News

Nature, Nurture or Neither: the new science of epigenetics (Santa Fe Radio Café, KSFR 101.1 FM, 8/20/2013)

Scientists Ratchet Up Understanding of Cellular Protein Factory (NSF News from the Field, 12/1/10)

Scientists Ratchet Up Understanding of Cellular Protein Factory (EurekaAlert!, 12/1/10)

Scientists Ratchet Up Understanding of Cellular Protein Factory (Science Daily, 12/3/10)

Biologists Unveil Mystery Behind Protein Factories of Ribosome (The A to Z of nanotechnology, 12/4/10)

Scientists Ratchet Up Understanding of Cellular Protein Factory (R & D Magazine, 12/2/10)

Navigating the ribosome's metastable energy landscape (Trends in Biochemical Sciences Cover 8/09)

Nonlocal Helix Formation Is Key to Understanding S-Adenosylmethionine-1 Riboswitch Function (Biophysical Journal Cover 1/09)

Simulation leads to breakthrough drugs (1663 Magazine 8/08)

NIH Scientists, Grantees Honored by White House (NIH Record, 9/8/06)

White House announces 2005 awards for Early Career Scientists and Engineers (7/26/06)

NIH OER Presidential Award for Early Career Scientists and Engineers achive (7/26/06)

Largest Computational Biology Simulation Mimics Life's Most Essential Nanomachine (Science Daily, 11/01)

Computer model gets to bottom of bacteria (Albuquerque Tribune, 10/31/05)

Inside a supercomputer at Los Alamos National Laboratory, a moving mass of 2.64 million atoms has squirmed to life, and with it, the first glimpse of cyber-bacteria.

Blue Gene/L tops its own supercomputer record (ZDNET, 10/27/05)

Tracing tRNA's Tricky Tango (ScienceNow, Science Magazine, 10/27/05)

Scientists have employed the sixth fastest computer in the world to simulate in rich new detail how the microscopic cellular factory called the ribosome accurately constructs proteins.

Los Alamos Claims Largest Computational Biology Stimulation (HPC Wire, 10/25/05)

Researchers at Los Alamos National Laboratory have set a world's record by performing the first million-atom computer simulation in biology. Using the "Q Machine" supercomputer, Los Alamos scientists have created a molecular simulation of the cell's protein-making structure, the ribosome.

Largest Computational Biology Simulation Mimics The Ribosome (SupercomputingOnline, 10/24/05)

Researchers at Los Alamos National Laboratory have set a new world's record by performing the first million-atom computer simulation in biology.

Computer simulates protein creation (CNET UK, 10/24/05)

Using a computer to simulate the interaction of 2.6 million atoms, Los Alamos National Laboratory researchers have recreated a tiny slice of one of the most fundamental genetic processes of life.

LANL supercomputer sets record for largest biology simulation (KOB-TV, 10/22/05)

It’s something every living thing does every day: make proteins. And, for the first time anywhere, a Los Alamos supercomputer has simulated the process with more than a million atoms.

Computer simulates ribosome in action (Betterhumans, 10/24/05)

Laboratory simulation puts molecule in motion (Los Alamos Monitor, 10/21/05)

Living organisms have figured out how to perform amazingly tireless and detailed work. They use packets of protein and a few dabs of acid, swabbed in water to sustain some 20,000 miniature computerized factories with attendant docking stations and loading operators shuttling around the clock in every cell.

Lab computer simulates ribosome in motion (CNET news.com, 10/21/05)

Using a computer to simulate the interaction of 2.6 million atoms, Los Alamos National Laboratory researchers have re-created a tiny slice of one of the most fundamental genetic processes of life.

Largest computational biology simulation mimics life's most essential nanomachine (Los Alamos National Laboratory Press Release, 10/19/05)

Researchers at Los Alamos National Laboratory have set a new world's record by performing the first million-atom computer simulation in biology. Using the "Q Machine" supercomputer, Los Alamos computer scientists have created a molecular simulation of the cell's protein-making structure, the ribosome. The project, simulating 2.64 million atoms in motion, is more than six times larger than any biological simulations performed to date.

Molecular Machine Could Develop Drugs For Bioweapons Victims (Journal of Environmental Health, 4/03)

Molecular Machine Could Develop Drugs For Bioweapons Victims (ScienceDaily, 9/30/02)

Molecular Machine Could Develop Drugs For Bioweapons Victims (Space Daily, 9/30/02)

Molecular Machine Could Develop Drugs For Bioweapons Victims (EurekAlert, 9/30/02)

Molecular Machine Could Develop Drugs For Bioweapons Victims (News.NanoApex, 9/30/02)

Molecular Machine Could Develop Drugs For Bioweapons Victims (Nanotechnology News, 9/30/02)

Molecular Machine Could Develop Drugs For Bioweapons Victims (Science Box, 10/1/02)

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Sanbonmatsu Team
Los Alamos National Laboratory
Theoretical Biology and Biophysics Group
P.O. Box 1663, Los Alamos, NM 87545
Public Affairs Office: (505) 667-7000
kys@lanl.gov

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