu C, Sato K, Utari NML, Ohuchi H, Shichida Y, Yamashita T Evolutionary history of teleost intron-containing and intron-less rhodopsin genes. Evolutionary history of teleost intron-containing and intron-less rhodopsin genes. Evolutionary history of teleost intron-containing and intron-less rhodopsin genes. Scientific reports, 9, 1, 10653 Scientific reports, 9, 1, 10653 Scientific reports, 9, 1, 10653 2019/07 Refereed Disclose to all
Sato K, Yamashita T, Ohuchi H, Shichida Y 佐藤恵太、山下高廣、大内淑代、七田芳則 Sato K, Yamashita T, Ohuchi H, Shichida Y Diverse Molecular Functions of Photoreceptor Proteins Opn5 「光受容体」Opn5が示す多様な分子機能 Diverse Molecular Functions of Photoreceptor Proteins Opn5 生物物理, 59, 3, 132-136 生物物理, 59, 3, 132-136 , 59, 3, 132-136 2019/05 Refereed Disclose to all
Yue WWS, Silverman D, Ren X, Frederiksen R, Sakai K, Yamashita T, Shichida Y, Cornwall MC, Chen J, Yau KW Yue WWS, Silverman D, Ren X, Frederiksen R, Sakai K, Yamashita T, Shichida Y, Cornwall MC, Chen J, Yau KW Yue WWS, Silverman D, Ren X, Frederiksen R, Sakai K, Yamashita T, Shichida Y, Cornwall MC, Chen J, Yau KW Elementary response triggered by transducin in retinal rods. Elementary response triggered by transducin in retinal rods. Elementary response triggered by transducin in retinal rods. Proceedings of the National Academy of Sciences of the United States of America, 116, 11, 5144-5153 Proceedings of the National Academy of Sciences of the United States of America, 116, 11, 5144-5153 Proceedings of the National Academy of Sciences of the United States of America, 116, 11, 5144-5153 2019/03 Refereed Disclose to all
Sato K, Yamashita T, Kojima K, Sakai K, Matsutani Y, Yanagawa M, Yamano Y, Wada A, Iwabe N, Ohuchi H, Shichida Y Sato K, Yamashita T, Kojima K, Sakai K, Matsutani Y, Yanagawa M, Yamano Y, Wada A, Iwabe N, Ohuchi H, Shichida Y Sato K, Yamashita T, Kojima K, Sakai K, Matsutani Y, Yanagawa M, Yamano Y, Wada A, Iwabe N, Ohuchi H, Shichida Y Pinopsin evolved as the ancestral dim-light visual opsin in vertebrates. Pinopsin evolved as the ancestral dim-light visual opsin in vertebrates. Pinopsin evolved as the ancestral dim-light visual opsin in vertebrates. Communications biology, 1, 156 Communications biology, 1, 156 Communications biology, 1, 156 2018/10 Refereed Disclose to all
Yanagawa M, Hiroshima M, Togashi Y, Abe M, Yamashita T, Shichida Y, Murata M, Ueda M, Sako Y Yanagawa M, Hiroshima M, Togashi Y, Abe M, Yamashita T, Shichida Y, Murata M, Ueda M, Sako Y Yanagawa M, Hiroshima M, Togashi Y, Abe M, Yamashita T, Shichida Y, Murata M, Ueda M, Sako Y Single-molecule diffusion-based estimation of ligand effects on G protein-coupled receptors. Single-molecule diffusion-based estimation of ligand effects on G protein-coupled receptors. Single-molecule diffusion-based estimation of ligand effects on G protein-coupled receptors. Science signaling, 11, 548 Science signaling, 11, 548 Science signaling, 11, 548 2018/09 Refereed Disclose to all
Shen YC, Sasaki T, Matsuyama T, Yamashita T, Shichida Y, Okitsu T, Yamano Y, Wada A, Ishizuka T, Yawo H, Imamoto Y Shen YC, Sasaki T, Matsuyama T, Yamashita T, Shichida Y, Okitsu T, Yamano Y, Wada A, Ishizuka T, Yawo H, Imamoto Y Shen YC, Sasaki T, Matsuyama T, Yamashita T, Shichida Y, Okitsu T, Yamano Y, Wada A, Ishizuka T, Yawo H, Imamoto Y Red-Tuning of the Channelrhodopsin Spectrum Using Long Conjugated Retinal Analogues. Red-Tuning of the Channelrhodopsin Spectrum Using Long Conjugated Retinal Analogues. Red-Tuning of the Channelrhodopsin Spectrum Using Long Conjugated Retinal Analogues. Biochemistry Biochemistry Biochemistry 2018/09 Refereed Disclose to all
Katagiri S, Iwasa M, Hayashi T, Hosono K, Yamashita T, Kuniyoshi K, Ueno S, Kondo M, Ueyama H, Ogita H, Shichida Y, Inagaki H, Kurahashi H, Kondo H, Ohji M, Hotta Y, Nakano T Katagiri S, Iwasa M, Hayashi T, Hosono K, Yamashita T, Kuniyoshi K, Ueno S, Kondo M, Ueyama H, Ogita H, Shichida Y, Inagaki H, Kurahashi H, Kondo H, Ohji M, Hotta Y, Nakano T Katagiri S, Iwasa M, Hayashi T, Hosono K, Yamashita T, Kuniyoshi K, Ueno S, Kondo M, Ueyama H, Ogita H, Shichida Y, Inagaki H, Kurahashi H, Kondo H, Ohji M, Hotta Y, Nakano T Genotype determination of the OPN1LW/OPN1MW genes: novel disease-causing mechanisms in Japanese patients with blue cone monochromacy. Genotype determination of the OPN1LW/OPN1MW genes: novel disease-causing mechanisms in Japanese patients with blue cone monochromacy. Genotype determination of the OPN1LW/OPN1MW genes: novel disease-causing mechanisms in Japanese patients with blue cone monochromacy. Scientific reports, 8, 1, 11507 Scientific reports, 8, 1, 11507 Scientific reports, 8, 1, 11507 2018/07 Refereed Disclose to all
Maeda R, Hiroshima M, Yamashita T, Wada A, Sako Y, Shichida Y, Imamoto Y Maeda R, Hiroshima M, Yamashita T, Wada A, Sako Y, Shichida Y, Imamoto Y Maeda R, Hiroshima M, Yamashita T, Wada A, Sako Y, Shichida Y, Imamoto Y Shift in Conformational Equilibrium Induces Constitutive Activity of G-Protein-Coupled Receptor, Rhodopsin. Shift in Conformational Equilibrium Induces Constitutive Activity of G-Protein-Coupled Receptor, Rhodopsin. Shift in Conformational Equilibrium Induces Constitutive Activity of G-Protein-Coupled Receptor, Rhodopsin. The journal of physical chemistry. B, 122, 18, 4838-4843 The journal of physical chemistry. B, 122, 18, 4838-4843 The journal of physical chemistry. B, 122, 18, 4838-4843 2018/05 Refereed Disclose to all
Sato K, Yamashita T, Ohuchi H, Takeuchi A, Gotoh H, Ono K, Mizuno M, Mizutani Y, Tomonari S, Sakai K, Imamoto Y, Wada A, Shichida Y Sato K, Yamashita T, Ohuchi H, Takeuchi A, Gotoh H, Ono K, Mizuno M, Mizutani Y, Tomonari S, Sakai K, Imamoto Y, Wada A, Shichida Y Sato K, Yamashita T, Ohuchi H, Takeuchi A, Gotoh H, Ono K, Mizuno M, Mizutani Y, Tomonari S, Sakai K, Imamoto Y, Wada A, Shichida Y Opn5L1 is a retinal receptor that behaves as a reverse and self-regenerating photoreceptor. Opn5L1 is a retinal receptor that behaves as a reverse and self-regenerating photoreceptor. Opn5L1 is a retinal receptor that behaves as a reverse and self-regenerating photoreceptor. Nature communications, 9, 1, 1255 Nature communications, 9, 1, 1255 Nature communications, 9, 1, 1255 2018/03 Refereed Disclose to all
Sakai K, Tsutsui K, Yamashita T, Iwabe N, Takahashi K, Wada A, Shichida Y Sakai K, Tsutsui K, Yamashita T, Iwabe N, Takahashi K, Wada A, Shichida Y Sakai K, Tsutsui K, Yamashita T, Iwabe N, Takahashi K, Wada A, Shichida Y Drosophila melanogaster rhodopsin Rh7 is a UV-to-visible light sensor with an extraordinarily broad absorption spectrum. Drosophila melanogaster rhodopsin Rh7 is a UV-to-visible light sensor with an extraordinarily broad absorption spectrum. Drosophila melanogaster rhodopsin Rh7 is a UV-to-visible light sensor with an extraordinarily broad absorption spectrum. Scientific reports, 7, 1, 7349 Scientific reports, 7, 1, 7349 Scientific reports, 7, 1, 7349 2017/08 Refereed Disclose to all
Kojima K, Yamashita T, Imamoto Y, Kusakabe TG, Tsuda M, Shichida Y Kojima K, Yamashita T, Imamoto Y, Kusakabe TG, Tsuda M, Shichida Y Kojima K, Yamashita T, Imamoto Y, Kusakabe TG, Tsuda M, Shichida Y Evolutionary steps involving counterion displacement in a tunicate opsin. Evolutionary steps involving counterion displacement in a tunicate opsin. Evolutionary steps involving counterion displacement in a tunicate opsin. Proceedings of the National Academy of Sciences of the United States of America, 114, 23, 6028-6033 Proceedings of the National Academy of Sciences of the United States of America, 114, 23, 6028-6033 Proceedings of the National Academy of Sciences of the United States of America, 114, 23, 6028-6033 2017/06 Refereed Disclose to all
Kojima K, Matsutani Y, Yamashita T, Yanagawa M, Imamoto Y, Yamano Y, Wada A, Hisatomi O, Nishikawa K, Sakurai K, Shichida Y Kojima K, Matsutani Y, Yamashita T, Yanagawa M, Imamoto Y, Yamano Y, Wada A, Hisatomi O, Nishikawa K, Sakurai K, Shichida Y Kojima K, Matsutani Y, Yamashita T, Yanagawa M, Imamoto Y, Yamano Y, Wada A, Hisatomi O, Nishikawa K, Sakurai K, Shichida Y Adaptation of cone pigments found in green rods for scotopic vision through a single amino acid mutation. Adaptation of cone pigments found in green rods for scotopic vision through a single amino acid mutation. Adaptation of cone pigments found in green rods for scotopic vision through a single amino acid mutation. Proceedings of the National Academy of Sciences of the United States of America, 114, 21, 5437-5442 Proceedings of the National Academy of Sciences of the United States of America, 114, 21, 5437-5442 Proceedings of the National Academy of Sciences of the United States of America, 114, 21, 5437-5442 2017/05 Refereed Disclose to all
Yue WW, Frederiksen R, Ren X, Luo DG, Yamashita T, Shichida Y, Cornwall MC, Yau KW Yue WW, Frederiksen R, Ren X, Luo DG, Yamashita T, Shichida Y, Cornwall MC, Yau KW Yue WW, Frederiksen R, Ren X, Luo DG, Yamashita T, Shichida Y, Cornwall MC, Yau KW Spontaneous activation of visual pigments in relation to openness/closedness of chromophore-binding pocket. Spontaneous activation of visual pigments in relation to openness/closedness of chromophore-binding pocket. Spontaneous activation of visual pigments in relation to openness/closedness of chromophore-binding pocket. eLife, 6 eLife, 6 eLife, 6 2017/02 Refereed Disclose to all
Yoshida K, Yamashita T, Sasaki K, Inoue K, Shichida Y, Kandori H Yoshida K, Yamashita T, Sasaki K, Inoue K, Shichida Y, Kandori H Yoshida K, Yamashita T, Sasaki K, Inoue K, Shichida Y, Kandori H Chimeric microbial rhodopsins for optical activation of Gs-proteins. Chimeric microbial rhodopsins for optical activation of Gs-proteins. Chimeric microbial rhodopsins for optical activation of Gs-proteins. Biophysics and physicobiology, 14, 183-190 Biophysics and physicobiology, 14, 183-190 Biophysics and physicobiology, 14, 183-190 2017 Refereed Disclose to all
Okitsu T, Matsuyama T, Yamashita T, Ishizuka T, Yawo H, Imamoto Y, Shichida Y, Wada A Okitsu T, Matsuyama T, Yamashita T, Ishizuka T, Yawo H, Imamoto Y, Shichida Y, Wada A Okitsu T, Matsuyama T, Yamashita T, Ishizuka T, Yawo H, Imamoto Y, Shichida Y, Wada A Alternative Formation of Red-Shifted Channelrhodopsins: Noncovalent Incorporation with Retinal-Based Enamine-Type Schiff Bases and Mutated Channelopsin. Alternative Formation of Red-Shifted Channelrhodopsins: Noncovalent Incorporation with Retinal-Based Enamine-Type Schiff Bases and Mutated Channelopsin. Alternative Formation of Red-Shifted Channelrhodopsins: Noncovalent Incorporation with Retinal-Based Enamine-Type Schiff Bases and Mutated Channelopsin. Chemical & pharmaceutical bulletin, 65, 4, 356-358 Chemical & pharmaceutical bulletin, 65, 4, 356-358 Chemical & pharmaceutical bulletin, 65, 4, 356-358 2017 Refereed Disclose to all
Sato K, Yamashita T, Haruki Y, Ohuchi H, Kinoshita M, Shichida Y Sato K, Yamashita T, Haruki Y, Ohuchi H, Kinoshita M, Shichida Y Sato K, Yamashita T, Haruki Y, Ohuchi H, Kinoshita M, Shichida Y Two UV-Sensitive Photoreceptor Proteins, Opn5m and Opn5m2 in Ray-Finned Fish with Distinct Molecular Properties and Broad Distribution in the Retina and Brain. Two UV-Sensitive Photoreceptor Proteins, Opn5m and Opn5m2 in Ray-Finned Fish with Distinct Molecular Properties and Broad Distribution in the Retina and Brain. Two UV-Sensitive Photoreceptor Proteins, Opn5m and Opn5m2 in Ray-Finned Fish with Distinct Molecular Properties and Broad Distribution in the Retina and Brain. PloS one, 11, 5, e0155339 PloS one, 11, 5, e0155339 PloS one, 11, 5, e0155339 2016 Refereed Disclose to all
Kato M, Sugiyama T, Sakai K, Yamashita T, Fujita H, Sato K, Tomonari S, Shichida Y, Ohuchi H Kato M, Sugiyama T, Sakai K, Yamashita T, Fujita H, Sato K, Tomonari S, Shichida Y, Ohuchi H Kato M, Sugiyama T, Sakai K, Yamashita T, Fujita H, Sato K, Tomonari S, Shichida Y, Ohuchi H Two Opsin 3-Related Proteins in the Chicken Retina and Brain: A TMT-Type Opsin 3 Is a Blue-Light Sensor in Retinal Horizontal Cells, Hypothalamus, and Cerebellum. Two Opsin 3-Related Proteins in the Chicken Retina and Brain: A TMT-Type Opsin 3 Is a Blue-Light Sensor in Retinal Horizontal Cells, Hypothalamus, and Cerebellum. Two Opsin 3-Related Proteins in the Chicken Retina and Brain: A TMT-Type Opsin 3 Is a Blue-Light Sensor in Retinal Horizontal Cells, Hypothalamus, and Cerebellum. PloS one, 11, 11, e0163925 PloS one, 11, 11, e0163925 PloS one, 11, 11, e0163925 2016 Refereed Disclose to all
Yanagawa M, Kojima K, Yamashita T, Imamoto Y, Matsuyama T, Nakanishi K, Yamano Y, Wada A, Sako Y, Shichida Y Yanagawa M, Kojima K, Yamashita T, Imamoto Y, Matsuyama T, Nakanishi K, Yamano Y, Wada A, Sako Y, Shichida Y Yanagawa M, Kojima K, Yamashita T, Imamoto Y, Matsuyama T, Nakanishi K, Yamano Y, Wada A, Sako Y, Shichida Y Origin of the low thermal isomerization rate of rhodopsin chromophore. Origin of the low thermal isomerization rate of rhodopsin chromophore. Origin of the low thermal isomerization rate of rhodopsin chromophore. Scientific reports, 5, 11081 Scientific reports, 5, 11081 Scientific reports, 5, 11081 2015/06 Refereed Disclose to all
YAMASHITA TAKAHIRO, SHICHIDA YOSHINORI 山下高廣, 七田芳則 YAMASHITA TAKAHIRO, SHICHIDA YOSHINORI 自己免疫性脳炎―抗原・抗体は何をしている?グルタミン酸受容体 代謝型グルタミン酸受容体の分子構造と機能 自己免疫性脳炎―抗原・抗体は何をしている?グルタミン酸受容体 代謝型グルタミン酸受容体の分子構造と機能 自己免疫性脳炎―抗原・抗体は何をしている?グルタミン酸受容体 代謝型グルタミン酸受容体の分子構造と機能 Clin Neurosci, 33, 1, 25-27 Clin Neurosci, 33, 1, 25-27 Clin Neurosci, 33, 1, 25-27 2015/01/01 Japanese Disclose to all
Sakai K, Yamashita T, Imamoto Y, Shichida Y Sakai K, Yamashita T, Imamoto Y, Shichida Y Sakai K, Yamashita T, Imamoto Y, Shichida Y Diversity of Active States in TMT Opsins. Diversity of Active States in TMT Opsins. Diversity of Active States in TMT Opsins. PloS one, 10, 10, e0141238 PloS one, 10, 10, e0141238 PloS one, 10, 10, e0141238 2015 Refereed Disclose to all
Sato K, Yamashita T, Shichida Y Sato K, Yamashita T, Shichida Y Sato K, Yamashita T, Shichida Y Contribution of glutamic acid in the conserved E/DRY triad to the functional properties of rhodopsin. Contribution of glutamic acid in the conserved E/DRY triad to the functional properties of rhodopsin. Contribution of glutamic acid in the conserved E/DRY triad to the functional properties of rhodopsin. Biochemistry, 53, 27, 4420-4425 Biochemistry, 53, 27, 4420-4425 Biochemistry, 53, 27, 4420-4425 2014/07 Refereed Disclose to all
Maeda R, Hiroshima M, Yamashita T, Wada A, Nishimura S, Sako Y, Shichida Y, Imamoto Y Maeda R, Hiroshima M, Yamashita T, Wada A, Nishimura S, Sako Y, Shichida Y, Imamoto Y Maeda R, Hiroshima M, Yamashita T, Wada A, Nishimura S, Sako Y, Shichida Y, Imamoto Y Single-molecule observation of the ligand-induced population shift of rhodopsin, a G-protein-coupled receptor. Single-molecule observation of the ligand-induced population shift of rhodopsin, a G-protein-coupled receptor. Single-molecule observation of the ligand-induced population shift of rhodopsin, a G-protein-coupled receptor. Biophysical journal, 106, 4, 915-924 Biophysical journal, 106, 4, 915-924 Biophysical journal, 106, 4, 915-924 2014/02 Refereed Disclose to all
Yamashita T, Ono K, Ohuchi H, Yumoto A, Gotoh H, Tomonari S, Sakai K, Fujita H, Imamoto Y, Noji S, Nakamura K, Shichida Y Yamashita T, Ono K, Ohuchi H, Yumoto A, Gotoh H, Tomonari S, Sakai K, Fujita H, Imamoto Y, Noji S, Nakamura K, Shichida Y Yamashita T, Ono K, Ohuchi H, Yumoto A, Gotoh H, Tomonari S, Sakai K, Fujita H, Imamoto Y, Noji S, Nakamura K, Shichida Y Evolution of mammalian Opn5 as a specialized UV-absorbing pigment by a single amino acid mutation. Evolution of mammalian Opn5 as a specialized UV-absorbing pigment by a single amino acid mutation. Evolution of mammalian Opn5 as a specialized UV-absorbing pigment by a single amino acid mutation. The Journal of biological chemistry, 289, 7, 3991-4000 The Journal of biological chemistry, 289, 7, 3991-4000 The Journal of biological chemistry, 289, 7, 3991-4000 2014/02 Refereed Disclose to all
Kojima K, Imamoto Y, Maeda R, Yamashita T, Shichida Y Kojima K, Imamoto Y, Maeda R, Yamashita T, Shichida Y Kojima K, Imamoto Y, Maeda R, Yamashita T, Shichida Y Rod visual pigment optimizes active state to achieve efficient G protein activation as compared with cone visual pigments. Rod visual pigment optimizes active state to achieve efficient G protein activation as compared with cone visual pigments. Rod visual pigment optimizes active state to achieve efficient G protein activation as compared with cone visual pigments. The Journal of biological chemistry, 289, 8, 5061-5073 The Journal of biological chemistry, 289, 8, 5061-5073 The Journal of biological chemistry, 289, 8, 5061-5073 2014/02 Refereed Disclose to all
Sasaki K, Yamashita T, Yoshida K, Inoue K, Shichida Y, Kandori H Sasaki K, Yamashita T, Yoshida K, Inoue K, Shichida Y, Kandori H Sasaki K, Yamashita T, Yoshida K, Inoue K, Shichida Y, Kandori H Chimeric proton-pumping rhodopsins containing the cytoplasmic loop of bovine rhodopsin. Chimeric proton-pumping rhodopsins containing the cytoplasmic loop of bovine rhodopsin. Chimeric proton-pumping rhodopsins containing the cytoplasmic loop of bovine rhodopsin. PloS one, 9, 3, e91323 PloS one, 9, 3, e91323 PloS one, 9, 3, e91323 2014 Refereed Disclose to all
Imamoto Y, Seki I, Yamashita T, Shichida Y Imamoto Y, Seki I, Yamashita T, Shichida Y Imamoto Y, Seki I, Yamashita T, Shichida Y Efficiencies of activation of transducin by cone and rod visual pigments. Efficiencies of activation of transducin by cone and rod visual pigments. Efficiencies of activation of transducin by cone and rod visual pigments. Biochemistry, 52, 17, 3010-3018 Biochemistry, 52, 17, 3010-3018 Biochemistry, 52, 17, 3010-3018 2013/04 Refereed Disclose to all
Yanagawa M, Yamashita T, Shichida Y Yanagawa M, Yamashita T, Shichida Y Yanagawa M, Yamashita T, Shichida Y Glutamate acts as a partial inverse agonist to metabotropic glutamate receptor with a single amino acid mutation in the transmembrane domain. Glutamate acts as a partial inverse agonist to metabotropic glutamate receptor with a single amino acid mutation in the transmembrane domain. Glutamate acts as a partial inverse agonist to metabotropic glutamate receptor with a single amino acid mutation in the transmembrane domain. The Journal of biological chemistry, 288, 14, 9593-9601 The Journal of biological chemistry, 288, 14, 9593-9601 The Journal of biological chemistry, 288, 14, 9593-9601 2013/04 Refereed Disclose to all
Yamashita T, Nakamura S, Tsutsui K, Morizumi T, Shichida Y Yamashita T, Nakamura S, Tsutsui K, Morizumi T, Shichida Y Yamashita T, Nakamura S, Tsutsui K, Morizumi T, Shichida Y Chloride-dependent spectral tuning mechanism of L-group cone visual pigments. Chloride-dependent spectral tuning mechanism of L-group cone visual pigments. Chloride-dependent spectral tuning mechanism of L-group cone visual pigments. Biochemistry, 52, 7, 1192-1197 Biochemistry, 52, 7, 1192-1197 Biochemistry, 52, 7, 1192-1197 2013/02 Refereed Disclose to all
Ueyama H, Muraki-Oda S, Yamade S, Tanabe S, Yamashita T, Shichida Y, Ogita H Ueyama H, Muraki-Oda S, Yamade S, Tanabe S, Yamashita T, Shichida Y, Ogita H Ueyama H, Muraki-Oda S, Yamade S, Tanabe S, Yamashita T, Shichida Y, Ogita H Unique haplotype in exon 3 of cone opsin mRNA affects splicing of its precursor, leading to congenital color vision defect. Unique haplotype in exon 3 of cone opsin mRNA affects splicing of its precursor, leading to congenital color vision defect. Unique haplotype in exon 3 of cone opsin mRNA affects splicing of its precursor, leading to congenital color vision defect. Biochemical and biophysical research communications, 424, 1, 152-157 Biochemical and biophysical research communications, 424, 1, 152-157 Biochemical and biophysical research communications, 424, 1, 152-157 2012/07 Refereed Disclose to all
Matsuyama T, Yamashita T, Imamoto Y, Shichida Y Matsuyama T, Yamashita T, Imamoto Y, Shichida Y Matsuyama T, Yamashita T, Imamoto Y, Shichida Y Photochemical properties of mammalian melanopsin. Photochemical properties of mammalian melanopsin. Photochemical properties of mammalian melanopsin. Biochemistry, 51, 27, 5454-5462 Biochemistry, 51, 27, 5454-5462 Biochemistry, 51, 27, 5454-5462 2012/07 Refereed Disclose to all
Sato K, Yamashita T, Imamoto Y, Shichida Y Sato K, Yamashita T, Imamoto Y, Shichida Y Sato K, Yamashita T, Imamoto Y, Shichida Y Comparative studies on the late bleaching processes of four kinds of cone visual pigments and rod visual pigment. Comparative studies on the late bleaching processes of four kinds of cone visual pigments and rod visual pigment. Comparative studies on the late bleaching processes of four kinds of cone visual pigments and rod visual pigment. Biochemistry, 51, 21, 4300-4308 Biochemistry, 51, 21, 4300-4308 Biochemistry, 51, 21, 4300-4308 2012/05 Refereed Disclose to all
Kimata N, Yamashita T, Matsuyama T, Imamoto Y, Shichida Y Kimata N, Yamashita T, Matsuyama T, Imamoto Y, Shichida Y Kimata N, Yamashita T, Matsuyama T, Imamoto Y, Shichida Y The C-terminus of the G protein α subunit controls the affinity of nucleotides. The C-terminus of the G protein α subunit controls the affinity of nucleotides. The C-terminus of the G protein α subunit controls the affinity of nucleotides. Biochemistry, 51, 13, 2768-2774 Biochemistry, 51, 13, 2768-2774 Biochemistry, 51, 13, 2768-2774 2012/04 Refereed Disclose to all
Sakai K, Imamoto Y, Su CY, Tsukamoto H, Yamashita T, Terakita A, Yau KW, Shichida Y Sakai K, Imamoto Y, Su CY, Tsukamoto H, Yamashita T, Terakita A, Yau KW, Shichida Y Sakai K, Imamoto Y, Su CY, Tsukamoto H, Yamashita T, Terakita A, Yau KW, Shichida Y Photochemical nature of parietopsin. Photochemical nature of parietopsin. Photochemical nature of parietopsin. Biochemistry, 51, 9, 1933-1941 Biochemistry, 51, 9, 1933-1941 Biochemistry, 51, 9, 1933-1941 2012/03 Refereed Disclose to all
Ohuchi H, Yamashita T, Tomonari S, Fujita-Yanagibayashi S, Sakai K, Noji S, Shichida Y Ohuchi H, Yamashita T, Tomonari S, Fujita-Yanagibayashi S, Sakai K, Noji S, Shichida Y Ohuchi H, Yamashita T, Tomonari S, Fujita-Yanagibayashi S, Sakai K, Noji S, Shichida Y A non-mammalian type opsin 5 functions dually in the photoreceptive and non-photoreceptive organs of birds. A non-mammalian type opsin 5 functions dually in the photoreceptive and non-photoreceptive organs of birds. A non-mammalian type opsin 5 functions dually in the photoreceptive and non-photoreceptive organs of birds. PloS one, 7, 2, e31534 PloS one, 7, 2, e31534 PloS one, 7, 2, e31534 2012 Refereed Disclose to all
Sato K, Yamashita T, Ohuchi H, Shichida Y Sato K, Yamashita T, Ohuchi H, Shichida Y Sato K, Yamashita T, Ohuchi H, Shichida Y Vertebrate ancient-long opsin has molecular properties intermediate between those of vertebrate and invertebrate visual pigments. Vertebrate ancient-long opsin has molecular properties intermediate between those of vertebrate and invertebrate visual pigments. Vertebrate ancient-long opsin has molecular properties intermediate between those of vertebrate and invertebrate visual pigments. Biochemistry, 50, 48, 10484-10490 Biochemistry, 50, 48, 10484-10490 Biochemistry, 50, 48, 10484-10490 2011/12 Refereed Disclose to all
山下 高廣 山下 高廣 脊椎動物新規紫外光受容タンパク質 : ヒトも紫外線を感じる? 脊椎動物新規紫外光受容タンパク質 : ヒトも紫外線を感じる? 生物物理, 51, 4, 186-187 生物物理, 51, 4, 186-187 , 51, 4, 186-187 2011/07/25 Japanese Disclose to all
Yanagawa M, Yamashita T, Shichida Y Yanagawa M, Yamashita T, Shichida Y Yanagawa M, Yamashita T, Shichida Y Comparative fluorescence resonance energy transfer analysis of metabotropic glutamate receptors: implications about the dimeric arrangement and rearrangement upon ligand bindings. Comparative fluorescence resonance energy transfer analysis of metabotropic glutamate receptors: implications about the dimeric arrangement and rearrangement upon ligand bindings. Comparative fluorescence resonance energy transfer analysis of metabotropic glutamate receptors: implications about the dimeric arrangement and rearrangement upon ligand bindings. The Journal of biological chemistry, 286, 26, 22971-22981 The Journal of biological chemistry, 286, 26, 22971-22981 The Journal of biological chemistry, 286, 26, 22971-22981 2011/07 Refereed Disclose to all
Nakatsuma A, Yamashita T, Sasaki K, Kawanabe A, Inoue K, Furutani Y, Shichida Y, Kandori H Nakatsuma A, Yamashita T, Sasaki K, Kawanabe A, Inoue K, Furutani Y, Shichida Y, Kandori H Nakatsuma A, Yamashita T, Sasaki K, Kawanabe A, Inoue K, Furutani Y, Shichida Y, Kandori H Chimeric microbial rhodopsins containing the third cytoplasmic loop of bovine rhodopsin. Chimeric microbial rhodopsins containing the third cytoplasmic loop of bovine rhodopsin. Chimeric microbial rhodopsins containing the third cytoplasmic loop of bovine rhodopsin. Biophysical journal, 100, 8, 1874-1882 Biophysical journal, 100, 8, 1874-1882 Biophysical journal, 100, 8, 1874-1882 2011/04 Refereed Disclose to all
T. Yamashita; H. Ohuchi; S. Tomonari; K. Ikeda; K. Sakai; Y. Shichida Yamashita T, Ohuchi H, Tomonari S, Ikeda K, Sakai K, Shichida Y T. Yamashita; H. Ohuchi; S. Tomonari; K. Ikeda; K. Sakai; Y. Shichida Opn5 is a UV-sensitive bistable pigment that couples with Gi subtype of G protein Opn5 is a UV-sensitive bistable pigment that couples with Gi subtype of G protein. Opn5 is a UV-sensitive bistable pigment that couples with Gi subtype of G protein Proceedings of the National Academy of Sciences of the United States of America, 107, 51, 22084-22089 Proceedings of the National Academy of Sciences of the United States of America, 107, 51, 22084-22089 Proceedings of the National Academy of Sciences of the United States of America, 107, 51, 22084-22089 2010/12 Refereed English Disclose to all
Sakai K, Imamoto Y, Yamashita T, Shichida Y Sakai K, Imamoto Y, Yamashita T, Shichida Y Sakai K, Imamoto Y, Yamashita T, Shichida Y Functional analysis of the second extracellular loop of rhodopsin by characterizing split variants. Functional analysis of the second extracellular loop of rhodopsin by characterizing split variants. Functional analysis of the second extracellular loop of rhodopsin by characterizing split variants. Photochemical & photobiological sciences : Official journal of the European Photochemistry Association and the European Society for Photobiology, 9, 11, 1490-1497 Photochemical & photobiological sciences : Official journal of the European Photochemistry Association and the European Society for Photobiology, 9, 11, 1490-1497 Photochemical & photobiological sciences : Official journal of the European Photochemistry Association and the European Society for Photobiology, 9, 11, 1490-1497 2010/11 Refereed Disclose to all
Matsuyama T, Yamashita T, Imai H, Shichida Y Matsuyama T, Yamashita T, Imai H, Shichida Y Matsuyama T, Yamashita T, Imai H, Shichida Y Covalent bond between ligand and receptor required for efficient activation in rhodopsin. Covalent bond between ligand and receptor required for efficient activation in rhodopsin. Covalent bond between ligand and receptor required for efficient activation in rhodopsin. The Journal of biological chemistry, 285, 11, 8114-8121 The Journal of biological chemistry, 285, 11, 8114-8121 The Journal of biological chemistry, 285, 11, 8114-8121 2010/03 Refereed Disclose to all
Sato K, Morizumi T, Yamashita T, Shichida Y Sato K, Morizumi T, Yamashita T, Shichida Y Sato K, Morizumi T, Yamashita T, Shichida Y Direct observation of the pH-dependent equilibrium between metarhodopsins I and II and the pH-independent interaction of metarhodopsin II with transducin C-terminal peptide. Direct observation of the pH-dependent equilibrium between metarhodopsins I and II and the pH-independent interaction of metarhodopsin II with transducin C-terminal peptide. Direct observation of the pH-dependent equilibrium between metarhodopsins I and II and the pH-independent interaction of metarhodopsin II with transducin C-terminal peptide. Biochemistry, 49, 4, 736-741 Biochemistry, 49, 4, 736-741 Biochemistry, 49, 4, 736-741 2010/02 Refereed Disclose to all
Yanagawa M, Yamashita T, Shichida Y Yanagawa M, Yamashita T, Shichida Y Yanagawa M, Yamashita T, Shichida Y Activation switch in the transmembrane domain of metabotropic glutamate receptor. Activation switch in the transmembrane domain of metabotropic glutamate receptor. Activation switch in the transmembrane domain of metabotropic glutamate receptor. Molecular pharmacology, 76, 1, 201-207 Molecular pharmacology, 76, 1, 201-207 Molecular pharmacology, 76, 1, 201-207 2009/07 Refereed Disclose to all
Morizumi T, Kimata N, Terakita A, Imamoto Y, Yamashita T, Shichida Y Morizumi T, Kimata N, Terakita A, Imamoto Y, Yamashita T, Shichida Y Morizumi T, Kimata N, Terakita A, Imamoto Y, Yamashita T, Shichida Y G protein subtype specificity of rhodopsin intermediates metarhodopsin Ib and metarhodopsin II. G protein subtype specificity of rhodopsin intermediates metarhodopsin Ib and metarhodopsin II. G protein subtype specificity of rhodopsin intermediates metarhodopsin Ib and metarhodopsin II. Photochemistry and photobiology, 85, 1, 57-62 Photochemistry and photobiology, 85, 1, 57-62 Photochemistry and photobiology, 85, 1, 57-62 2009/01 Refereed Disclose to all
Yamashita T, Terakita A, Kai T, Shichida Y Yamashita T, Terakita A, Kai T, Shichida Y Yamashita T, Terakita A, Kai T, Shichida Y Conformational change of the transmembrane helices II and IV of metabotropic glutamate receptor involved in G protein activation. Conformational change of the transmembrane helices II and IV of metabotropic glutamate receptor involved in G protein activation. Conformational change of the transmembrane helices II and IV of metabotropic glutamate receptor involved in G protein activation. Journal of neurochemistry, 106, 2, 850-859 Journal of neurochemistry, 106, 2, 850-859 Journal of neurochemistry, 106, 2, 850-859 2008/07 Refereed Disclose to all
Yamashita T, Tose K, Shichida Y Yamashita T, Tose K, Shichida Y Yamashita T, Tose K, Shichida Y First cytoplasmic loop of glucagon-like peptide-1 receptor can function at the third cytoplasmic loop position of rhodopsin. First cytoplasmic loop of glucagon-like peptide-1 receptor can function at the third cytoplasmic loop position of rhodopsin. First cytoplasmic loop of glucagon-like peptide-1 receptor can function at the third cytoplasmic loop position of rhodopsin. Photochemistry and photobiology, 84, 4, 931-936 Photochemistry and photobiology, 84, 4, 931-936 Photochemistry and photobiology, 84, 4, 931-936 2008/07 Refereed Disclose to all
Terakita A, Tsukamoto H, Koyanagi M, Sugahara M, Yamashita T, Shichida Y Terakita A, Tsukamoto H, Koyanagi M, Sugahara M, Yamashita T, Shichida Y Terakita A, Tsukamoto H, Koyanagi M, Sugahara M, Yamashita T, Shichida Y Expression and comparative characterization of Gq-coupled invertebrate visual pigments and melanopsin. Expression and comparative characterization of Gq-coupled invertebrate visual pigments and melanopsin. Expression and comparative characterization of Gq-coupled invertebrate visual pigments and melanopsin. Journal of neurochemistry, 105, 3, 883-890 Journal of neurochemistry, 105, 3, 883-890 Journal of neurochemistry, 105, 3, 883-890 2008/05 Refereed Disclose to all
YAMASHITA TAKAHIRO, SHICHIDA YOSHINORI 山下高廣, 七田芳則 YAMASHITA TAKAHIRO, SHICHIDA YOSHINORI 視覚の光受容タンパク質ロドプシン類の機能多様性 視覚の光受容タンパク質ロドプシン類の機能多様性 視覚の光受容タンパク質ロドプシン類の機能多様性 メディカルバイオ, 5, 1, 74-81 メディカルバイオ, 5, 1, 74-81 メディカルバイオ, 5, 1, 74-81 2008/01/01 Japanese Disclose to all
YAMASHITA TAKAHIRO 山下高廣 YAMASHITA TAKAHIRO Conformational Changes in the Cytoplasmic Domain of Metabotropic Glutamate Receptor 代謝型グルタミン酸受容体の細胞質領域の構造変化 Conformational Changes in the Cytoplasmic Domain of Metabotropic Glutamate Receptor 生物物理, 48, 6, 338-339 (J-STAGE) 生物物理, 48, 6, 338-339 (J-STAGE) 生物物理, 48, 6, 338-339 (J-STAGE) 2008 Japanese Disclose to all
Yamashita T, Kai T, Terakita A, Shichida Y Yamashita T, Kai T, Terakita A, Shichida Y Yamashita T, Kai T, Terakita A, Shichida Y A novel constitutively active mutation in the second cytoplasmic loop of metabotropic glutamate receptor. A novel constitutively active mutation in the second cytoplasmic loop of metabotropic glutamate receptor. A novel constitutively active mutation in the second cytoplasmic loop of metabotropic glutamate receptor. Journal of neurochemistry, 91, 2, 484-492 Journal of neurochemistry, 91, 2, 484-492 Journal of neurochemistry, 91, 2, 484-492 2004/10 Refereed Disclose to all
Terakita A, Koyanagi M, Tsukamoto H, Yamashita T, Miyata T, Shichida Y Terakita A, Koyanagi M, Tsukamoto H, Yamashita T, Miyata T, Shichida Y Terakita A, Koyanagi M, Tsukamoto H, Yamashita T, Miyata T, Shichida Y Counterion displacement in the molecular evolution of the rhodopsin family. Counterion displacement in the molecular evolution of the rhodopsin family. Counterion displacement in the molecular evolution of the rhodopsin family. Nature structural & molecular biology, 11, 3, 284-289 Nature structural & molecular biology, 11, 3, 284-289 Nature structural & molecular biology, 11, 3, 284-289 2004/03 Refereed Disclose to all
Shichida Y, Yamashita T Shichida Y, Yamashita T Shichida Y, Yamashita T Diversity of visual pigments from the viewpoint of G protein activation--comparison with other G protein-coupled receptors. Diversity of visual pigments from the viewpoint of G protein activation--comparison with other G protein-coupled receptors. Diversity of visual pigments from the viewpoint of G protein activation--comparison with other G protein-coupled receptors. Photochemical & photobiological sciences : Official journal of the European Photochemistry Association and the European Society for Photobiology, 2, 12, 1237-1246 Photochemical & photobiological sciences : Official journal of the European Photochemistry Association and the European Society for Photobiology, 2, 12, 1237-1246 Photochemical & photobiological sciences : Official journal of the European Photochemistry Association and the European Society for Photobiology, 2, 12, 1237-1246 2003/12 Refereed Disclose to all
Terakita A, Yamashita T, Nimbari N, Kojima D, Shichida Y Terakita A, Yamashita T, Nimbari N, Kojima D, Shichida Y Terakita A, Yamashita T, Nimbari N, Kojima D, Shichida Y Functional interaction between bovine rhodopsin and G protein transducin. Functional interaction between bovine rhodopsin and G protein transducin. Functional interaction between bovine rhodopsin and G protein transducin. The Journal of biological chemistry, 277, 1, 40-46 The Journal of biological chemistry, 277, 1, 40-46 The Journal of biological chemistry, 277, 1, 40-46 2002/01 Refereed Disclose to all
Yamashita T, Terakita A, Shichida Y Yamashita T, Terakita A, Shichida Y Yamashita T, Terakita A, Shichida Y The second cytoplasmic loop of metabotropic glutamate receptor functions at the third loop position of rhodopsin. The second cytoplasmic loop of metabotropic glutamate receptor functions at the third loop position of rhodopsin. The second cytoplasmic loop of metabotropic glutamate receptor functions at the third loop position of rhodopsin. Journal of biochemistry, 130, 1, 149-155 Journal of biochemistry, 130, 1, 149-155 Journal of biochemistry, 130, 1, 149-155 2001/07 Refereed Disclose to all
山下 高廣 山下 高廣 視物質はいかにして多様化したのか –分子進化から探る- 視物質はいかにして多様化したのか –分子進化から探る- 現代化学, 55-62 現代化学, 55-62 , 55-62 2001/05 Japanese Disclose to all
Yamashita T, Terakita A, Shichida Y Yamashita T, Terakita A, Shichida Y Yamashita T, Terakita A, Shichida Y Distinct roles of the second and third cytoplasmic loops of bovine rhodopsin in G protein activation. Distinct roles of the second and third cytoplasmic loops of bovine rhodopsin in G protein activation. Distinct roles of the second and third cytoplasmic loops of bovine rhodopsin in G protein activation. The Journal of biological chemistry, 275, 44, 34272-34279 The Journal of biological chemistry, 275, 44, 34272-34279 The Journal of biological chemistry, 275, 44, 34272-34279 2000/11 Refereed Disclose to all
Terakita A, Yamashita T, Tachibanaki S, Shichida Y Terakita A, Yamashita T, Tachibanaki S, Shichida Y Terakita A, Yamashita T, Tachibanaki S, Shichida Y Selective activation of G-protein subtypes by vertebrate and invertebrate rhodopsins. Selective activation of G-protein subtypes by vertebrate and invertebrate rhodopsins. Selective activation of G-protein subtypes by vertebrate and invertebrate rhodopsins. FEBS letters, 439, 1-2, 110-114 FEBS letters, 439, 1-2, 110-114 FEBS letters, 439, 1-2, 110-114 1998/11 Refereed Disclose to all
A. Terakita; T. Yamashita; Y. Shichida A. Terakita; T. Yamashita; Y. Shichida Highly conserved glutamic acid in the extracellular IV-V loop in rhodopsins acts as the counterion in retinochrome, a member of the rhodopsin family Highly conserved glutamic acid in the extracellular IV-V loop in rhodopsins acts as the counterion in retinochrome, a member of the rhodopsin family Proceedings of the National Academy of Sciences of the United States of America, 97, 26, 14263-14267 , 97, 26, 14263-14267 Proceedings of the National Academy of Sciences of the United States of America, 97, 26, 14263-14267 2000 Refereed English Disclose to all

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Title language:
Books etc
Author Author(Japanese) Author(English) Title Title(Japanese) Title(English) Publisher Publisher(Japanese) Publisher(English) Publication date Language Type Disclose
山下高廣 山下高廣 動物学の百科事典 動物学の百科事典 丸善出版 丸善出版 2018 Contributor Disclose to all
山下高廣 山下高廣 光と生命の事典 光と生命の事典 朝倉書店 朝倉書店 2016 Contributor Disclose to all
YAMASHITA Takahiro, SHICHIDA Yoshinori YAMASHITA Takahiro, SHICHIDA Yoshinori YAMASHITA Takahiro, SHICHIDA Yoshinori Evolution and Senses Evolution and Senses Evolution and Senses Springer Springer Springer 2013 Disclose to all
七田芳則、山下高廣 七田芳則、山下高廣 生き物たちのつづれ織り上 生き物たちのつづれ織り上 京都大学学術出版会 京都大学学術出版会 2012 Contributor Disclose to all
山下高廣、七田芳則 山下高廣、七田芳則 動物の多様な生き方1;見える光、見えない光 動物の多様な生き方1;見える光、見えない光 共立出版 共立出版 2009 Contributor Disclose to all
Title language:
Awards
Title(Japanese) Title(English) Organization name(Japanese) Organization name(English) Date
日本生化学会JB論文賞The JB Prize of the Japanese Biochemical Society 2002
日本光生物学協会奨励賞 日本光生物学協会 2014/08/
External funds: competitive funds and Grants-in-Aid for Scientific Research (Kakenhi)
Type Position Title(Japanese) Title(English) Period
新学術領域研究(研究領域提案型) Representative 光によるGタンパク質シグナリング制御を可能にする受容体の開発 2012/04/01-2014/03/31
基盤研究(C) Representative 無脊椎動物の光受容タンパク質オプシン5における機能発現メカニズム 2013-2015
新学術領域研究(研究領域提案型) Representative 光によるGタンパク質シグナリング制御を可能にする受容体の開発 2012-2013
基盤研究(C) Representative 無脊椎動物の光受容タンパク質オプシン5における機能発現メカニズム (平成26年度分) 2014/04/01-2015/03/31
基盤研究(C) Representative 無脊椎動物の光受容タンパク質オプシン5における機能発現メカニズム (平成27年度分) 2015/04/01-2016/03/31
新学術領域研究(研究領域提案型) Representative 光で人工的細胞内情報伝達系を制御するシステムの構築 (平成27年度分) 2015/04/01-2016/03/31
基盤研究(C) Representative 視細胞における未知の情報変換システムの解析 (平成28年度分) 2016/04/01-2017/03/31
新学術領域研究(研究領域提案型) Representative 光で人工的細胞内情報伝達系を制御するシステムの構築 (平成28年度分) 2016/04/01-2017/03/31
基盤研究(C) Representative 視細胞における未知の情報変換システムの解析 (平成29年度分) 2017/04/01-2018/03/31
基盤研究(C) Representative 視細胞における未知の情報変換システムの解析 (平成30年度分) 2018/04/01-2019/03/31
Teaching subject(s)
Name(Japanese) Name(English) Term Department Period
生物学実習C (4) 前期 理学部 2011/04-2012/03
生物学セミナ-B (1) 後期 理学部 2011/04-2012/03
生物科学課題研究16 通年 理学部 2011/04-2012/03
分子情報学 Molecular Signalings in Biological Systems 前期 理学部 2012/04-2013/03
生物学セミナ-B Seminars in Biological Science B 後期 理学部 2012/04-2013/03
生物学実習C Laboratory work in Biological Science C 前期 理学部 2012/04-2013/03
生物科学課題研究16 Special Study CourseII(Biological Sciences) 16 通年 理学部 2012/04-2013/03
分子情報学 Molecular Signalings in Biological Systems 前期 理学部 2013/04-2014/03
生物学実習C Laboratory work in Biological Science C 前期 理学部 2013/04-2014/03
生物学セミナ−B Seminars in Biological Science B 後期 理学部 2013/04-2014/03
生物科学課題研究16 Special Study CourseII(Biological Sciences) 16 通年 理学部 2013/04-2014/03
分子情報学 Molecular Signalings in Biological Systems 前期 理学部 2014/04-2015/03
生物学実習C Laboratory work in Biological Science C 前期 理学部 2014/04-2015/03
生物学セミナ-B Seminars in Biological Science B 後期 理学部 2014/04-2015/03
生物科学課題研究16 Special Study CourseII(Biological Sciences) 16 通年 理学部 2014/04-2015/03
分子生体情報学概論 Introduction to Molecular Physiology and Biochemistry 前期 理学研究科 2014/04-2015/03
分子生体情報学ゼミナールIA Seminar on Molecular Physiology and Biochemistry IA 前期 理学研究科 2014/04-2015/03
分子生体情報学ゼミナールIB Seminar on Molecular Physiology and Biochemistry IB 後期 理学研究科 2014/04-2015/03
分子生体情報学ゼミナールIC Seminar on Molecular Physiology and Biochemistry IC 前期 理学研究科 2014/04-2015/03
分子生体情報学ゼミナールID Seminar on Molecular Physiology and Biochemistry ID 後期 理学研究科 2014/04-2015/03
分子生体情報学ゼミナールIIA Seminar on Molecular Physiology and Biochemistry IIA 前期 理学研究科 2014/04-2015/03
分子生体情報学ゼミナールIIB Seminar on Molecular Physiology and Biochemistry IIB 後期 理学研究科 2014/04-2015/03
分子生体情報学ゼミナールIIC Seminar on Molecular Physiology and Biochemistry IIC 前期 理学研究科 2014/04-2015/03
分子生体情報学ゼミナールIID Seminar on Molecular Physiology and Biochemistry IID 後期 理学研究科 2014/04-2015/03
分子情報学 Molecular Signalings in Biological Systems 前期 理学部 2015/04-2016/03
分子生体情報学ゼミナールIA Seminar on Molecular Physiology and Biochemistry IA 前期 理学研究科 2015/04-2016/03
分子生体情報学ゼミナールIB Seminar on Molecular Physiology and Biochemistry IB 後期 理学研究科 2015/04-2016/03
分子生体情報学ゼミナールIC Seminar on Molecular Physiology and Biochemistry IC 前期 理学研究科 2015/04-2016/03
分子生体情報学ゼミナールID Seminar on Molecular Physiology and Biochemistry ID 後期 理学研究科 2015/04-2016/03
分子生体情報学ゼミナールIIA Seminar on Molecular Physiology and Biochemistry IIA 前期 理学研究科 2015/04-2016/03
分子生体情報学ゼミナールIIB Seminar on Molecular Physiology and Biochemistry IIB 後期 理学研究科 2015/04-2016/03
分子生体情報学ゼミナールIIC Seminar on Molecular Physiology and Biochemistry IIC 前期 理学研究科 2015/04-2016/03
分子生体情報学ゼミナールIID Seminar on Molecular Physiology and Biochemistry IID 後期 理学研究科 2015/04-2016/03
分子生体情報学概論 Introduction to Molecular Physiology and Biochemistry 前期 理学研究科 2015/04-2016/03
生物学セミナ-B Seminars in Biological Science B 後期 理学部 2015/04-2016/03
生物学実習C Laboratory work in Biological Science C 前期 理学部 2015/04-2016/03
生物科学課題研究16 Special Study CourseII(Biological Sciences) 16 通年 理学部 2015/04-2016/03
分子情報学 Molecular Signalings in Biological Systems 前期 理学部 2016/04-2017/03
分子生体情報学ゼミナールIA Seminar on Molecular Physiology and Biochemistry IA 前期 理学研究科 2016/04-2017/03
分子生体情報学ゼミナールIB Seminar on Molecular Physiology and Biochemistry IB 後期 理学研究科 2016/04-2017/03
分子生体情報学ゼミナールIC Seminar on Molecular Physiology and Biochemistry IC 前期 理学研究科 2016/04-2017/03
分子生体情報学ゼミナールID Seminar on Molecular Physiology and Biochemistry ID 後期 理学研究科 2016/04-2017/03
分子生体情報学ゼミナールIIA Seminar on Molecular Physiology and Biochemistry IIA 前期 理学研究科 2016/04-2017/03
分子生体情報学ゼミナールIIB Seminar on Molecular Physiology and Biochemistry IIB 後期 理学研究科 2016/04-2017/03
分子生体情報学ゼミナールIIC Seminar on Molecular Physiology and Biochemistry IIC 前期 理学研究科 2016/04-2017/03
分子生体情報学ゼミナールIID Seminar on Molecular Physiology and Biochemistry IID 後期 理学研究科 2016/04-2017/03
分子生体情報学概論 Introduction to Molecular Physiology and Biochemistry 前期 理学研究科 2016/04-2017/03
生物学セミナ-B Seminars in Biological Science B 後期 理学部 2016/04-2017/03
生物学実習C Laboratory work in Biological Science C 前期集中 理学部 2016/04-2017/03
生物科学課題研究16 Special Study CourseII(Biological Sciences) 16 通年 理学部 2016/04-2017/03
分子情報学 Molecular Signalings in Biological Systems 前期 理学部 2017/04-2018/03
分子生体情報学ゼミナールIA Seminar on Molecular Physiology and Biochemistry IA 前期 理学研究科 2017/04-2018/03
分子生体情報学ゼミナールIB Seminar on Molecular Physiology and Biochemistry IB 後期 理学研究科 2017/04-2018/03
分子生体情報学ゼミナールIC Seminar on Molecular Physiology and Biochemistry IC 前期 理学研究科 2017/04-2018/03
分子生体情報学ゼミナールID Seminar on Molecular Physiology and Biochemistry ID 後期 理学研究科 2017/04-2018/03
分子生体情報学ゼミナールIIA Seminar on Molecular Physiology and Biochemistry IIA 前期 理学研究科 2017/04-2018/03
分子生体情報学ゼミナールIIB Seminar on Molecular Physiology and Biochemistry IIB 後期 理学研究科 2017/04-2018/03
分子生体情報学ゼミナールIIC Seminar on Molecular Physiology and Biochemistry IIC 前期 理学研究科 2017/04-2018/03
分子生体情報学ゼミナールIID Seminar on Molecular Physiology and Biochemistry IID 後期 理学研究科 2017/04-2018/03
分子生体情報学概論 Introduction to Molecular Physiology and Biochemistry 前期 理学研究科 2017/04-2018/03
生物学セミナ-B Seminars in Biological Science B 後期 理学部 2017/04-2018/03
生物学実習C Laboratory work in Biological Science C 前期集中 理学部 2017/04-2018/03
生物科学課題研究16 Special Study CourseII(Biological Sciences) 16 通年 理学部 2017/04-2018/03
分子情報学 Molecular Signalings in Biological Systems 前期 理学部 2018/04-2019/03
分子生体情報学ゼミナールIA Seminar on Molecular Physiology and Biochemistry IA 前期 理学研究科 2018/04-2019/03
分子生体情報学ゼミナールIB Seminar on Molecular Physiology and Biochemistry IB 後期 理学研究科 2018/04-2019/03
分子生体情報学ゼミナールIC Seminar on Molecular Physiology and Biochemistry IC 前期 理学研究科 2018/04-2019/03
分子生体情報学ゼミナールID Seminar on Molecular Physiology and Biochemistry ID 後期 理学研究科 2018/04-2019/03
分子生体情報学ゼミナールIIA Seminar on Molecular Physiology and Biochemistry IIA 前期 理学研究科 2018/04-2019/03
分子生体情報学ゼミナールIIB Seminar on Molecular Physiology and Biochemistry IIB 後期 理学研究科 2018/04-2019/03
分子生体情報学ゼミナールIIC Seminar on Molecular Physiology and Biochemistry IIC 前期 理学研究科 2018/04-2019/03
分子生体情報学ゼミナールIID Seminar on Molecular Physiology and Biochemistry IID 後期 理学研究科 2018/04-2019/03
分子生体情報学概論 Introduction to Molecular Physiology and Biochemistry 前期 理学研究科 2018/04-2019/03
基礎生物学実験III Experimental Course of Fundamental Biology III 後期集中 理学部 2018/04-2019/03
生物学セミナ-B Seminars in Biological Science B 後期 理学部 2018/04-2019/03
生物学実習C Laboratory work in Biological Science C 前期集中 理学部 2018/04-2019/03
生物科学課題研究16 Special Study CourseII(Biological Sciences) 16 通年 理学部 2018/04-2019/03
分子情報学 Molecular Signalings in Biological Systems 前期 理学部 2019/04-2020/03
分子生体情報学ゼミナールIA Seminar on Molecular Physiology and Biochemistry IA 前期 理学研究科 2019/04-2020/03
分子生体情報学ゼミナールIB Seminar on Molecular Physiology and Biochemistry IB 後期 理学研究科 2019/04-2020/03
分子生体情報学ゼミナールIC Seminar on Molecular Physiology and Biochemistry IC 前期 理学研究科 2019/04-2020/03
分子生体情報学ゼミナールID Seminar on Molecular Physiology and Biochemistry ID 後期 理学研究科 2019/04-2020/03
分子生体情報学ゼミナールIIA Seminar on Molecular Physiology and Biochemistry IIA 前期 理学研究科 2019/04-2020/03
分子生体情報学ゼミナールIIB Seminar on Molecular Physiology and Biochemistry IIB 後期 理学研究科 2019/04-2020/03
分子生体情報学ゼミナールIIC Seminar on Molecular Physiology and Biochemistry IIC 前期 理学研究科 2019/04-2020/03
分子生体情報学ゼミナールIID Seminar on Molecular Physiology and Biochemistry IID 後期 理学研究科 2019/04-2020/03
分子生体情報学概論 Introduction to Molecular Physiology and Biochemistry 前期 理学研究科 2019/04-2020/03
基礎生物学実験III Experimental Course of Fundamental Biology III 後期集中 理学部 2019/04-2020/03
生物学セミナ-B Seminars in Biological Science B 後期 理学部 2019/04-2020/03
生物学実習C Laboratory work in Biological Science C 前期集中 理学部 2019/04-2020/03
生物科学課題研究16 Special Study CourseII(Biological Sciences) 16 通年 理学部 2019/04-2020/03

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Faculty management (title, position)
Title Period
理学研究科動物実験委員会委員 2018/04/01-2019/03/31
理学研究科国際・社会交流・広報委員会委員 2018/04/01-2019/03/31
理学研究科国際・社会交流・広報委員会 社会交流小委員会委員 2018/04/01-2019/03/31
理学研究科国際・社会交流・広報委員会 社会交流小委員会 opencampusワーキンググループ 2018/04/01-2019/03/31
理学研究科国際・社会交流・広報委員会 社会交流小委員会 玉城・サイエンス倶楽部ワーキンググループ 2018/04/01-2019/03/31
理学研究科動物実験委員会委員 2019/04/01-2020/03/31
理学研究科SACRA広報・社会連携部門委員会 広報小委員会委員 2019/04/01-2020/03/31