Genomes and Genes

Toshinori Kinoshita


Affiliation: Nagoya University
Country: Japan


  1. Ando E, Kinoshita T. Red Light-Induced Phosphorylation of Plasma Membrane H+-ATPase in Stomatal Guard Cells. Plant Physiol. 2018;178:838-849 pubmed publisher
    ..Our results indicate that red light-induced PM H+-ATPase phosphorylation in guard cells promotes stomatal opening in whole leaves, providing insight into the photosynthetic regulation of stomatal opening. ..
  2. Wang Y, Shimazaki K, Kinoshita T. Multiple Roles of the Plasma Membrane H(+)-ATPase and Its Regulation. Enzymes. 2014;35:191-211 pubmed publisher
    ..We also present the data that the activity of the H(+)-ATPase limits the plant growth. Typical structure of the H(+)-ATPase in the C-terminus was acquired in the transition of plants from water to the terrestrial land. ..
  3. Okumura M, Inoue S, Kuwata K, Kinoshita T. Photosynthesis Activates Plasma Membrane H+-ATPase via Sugar Accumulation. Plant Physiol. 2016;171:580-9 pubmed publisher
    ..Overall, we show that photosynthesis activated H(+)-ATPase via sugar production in the mesophyll cells of vascular plants. Our work provides new insight into signaling from chloroplasts to the plasma membrane ion transport mechanism. ..
  4. Toda Y, Wang Y, Takahashi A, Kawai Y, Tada Y, Yamaji N, et al. Oryza sativa H+-ATPase (OSA) is Involved in the Regulation of Dumbbell-Shaped Guard Cells of Rice. Plant Cell Physiol. 2016;57:1220-30 pubmed publisher
    ..We conclude that H(+)-ATPase is involved in BL-induced stomatal opening of dumbbell-shaped guard cells in monocotyledon species. ..
  5. Kinoshita T, Ono N, Hayashi Y, Morimoto S, Nakamura S, Soda M, et al. FLOWERING LOCUS T regulates stomatal opening. Curr Biol. 2011;21:1232-8 pubmed publisher
    ..Our results define a new cell-autonomous role for FT and demonstrate that the flowering time genes ELF3 and FT are involved in the regulation of H(+)-ATPase by blue light in guard cells. ..
  6. Inoue S, Takahashi K, Okumura Noda H, Kinoshita T. Auxin Influx Carrier AUX1 Confers Acid Resistance for Arabidopsis Root Elongation Through the Regulation of Plasma Membrane H+-ATPase. Plant Cell Physiol. 2016;57:2194-2201 pubmed