原著論文 Original papers
Drosophila works
Akiba, C.+, Takezawa, A.+, Tsai, Y.+, Hirose, M., and Suzuki, T.* (+: contributed equally to this work)
bHLH family proteins control the timing and completion of transition from neuroepithelial cells into neural stem cells.Development 151, dev202630, 2024
Tang, J.L.Y., Hakes, A.E., Krautz, R., Suzuki, T., Contreras, E.G., Fox, P.M., and Brand, A.H.
NanoDam identifies Homeobrain and Scarecrow as conserved temporal factors in the Drosophila central brain and visual systemDevelopmental Cell 57, 1193-1207, 2022
Suzuki, T., Liu, C., Kato, S., Nishimura, K., Takechi, H., Yasugi, T., Takayama, R. Hakeda-Suzuki, S., Suzuki, T. and Sato, M.
Netrin signaling defines the regional border in the Drosophila visual center.iScience 8, 148-160, 2018.
Suzuki, T., Trush, O., Yasugi, T., Takayama, R. and Sato, M.
Wnt signaling specifies antero-posterior progenitor zone identity in the Drosophila visual center.Journal of Neuroscience 36, 6503-6513, 2016.
Suzuki, T., Hasegawa, E., Nakai, Y., Kaido, M., Takayama, R. and Sato, M.
Formation of neuronal circuits by interactions between neuronal populations derived from different origins in the Drosophila visual center.Cell Reports 15, 499-509, 2016.
Suzuki, T., Takayama, R. and Sato, M.
eyeless/Pax6 controls the production of glial cells in the visual center of Drosophila melanogaster.Developmental Biology 409, 343-353, 2016.
Suzuki, T., Kaido, M., Takayama, R. and Sato, M.
A temporal mechanism that produces neuronal diversity in the Drosophila visual center.Developmental Biology 380, 12-24, 2013.
Bombyx works
Suzuki, T.*, Akiba, C.+, Izawa, M.+ and Iwami, M. (+: contributed equally to this work)
Steroid hormone-dependent changes in trehalose physiology in the silkworm, Bombyx mori.Journal of Comparative Physiology B 193, 383-390, 2023
Suzuki, T.* and Iwami, M.
Sequential changes in the regulatory mechanism of carbohydrate digestion in larvae of the silkworm, Bombyx mori.Journal of Comparative Physiology B 191, 439-453, 2021
Suzuki, T.* and Iwami, M.
Ecdysteroid ingestion suppresses carbohydrate hydrolysis in larva of the silkworm Bombyx mori.Naturwissenschaften 107, 27, 2020.
Suzuki, T., Sakurai, S., and Iwami, M.
Steroidal regulation of hydrolyzing activity of the dietary carbohydrates in the silkworm, Bombyx mori.Journal of Insect Physiology 57, 1282-1289, 2011.
Suzuki, T., Sakurai, S., and Iwami, M.
Juvenile hormone delays the initiation of rectal sac distention by disrupting ecdysteroid action in the silkworm, Bombyx mori.Pesticide Biochemistry and Physiology 97, 199-203, 2010.
Suzuki, T., Sakurai, S., Iwami, M.
Physiological requirements for 20-hydroxyecdysone-induced rectal sac distention in the pupa of the silkworm, Bombyx mori.Journal of Insect Physiology 56, 673-677, 2010.
Suzuki, T., Sakurai, S., and Iwami, M.
Rectal sac distention is induced by 20-hydroxyecdysone in the pupa of Bombyx mori.Journal of Insect Physiology 55, 250-254, 2009.
総説 Review articles
Sato, M, and Suzuki, T.
Cutting edge technologies expose the temporal regulation of neurogenesis in the Drosophila nervous system.Fly 16, 222-232, 2022.
Suzuki, T. and Sato, M.
Inter-progenitor pool wiring: an evolutionarily conserved strategy that expands neural circuit diversity.Developmental Biology 431, 101-110, 2017.
Suzuki, T. and Sato, M.
Neurogenesis and neuronal circuit formation in the Drosophila visual center.Development, growth & differentiation 56, 491-498, 2014.
Sato, M., Suzuki, T. and Nakai, Y.
Waves of differentiation in the fly visual system.Developmental Biology 380, 1-11, 2013.
和文総説 Review article in Japanese
著書 Book
Suzuki, T., and Iwami, M.
Insulin-related peptides in insects and other arthropods.Hemolymph Proteins and Functional Peptides: Recent Advances in Insects and Other Arthropods (Eds. Tufail, M. and Takeda, M.), 161-171, 2012.