Maeda, A.E., Muranaka, T., Nakamichi, N., Oyama, T., and *Dodd, A.N.

Complexities, similarities, and differences in circadian regulation in the green lineage.

New Phytol., 241, 28-31 (2024) Link

Uehara, T.N., Takao, S., Matsuo, H., Saito, A.N., Ota, E., Ono, A., Itami, K., Kinoshita, T., *Yamashino, T., *Yamaguchi, J., and *Nakamichi, N.

A small-molecule modulator affecting the clock-associated PSEUDO-RESPONSE REGULATOR 7 amount.

Plant Cell Physiol., 64, 1397-1406 (2023) Link

Saito, A.N., Maeda, A.E., Takahara, T.T., Matsuo, H., Nishina, M., Ono, A., Shiratake, K., Notaguchi, M., Yanai, T., Kinoshita, T., Ota, E., *Fujimoto, K.J., *Yamaguchi, J., and *Nakamichi, N.

Structure–function study of a novel inhibitor of Cyclin-dependent kinase C in Arabidopsis.

Plant Cell Physiol., 63, 1720-1728 (2022) Link

Maeda, N., Noguchi, T., Nakamichi, N., Suzuki, T., and *Ishikawa, A.

Epidermal CCA1 and PMR5 contribute to nonhost resistance in Arabidopsis.

Biosci. Biotech. Biochem., 86, 1623-1630 (2022) Link

*Nakamichi, N., Yamaguchi, J., Sato, A., Fujimoto, K., and Ota, E.

Chemical biology to dissect molecular mechanisms underlying plant circadian clocks.

New Phytol., 235, 1336-1343 (2022) Link

Maeda, A.E., and *Nakamichi, N.

Plant clock modifications for adapting flowering time to local environments.

Plant Physiol., 190, 952-967 (2022) Link

Uehara, T.N., Nonoyama, T., Taki, K., Kuwata, K., Sato, A., Fujimoto, K.J., Hirota, T., Matsuo, H., Maeda, A.E., Ono, A., Takahara, T.T., Tsutsui, H., Suzuki, T., Yanai, T., Kay, S.A., Itami, K., Kinoshita, T., *Yamaguchi, J., and *Nakamichi, N.

Phosphorylation of RNA Polymerase II by CDKC;2 maintains the Arabidopsis circadian clock period.

Plant Cell Physiol., 63, 450-462 (2022) Link