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image: Building 3-D Microbial Communities

Building 3-D Microbial Communities

By | October 7, 2013

Researchers apply a 3-D printing technique to structure populations of bacteria in a three-dimensional environment.

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image: Vesicle Trafficking Trio Wins Nobel

Vesicle Trafficking Trio Wins Nobel

By | October 7, 2013

James Rothman, Randy Schekman, and Thomas Südhof share Nobel Prize in Medicine or Physiology.  

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image: Trouble in the Heartland

Trouble in the Heartland

By | October 1, 2013

A new tick-borne disease has emerged in the US Midwest—and the culprit is not a bacterium. 

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image: Week in Review: September 23–27

Week in Review: September 23–27

By | September 27, 2013

Antibiotic cycling makes a comeback in the lab; how life scientists can learn from astronauts; napping to conquer fears; deconstructing the cancer R&D crisis

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image: Nobel Laureate Dies

Nobel Laureate Dies

By | September 26, 2013

David Hubel, who helped revolutionize the understanding of visual information processing, has passed away at age 87.

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image: Giving Antibiotic Cycling Another Shot

Giving Antibiotic Cycling Another Shot

By | September 25, 2013

Switching up the drugs used to treat bacterial infections could help clinicians battle both illness and resistance at the same time.

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image: Citations Predict Nobel Winners?

Citations Predict Nobel Winners?

By | September 25, 2013

Thomson Reuters makes its annual data-based picks for which scientists could collect medals in Stockholm later this year.

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image: New Organelle: The Tannosome

New Organelle: The Tannosome

By | September 23, 2013

Researchers identify a structure in plants responsible for the production of tannins.

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image: Focus on the Host

Focus on the Host

By | September 18, 2013

A patient response-based gene expression signature can distinguish respiratory infections caused by viruses from those of bacterial or fungal origin.

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image: Inducing Pluripotency Every Time

Inducing Pluripotency Every Time

By | September 18, 2013

By removing a single gene, adult cells can be reprogrammed into a stem-like state with nearly 100 percent efficiency.

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