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tag algal blooms cell molecular biology

Week in Review: August 18–22
Tracy Vence | Aug 22, 2014 | 3 min read
Neanderthal extinction; eradicating polio; virus takes down massive algal bloom; receptor behind the hummingbird’s sweet tooth; legal threat for PubPeer; price tag of scientific fraud
TURNING NATURE INTO TECHNOLOGY
Rachel Dickinson | Apr 1, 2007 | 8 min read
By Rachel DickinsonTURNING NATURE INTO TECHNOLOGYNorth Carolina's natural resources could spawn many advanced industries. Red Tide: A massive fish kill caused by toxic harmful algae bloom. Gymnodinium breve algae.© BRIAN DOMBROWSKIIn August 2006, the decade's worst red tide - an algal bloom that can be deadly to fish, turtles, sea mammals, and humans - hit Puget Sound in Washington State and shut down shellfish beds all along the sound. Such blooms have an impact on ocean waters around the w
The AIDS Research Evaluators
Lynn Gambale | Jul 9, 1995 | 6 min read
Chairman: Arnold Levine, chairman, department of molecular biology, Princeton University Barry Bloom, Weinstock Professor and Howard Hughes Medical Institute (HHMI) investigator, department of microbiology and immunology, Albert Einstein College of Medicine, New York Rebecca Buckley, professor of pediatrics and immunology, Duke University Medical Center Charles Carpenter, chairman, Office of AIDS Research Advisory Committee; professor of medicine,Brown University School of Medicine Don
Iron Seeding Just Doesn't Pay
Sam Jaffe | Jul 4, 2004 | 6 min read
BRINGING ON THE NEXT ICE AGE?Dee Breger, Drexel UniversityAssumptions that tiny diatoms such as the ones shown above could fix carbon from the air and sink it to the bottom of the ocean have been hard to prove.The US Department of Energy has taken an interest in carbon sequestration, but a grand scheme to induce thick blooms of carbon-fixing algae has yet to bear fruit in early studies. The DOE directs a large share of its global warming budget to carbon-sequestration research, drawing on biolog
2018 Top 10 Innovations
The Scientist | Dec 1, 2018 | 10+ min read
Biology happens on many levels, from ecosystems to electron transport chains. These tools may help spur discoveries at all of life's scales.
A Theory Blossoms
Bob Grant | Nov 1, 2009 | 4 min read
By Bob Grant A Theory Blossoms Researchers unfold a key step in the process that tells plants to flower, findings that could one day benefit agriculture. Fluorescent FT protein in the phloem of an Arabidopsis plant. Courtesy of Laurent Corbesier and George Coupland Few acts of nature seem simpler than flowers blooming on the outstretched tips of a plant’s shoots. But the induction of that seemingly simple process baffled pla
Parallel Plagues
Sean B. Carroll | Apr 1, 2016 | 3 min read
Like cancer, ecological scourges result from the breakdown of regulatory processes, and may be treated with similar logic.
Elemental Shortage
Brendan Borrell | Nov 1, 2010 | 10+ min read
By Brendan Borrell ELEMENTAL SHORTAGE The world is running out of cheap phosphorus, the element that lies at the heart of great agricultural advances and thorny environmental problems. Biologists are only now beginning to understand what it means for evolution and human health. James Elser at a study site in southern Norway Although a limnologist in Phoenix and a molecular biologist in Atlanta have never met before, a single element ties them together.
A Vaulted Mystery
Eufemia S. Putortì and Massimo P. Crippa | Aug 1, 2014 | 10+ min read
Nearly 30 years after the discovery of tiny barrel-shape structures called vaults, their natural functions remain elusive. Nevertheless, researchers are beginning to put these nanoparticles to work in biomedicine.
Genome Economy
Ricki Lewis | Jun 10, 2001 | 10 min read
The Human Genome Project's discovery1 that the human body runs on an instruction manual of a mere 35,000 or so genes--compared to the worm's 19,000, the fruit fly's 13,000, and the tiny mustard relative Arabidopsis thaliana's 25,000--placed humanity on an even playing field with these other, supposedly simpler, organisms. It was a humbling experience, but humility quickly gave way to awe with the realization that the human genome might encode 100,000 to 200,000 proteins. Scientists base this num

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