原著論文(国際誌)
39.Ishii Y, Ishii H, Kuroha T, Yokoyama R, Deguchi R, Nishitani K, Minagawa J, Kawata M, Takahashi S, Maruyama S (2023) . Environmental pH signals the release of monosaccharides from cell wall in coral symbiotic alga. eLife, e80628. プレスリリース
38.Lin CH, Takahashi S, Mulla A, Nozawa Y (2021) Moonrise timing is key for synchronized spawning in coral Dipsastraea speciosa. Proceedings of the National Academy of Sciences of the United States of America, 118 (34) e2101985118. プレスリリース
37.Mulla AJ, Lin CH, Takahashi S, Nozawa Y (2021) Photo-movement of coral larvae influences vertical positioning in the ocean. Coral Reefs, 40:1297-1306.
36.Maeda T, Takahashi S, Yoshida T, Shimamura S, Takaki Y, Nagai Y, Toyoda A, Suzuki Y, Arimoto A, Ishii H, Satoh N, Nishiyama T, Hasebe M, Maruyama T, Minagawa J, Obokata J, Shigenobu S (2021) Chloroplast acquisition without the gene transfer in kleptoplastic sea slugs, Plakobranchus ocellatus. eLife, 10: e60176. プレスリリース
35.*Kishimoto M, Baird AH, Maruyama S, Minagawa J, *Takahashi S (2020) Loss of symbiont infectivity following thermal stress can be a factor limiting recovery from bleaching in cnidarians. The ISME Journal, 14: 3149-3152. プレスリリース 記事
34.Busch FA, Tominaga J, Muroya M, Shirakami N, Takahashi S, Yamori W, Kitaoka T, Milward SE, Nishimura K, Matsunami E, Toda Y, Higushi C, Muranaka A, Takami T, Watanabe S, Kinoshita T, Sakamoto W, Sakamoto A, Shimada H (2020) Overexpression of BUNDLE SHEATH DEFECTIVE 2 improves the efficiency of photosynthesis and growth in Arabidopsis. The Plant Journal, 102: 129-139.
33.Tominaga J, Takahashi S, Sakamoto A, Shimada H (2020) Arabidopsis BSD2 reveals a novel redox regulation of Rubisco physiology in vivo. Plant Signaling & Behavior, 15: e1740873.
32.Lin M-F, Takahashi S, Forêt S, Davy SK, Miller DJ (2019) Transcriptomic analyses highlight the likely metabolic consequences of colonization of a cnidarian host by native or non-native Symbiodinium species. Biology Open, 8, bio038281.
31.Aihara Y, Maruyama S, Baird AH, Iguchi A, *Takahashi S, *Minagawa J (2019) Green fluorescence from cnidarian hosts attracts symbiotic algae. Proceedings of the National Academy of Sciences of the United States of America, 116: 2118-2123. プレスリリース 記事
30.Okubo N, Takahashi S, Nakano Y (2018) Microplastics disturb the anthozoan-algae symbiotic relationship. Marine Pollution Bulletin, 135: 83-89. プレスリリース
29.Ishii Y, Maruyama S, Fujimura-Kamada K, Kutsuna N, Takahashi S, Kawata M, Minagawa J (2018) Isolation of uracil auxotroph mutants of coral symbiont alga for symbiosis studies. Scientific Reports, 8: 3237. プレスリリース
28.Biquand E, Okubo N, Aihara Y, Rolland V, Hayward DC, Hatta M, Minagawa J, Maruyama T, *Takahashi S (2017) Acceptable symbiont cell size differs among cnidarian species and may limit symbiont diversity. The ISME Journal, 11: 1702-1712. Recommended in Faculty Opinions
27.Watanabe CK, Yamori W, Takahashi S, Terashima I, Noguchi K (2016) Mitochondrial alternative pathway-associated photoprotection of photosystem II is related to the photorespiratory pathway. Plant & Cell Physiology, 57: 1426-1431.
26.Aihara Y, Takahashi S, Minagawa J (2016) Heat induction of cyclic electron flow around photosystem I in the symbiotic dinoflagellate Symbiodinium. Plant Physiology, 171: 522-529.
25.Yamamoto H, Takahashi S, Murray RB, Shikanai T (2016) Artificial remodelling of alternative electron flow by flavodiiron proteins in Arabidopsis. Nature Plants, 2: 16012.
24.Zavafer A, Cheah MH, Hillier W, Chow WS, *Takahashi S (2015) Photodamage to the oxygen evolving complex of photosystem II by visible light. Scientific Reports, 5: 16363.
23.Kou J, Takahashi S, Fan D-Y, Badger MR, Chow WS (2015) Partially dissecting the steady-state electron fluxes in Photosystem I in wild-type and pgr5 and ndh mutants of Arabidopsis. Frontiers in Plant Science, 6: 758.
22.Karim W, Seidi A, Hill R, Chow WS, Minagawa J, Hidaka M, *Takahashi S (2015) Novel characteristics of photodamage to PSII in a high-light-sensitive Symbiodinium phylotype. Plant & Cell Physiology, 56: 1162-1171.
21.Hill R, Takahashi S (2014) Photosystem II recovery in the presence and absence of chloroplast protein repair in the symbionts of corals exposed to bleaching conditions. Coral Reefs, 33: 1101-1111.
20.Kou J, Takahashi S, Oguchi R, Fan D-Y, Badger MR, Chow WS (2013) Estimation of the steady-state cyclic electron flux around photosystem I in spinach leaf discs in white light, CO2-enriched air and other varied conditions. Functional Plant Biology, 40: 1018-1028.
19.*Takahashi S, Yoshioka-Nishimura M, Nanba D, Badger MR (2013) Thermal acclimation of the symbiotic alga Symbiodinium alleviates photobleaching under heat stress. Plant Physiology, 161: 477-485.
18.Shirao M, Kuroki S, Kaneko K, Kinjo Y, Tsuyama M, Förster B, Takahashi S, Badger MR (2013) Gymnosperms have increased capacity for electron leakage to oxygen (Mehler and PTOX reactions) in photosynthesis compared with angiosperms. Plant & Cell Physiology, 54: 1152-1163.
17.Buxton L, Takahashi S, Hill R, Ralph PJ (2012) Variability in the primary site of photosynthetic damage in Symbiodinium sp. (Dinophyceae) exposed to thermal stress. Journal of Phycology, 48: 117-126.
16.Yamori W, Takahashi S, Makino A, Price GD, Badger MR, von Caemmerer S (2011) The roles of ATP synthase and the cytochrome b6/f complexes in limiting chloroplast electron transport and determining photosynthetic capacity. Plant Physiology, 155: 956-962.
15.*Takahashi S, Milward SE, Yamori W, Evans JR, Hillier W, Badger MR (2010) The solar action spectrum of photosystem II damage. Plant Physiology, 153: 988-993.
14.Badger M, Fallahi H, Kaines S, Takahashi S (2009) Chlorophyll fluorescence screening of Arabidopsis thaliana for CO2 sensitive photorespiration and photoinhibition mutants. Functional Plant Biology, 36: 867-873.
13.*Takahashi S, Whitney SM, Badger MR (2009) Different thermal sensitivity of the repair of photodamaged photosynthetic machinery in cultured Symbiodinium species. Proceedings of the National Academy of Sciences of the United States of America, 106: 3237-3242.
12.*Takahashi S, Milward SE, Fan D-Y, Chow WS, Badger MR (2009) How does cyclic electron flow alleviate photoinhibition in Arabidopsis? Plant Physiology, 149: 1560-1567.
11.*Takahashi S, Whitney S, Itoh S, Maruyama T, Badger M (2008) Heat stress causes inhibition of the de novo synthesis of antenna proteins and photobleaching in cultured Symbiodinium. Proceedings of the National Academy of Sciences of the United States of America, 105: 4203-4208.
10.*Takahashi S, Bauwe H, Badger M (2007) Impairment of the photorespiratory pathway accelerates photoinhibition of photosystem II by suppression of repair but not acceleration of damage processes in Arabidopsis. Plant Physiology, 144: 487-494.
9.Takahashi S, Murata N (2006) Glycerate-3-phospahte, produced by CO2 fixation in the Calvin cycle, is critical for the synthesis of the D1 protein of photosystem II. Biochimica Et Biophysica Acta, 1757: 198-205.
8.Takahashi S, Murata N (2005) Interruption of the Calvin cycle inhibits the repair of photosystem II from photodamage. Biochimica Et Biophysica Acta, 1708: 352-361.
7.Ohnishi N, Allakhverdiev SI, Takahashi S, Higashi S, Watanabe M, Nishiyama Y, Murata N (2005) Two-step mechanism of photodamage to photosystem II: step 1 occurs at the oxygen-evolving complex and step 2 occurs at the photochemical reaction center. Biochemistry, 44: 8494-8499.
6.Allakhverdiev SI, Nishiyama Y, Takahashi S, Miyairi S, Suzuki I, Murata N (2005) Systematic analysis of the relation of electron transport and ATP synthesis to the photodamage and repair of photosystem II in Synechocystis. Plant Physiology, 137: 263-273.
5.Takahashi S, Nakamura T, Sakamizu M, van Woesik R, Yamasaki H (2004) Repair machinery of symbiotic photosynthesis as the primary target of heat stress for reef-building corals. Plant & Cell Physiology, 45: 251-255.
4.Takahashi S, Yamasaki H (2002) Reversible inhibition of photophosphorylation in chloroplasts by nitric oxide. FEBS Letters, 512: 145-148.
3.Takahashi S, Tamashiro A, Sakihama Y, Yamamoto Y, Kawamitsu Y, Yamasaki H (2002) High-susceptibility of photosynthesis to photoinhibition in the tropical plant Ficus microcarpa L. f. cv. Golden Leaves. BMC Plant Biology, 2:2, 1-8.
2.Yamasaki H, Sakihama Y, Takahashi S (1999) An alternative pathway for nitric oxide production in plants: new features of an old enzyme. Trends in Plant Science, 4: 128-129.
1.Yamasaki H, Takahashi S, Heshiki R (1999) The tropical fig Ficus microcarpa L. f. cv. golden leaves lacks heat-stable dehydroascorbate reductase activity. Plant & Cell Physiology, 40: 640-646.
総説(国際誌)
5.Voolstra C, Takahashi S <10番目/26名>(2015) The ReFuGe 2020 consortium - Using ‘omics’ approaches to explore the adaptability and resilience of coral holobionts to environmental change. Frontiers in Marine Science, 2: 68.
4.*Takahashi S, Badger MR (2011) Photoprotection in plants: a new light on photosystem II damage. Trends in Plant Science, 16: 53-60.
3.Baird AH, Bhagooli R, Ralph PJ, Takahashi S (2009) Coral bleaching: the role of the host. Trends in Ecology & Evolution, 24: 16-20.
2.Takahashi S, Murata N (2008) How do environmental stresses accelerate photoinhibition? Trends in Plant Science, 13: 178-182.
1.Murata N, Takahashi S, Nishiyama Y, Allakhverdiev SI (2007) Photoinhibition of photosystem II under environmental stress. Biochimica Et Biophysica Acta, 1767: 414-421.
その他
9.高橋俊一(2020)「サンゴの蛍光は誘いの合図」Nextcom, 44: 50-51.
8.高橋俊一, 中村崇(2020)「なぜサンゴは白化するのか (第3章)」 サンゴの白化 (成山堂書店), 64-91.
7.大久保奈弥, 高橋俊一(2018)「サンゴと共生藻」Marine Aquarist, 87: 22-25.
6.高橋俊一(2018)「刺胞動物と褐虫藻のサイズ依存的な共生関係」 生物科学, 69: 209-213.
5.高橋俊一(2016)「共生:サンゴと褐虫藻の共生関係の成立から破綻まで」 生物科学, 68: 24-29.
4.高橋俊一(2014)「光合成をする生き物の多様な世界」milsil, 7: 10-12.
3.高橋俊一(2013) 「過剰な光エネルギーで起こる光阻害とその防御について」光合成研究会会報, 23: 57-63.
2.高橋俊一(2006)「(藻類学最前線)海水温上昇によるサンゴ共生藻(Symbiodinium spp.)の光阻害機構」藻類, 54: 98-100.
1.高橋俊一(2006)「なぜ炭酸固定活性の低下により光阻害がおこるのか?」日本光合成研究会会報, 46: 9-13.