1.Mitsuya S., Kozaki K., Takabe T. (2013) Tissue localization of the glycine betaine biosynthetic enzymes in barley leaves. Plant Prod. Sci. 16, 117-122.
2.Yamane K., Mitsuya S., Taniguchi M., Miyake H. (2012) Salt-induced chloroplast protrusion is the process of exclusion of ribulose-1,5-bisphosphate carboxylase/oxygenase from chloroplasts into
cytoplasm in leaves of rice. Plant Cell Environ. 35:1663-1671.
3.Ogawa S., Mitsuya S. (2012) S-methylmethionine is involved in the salinity tolerance of Arabidopsis thaliana plants at germination and early growth stages. Physiol. Plant. 144, 13-19.
4.Mitsuya S., Kuwahara J., Ozaki K., Saeki E., Fujiwara T., Takabe T. (2011) Isolation and characterization of a novel peroxisomal choline monooxygenase in barley. Planta 234, 1215-1226.
5.Fujiwara T., Mitsuya S., Miyake H., Hattori T., Takabe T. (2010) Characterization of a novel glycinebetaine/proline transporter gene expressed in the mestome sheath and lateral root cap cells in barley. Planta 232, 133-143.(6月)
6.Yamane K., Mitsuya S., Taniguchi M. and Miyake H. (2010) Transcription profiles of genes encoding catalase and ascorbate peroxidase in the rice leaf tissues under salinity. Plant Prod. Sci. 13, 164-168. (3月)
7.Mitsuya S., El-Shami M., Sparkes I., Charlton W., De Marcos Lousa C., Johnson B., Baker A. (2010) Salt stress causes peroxisome proliferation, but inducing peroxisome proliferation does not improve NaCl tolerance in Arabidopsis thaliana. PLoS ONE 5, e9408. (2月)
8.Mitsuya S., Yokota Y., Fujiwara T., Mori N. and Takabe T. (2009) OsBADH1 is possibly involved in acetaldehyde oxidation in rice plant peroxisomes. FEBS Lett. 583, 3625-3629.
9.Yamane K., Mitsuya S., Kawasaki M., Taniguchi M., Miyake H. (2009) Antioxidant capacity and damages caused by salinity stress in apical and basal regions of rice leaf. Plant Prod. Sci. 12(3), 319-326.
10.Hattori T., Mitsuya S., Fujiwara T., Jagendorf A. T., Takabe T. (2009) Tissue specificity of glycinebetaine synthesis in barley. Plant Sci. 176, 112-118.
11.Fujiwara T., Hori K., Ozaki K., Yokota Y., Mitsuya S., Ichiyanagi T., Hattori T., Takabe T. (2008) Enzymatic characterization of peroxisomal and cytosolic betaine aldehyde dehydrogenases in barley. Physiol. Plant. 134, 22-30.
12.Hibino T., Fujita M., Shimada T., Uchida A., Yamane K., Mitsuya S., Takabe T. and Takabe T. (2007) Co-expression of cytosolic-DnaK and chloroplastic-fibrillin from halotolerant organisms increased salt tolerance of tobacco plants. J. Research Institute of Meijo Univ. 6, 105-114
13.Mitsuya S., Taniguchi M., Miyake H. and Takabe T. (2006) Overexpression of RCI2A decreases Na+ uptake and mitigates salinity-induced damages in Arabidopsis thaliana plants. Physiologia Plantarum. 128, 95-102.
14.Mitsuya S., Taniguchi M., Miyake H. and Takabe T. (2006) Disruption of RCI2A leads to over-accumulation of Na+ and increased salt sensitivity in Arabidopsis thaliana plants. Planta. 222: 1001-1009.
15.Mitsuya S., Kawasaki M., Taniguchi M. and Miyake H. (2003) Light dependency of salinity-induced chloroplast degradation. Plant Production Science. 6: 219-223.
16.Mitsuya S., Kawasaki M., Taniguchi M. and Miyake H. (2003) Relationship between salinity-induced damages and aging in rice leaf tissues. Plant Production Science. 6: 213-218.
17.Mitsuya S., Yano K., Kawasaki M., Taniguchi M. and Miyake H. (2002) Relationship between the distribution of Na and the damages caused by salinity in the leaves of rice seedlings grown under a saline condition. Plant Production Science. 5: 269-274.
18.Mitsuya S., Takeoka Y. and Miyake H. (2000) Effects of sodium chloride on foliar ultrastructure of sweet potato (Ipomoea batatas Lam.) plantlets grown under light and dark conditions in vitro. Journal of Plant Physiology. 157: 661-667.