業績 (2000年以降)
原著論文
総説等
国際学会での招待講演
学会発表
原著論文
L. Duchatelet, T. Sugihara, J. Delroisse, M.
Koyanagi, R. Rezsohazy, A. Terakita, J. Mallefet: From extraocular photoreception to pigment
movement regulation: a new control mechanism of the lanternshark luminescence. Scientific Reports 10, 10195 (2020)
E. Kawano-Yamashita, M. Koyanagi, S. Wada, T.
Saito, T. Sugihara, S. Tamotsu, A. Terakita: The non-visual opsins expressed in
deep brain neurons projecting to the retina in lampreys. Scientific Reports 10, 9669 - 9669 (2020)
R. Matsuo, M. Koyanagi, A. Nagata, Y. Matsuo: Co-expression of opsins in the eye
photoreceptor cells of the terrestrial slug Limax valentianus. The Journal of Comparative Neurology 527, 3073 - 3086 (2019)
N. Varma, E. Mutt, J. Mühle, V. Panneels, A. Terakita,
X. Deupi, P. Nogly, GFX. Schertler, E. Lesca: Crystal structure of jumping spider
rhodopsin-1 as a light sensitive GPCR. Proceedings of the National Academy of Sciences of the United States
America 116, 14547 - 14556 (2019)
D. Ehrenberg, N. Varma, X. Deupi, M. Koyanagi,
A. Terakita, GFX. Schertler, J. Heberle, E. Lesca: The Two-Photon Reversible Reaction
of the Bistable Jumping Spider Rhodopsin-1. Biophysical Journal 116, 1248 - 1258 (2019)
T. Nagata, M. Koyanagi, H. Tsukamoto, E. Mutt,
GFX. Schertler, X. Deupi, A. Terakita: The counterion-retinylidene Schiff
base interaction of an invertebrate rhodopsin rearranges upon light activation. Communications Biology 2, 180 (2019)
T. Saito, M. Koyanagi, T. Sugihara, T. Nagata,
K. Arikawa, A. Terakita: Spectral tuning mediated by helix
III in butterfly long wavelength-sensitive visual opsins revealed by
heterologous action spectroscopy. Zoological Letters 5, 35 (2019)
T. Nagata, M. Koyanagi, R. Lucas, A. Terakita:
An all-trans-retinal-binding opsin
peropsin as a potential dark-active and light-inactivated G protein-coupled
receptor. Scientific Reports 8, 3535 (2018)
Y. Hara, K. Yamaguchi, K. Onimaru, M. Kadota,
M. Koyanagi, D. K. Sean, K. Tatsumi, K. Tanaka, F. Motone, Y. Kageyama, R. Nozu, N. Adachi, O. Nishimura,R.
Nakagawa, C. Tanegashima, I. Kiyatake, R. Matsumoto, K. Murakumo, K. Nishida,
A. Terakita, S. Kuratani, K. Sato, S. Hyodo, S.
Kuraku: Shark genomes provide insights into elasmobranch evolution and the origin of vertebrates. Nature Ecology & Evolution 2, 1761 - 1771(2018)
S. Wada, B. Shen, E. Kawano-Yamashita, T. Nagata, M. Hibi, S. Tamotsu,
M. Koyanagi, A. Terakita : Color opponency with a single kind
of bistable opsin in the zebrafish pineal organ. Proceedings of the National Academy of
Sciences of the United States of America (2018)
E. Gerrard, E. Mutt, T. Nagata, M. Koyanagi, T.
Flock, E. Lesca, GFX. Schertler, A. Terakita, X. Deupi, R. J. Lucas: Convergent evolution of tertiary
structure in rhodopsin visual proteins from vertebrates and box jellyfish. Proceedings of the National Academy of Sciences of the United States
of America 115, 6201 - 6206 (2018)
R. Matsuo, Y. Takatori, S. Hamada, M.
Koyanagi, Y. Matsuo: Expression and light-dependent
translocation of beta-arrestin in the visual system of the terrestrial slug
Limax valentianus. Journal of Experimental Biology 220, 3301 - 3314 (2017)
M. Koyanagi, E. Kawano-Yamashita, S. Wada, A.
Terakita: Vertebrate bistable pigment
parapinopsin: Implications for emergence of visual signaling and
neofunctionalization of non-visual pigment. Frontiers in Ecology and Evolution 5 (2017)
T. Sugihara, T. Nagata, B. Mason, M. Koyanagi, A. Terakita: Absorption
Characteristics of Vertebrate Non-Visual Opsin, Opn3. PLOS ONE 11, e0161215 (2016)
H. Tsukamoto, Y. Kubo, D. L. Farrens, M. Koyanagi, A. Terakita, Y. Furutani:
Retinal attachment instability is diversified among mammalian melanopsins.
J Biol. Chem. 290, 27176-27187 (2015)
E. Kawano-Yamashita, M. Koyanagi, S. Wada, H. Tsukamoto, T. Nagata and A. Terakita: Activation of Transducin by Bistable Pigment Parapinopsin in the Pineal Organ of Lower Vertebrates. PLOS ONE 10, e0141280 (2015)
M. Koyanagi, S. Wada, E. Kawano-Yamashita, Y. Hara, S. Kuraku, S. Kosaka,
K. Kawakami, S. Tamotsu, H. Tsukamoto, Y. Shichida and A. Terakita:Diversification
of non-visual photopigment parapinopsin in spectral sensitivity for diverse
pineal functions. BMC Biology 13, 73 (2015)
・ 産経WEST 2015年9月23日 “睡眠・生活リズムと光の関係…謎を解く双子遺伝子、魚類で解明”
S. Kodama, Y. Kamae, M. Koyanagi, K. Tatewaki, E. Hassaneen, ASM Saifullah,
T. Yoshii, A. Terakita and K. Tomioka: Green-sensitive opsin is the photoreceptor
for photic entrainment of an insect circadian clock. Zoological Letter
1, 11 (2015)
L. Sun, E. Kawano-Yamashita, T. Nagata, H, Tsukamoto, Y, Furutani, M, Koyanagi
and A, Terakita:Distribution of Mammalian-like melanopsin in cyclostome
retinas exhibiting a different extent of visual functions. PLoS One 9, e108209 (2014)
Y. Yamazaki, T. Nagata, A. Terakita, H. Kandori, Y. Shichida and Y. Imamoto:
Intramolecular interactions that induces helical rearrangement upon rhodopsin
activation: Light-induced structural changes in metarhodopsin IIa probed
by cysteine S-H stretching vibrations. J. Biol. Chem. 289, 13792-13800
(2014)
M.
Yamazaki, T. Nagata, A. Terakita, H. Kandori, Y. Shichida and Y. Imamoto: Mapping of the local environmental changes in
proteins by cysteine scanning. Biophysics 10, 1-7 (2014)
M. Koyanagi, E. Takada, T. Nagata, H. Tsukamoto, A. Terakita: Homologs
of vertebrate Opn3 potentially serve as a light-sensor in non-photoreceptive
tissue. Proc. Natl. Acad. Sci. USA 110, 4998-5003 (2013)
S. Wada, E. Kawano-Yamashita, M. Koyanagi, A. Terakita: Expression of UV-Sensitive
Parapinopsin in the Iguana Parietal Eyes and Its Implication in UV-Sensitivity
in Vertebrate Pineal-Related Organs. PLoS One, 7, e39003 (2012)
K. Sakai, Y. Imamoto, C.Y. Su, H. Tsukamoto, T. Yamashita, A. Terakita,
K.W. Yau, Y. Shichida: Photochemical Nature of Parietopsin. Biochemistry.
51, 1933-1941 (2012)
T. Nagata, M. Koyanagi, H. Tsukamoto, S. Saeki, K. Isono, Y. Shichida,
F. Tokunaga, M. Kinoshita, K. Arikawa, A. Terakita: Depth perception from
image defocus in a jumping spider. Science. 335, 469-71, (2012)
・ 共同通信 2012年1月27日 “クモ、目のピンぼけで距離つかむ”
・ 朝日新聞 2012年1月27日 “ピンぼけでも捕獲”
・ 読売新聞 2012年1月27日 “ピンぼけ度で距離測定”
・ 日経新聞 2012年1月27日 “ピンぼけ具合で距離測る”
・ 産経新聞 2012年1月27日 “ハエトリグモ ピンぼけ測定”
・ Science NOW Jan 26, 2012 “3-D Vision for Tiny Eyes”
・ New Scientist Jan 26, 2012 “How a blurry-eyed spider pounces on target”
・ ABC Science Jan 27, 2012 “Seeing green helps spiders perfect jump”
・ Scientific American Jan 26, 2012 “Jumping Spiders Use Blurry Vision to
Catch Quick Prey with Precision”
・ The New York Times Jan 30, 2012 “Jumping Spiders Focus Like a Camera to Hunt”
・ National Geographic Jan 26, 2012 “Spiders Jump With Deadly Accuracy in
Green
Light”
・ Scitech Profiles Asia-Pacific Mar 7, 2012 “Depth perception: Jumping spiders
show
their true colours”
E. Kawano-Yamashita, M. Koyanagi, Y. Shichida, T. Oishi, S. Tamotsu, A.
Terakita.: Beta-arrestin functionally regulates the non-bleaching pigment
parapinopsin in lamprey pineal. PLoS ONE 6, e16402 (2011)
M. Wakakuwa, A. Terakita, M. Koyanagi, D.G. Stavenga, Y. Shichida, K. Arikawa:
Evolution and mechanism of spectral tuning of blue-absorbing visual pigments
in butterflies. PLoS ONE 5, e15015 (2010)
H. Tsukamoto, A. Terakita, Y. Shichida: A pivot between helices V and VI
near the retinal binding site is necessary for activation in rhodopsins.
J. Biol. Chem. 285, 7351-7357 (2010)
T. Nagata, M. Koyanagi, H. Tsukamoto, A. Terakita: Identification and characterization
of a protostome homologue of peropsin from a jumping spider. J. Comp. Physiol.
A 196, 51-59 (2010)
H. Tsukamoto, D.L. Farrens, M. Koyanagi, A. Terakita: The magnitude of the light-induced conformational change in different rhodopsins correlates with their ability to activate G proteins. J. Biol. Chem. 284, 20676-20683 (2009)
T. Morizumi, N. Kimata, A. Terakita, Y. Imamoto, T. Yamashita, Y. Shichida:
G protein subtype specificity of rhodopsin intermediates metarhodopsin
Ib and metarhodopsin II.. Photochem. Photobiol. 85, 57-62 (2009)
M. Koyanagi, K. Takano, H. Tsukamoto, K. Ohtsu, F. Tokunaga, A. Terakita: Jellyfish vision starts with cAMP signaling mediated by opsin-Gs cascade. Proc. Natl. Acad. Sci. USA 105, 15576-15580 (2008)
・ 共同通信 2008年9月16日
“人間の目はクラゲが起源? 光とらえるしくみそっくり”
・ 朝日新聞 2008年10月6日
“視覚、クラゲから?”
T. Horie, D. Sakurai, H. Ohtsuki, A. Terakita, Y. Shichida, J. Usukura,
T. Kusakabe, M. Tsuda: Pigmented and nonpigmented ocelli in the brain vesicle
of the ascidian larva. J. Comp. Neurol. 509, 88-102 (2008)
M. Koyanagi, T. Nagata, K. Katoh, S. Yamashita, F. Tokunaga: Molecular
evolution of arthropod color vision deduced from multiple opsin genes of
jumping spiders. J. Mol. Evol. 66, 130-137 (2008)
T. Yamashita, A. Terakita, T. Kai, Y. Shichida: Conformational change of
the transmembrane helices II and IV of metabotropic glutamate receptor
involved in G protein activation. J. Neurochem. 106, 850-859 (2008)
A. Terakita, H. Tsukamoto, M. Koyanagi, M. Sugahara, T. Yamashita, Y. Shichida:
Expression and comparative characterization of Gq-coupled invertebrate
visual pigments and melanopsin. J. Neurochem. 105, 883-890 (2008)
M. Torii, D. Kojima, T. Okano, A. Nakamura, A. Terakita, Y. Shichida, A.
Wada, Y. Fukada: Two isoforms of chicken melanopsins show blue light sensitivity.
FEBS Lett. 581, 5327-5331 (2007)
E. Kawano-Yamashita, A. Terakita, M. Koyanagi, Y. Shichida, T. Oishi, S.
Tamotsu: Immunohistochemical characterization of a parapinopsin-containing
photoreceptor cell involved in the ultraviolet/green discrimination in
the pineal organ of the river lamprey Lethenteron japonicum. J Exp Biol.
210, 3821-3829 (2007)
C.-Y. Su, D.-G. Luo, A. Terakita, Y. Shichida, H.-W. Liao, M. A. Kazmi, T. P.
Sakmar and K.-W. Yau: Parietal-eye phototransduction components and
their potential evolutionary implications. Science 311, 1617-1621 (2006)
T.
Ota, Y. Furutani, A. Terakita, Y. Shichida and H. Kandori: Structural changes in the Schiff base region of squid rhodopsin
upon photoisomerization studied by low-temperature FTIR spectroscopy. Biochemistry
45, 2845-2851 (2006)
M. Koyanagi, K. Kubokawa, H. Tsukamoto, Y. Shichida and A. Terakita: Cephalochordate melanopsin: Evolutionary linkage between invertebrate
visual cells and vertebrate photosensitive retinal ganglion cells. Curr.
Biol. 15, 1065-1069 (2005)
・ 毎日新聞 2005年6月7日朝刊
“「体内時計」の秘密無脊椎動物にアリ 視細胞から進化”
・ 京都新聞 2005年6月7日朝刊
“体内時計用光センサー 無脊椎動物の「目」と同起源?”
・ 日経新聞 2005年6月7日朝刊
“ヒトの体内時計の源流 無脊椎動物の目に?”
・ 産経新聞 2005年6月7日朝刊
“視覚細胞→光センサー細胞 哺乳類体内時計の進化解明”
・ 日刊工業新聞 2005年6月7日
Y. Furutani, A. Terakita Y. Shichida and H. Kandori: FTIR Studies of the Photoactivation Processes
in Squid Retinochrome. Biochemistry 44, 7988-7997 (2005)
H. Tsukamoto, A.
Terakita and Y. Shichida: A
rhodopsin exhibiting binding ability to agonist all-trans-retinal. Proc. Natl. Acad. Sci. USA 102, 6303-6308 (2005)
・ 日刊工業新聞 2005年4月26日
“光受容体ロドプシン化学物質にも反応 京大が新タイプ発見”
・ 化学工業新聞 2005年4月28日
“光受容体ロドプシン化学物質も受容 創薬研究、一段加速”
・ 科学新聞 2005年5月13日
“化学物質まで受容するロドプシン発見”
T. Yamashita, T. Kai, A. Terakita and Y. Shichida: A novel constitutively active mutation in the second cytoplasmic loop of metabotropic glutamate receptor. J. Neurochem. 91, 484-492 (2004)
M. Koyanagi, E. Kawano, Y. Kinugawa, T. Oishi, Y. Shichida, S. Tamotsu
and A. Terakita: Bistable UV pigment in the lamprey pineal. Proc. Natl.
Acad. Sci. USA 101, 6687-6691 (2004)
・ 読売新聞 2004年4月20日
“「第三の目」脳の松果体 光に反応蛋白質 京大など発見”
・ Physics Today 57, 25-26 (2004)
“Lampreys Rely on a
Molecular Switch to Detect UV Light”
・ パリティ1月号, 67-69 (2005)
“紫外光を感じるヤツメウナギの分子スイッチ”
A. Terakita, M. Koyanagi, H. Tsukamoto, T. Yamashita, T. Miyata and Y. Shichida: Counterion displacement in the molecular evolution of the rhodopsin family. Nat. Struct. Mol. Biol. 11, 284-289 (2004)
Y. Nakashima, T. Kusakabe, R. Kusakabe, A. Terakita, Y. Shichida and M. Tsuda: Origin of the
vertebrate visual cycle: Genes encoding retinal photoisomerase and two putative visual cycle proteins
are expressed in whole brain of a primitive chordate. J. Comp. Neurol. 460, 180-190 (2003)
A. Terakita, T. Yamashita, N. Nimbari, D. Kojima and Y. Shichida: Functional
interaction between bovine rhodopsin and G protein transducin. J.
Biol. Chem. 277, 40-46 (2002)
M. Koyanagi, A. Terakita, K. Kubokawa and Y. Shichida: Amphioxus homologs of Go-coupled rhodopsin and peropsin having 11-cis- and all-trans-retinals as their chromophores. FEBS Lett. 531, 525-528 (2002)
T. Nagata, T. Oura, A. Terakita, H. Kandori and Y. Shichida: Isomer-specific
interaction of the retinal chromophore with threonine-118 in rhodopsin. J. Phys. Chem. A 106, 1969-1975 (2002)
A. Nakamura, D. Kojima, T. Okano, H. Imai, A. Terakita, Y. Shichida and
Y. Fukada: Regulatory mechanism for the stability of the meta II intermediate
of pinopsin. J. Biochem. (Tokyo) 129, 329-334 (2001)
H. Imai, T. Hirano, H. Kandori, A. Terakita and Y. Shichida: Difference
in molecular structure of rod and cone visual pigments studied by Fourier
transform infrared spectroscopy. Biochemistry 40, 2879-2886 (2001)
N. Katagiri, A. Terakita, Y. Shichida and Y. Katagiri: Demonstration of
a rhodopsin-retinochrome system in the stalk eye of a marine gastropod,
Onchidium, by immunohistochemistry. J. Comp. Neurol. 433, 380-389 (2001)
T. Yamashita, A.
Terakita and Y. Shichida: The second cytoplasmic loop of metabotropic glutamate
receptor functions at the third loop position of rhodopsin. J. Biochem. 130, 149-155 (2001)
T. Yamashita, A. Terakita and Y. Shichida: Distinct roles of the second
and third cytoplasmic loops of bovine rhodopsin in G-protein activation. J. Biol. Chem. 275, 34272-34279 (2000)
A. Terakita, T. Yamashita and Y. Shichida: Highly conserved glutamic acid
in the extracellular IV-V loop in rhodopsins acts as the counterion in
retinochrome, a member of rhodopsin family. Proc. Natl. Acad. Sci. USA 97, 14263-14267 (2000)
総説等 ▲このページのトップへ
M. Koyanagi, E. Kawano-Yamashita, S. Wada, A Terakita: Vertebrate Bistable
Pigment Parapinopsin: Implications for Emergence of Visual Signaling and
Neofunctionalization of Non-visual Pigment. Front. Ecol. Evol. 5:23 (2017)
A. Terakita, T. Nagata, T. Sugihara, M. Koyanagi: Optogenetic Potentials
of Diverse Animal Opsins. Optogenetics p77-88 (Yawo et al. Eds.) Springer
(2015) DOI 10.1007/978-4-431-55516-2_6
小柳光正:動物の最初の視覚系を探る 細胞工学 2015年1月(Vol.34 No.1)「1枚の写真館」
E. Kawano-Yamashita, M. Koyanagi, S. Wada and A. Terakita: The evolution
and diversity of pineal and parapineal photopigments. In “Evolution of
Visual and Non-visual Pigments” ed. by D. M. Hunt, M. W. Hankins, S. P.
Colin and N. J. Marshall, Springer Series in Vision Research, PP 1-21 (2014)
小柳光正:細胞内情報伝達分子の時空間的に精密な制御 生体の科学2014年10月号(Vol.65 No.5)「増大特集 生命動態システム科学」
A. Terakita, T. Nagata: Functional properties of opsins and their contribution
to light-sensing physiology. Zoological Science 31, 653-659 (2014)
寺北明久:ハエトリグモに学ぶ距離測定のメカニズム 生物模倣技術と新材料・新製品開発への応用 (技術情報協会) pp157-161 (2014)
小柳光正、寺北明久:“非視覚”型光受容タンパク質Opn3とそのGPCR 研究への応用 ファルマシア 50, p893-895 (2014)
M. Koyanagi, A. Terakita: Diversity of animal opsin-based pigments and
their optogenetic potential. Biochim. Biophys. Acta 1837, 710-716 (2014)
小柳光正、寺北明久:クモに学ぶピンぼけ量にもとづく距離測定システム工業材料(日刊工業新聞社)2013年11月号 p48-52
T. Nagata, K. Arikawa, A. Terakita: Contribution of a visual pigment absorption
spectrum to a visual function: depth perception in a jumping spider. Biopysics
9, 85-89 (2013)
永田崇、蟻川謙太郎、寺北明久:ハエトリグモの奥行き知覚はピンぼけ像を利用する 生物物理 53, 109-110 (2013)
小柳光正,寺北明久:「ハエトリグモはピンぼけ像を使って奥行きを知覚する」 生物の科学 遺伝 2013年1月号 67(1) p101-106
A. Terakita, E. Kawano-Yamashita, M. Koyanagi: Evolution and diversity
of opsins. WIREs Membr Transp Signal. 1:104–111 (2012).
永田崇、小柳光正、寺北明久:ピンぼけ像を利用したハエトリグモの奥行きの知覚 ライフサイエンス 新着論文レビュー 2012年2月29日
小柳光正、寺北明久:Special Review 「視覚の分子基盤の進化・多様性:動物の多様なロドプシンとシグナル伝達系の比較から何がわかるか」 細胞工学 30 (3) 2011年3月号 p288-294 詳細はこちらから
T. Nagata, M. Koyanagi, A. Terakita: Molecular Evolution and Functional
Diversity of Opsin-Based Photopigments. Photobiological Sciences Online
http://www.photobiology.info/ (2010)
H. Tsukamoto, A. Terakita: Diversity and functional properties of bistable pigments. Photochem. Photobiol. Sci. 9(11):1435-1443 (2010)
シリーズ 動物の多様な生き方 第一巻 「見える光,見えない光:動物と光のかかわり」 (日本比較生理生化学会編、寺北明久・蟻川謙太郎編集、共立出版)(2009) 詳細はこちらから
M. Koyanagi, A. Terakita: Gq-coupled rhodopsin subfamily composed of invertebrate
visual pigment and vertebrate melanopsin. Photochem. Photobiol. 84, 1024-1030
(2008)
寺北明久:メラノプシン:無脊椎動物視物質との進化的関連 時間生物学 14, 21287 (2008)
小柳光正:オプシンファミリーの分子進化と機能多様性 比較生理生化学 25, 50-57 (2008)
寺北明久、七田芳則:視覚の初期過程 “シリーズ21世紀の動物科学9 動物の感覚とリズム”(七田芳則・深田吉孝編、培風館) 6-29 (2007)
塚本寿夫、寺北明久、七田芳則:ロドプシン類の分子進化 生体の科学 57, 500-501
(2006)
寺北明久:アゴニストである全トランス型レチナールの結合能を持つロドプシン:光受容蛋白質の多様性とGPCR研究への展開 比較生理生化学 23, 3-9
(2006)
A. Terakita: The opsins. Genome Biol. 6, 213.1-213.9 (2005)
寺北明久、七田芳則:ロドプシンの分子設計とその多様性 生物物理 45,
302-307 (2005)
寺北明久:ロドプシン類の分子進化と多様性 比較生理生化学 21, 22-29(2004寺北明久、七田芳則:脊椎動物の視覚と視物質の分子進化 生体の科学 55, 211-216 (2004)
A. Terakita: Insight into rhodopsin diversity from viewpoint of counterion. J Photosci. 9, 33-36 (2002)
岡田哲二、寺北明久、七田芳則:ロドプシンの結晶構造からみるG蛋白質共役受容体の構造・機能連関 蛋白質核酸酵素 47, 1123-1130(2002)
Y. Shichida, S. Tachibanaki, T. Mizukami, H. Imai, and A. Terakita: Heterogeneity
of rhodopsin intermediate state interacting with transducin. Methods Enzymol.
315, 347-363 (2000)
H. Imai, A. Terakita
and Y. Shichida: Analysis of amino acid residues in rhodopsin and cone visual
pigments that determine their molecular properties. Methods Enzymol. 315, 293-312 (2000)
国際会議での招待講演 ▲このページのトップへ
M. Koyanagi: Functional properties of diverse animal rhodopsins and their potentials for optical regulation of cell signaling. International Symposium on Biophysics of Rhodopsins, Kyoto, Japan (2017)
M. Koyanagi: Potential of bistable pigments for optical control of cell signaling. 22nd International Congress of Zoology & 87th meeting of Zoological Society of Japan, Okinawa, Japan (2016)
A. Terakita: Parapinopsin-involving light reception in the pineal organs of lower vertebrates. 17th International Conference on Retinal Proteins, Potsdam, Germany (2016)
M. Koyanagi: Optical control of cell signaling using bistable animal opsin-based pigments. 17th International Conference on Retinal Proteins, Potsdam, Germany (2016)
A. Terakita: Pineal photoreception involving bistable pigment parapinopsin in lower vertebrates. XXII Biennial Meeting of the International Society for Eye Research, Tokyo, Japan (2016)
A. Terakita: Functional Diversity of Animal Opsins; their contribution to physiological functions and optogenetic potentials. Anesthesiology Research Seminar, Washington University School of Medicine, St. Louis, USA (2016)
A. Terakita: Diverse animal bistable pigments and their optogenetic potential. 2015 International Chemical Congress of Pacific Basin Societies (PACIFICHEM
2015), Honolulu, USA (2015)
A. Terakita: Parapinopsins as pineal photopigments in teleosts. The 7th Asia and Oceania Conference o Photobiology (AOCP2015), Taipei,
Taiwan (2015)
A. Terakita: Wavelength discrimination in the pineal photoreception of lower vertebrates. The 9th International Congress of Comparative Physiology and Biochemistry, Krakow, Poland (2015)
A. Terakita: Diverse animal rhodopsins and their optogenetic application. 7th OCARINA International symposium in conjunction with Symposium in honor
of Distinguished Professor Michael Nobel, Osaka, Japan (2015)
A. Terakita: Molecular basis of wavelength discrimination in the pineal organs of lower vertebrates. 16th International Conference on Retinal Proteins, Nagahama, Japan (2014)
M. Koyanagi: Molecular properties of diverse and engineered bistable pigments
and their optogenetic potential. 16th International Conference on Retinal
Proteins, Nagahama, Japan (2014)
M. Koyanagi: Wavelength sensitivity and depth perception mechanism in a
jumping spider. International Society for Behavioral Ecology Conference
(ISBE2014), New York, USA (2014)
M. Koyanagi: Homologues of vertebrate OPN3 as a potential light-sensor in non-photoreceptive tissue. 6th Asia and Oceania Conference on Photobiology (AOCP), Sydney, Australia
(2013)
M. Koyanagi: Functional diversity of pineal photopigment parapinopsin.
6th Asia and Oceania Conference on Photobiology (AOCP), Sydney, Australia
(2013)
A. Terakita: A homologue of vertebrate Opn3 potentially serves as a light-sensor in
non-photosensitive tissue with 13-cis retinal. International Symposium Optogenetics 2013, Tokyo Japan (2013)
A. Terakita: Molecular and functional properties of non-visual opsins. 15th International Conference on Retinal Proteins, Ascona, Switzerland (2012)
A. Terakita: Diversity of opsin-based photopigments in non-visual function.
The 5th Asia and Oceania Conference on Photobiology, Nara, Japan (2011)
T. Nagata, M. Koyanagi, A. Terakita: Investigation on wavelength sensitivities
and distributions of visual pigments in the four-layered retina in jumping
spiders. 8th International Congress of Comparative Physiology and Biochemistry,
Nagoya, Japan (2011)
M. Koyanagi, A. Terakita: Diversity and evolution of opsin-based pigments in non-visual function.
8th International Congress of Comparative Physiology and Biochemistry,
Nagoya, Japan (2011)
A. Terakita: Functional characterization of non-visual bistable pigments. 14th International Conference on Retinal Proteins, Santa Cruz, California (2010)
A. Terakita: Diverged members of rhodopsin family - molecular properties and functions. I – Introduction. 13th Congress of the European Society for Photobiology, Wroclaw, Poland (2009)
M. Koyanagi: Diverged members of rhodopsin family - molecular properties
and functions. II - A new member from jellyfis.. 13th Congress of the European
Society for Photobiology, Wroclaw, Poland (2009)
A. Terakita: Molecular and functional properties of non-visual bistable
pigments. FASEB Summer Research Conferences The Biology and Chemistry of Vision, Snowmass Village, Colorado (2009)
M. Koyanagi: Diversity and evolution of the animal phototransduction cascade.
4th Asia and Oceania Conference on Photobiology, Varanasi, India (2008)
H. Tsukamoto: Comparative Comparative study on conformational changes of
vertebrate and invertebrate-type rhodopsins using site-directed fluorescence
labeling. 4th Asia and Oceania Conference on Photobiology, Varanasi, India (2008)
A. Terakita: Comparative characterization of bistable pigments in visual
and non-visual photoreception. 7th International Congress of Comparative
Physiology and Biochemistry, Salvador, Brazil (2007)
A. Terakita: Expression and characterization of diverged bistable pigments
in rhodopsin family. 12th International Conference on Retinal Proteins,
Awaji, Japan (2006)
A. Terakita: Characterization of melanopsin: Insight into evolutionary
linkage between vertebrate circadian and invertebrate visual pigments.
10th Meeting Society for Research on Biological Rhythms, Florida, USA (2006)
A. Terakita: “Counterion displacement and bistable pigment in the vertebrate
rhodopsin family” 14th International Congress on Photobiology, Jeju, Korea
(2004)
A. Terakita: “Comparative investigation of G protein activation mechanisms
between rhodopsin and mGluR” The 1st Pacific-Rim International Conference
on Protein Science, Yokohama, Japan (2004)
A. Terakita: “Comparative study on the
diversity in rhodopsin family” 10th International Conference on Retinal
Protein. Seattle, USA (2002)
A. Terakita: Insight into diversity in rhodopsin family: Functional and mutational analyses on vertebrate and invertebrate rhodopsins” 1st Asian Conference on Photobiology, Awaji Island, Japan (2002)
A. Terakita: “Distinct roles of the cytoplasmic loops of rhodopsin in G
protein activation” 13th International Congress on Photobiology, San Francisco,
USA (2000)
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