ProfessorsProfessors of Toyo UniversityNaoki Hirotsu

Naoki Hirotsu

Toyo University

H-index: 22

Asia-Japan

About Naoki Hirotsu

Naoki Hirotsu, With an exceptional h-index of 22 and a recent h-index of 17 (since 2020), a distinguished researcher at Toyo University, specializes in the field of Plant physiology, Molecular genetics, Grain yield and quality, Environmental response.

His recent articles reflect a diverse array of research interests and contributions to the field:

Physiological and candidate gene analysis of RG5, a locus associated with a higher ratio of filled grains in rice (Oryza sativa L.)

THOUSAND-GRAIN WEIGHT 6, which is an IAA-glucose hydrolase, preferentially recognizes the structure of the indole ring

Cooperation of an external carbonic anhydrase and HCO3–transporter supports underwater photosynthesis in submerged leaves of the amphibious plant Hygrophila difformis

Improving bioavailability of zinc in rice grains by reducing antinutrients through genetic engineering

Expression, purification and crystallization of TGW6, which limits grain weight in rice

Clean vs dirty labels: Transparency and authenticity of the labels of Ceylon cinnamon

Transition From Proto-Kranz-Type Photosynthesis to HCO3– Use Photosynthesis in the Amphibious Plant Hygrophila polysperma

Leaf Proteome Responses of Wheat (Triticum aestivum L.) to Elevated Atmospheric Carbon Dioxide during Early Vegetative Growth

Naoki Hirotsu Information

University	Toyo University
Position	Faculty of Life Sciences
Citations(all)	2737
Citations(since 2020)	1595
Cited By	1719
hIndex(all)	22
hIndex(since 2020)	17
i10Index(all)	32
i10Index(since 2020)	27
Email	Access Email
University Profile Page	Toyo University
Google Scholar	View Google Scholar Profile

Naoki Hirotsu Skills & Research Interests

Plant physiology

Molecular genetics

Grain yield and quality

Environmental response

Top articles of Naoki Hirotsu

Title	Journal	Author(s)	Publication Date
Physiological and candidate gene analysis of RG5, a locus associated with a higher ratio of filled grains in rice (Oryza sativa L.)	Plant Production Science	Ken Ishimaru Naoki Hirotsu Kazuhiro Ujiie	2024/3/30
THOUSAND-GRAIN WEIGHT 6, which is an IAA-glucose hydrolase, preferentially recognizes the structure of the indole ring	Scientific Reports	Tatsuki Akabane Nobuhiro Suzuki Kazuyoshi Ikeda Tomoki Yonezawa Satoru Nagatoishi ...	2024/3/21
Cooperation of an external carbonic anhydrase and HCO3–transporter supports underwater photosynthesis in submerged leaves of the amphibious plant Hygrophila difformis	Annals of Botany	Genki Horiguchi Ryoma Oyama Tatsuki Akabane Nobuhiro Suzuki Etsuko Katoh ...	2024/2/1
Improving bioavailability of zinc in rice grains by reducing antinutrients through genetic engineering		Ishara Perera Naoki Hirotsu	2023/1/1
Expression, purification and crystallization of TGW6, which limits grain weight in rice	Protein Expression and Purification	Tatsuki Akabane Nobuhiro Suzuki Wataru Tsuchiya Takuya Yoshizawa Hiroyoshi Matsumura ...	2021/12/1
Clean vs dirty labels: Transparency and authenticity of the labels of Ceylon cinnamon	Plos one	Devarahandhi Achini Melda De Silva Renda Kankanamge Chaturika Jeewanthi Rajapakshage Heshani Navoda Rajapaksha Weddagala Mudiyanselage Tharaka Bilindu Weddagala Naoki Hirotsu ...	2021/11/23
Transition From Proto-Kranz-Type Photosynthesis to HCO3– Use Photosynthesis in the Amphibious Plant Hygrophila polysperma	Frontiers in Plant Science	Genki Horiguchi Kaori Matsumoto Kyosuke Nemoto Mayu Inokuchi Naoki Hirotsu	2021/6/16
Leaf Proteome Responses of Wheat (Triticum aestivum L.) to Elevated Atmospheric Carbon Dioxide during Early Vegetative Growth		DM Gamage M Thompson P Dehigaspitiya P Faou KH Rajapaksha ...	2021/3/3
Phosphorus toxicity disrupts Rubisco activation and reactive oxygen species defence systems by phytic acid accumulation in leaves	Plant, Cell & Environment	Daisuke Takagi Atsuko Miyagi Youshi Tazoe Mao Suganami Maki Kawai‐Yamada ...	2020/9
Genotypic differences in the effect of P fertilization on phytic acid content in rice grain	Plants	Ayaka Fukushima Ishara Perera Koki Hosoya Tatsuki Akabane Naoki Hirotsu	2020/1/23
Phytic acid in brown rice can be reduced by increasing soaking temperature	Foods	Ayaka Fukushima Gun Uchino Tatsuki Akabane Ayaka Aiseki Ishara Perera ...	2020/12/23