ProfessorsProfessors of Doshisha UniversityAkira Kobayashi

Akira Kobayashi

Doshisha University

H-index: 42

Asia-Japan

About Akira Kobayashi

Akira Kobayashi, With an exceptional h-index of 42 and a recent h-index of 31 (since 2020), a distinguished researcher at Doshisha University, specializes in the field of Gene regulation, Molecular Biology, Stress response.

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

NRF3 activates mTORC1 arginine-dependently for cancer cell viability

The CNC-family transcription factor Nrf3 coordinates the melanogenesis cascade through macropinocytosis and autophagy regulation

Nrf3 Functions Reversely as a Tumorigenic to an Antitumorigenic Transcription Factor in Obese Mice

NRF3 upregulates gene expression in SREBP2-dependent mevalonate pathway with cholesterol uptake and lipogenesis inhibition

Pathophysiological potentials of NRF3-regulated transcriptional axes in protein and lipid homeostasis

Roles of NRF3 in the hallmarks of cancer: proteasomal inactivation of tumor suppressors

NFE2L1 and NFE2L3 complementarily maintain basal proteasome activity in cancer cells through CPEB3-mediated translational repression

NRF3-POMP-20S proteasome assembly axis promotes cancer development via ubiquitin-independent proteolysis of p53 and retinoblastoma protein

Akira Kobayashi Information

University	Doshisha University
Position	Professor of Molecular Biology
Citations(all)	19591
Citations(since 2020)	6218
Cited By	15483
hIndex(all)	42
hIndex(since 2020)	31
i10Index(all)	62
i10Index(since 2020)	52
Email	Access Email
University Profile Page	Doshisha University
Google Scholar	View Google Scholar Profile

Akira Kobayashi Skills & Research Interests

Gene regulation

Molecular Biology

Stress response

Top articles of Akira Kobayashi

Title	Journal	Author(s)	Publication Date
NRF3 activates mTORC1 arginine-dependently for cancer cell viability	Iscience	Shuuhei Hirose Tsuyoshi Waku Misato Tani Haruka Masuda Keiko Endo ...	2023/2/17
The CNC-family transcription factor Nrf3 coordinates the melanogenesis cascade through macropinocytosis and autophagy regulation	Cell Reports	Tsuyoshi Waku Sota Nakada Haruka Masuda Haruna Sumi Ayaka Wada ...	2023/1/31
Nrf3 Functions Reversely as a Tumorigenic to an Antitumorigenic Transcription Factor in Obese Mice	The Tohoku Journal of Experimental Medicine	Tsuyoshi Waku Takuya Iwami Haruka Masuda Shuuhei Hirose Iori Aketa ...	2023
NRF3 upregulates gene expression in SREBP2-dependent mevalonate pathway with cholesterol uptake and lipogenesis inhibition	Iscience	Tsuyoshi Waku Toru Hagiwara Natsuko Tamura Yuri Atsumi Yasuomi Urano ...	2021/10/22
Pathophysiological potentials of NRF3-regulated transcriptional axes in protein and lipid homeostasis		Tsuyoshi Waku Akira Kobayashi	2021/11/24
Roles of NRF3 in the hallmarks of cancer: proteasomal inactivation of tumor suppressors		Akira Kobayashi	2020/9/20
NFE2L1 and NFE2L3 complementarily maintain basal proteasome activity in cancer cells through CPEB3-mediated translational repression	Molecular and Cellular Biology	Tsuyoshi Waku Hiroyuki Katayama Miyako Hiraoka Atsushi Hatanaka Nanami Nakamura ...	2020/6/29
NRF3-POMP-20S proteasome assembly axis promotes cancer development via ubiquitin-independent proteolysis of p53 and retinoblastoma protein	Molecular and cellular biology	Tsuyoshi Waku Nanami Nakamura Misaki Koji Hidenori Watanabe Hiroki Katoh ...	2020/4/28
New addiction to the NRF2‐related factor NRF3 in cancer cells: ubiquitin‐independent proteolysis through the 20S proteasome		Akira Kobayashi Tsuyoshi Waku	2020/1