Yusuke V Morimoto

Overview

Explore the profile of Yusuke V Morimoto including associated specialties, affiliations and a list of published articles.

Snapshot

Articles 54

Citations 1159

Followers 0

Related Specialties

Microbiology

Molecular Biology

Science

Top 10 Co-Authors

Tohru Minamino

Keiichi Namba

Shuichi Nakamura

Nobunori Kami-Ike

Miki Kinoshita

Yumi Inoue

Noritaka Hara

Tomoko Miyata

Yong-Suk Che

Takayuki Kato

Published In

Sci Rep

Mol Microbiol

J Bacteriol

Biomolecules

Bio Protoc

Affiliations

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Recent Articles

31.

High-Resolution pH Imaging of Living Bacterial Cells To Detect Local pH Differences

Morimoto Y, Kami-Ike N, Miyata T, Kawamoto A, Kato T, Namba K, et al.

mBio . 2016 Dec; 7(6). PMID: 27923921

Importance: The flagellar type III export apparatus is required for construction of the bacterial flagellum beyond the cellular membranes. The export apparatus consists of a transmembrane export gate and a...

32.

The C-terminal periplasmic domain of MotB is responsible for load-dependent control of the number of stators of the bacterial flagellar motor

Castillo D, Nakamura S, Morimoto Y, Che Y, Kami-Ike N, Kudo S, et al.

Biophysics (Nagoya-shi) . 2016 Aug; 9:173-81. PMID: 27493556

The bacterial flagellar motor is made of a rotor and stators. In Salmonella it is thought that about a dozen MotA/B complexes are anchored to the peptidoglycan layer around the...

33.

Role of the Dc domain of the bacterial hook protein FlgE in hook assembly and function

Moriya N, Minamino T, Ferris H, Morimoto Y, Ashihara M, Kato T, et al.

Biophysics (Nagoya-shi) . 2016 Aug; 9:63-72. PMID: 27493542

The bacterial flagellar hook acts as a universal joint to smoothly transmit torque produced by the motor to the filament. The hook protein FlgE assembles into a 55 nm tubular...

34.

The Bacterial Flagellar Type III Export Gate Complex Is a Dual Fuel Engine That Can Use Both H+ and Na+ for Flagellar Protein Export

Minamino T, Morimoto Y, Hara N, Aldridge P, Namba K

PLoS Pathog . 2016 Mar; 12(3):e1005495. PMID: 26943926

The bacterial flagellar type III export apparatus utilizes ATP and proton motive force (PMF) to transport flagellar proteins to the distal end of the growing flagellar structure for self-assembly. The...

35.

FliH and FliI ensure efficient energy coupling of flagellar type III protein export in Salmonella

Minamino T, Kinoshita M, Inoue Y, Morimoto Y, Ihara K, Koya S, et al.

Microbiologyopen . 2016 Feb; 5(3):424-35. PMID: 26916245

For construction of the bacterial flagellum, flagellar proteins are exported via its specific export apparatus from the cytoplasm to the distal end of the growing flagellar structure. The flagellar export...

36.

Domain-swap polymerization drives the self-assembly of the bacterial flagellar motor

Baker M, Hynson R, Ganuelas L, Shah Mohammadi N, Liew C, Rey A, et al.

Nat Struct Mol Biol . 2016 Feb; 23(3):197-203. PMID: 26854663

Large protein complexes assemble spontaneously, yet their subunits do not prematurely form unwanted aggregates. This paradox is epitomized in the bacterial flagellar motor, a sophisticated rotary motor and sensory switch...

37.

H(+) and Na(+) are involved in flagellar rotation of the spirochete Leptospira

Islam M, Morimoto Y, Kudo S, Nakamura S

Biochem Biophys Res Commun . 2015 Sep; 466(2):196-200. PMID: 26348776

Leptospira is a spirochete possessing intracellular flagella. Each Leptospira flagellar filament is linked with a flagellar motor composed of a rotor and a dozen stators. For many bacterial species, it...

38.

A lactose fermentation product produced by Lactococcus lactis subsp. lactis, acetate, inhibits the motility of flagellated pathogenic bacteria

Nakamura S, Morimoto Y, Kudo S

Microbiology (Reading) . 2015 Jan; 161(Pt 4):701-7. PMID: 25573770

Many strains of lactic acid bacteria have been used for the production of probiotics. Some metabolites produced by lactic acid bacteria impair the motilities of pathogenic bacteria. Because bacterial motility...

39.

The bacterial flagellar protein export apparatus processively transports flagellar proteins even with extremely infrequent ATP hydrolysis

Minamino T, Morimoto Y, Kinoshita M, Aldridge P, Namba K

Sci Rep . 2014 Dec; 4:7579. PMID: 25531309

For self-assembly of the bacterial flagellum, a specific protein export apparatus utilizes ATP and proton motive force (PMF) as the energy source to transport component proteins to the distal growing...

40.

Assembly dynamics and the roles of FliI ATPase of the bacterial flagellar export apparatus

Bai F, Morimoto Y, Yoshimura S, Hara N, Kami-Ike N, Namba K, et al.

Sci Rep . 2014 Oct; 4:6528. PMID: 25284201

For construction of the bacterial flagellum, FliI ATPase forms the FliH2-FliI complex in the cytoplasm and localizes to the flagellar basal body (FBB) through the interaction of FliH with a...