Molecular motor works by detecting minute changes in force

User rating: 4.6 / 5 after 7 vote(s)

Researchers at the University of Pennsylvania School of Medicine discovered that the activity of a specific family of nanometer-sized molecular motors called myosin-I is regulated by force. The motor puts tension on cellular springs that allow vibrations to be detected within the body. This finely tuned regulation has important implications for understanding a wide variety of basic cellular processes, including hearing and balance and glucose uptake in response to insulin. The findings appear in the most recent issue of Science.


Full story »
All News summaries from Nanotechnology news
All News summaries for July 09, 2008

Ultrananocrystalline-diamond coating improves mechanical pump seals

8 hours ago | User rating: not rated yet
(PhysOrg.com) -- From petroleum to food and beverage to pharmaceuticals, most industries use mechanical pumps, and all these pumps rely on seals to reduce leaks and maintenance costs. Argonne researchers, ...

New knowledge about thermoelectric materials could give better energy efficiency

9 hours ago | User rating: not rated yet
Thermoelectric materials can be assembled into units, which can transform the thermal difference to electrical energy or vice versa – electrical current to cooling. An effective utilization requires however that the material ...

Nanoscopic screening process to speed drug discovery

Oct 06, 2008 | User rating: not rated yet
Researchers at Wake Forest University are using nanotechnology to search for new cancer-fighting drugs through a process that could be up to 10,000 times faster than current methods.

Playing Pinball with Atoms

Oct 06, 2008 | User rating: not rated yet
With nanotechnology yielding a burgeoning menagerie of microscopic pumps, motors, and other machines for potential use in medicine and industry, here is one good question: How will humans turn those devices ...

New material could speed development of hydrogen powered vehicles

Oct 06, 2008 | User rating: not rated yet
Researchers in Greece report design of a new material that almost meets the U.S. Department of Energy (DOE) 2010 goals for hydrogen storage and could help eliminate a key roadblock to practical hydrogen-powered ...
Goto Archive PhysOrg Forum Goto Archive Video Goto Archive Editorials Goto Archive Free Magazines Goto Archive Newsletter

News Archive