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tag inner ear electric potential immunology genetics genomics

bacteria inside a biofilm
How Bacterial Communities Divvy up Duties
Holly Barker, PhD | Jun 1, 2023 | 10+ min read
Biofilms are home to millions of microbes, but disrupting their interactions could produce more effective antibiotics.
Eat Yourself to Live: Autophagy’s Role in Health and Disease
Vikramjit Lahiri and Daniel J. Klionsky | Mar 1, 2018 | 10+ min read
New details of the molecular process by which our cells consume themselves point to therapeutic potential.
Macrophages Are the Ultimate Multitaskers
Claire Asher | Oct 1, 2017 | 10+ min read
From guiding branching neurons in the developing brain to maintaining a healthy heartbeat, there seems to be no job that the immune cells can’t tackle.
The Biggest Science News of 2018
Kerry Grens | Dec 27, 2018 | 7 min read
From disastrous scientific setbacks to the upending of scientific dogma and the end of a 40-year search for a protein
Bridging the Gap with Bioelectronics
Deborah Fitzgerald | Mar 17, 2002 | 9 min read
Science has entered a new era in which molecules are being used as building blocks, moving parts, and even as electronic components. Biomolecules offer great potential as component parts because nature has already done much of the work; their very shapes and chemical makeup encode a variety of exploitable functions, including binding, catalysis, pumping, and self-assembly.2 A case in point: Science magazine hailed the first molecular-scale circuits as 2001's "Breakthrough of the Year."1 Researc
Targeting Antibiotic-Resistant Bacteria with CRISPR and Phages
Anna Azvolinsky | May 18, 2015 | 3 min read
Researchers develop a CRISPR-based, two-phage system that sensitizes resistant bacteria to antibiotics and selectively kills any remaining drug-resistant bugs. 
Week in Review: May 26–30
Tracy Vence | May 30, 2014 | 4 min read
Human proteome cataloged; island-separated crickets evolved silence; molecule shows promise for combatting coronaviruses; study replication etiquette; another call for STAP retraction
Flow Cytometry On-a-Chip
Jeffrey M. Perkel | Jun 1, 2015 | 7 min read
Novel microfluidic devices give researchers new ways to count and sort single cells.
How Well Do Mice Model Humans?
Ricki Lewis | Oct 25, 1998 | 8 min read
STRIKING RESEMBLANCE: James Croom, who studies Down syndrome mice at North Carolina State University, says the animals are providing valuable information useful to humans. When a page-one article in the May 3, 1998, Sunday New York Times portrayed angiogenesis inhibitors that fight cancer in mice as being possible just around the corner for humans, criticism for raising false hopes erupted. Merely 10 weeks later, however, when researchers from the University of Hawaii reported cloning the fi
Frontlines
Hal Cohen | May 26, 2002 | 5 min read
Despite some success, reproductive cloning in mammals is still a tricky feat. University of Pennsylvania School of Veterinary Medicine researchers, by tracking the gene Oct4 in mice, have shown how its routine failure to reprogram after nuclear transplant commonly prevents the successful development of mammalian embryos (M. Boiani et al., "Oct4 distribution and level in mouse clones: consequences for pluripotency," Genes & Development, 6[10]:1209-19, May 15, 2002). Producing a clone requires tha

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