Tomohisa Shimasaki

Overview

Explore the profile of Tomohisa Shimasaki including associated specialties, affiliations and a list of published articles.

Snapshot

Articles 5

Citations 17

Followers 0

Related Specialties

Biology

Microbiology

Cell Biology

Top 10 Co-Authors

Kazufumi Yazaki

Arisa Shibata

Ken Shirasu

Akifumi Sugiyama

Sachiko Masuda

Yuichi Aoki

Ryohei Thomas Nakano

Wataru Suda

Wataru Yazaki

Akinori Ando

Published In

Sci Rep

Plant Cell Physiol

mBio

ISME Commun

Microbes Environ

Affiliations

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Recent Articles

An isoflavone catabolism gene cluster underlying interkingdom interactions in the soybean rhizosphere

Aoki N, Shimasaki T, Yazaki W, Sato T, Nakayasu M, Ando A, et al.

ISME Commun . 2024 May; 4(1):ycae052. PMID: 38707841

Plant roots secrete various metabolites, including plant specialized metabolites, into the rhizosphere, and shape the rhizosphere microbiome, which is crucial for the plant health and growth. Isoflavones are major plant...

Long-Term Consequences of PTI Activation and Its Manipulation by Root-Associated Microbiota

Nakano R, Shimasaki T

Plant Cell Physiol . 2024 Mar; 65(5):681-693. PMID: 38549511

In nature, plants are constantly colonized by a massive diversity of microbes engaged in mutualistic, pathogenic or commensal relationships with the host. Molecular patterns present in these microbes activate pattern-triggered...

Nitrogen Deficiency-induced Bacterial Community Shifts in Soybean Roots

Yazaki W, Shimasaki T, Aoki Y, Masuda S, Shibata A, Suda W, et al.

Microbes Environ . 2021 Jul; 36(3). PMID: 34234044

Nitrogen deficiency affects soybean growth and physiology, such as symbiosis with rhizobia; however, its effects on the bacterial composition of the soybean root microbiota remain unclear. A bacterial community analysis...

Tobacco Root Endophytic Harbors Genomic Features Enabling the Catabolism of Host-Specific Plant Specialized Metabolites

Shimasaki T, Masuda S, Garrido-Oter R, Kawasaki T, Aoki Y, Shibata A, et al.

mBio . 2021 May; 12(3):e0084621. PMID: 34044592

Plant roots constitute the primary interface between plants and soilborne microorganisms and harbor microbial communities called the root microbiota. Recent studies have demonstrated a significant contribution of plant specialized metabolites...

X-ray structures of fructosyl peptide oxidases revealing residues responsible for gating oxygen access in the oxidative half reaction

Shimasaki T, Yoshida H, Kamitori S, Sode K

Sci Rep . 2017 Jun; 7(1):2790. PMID: 28584265

Current enzymatic systems for quantifying glycated hemoglobin are based on the FAD-containing enzyme fructosyl peptide oxidase (FPOX). FPOX has substrate specificity for fructosyl- N-valyl-histidine derived from proteolytic digestion of the...