Nozawa, Takashi(Graduate School of Medicine, Medicine) | Activity Database on Education and Research, Kyoto University

Nozawa, Takashi

Graduate School of Medicine, Medicine Associate Professor

Last Updated :2025/05/27

Basic Information

Faculty

医学部

Academic Degree

修士（農学）(新潟大学)

博士（生命科学）(東京大学)

ID,URL

J-Global ID
201401089002999802

researchmap URL

https://researchmap.jp/7000010391

Last Updated :2025/05/27

Research

Research Topics, Overview of the research

Research Topics
Interaction of bacterial pathogens and host membrane trafficking
Overview of the research
Many pathogenic microbes invade into host cells and proliferate. In contrast, host cells defend cells through membrane trafficking pathways such as endosome-lysosome and autophagy. We focus on and investigate the interaction of membrane trafficking and pathogenic bacteria to reveal the mechanisms of infectious disease and intracellular immunity.

Research Areas

Life sciences, Bacteriology

Papers

Complete genome sequence of three Staphylococcus epidermidis strains isolated from patients with skin diseases in Japan.
Yu Kawagishi; Teresia M Kimeu; Kazunori Murase; Akemi Yoshida; Atsuko Minowa-Nozawa; Takashi Nozawa; Yasuhiro Tsuchido; Taro Noguchi; Miki Nagao; Saeko Nakajima; Ichiro Nakagawa
Microbiology resource announcements, 20 Jun. 2024

ATG9B regulates bacterial internalization via actin rearrangement.
Junpei Iibushi; Takashi Nozawa; Hirotaka Toh; Ichiro Nakagawa
iScience, 17 May 2024

Guanylate-Binding Protein 1 Regulates Infection-Induced Autophagy through TBK1 Phosphorylation
Miyako Hikichi; Hirotaka Toh; Atsuko Minowa-Nozawa; Takashi Nozawa; Ichiro Nakagawa
Cellular Microbiology, 2022

Rab41-mediated ESCRT machinery repairs membrane rupture by a bacterial toxin in xenophagy
Takashi Nozawa; Hirotaka Toh; Junpei Iibushi; Kohei Kogai; Atsuko Minowa-Nozawa; Junko Satoh; Shinji Ito; Kazunori Murase; Ichiro Nakagawa
Nature Communications, 06 Oct. 2023

Group A Streptococcus cation diffusion facilitator proteins contribute to immune evasion by regulating intracellular metal concentrations.
Chihiro Aikawa; Akihide Shimizu; Makoto Nakakido; Kazunori Murase; Takashi Nozawa; Kouhei Tsumoto; Ichiro Nakagawa
Biochemical and biophysical research communications, 24 Jul. 2023

FBXO2/SCF ubiquitin ligase complex directs xenophagy through recognizing bacterial surface glycan.
Akihiro Yamada; Miyako Hikichi; Takashi Nozawa; Ichiro Nakagawa
EMBO reports, 04 Nov. 2021

Streptococcus suisのヒト及びブタ細胞における細胞毒性およびオートファジー誘導に関する検討
黒木香澄; 野澤孝志; 渡辺孝康; Kim Hyunjung; 鈴木詠律子; 中川一路; 関崎勉
日本細菌学雑誌, Feb. 2018

Biological Effect of Streptococcus pyogenes-Released Extracellular Vesicles on Human Monocytic Cells, Induction of Cytotoxicity, and Inflammatory Response
Kazunori Murase; Chihiro Aikawa; Takashi Nozawa; Ayako Nakatake; Kuniyo Sakamoto; Taisei Kikuchi; Ichiro Nakagawa
Frontiers in Cellular and Infection Microbiology, 19 Jul. 2021

Group A Streptococcus modulates RAB1- and PIK3C3 complex-dependent autophagy.
Hirotaka Toh; Takashi Nozawa; Atsuko Minowa-Nozawa; Miyako Hikichi; Shintaro Nakajima; Chihiro Aikawa; Ichiro Nakagawa
Autophagy, Feb. 2020, Peer-reviewed

LAMTOR2/LAMTOR1 complex is required for TAX1BP1-mediated xenophagy.
Lin CY; Nozawa T; Minowa-Nozawa A; Toh H; Aikawa C; Nakagawa I
Cellular microbiology, Apr. 2019, Peer-reviewed

RAB30 regulates PI4KB (phosphatidylinositol 4-kinase beta)-dependent autophagy against group A Streptococcus.
Nakajima K; Nozawa T; Minowa-Nozawa A; Toh H; Yamada S; Aikawa C; Nakagawa I
Autophagy, Mar. 2019, Peer-reviewed

Phylogenetic relationship of prophages is affected by CRISPR selection in Group A Streptococcus.
Shunsuke Yamada; Masaki Shibasaki; Kazunori Murase; Takayasu Watanabe; Chihiro Aikawa; Takashi Nozawa; Ichiro Nakagawa
BMC microbiology, 28 Jan. 2019, Peer-reviewed
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NLRX1 Negatively Regulates Group A Streptococcus Invasion and Autophagy Induction by Interacting With the Beclin 1-UVRAG Complex.
Chihiro Aikawa; Shintaro Nakajima; Miho Karimine; Takashi Nozawa; Atsuko Minowa-Nozawa; Hirotaka Toh; Shunsuke Yamada; Ichiro Nakagawa
Frontiers in cellular and infection microbiology, 2018, Peer-reviewed
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Rab35 GTPase recruits NDP52 to autophagy targets (vol 36, pg 2790, 2017)
Atsuko Minowa-Nozawa; Takashi Nozawa; Keiko Okamoto-Furuta; Haruyasu Kohda; Ichiro Nakagawa
EMBO JOURNAL, Nov. 2017, Peer-reviewed

Rab35 GTPase recruits NDP52 to autophagy targets (vol 36, pg 2790, 2017)
Atsuko Minowa-Nozawa; Takashi Nozawa; Keiko Okamoto-Furuta; Haruyasu Kohda; Ichiro Nakagawa
EMBO JOURNAL, Nov. 2017, Peer-reviewed

A Locus Encoding Variable Defense Systems against Invading DNA Identified in Streptococcus suis
Masatoshi Okura; Takashi Nozawa; Takayasu Watanabe; Kazunori Murase; Ichiro Nakagawa; Daisuke Takamatsu; Makoto Osaki; Tsutomu Sekizaki; Marcelo Gottschalk; Shigeyuki Hamada; Fumito Maruyama
GENOME BIOLOGY AND EVOLUTION, Apr. 2017, Peer-reviewed
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The STX6-VTI1B-VAMP3 complex facilitates xenophagy by regulating the fusion between recycling endosomes and autophagosomes
Takashi Nozawa; Atsuko Minowa-Nozawa; Chihiro Aikawa; Ichiro Nakagawa
AUTOPHAGY, 2017, Peer-reviewed
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Bcl-xL Affects Group A Streptococcus-Induced Autophagy Directly, by Inhibiting Fusion between Autophagosomes and Lysosomes, and Indirectly, by Inhibiting Bacterial Internalization via Interaction with Beclin 1-UVRAG
Shintaro Nakajima; Chihiro Aikawe; Takashi Nozawa; Atsuko Minowa-Nozawa; Hirotaka Toh; Ichiro Nakagawa
PLOS ONE, Jan. 2017, Peer-reviewed
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YvqE and CovRS of Group A Streptococcus Play a Pivotal Role in Viability and Phenotypic Adaptations to Multiple Environmental Stresses
Amonrattana Roobthaisong; Chihiro Aikawa; Takashi Nozawa; Fumito Maruyama; Ichiro Nakagawa
PLOS ONE, Jan. 2017, Peer-reviewed
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The intracellular microbial sensor NLRP4 directs Rho-actin signaling to facilitate Group A Streptococcus-containing autophagosome-like vacuole formation
Takashi Nozawa; Chihiro Aikawa; Atsuko Minowa-Nozawa; Ichiro Nakagawa
AUTOPHAGY, 2017, Peer-reviewed

DNA-based culture-independent analysis detects the presence of group a streptococcus in throat samples from healthy adults in Japan
Tejaswini Kulkarni; Chihiro Aikawa; Takashi Nozawa; Kazunori Murase; Fumito Maruyama; Ichiro Nakagawa
BMC MICROBIOLOGY, Oct. 2016, Peer-reviewed
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Golgi-Resident GTPase Rab30 Promotes the Biogenesis of Pathogen-Containing Autophagosomes
Seiichiro Oda; Takashi Nozawa; Atsuko Nozawa-Minowa; Misako Tanaka; Chihiro Aikawa; Hiroyuki Harada; Ichiro Nakagawa
PLOS ONE, Jan. 2016, Peer-reviewed
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Comparative genome analysis and identification of competitive and cooperative interactions in a polymicrobial disease
Akiko Endo; Takayasu Watanabe; Nachiko Ogata; Takashi Nozawa; Chihiro Aikawa; Shinichi Arakawa; Fumito Maruyama; Yuichi Izumi; Ichiro Nakagawa
ISME JOURNAL, Mar. 2015, Peer-reviewed

Rab17-mediated recycling endosomes contribute to autophagosome formation in response to Group A Streptococcus invasion
Bijaya Haobam; Takashi Nozawa; Atsuko Minowa-Nozawa; Misako Tanaka; Seiichiro Oda; Takayasu Watanabe; Chihiro Aikawa; Fumito Maruyama; Ichiro Nakagawa
CELLULAR MICROBIOLOGY, Dec. 2014, Peer-reviewed

Endogenous Nitrated Nucleotide Is a Key Mediator of Autophagy and Innate Defense against Bacteria
Chiaki Ito; Yohei Saito; Takashi Nozawa; Shigemoto Fujii; Tomohiro Sawa; Hirofumi Inoue; Tetsuro Matsunaga; Shahzada Khan; Soichiro Akashi; Ryota Hashimoto; Chihiro Aikawa; Eriko Takahashi; Hiroshi Sagara; Masaaki Komatsu; Keiji Tanaka; Takaaki Akaike; Ichiro Nakagawa; Hirokazu Arimoto
MOLECULAR CELL, Dec. 2013, Peer-reviewed

Genetic Analysis of Capsular Polysaccharide Synthesis Gene Clusters from All Serotypes of Streptococcus suis: Potential Mechanisms for Generation of Capsular Variation
Masatoshi Okura; Daisuke Takamatsu; Fumito Maruyama; Takashi Nozawa; Ichiro Nakagawa; Makoto Osaki; Tsutomu Sekizaki; Marcelo Gottschalk; Yumi Kumagai; Shigeyuki Hamada
APPLIED AND ENVIRONMENTAL MICROBIOLOGY, Apr. 2013, Peer-reviewed

CRISPR Regulation of Intraspecies Diversification by Limiting IS Transposition and Intercellular Recombination
Takayasu Watanabe; Takashi Nozawa; Chihiro Aikawa; Atsuo Amano; Fumito Maruyama; Ichiro Nakagawa
GENOME BIOLOGY AND EVOLUTION, 2013, Peer-reviewed

The small GTPases Rab9A and Rab23 function at distinct steps in autophagy during Group A Streptococcus infection
Takashi Nozawa; Chihiro Aikawa; Akira Goda; Fumito Maruyama; Shigeyuki Hamada; Ichiro Nakagawa
CELLULAR MICROBIOLOGY, Aug. 2012, Peer-reviewed

Complete Genome Sequence of the Bacterium Porphyromonas gingivalis TDC60, Which Causes Periodontal Disease
Takayasu Watanabe; Fumito Maruyama; Takashi Nozawa; Akinobu Aoki; Soichiro Okano; Yasuko Shibata; Kenshiro Oshima; Ken Kurokawa; Masahira Hattori; Ichiro Nakagawa; Yoshimitsu Abiko
JOURNAL OF BACTERIOLOGY, Aug. 2011, Peer-reviewed

CRISPR Inhibition of Prophage Acquisition in Streptococcus pyogenes
Takashi Nozawa; Nayuta Furukawa; Chihiro Aikawa; Takayasu Watanabe; Bijaya Haobam; Ken Kurokawa; Fumito Maruyama; Ichiro Nakagawa
PLOS ONE, May 2011, Peer-reviewed

Specific Behavior of Intracellular Streptococcus pyogenes That Has Undergone Autophagic Degradation Is Associated with Bacterial Streptolysin O and Host Small G Proteins Rab5 and Rab7
Atsuo Sakurai; Fumito Maruyama; Junko Funao; Takashi Nozawa; Chihiro Aikawa; Nobuo Okahashi; Seikou Shintani; Shigeyuki Hamada; Takashi Ooshima; Ichiro Nakagawa
JOURNAL OF BIOLOGICAL CHEMISTRY, Jul. 2010, Peer-reviewed

Reactive oxygen species induced by Streptococcus pyogenes invasion trigger apoptotic cell death in infected epithelial cells
Chihiro Aikawa; Takashi Nozawa; Fumito Maruyama; Kohei Tsumoto; Shigeyuki Hamada; Ichiro Nakagawa
CELLULAR MICROBIOLOGY, Jun. 2010, Peer-reviewed

Cost effective DNA sequencing and template preparation from bacterial colonies and plasmids
Fumito Maruyama; Takashi Nozawa; Chihiro Aikawa; Atsuo Sakurai; Ichiro Nakagawa
JOURNAL OF BIOSCIENCE AND BIOENGINEERING, Apr. 2009, Peer-reviewed

Swarming of Pseudomonas aeruginosa PAO1 without differentiation into elongated hyperflagellates on hard agar minimal medium
Chihiro Takahashi; Takashi Nozawa; Taichiro Tanikawa; Yoji Nakagawa; Junichi Wakita; Mitsugu Matsushita; Tohey Matsuyama
FEMS MICROBIOLOGY LETTERS, Mar. 2008, Peer-reviewed

Distinct function of Pseudomonas aeruginosa type IV pili disclosed in the bacterial pass-through of membrane filter with smaller pore sizes
Hiroyuki Hasegawa; Taichiro Tanikawa; Takashi Nozawa; Kentaro Nakazawa; Yoji Nakagawa; Tohey Matsuyama
MICROBIOLOGY AND IMMUNOLOGY, 2007, Peer-reviewed

Rhamnolipid-dependent spreading growth of pseudomonas aeruginosa on a high-agar medium: marked enhancement under CO2-rich anaerobic conditions
Takashi Nozawa; Taichiro Tanikawa; Hiroyuki Hasegawa; Chihiro Takahashi; Yumi Ando; Mitsugu Matsushita; Yoji Nakagawa; Tohey Matsuyama
MICROBIOLOGY AND IMMUNOLOGY, 2007, Peer-reviewed

Single-chain variable fragment (scFv) targeting streptolysin O controls group A Streptococcus infection.
Chihiro Aikawa; Kiyosumi Kawashima; Chihiro Fukuzaki; Makoto Nakakido; Kazunori Murase; Takashi Nozawa; Kouhei Tsumoto; Ichiro Nakagawa
Biochemical and biophysical research communications, 20 Aug. 2021

Intracellular Group A Streptococcus Induces Golgi Fragmentation To Impair Host Defenses through Streptolysin O and NAD-Glycohydrolase.
Takashi Nozawa; Junpei Iibushi; Hirotaka Toh; Atsuko Minowa-Nozawa; Kazunori Murase; Chihiro Aikawa; Ichiro Nakagawa
mBio, 09 Feb. 2021
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Complete Genome Sequences of Two Streptococcus suis Strains Isolated from Asymptomatic Pigs.
Atsuko Minowa-Nozawa; Takashi Nozawa; Daisuke Takamatsu; Akemi Yoshida; Kazunori Murase; Taisei Kikuchi; Kasumi Ishida-Kuroki; Yoshihiro Nitta; Tsutomu Sekizaki; Ichiro Nakagawa
Microbiology resource announcements, 19 Nov. 2020

Complete Genome Sequences of Streptococcus pyogenes Serotype M3, M28, and M89 Strains Isolated from Human Patients in Japan, 1994 to 2009.
Kazunori Murase; Takashi Nozawa; Chihiro Aikawa; Miki Nagao; Tadayoshi Ikebe; Akemi Yoshida; Taisei Kikuchi; Ichiro Nakagawa
Microbiology resource announcements, 15 Oct. 2020

Complete Genome Sequences of Streptococcus pyogenes Serotype M3, M28, and M89 Strains Isolated from Human Patients in Japan, 1994 to 2009
Kazunori Murase; Takashi Nozawa; Chihiro Aikawa; Miki Nagao; Tadayoshi Ikebe; Akemi Yoshida; Taisei Kikuchi; Ichiro Nakagawa
MICROBIOLOGY RESOURCE ANNOUNCEMENTS, Oct. 2020

Identification of Group A Streptococcus-Containing Autophagosome-Like Vacuoles.
Takashi Nozawa; Ichiro Nakagawa
Methods in molecular biology (Clifton, N.J.), 2020

Autophagy Receptor Tollip Facilitates Bacterial Autophagy by Recruiting Galectin-7 in Response to Group A Streptococcus Infection.
Ching-Yu Lin; Takashi Nozawa; Atsuko Minowa-Nozawa; Hirotaka Toh; Miyako Hikichi; Junpei Iibushi; Ichiro Nakagawa
Frontiers in cellular and infection microbiology, 2020

Complete Genome Sequences of Eight Methicillin-Resistant Staphylococcus aureus Strains Isolated from Patients in Japan.
Miyako Hikichi; Miki Nagao; Kazunori Murase; Chihiro Aikawa; Takashi Nozawa; Akemi Yoshida; Taisei Kikuchi; Ichiro Nakagawa
Microbiology resource announcements, 21 Nov. 2019, Peer-reviewed

Rab35 GTPase recruits NPD52 to autophagy targets
Minowa-Nozawa A; Nozawa T; Okamoto-Furuta K; Kohda H; Nakagawa I
EMBO Journal, Aug. 2017, Peer-reviewed

Prevalent emm types and superantigen gene patterns of group A Streptococcus in Thailand
Paveenkittiporn W; Nozawa, T; Dejsirilert S; Nakagawa I; Hamada S
Epidemiology and Infection, Mar. 2016, Peer-reviewed

Rab Proteins in Autophagy: Streptococcus Model
Nozawa T; Nakagawa I
Autophagy, Infection, and the Immune Response, Feb. 2015, Peer-reviewed

Development of a Two-Step Multiplex PCR Assay for Typing of Capsular Polysaccharide Synthesis Gene Clusters of Streptococcus suis
Okura M; lachance C; Osaki M; Sekizaki T; Maruyama F; Nozawa T; Nakagawa I; Hamada S; Rossignol C; Gottschalk M; Takamatsu D
Journal of Clinical Microbiology, May 2014, Peer-reviewed

Misc.

ゲノム解析から明らかとなったStreptococcus suisにおける曖昧な種の境界及び進化の鍵となるスポット
大倉正稔; 野澤孝志; 渡辺孝康; 中川一路; 高松大輔; 大崎慎人; 関崎勉; 浜田茂幸; 丸山史人
日本細菌学雑誌, 2015

TBC1D9 regulates TBK1 activation through Ca2+ signaling in selective autophagy.
Takashi Nozawa; Shunsuke Sano; Atsuko Minowa-Nozawa; Hirotaka Toh; Shintaro Nakajima; Kazunori Murase; Chihiro Aikawa; Ichiro Nakagawa
Nature communications, 07 Feb. 2020
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Group A Streptococcus NAD-Glycohydrolase Inhibits Caveolin 1-Mediated Internalization Into Human Epithelial Cells.
Hirotaka Toh; Ching-Yu Lin; Shintaro Nakajima; Chihiro Aikawa; Takashi Nozawa; Ichiro Nakagawa
Frontiers in cellular and infection microbiology, 2019

CRISPR-プロファージ相互作用解析から見出されたA群レンサ球菌のゲノム進化機構
山田俊介; 柴崎真樹; 渡辺孝康; 相川知宏; 野澤孝志; 丸山史人; 中川一路
日本細菌学雑誌, 2015

P25-42 CRISPRを保有するバクテリオファージの系統学的普遍性(ポスター発表)
渡辺孝康; 野澤孝志; 丸山史人; 中川一路
日本微生物生態学会講演要旨集, 2014

8-Nitro-cGMP: an endogenous regulator of antibacterial autophagy
Ito Chiaki; Saito Yohei; Nozawa Takashi; Fujii Shigemoto; Hashimoto Ryota; Sawa Tomohiro; Akaike Takaaki; Nakagawa Ichiro; Hirokazu Arimoto
Symposium on the Chemistry of Natural Products, symposium papers, 2014

The specific behavior of intracellular Streptococcus progenies undergone the autophagic degradation is associated with bacterial streptolysin O and host small G proteins Rab5 and Rab7.
Sakurai A; Maruyama F; Funao J; Nozawa T; Aikawa C; Okahashi N; Shintani S; Hamada S; Ooshima T; Nakagawa I
J Biol Chem

Presentations

TBC1D9を介したカルシウムシグナリングはTBK1依存性ゼノファジーを制御する
野澤孝志
第92回日本細菌学会総会, 23 Apr. 2019

選択的オートファジーを制御するRab GTPaseネットワーク
野澤孝志
第26回母子医療センターシンポジウム, 06 Feb. 2019, Invited

細胞内病原体センサーNLRP4はRho-アクチン制御を介してA群レンサ球菌に対するオートファジーを誘導する
野澤孝志
第91回日本生化学会大会, 24 Sep. 2018

The Rab35 GTPase and TBK1 mark targets of autophagosomes by recruiting NDP52
Takashi2 Nozawa
The 17th Awaji International Forum on Infection and Immunity, 10 Sep. 2018

Awards

Mar. 2018
日本細菌学会, 黒屋奨学賞

External funds: Kakenhi

Analysis of host control mechanism by novel function of Nga, a secreted toxin of group A Streptococcus
Grant-in-Aid for Scientific Research (C)
Basic Section 49050:Bacteriology-related
Kyoto University
Takashi Nozawa
From 01 Apr. 2021, To 31 Mar. 2024, Project Closed
A群レンサ球菌;分泌毒素;ストレス応答;ストレス顆粒;NAD-glycohydrolase;Streptolysin O;ゴルジ体;Rab GTPase
https://kaken.nii.ac.jp/grant/KAKENHI-PROJECT-21K07023/

Functional analysis of Beclin 1 regulating different stages during bacterial infection
Grant-in-Aid for Scientific Research (C)
Basic Section 49050:Bacteriology-related
Kyoto University
Chihiro Aikawa
From 01 Apr. 2019, To 31 Mar. 2022, Project Closed
A群レンサ球菌;Beclin 1;細胞侵入;AKT/PKB;ILK1;オートファジー
https://kaken.nii.ac.jp/grant/KAKENHI-PROJECT-19K07537/

Elucidation of the Rab regulatory network that induces bacterial species-specific xenophagy
Grant-in-Aid for Scientific Research (B)
Basic Section 49050:Bacteriology-related
Kyoto University
Ichiro Nakagawa
From 01 Apr. 2019, To 31 Mar. 2022, Project Closed
ゼノファジー;A群レンサ球菌;ユビキチン化;Fboxプロテイン;菌体表層糖鎖;GAC;ガレクチン;-A群レンサ球菌;SLO;Nga;ゴルジ体;黄色ブドウ球菌;RabGAP;RabGEF;オートファジー;上皮間接着;TBC1D9;細胞内カルシウム
https://kaken.nii.ac.jp/grant/KAKENHI-PROJECT-19H03471/

Conprehensive functional analyses of cell-wall proteins of Streptococcus suis
Grant-in-Aid for Scientific Research (B)
Basic Section 42020:Veterinary medical science-related
Kyoto University;The University of Tokyo
TSUTOMU SEKIZAKI
From 01 Apr. 2019, To 31 Mar. 2023, Project Closed
豚レンサ球菌;細胞壁タンパク質;遺伝子破壊株;網羅的機能解析;病原性;細胞壁結合蛋白質
https://kaken.nii.ac.jp/grant/KAKENHI-PROJECT-19H03126/

Xenophagy recognizes bacteria through carbohydrate-binding ubiquitin ligase complex
Grant-in-Aid for Scientific Research (C)
Basic Section 49050:Bacteriology-related
Kyoto University
Takashi Nozawa
From 01 Apr. 2018, To 31 Mar. 2021, Project Closed
オートファジー;A群レンサ球菌;糖鎖;ゼノファジー;ガレクチン;GBP1;TBK1;TBC1D9;FBXO2;糖鎖認識
https://kaken.nii.ac.jp/grant/KAKENHI-PROJECT-18K07109/

Analysis of collaborative activities between the capsule-positive and capsule-negative Streptococcus suis in the induction of and escape from autophagy
Grant-in-Aid for Challenging Exploratory Research
The University of Tokyo
Tsutomu Sekizaki
From 01 Apr. 2016, To 31 Mar. 2019, Project Closed
豚レンサ球菌;オートファジー;莢膜;心内膜炎;感染症;細胞障害性;細胞侵入性;細胞壁タンパク質;オードファジー
https://kaken.nii.ac.jp/grant/KAKENHI-PROJECT-16K15037/

The role of Bcl-xL in the formation of the Beclin 1 complex and induction of autophagy during bacterial infection
Grant-in-Aid for Scientific Research (C)
Kyoto University
Chihiro Aikawa
From 01 Apr. 2016, To 31 Mar. 2019, Project Closed
オートファジー;Group A Streptococcus;Beclin 1;Bcl-xL;NLRX1;UVRAG;Beclin1複合体
https://kaken.nii.ac.jp/grant/KAKENHI-PROJECT-16K08775/

Regulation of xenophagy aginst Group A Streptococcus
Grant-in-Aid for Scientific Research (B)
Kyoto University
ICHIRO NAKAGAWA
From 01 Apr. 2016, To 31 Mar. 2019, Project Closed
A群レンサ球菌;オートファジー;Rab35;TDC1D10A;ゼノファジー;Rab30;フォスファチジルイノシトール4リン酸;細菌感染;ユビキチン化;Rabタンパク質;A群特異的糖鎖;ユビキチン;アダプター;糖鎖
https://kaken.nii.ac.jp/grant/KAKENHI-PROJECT-16H05188/

Visualization of bacteria-induced autophagy by live-imaging.
Grant-in-Aid for Challenging Exploratory Research
Kyoto University
ICHIRO NAKAGAWA
From 01 Apr. 2015, To 31 Mar. 2017, Project Closed
A群レンサ球菌;オートファジー;イメージング;Rabタンパク質;ゼノファジー;膜形成
https://kaken.nii.ac.jp/grant/KAKENHI-PROJECT-15K15130/

Molecular mechanism of selective autophagy against bacterial pathogens
Grant-in-Aid for Scientific Research (C)
Kyoto University
Takashi Nozawa
From 01 Apr. 2014, To 31 Mar. 2017, Project Closed
オートファジー;Rab GTPase;オートファジーアダプター;RAB GTPase;A群レンサ球菌;Rabタンパク質
https://kaken.nii.ac.jp/grant/KAKENHI-PROJECT-26462776/

Establishment of a new prediction medhods of epidemic strains in Group A Streptococcus by CRISPR typing.
Grant-in-Aid for Scientific Research (B)
Kyoto University;Tokyo Medical and Dental University
ICHIRO NAKAGAWA
From 01 Apr. 2013, To 31 Mar. 2016, Project Closed
A群レンサ球菌;emmタイピング;CRIPSR;レンサ球菌;ゲノム;莢膜;CRISPR;ブタレンサ球;スペーサー解析;流行予測;国際研究者交流;タイ
https://kaken.nii.ac.jp/grant/KAKENHI-PROJECT-25305013/

Analysis of Atg5 dependent and independent autophagy and induction mechanism of inflammation during bacterial infection.
Grant-in-Aid for Scientific Research (B)
Kyoto University;Tokyo Medical and Dental University
ICHIRO NAKAGAWA
From 01 Apr. 2013, To 31 Mar. 2016, Project Closed
A群レンサ球菌;xenophagy;オートファジー;Rabタンパク質;炎症;Rab30;Rab9;Rab23;Rab17;認識分子;炎症誘導;Atg5
https://kaken.nii.ac.jp/grant/KAKENHI-PROJECT-25293370/

Xenophagy membrane dynamics
Grant-in-Aid for Young Scientists (B)
Tokyo Medical and Dental University
Takashi NOZAWA
From 01 Apr. 2012, To 31 Mar. 2014, Project Closed
オートファジー;A群レンサ球菌;Rabタンパク質;Rab GTPase
https://kaken.nii.ac.jp/grant/KAKENHI-PROJECT-24790413/

A群レンサ球菌の金属輸送系を標的とした治療薬剤としての人工抗体の取得
Grant-in-Aid for Scientific Research (C)
Basic Section 49050:Bacteriology-related
Obihiro University of Agriculture and Veterinary Medicine;Kyoto University
相川知宏
From 01 Apr. 2022, To 31 Mar. 2025, Granted
A群レンサ球菌;金属輸送体;MntE;CzcD;抗体治療薬
https://kaken.nii.ac.jp/grant/KAKENHI-PROJECT-22K07053/

Elucidation of Xenophagy Regulation by Bacterial Glycan Recognition
Grant-in-Aid for Scientific Research (B)
Basic Section 49050:Bacteriology-related
Kyoto University
中川一路
From 01 Apr. 2022, To 31 Mar. 2025, Granted
ゼノファジー;Ａ群レンサ球菌;自然免疫;糖鎖認識;A群レンサ球菌;ユビキチン;認識;GBP1;ガレクチン３;TBK1;細菌感染
https://kaken.nii.ac.jp/grant/KAKENHI-PROJECT-22H02868/

Elucidation of the mechanism of competition between different bacterial species via extracellular vesicles and its application to the development of new drug discovery technologies
Grant-in-Aid for Scientific Research (C)
Basic Section 49050:Bacteriology-related
Kyoto University
村瀬一典
From 01 Apr. 2023, To 31 Mar. 2026, Granted
細胞外小胞
https://kaken.nii.ac.jp/grant/KAKENHI-PROJECT-23K06528/

多様な細菌感染に対するロバストネスを支えるゼノファジー機構の解明
Grant-in-Aid for Scientific Research (B)
Basic Section 49050:Bacteriology-related
Kyoto University
野澤孝志
From 01 Apr. 2024, To 31 Mar. 2027, Granted
A群レンサ球菌;ゼノファジー
https://kaken.nii.ac.jp/grant/KAKENHI-PROJECT-24K02279/

Elucidation of Xenophagy Regulation by Bacterial Glycan Recognition
Grant-in-Aid for Scientific Research (B)
Basic Section 49050:Bacteriology-related
Kyoto University
中川一路
From 01 Apr. 2022, To 31 Mar. 2025, Granted
細菌感染;ゼノファジー;ユビキチン;Ａ群レンサ球菌;A群レンサ球菌;ESCRT;Rab41;SLO;VPS4;自然免疫;糖鎖認識;認識;GBP1;ガレクチン３;TBK1
https://kaken.nii.ac.jp/grant/KAKENHI-PROJECT-23K24130/

細菌感染誘導性ストレス顆粒による第3のNRF2-KEAP1活性化経路の解明
Grant-in-Aid for Challenging Research (Exploratory)
Medium-sized Section 49:Pathology, infection/immunology, and related fields
Kyoto University
野澤孝志
From 28 Jun. 2024, To 31 Mar. 2026, Granted
ストレス顆粒;KEAP1;NRF2;A群レンサ球菌
https://kaken.nii.ac.jp/grant/KAKENHI-PROJECT-24K22052/

Last Updated :2025/05/27

Administration

Faculty management (title, position)

From 01 Oct. 2022, To 30 Sep. 2024
京都大学医学研究科・医学部動物実験委員会

From 01 Apr. 2015, To 31 Mar. 2017
医学図書館図書連絡委員会

From 01 Nov. 2016, To 30 Sep. 2018
動物実験委員会委員

From 01 Apr. 2017, To 31 Mar. 2018
動物実験施設運営委員

From 01 Oct. 2020, To 30 Sep. 2022
動物実験委員会委員

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Nozawa, Takashi

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External funds: Kakenhi

Administration

Faculty management (title, position)