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Mycoplasma mobile moves into overdrive: Twin motor modified from ATP synthase discovered

Mycoplasma mobile moves into overdrive: Twin motor modified from ATP synthase discovered
eurekalert.org - get the latest breaking news, showbiz & celebrity photos, sport news & rumours, viral videos and top stories from eurekalert.org Daily Mail and Mail on Sunday newspapers.

Japan
Osaka
Keiichi-namba
Noriyuki-kodera
Makoto-miyata
Takuma-toyonaga
Osaka-city-university
Research-funds-for-osaka-city-university
Japan-medical-research-organization
Japan-agency-for-medical-research
Ministry-of-education
Nano-life-science-institute-of-kanazawa-university

Twin motor modified from ATP synthase discovered

Twin motor modified from ATP synthase discovered
miragenews.com - get the latest breaking news, showbiz & celebrity photos, sport news & rumours, viral videos and top stories from miragenews.com Daily Mail and Mail on Sunday newspapers.

Osaka
Japan
Noriyuki-kodera
Takuma-toyonaga
Makoto-miyata
Nano-life-science-institute-of-kanazawa-university
Osaka-university
Kanazawa-university
Osaka-city-university
Nano-life-science-institute
Osaka-city
ஒசகக

Kanazawa University research: Understanding a nanomuscle

Share this article KANAZAWA, Japan, July 14, 2021 /PRNewswire/  Researchers at Kanazawa University report in Proceedings of the National Academy of Sciences how a protein molecular motor can chop off a piece of cell membrane. The constrict-and-cut mechanism resembles that of a ratchet motor, and is of importance in processes mediating the entry of particles into cells. Cells in the human body constantly receive substances from the outside via a process called endocytosis. One important endocytosis pathway involves the formation of a protrusion within the cell membrane, pointing to the inside of the cell, triggered when a molecule needing to get in reaches the membrane. The protrusion wraps and closes around the molecule, after which it is cut off, leaving the wrapped molecule (a so-called vesicle) inside the cell. A key role in the cutting-off mechanism is played by dynamin, a protein that can locally constrict cell membranes, and chop off bits. The precise constriction

Japan
Takaramachi
Tokyo
Kakuma
Toyama
Hagen-hofmann
Alexanders-mikhailov
Gabriel-rosenblum
Alexander-mikhailov
Jeffreyk-noel
Olegm-ganichkin
Oliver-daumke

Kanazawa University research: Regulators for extracellular vesicle production

Kanazawa University research: Regulators for extracellular vesicle production
prnewswire.com - get the latest breaking news, showbiz & celebrity photos, sport news & rumours, viral videos and top stories from prnewswire.com Daily Mail and Mail on Sunday newspapers.

Kakuma
Toyama
Japan
Takaramachi
Tokyo
Katsuhiko-kida
Jingchun-jin
Rito-shintani
Takeshi-yoshida
Yingshi-piao
Yunfei-ma
Hiroe-yoneda

Unraveling DNA packaging

Researchers at Kanazawa University report in

Japan
Richard-wong
Goro-nishide
Division-of-nano-life-science
Life-science-institute
Program-for-nano
School-of-frontier-science-initiative
Kanazawa-university
Japan-world-premier-international-research-center-initiative
Kanazawa-university-nano
Ministry-of-education
Nano-life-science

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