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This news release is embargoed until 16-Nov-2024 2:30 PM EST Released to reporters: 14-Nov-2024 11:00 AM EST

A reporter's PressPass is required to access this story until the embargo expires on 16-Nov-2024 2:30 PM EST The 麻豆传媒 PressPass gives verified journalists access to embargoed stories. Please log in to complete a presspass application. If you have not yet registered, please Register. When you fill out the registration form, please identify yourself as a reporter in order to advance to the presspass application form.

Released: 15-Nov-2024 4:30 PM EST
New Study Shows How Salmonella Tricks Gut Defenses to Cause Infection
UC Davis Health

A study led by UC Davis distinguished professor Andreas B盲umler uncovered how Salmonella, a major cause of food poisoning, can invade the gut despite the presence of protective bacteria.

麻豆传媒:Video Embedded how-ecdna-fuels-cancer-by-breaking-the-laws-of-biology
VIDEO
Released: 15-Nov-2024 4:15 PM EST
How ecDNA Fuels Cancer by Breaking the Laws of Biology
Howard Hughes Medical Institute (HHMI)

How ecDNA Fuels Cancer by Breaking the Laws of Biology

麻豆传媒: boats-8681763_1920.jpg?w=740&h=494&q=90&auto=format&fit=crop&crop=focalpoint&fp-x=0.605&fp-y=0.5234&dm=1729269612&s=bc903ee96be59984fff772f335014725
Released: 15-Nov-2024 4:05 PM EST
Creating a Spatial Map of the Sea
Wellesley College

Creating a spatial map of the sea

麻豆传媒: Zinc Deficiency Promotes Acinetobacter Lung Infection: Study
Released: 15-Nov-2024 3:40 PM EST
Zinc Deficiency Promotes Acinetobacter Lung Infection: Study
Vanderbilt University Medical Center

The study findings point to the potential of interleukin-13 antibodies 鈥 approved for use in humans 鈥 as a treatment to protect against bacterial pneumonia in patients with zinc deficiency.

麻豆传媒: Study Challenges Assumptions About How Tuberculosis Bacteria Grow
Released: 15-Nov-2024 2:50 PM EST
Study Challenges Assumptions About How Tuberculosis Bacteria Grow
Tufts University

The rod-shaped tuberculosis (TB) bacterium, which the World Health Organization has once again ranked as the top infectious disease killer globally, is the first single-celled organism ever observed to maintain a consistent growth rate throughout its life cycle. These findings, reported by researchers on November 15 in the journal Nature Microbiology, overturn core beliefs of bacterial cell biology and hint at why the deadly pathogen so readily outmaneuvers our immune system and antibiotics.

   
Released: 15-Nov-2024 2:20 PM EST
How Microbes Create the Most Toxic Form of Mercury
SLAC National Accelerator Laboratory

SLAC鈥檚 SSRL helps pin down key players in the microbial production of methylmercury, a poison that can accumulate in fish.

Released: 15-Nov-2024 2:05 PM EST
DOE鈥檚 Quantum Computing User Program Releases Request for Information to Gather Input on Quantum Computing Access
Oak Ridge National Laboratory

The Department of Energy's Quantum Computing User Program at the Oak Ridge Leadership Computing Facility is releasing a Request for Information to understand the latest in quantum computing hardware, software tools and user engagement.

麻豆传媒: Researchers Uncover Achilles Heel of Antibiotic-Resistant Bacteria
13-Nov-2024 7:30 PM EST
Researchers Uncover Achilles Heel of Antibiotic-Resistant Bacteria
University of California San Diego

To stem the surging antibiotic resistance public health crisis, scientists seek solutions inside the mechanics of bacterial infection. A new study has found a vulnerability related to magnesium availability. This limitation potentially could be exploited to stop the spread of antibiotic resistance.

麻豆传媒: 鈥榃alk this Way鈥: FSU Researchers鈥 Model Explains How Ants Create Trails to Multiple Food Sources聽
Released: 15-Nov-2024 1:55 PM EST
鈥榃alk this Way鈥: FSU Researchers鈥 Model Explains How Ants Create Trails to Multiple Food Sources聽
Florida State University

A team of Florida State University researchers led by Assistant Professor of Mathematics Bhargav Karamched has discovered that in a foraging ant鈥檚 search for food, it will leave pheromone trails connecting its colony to multiple food sources when they鈥檙e available, successfully creating the first model that explains the phenomenon of trail formation to multiple food sources.


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