Common herbicide compound may save millions of lives
A chemical compound found in common herbicides could help fight hospital-acquired human fungal pathogenic infections, which claim an estimated two million lives per year.
A chemical compound found in common herbicides could help fight hospital-acquired human fungal pathogenic infections, which claim an estimated two million lives per year.
Biochemistry
Oct 4, 2018
7
101
Cells depend on signaling to regulate most life processes, including cell growth and differentiation, immune response and reactions to various stresses.
Molecular & Computational biology
Mar 4, 2020
0
145
A team of undergraduate and graduate chemistry students in Jennifer Hines' lab at Ohio University recently uncovered a new class of compounds that can target RNA and disrupt its function. This discovery identified a chemical ...
Biochemistry
Feb 13, 2023
0
125
For centuries, people in Baltic nations have used ancient amber for medicinal purposes. Even today, infants are given amber necklaces that they chew to relieve teething pain, and people put pulverized amber in elixirs and ...
Biochemistry
Apr 5, 2021
1
3982
Antibiotic-resistant infections are a threat to global public health, food safety and an economic burden. To prevent these infections, it is critical to understand how antibiotic-resistant bacteria and their genes are transmitted ...
Cell & Microbiology
Jun 22, 2019
1
0
During early encounters between a pathogen and a cell, receptors located on the cell surface, in the cytosol or within endosomal (storage) compartments engage with the pathogen's nucleic acid (DNA/RNA) or pathogen-associated ...
New research from MIT suggests the risk of becoming colonized by Clostridium difficile (C. difficile) increases immediately following gastrointestinal (GI) disturbances that result in diarrhea.
Cell & Microbiology
Feb 13, 2020
0
257
The venom of insects such as wasps and bees is full of compounds that can kill bacteria. Unfortunately, many of these compounds are also toxic for humans, making it impossible to use them as antibiotic drugs.
Biochemistry
Dec 7, 2018
1
608
Medicine was transformed in the 20th century by the discovery and development of antibiotics, the vast majority of which came from one source: soil bacteria.
Cell & Microbiology
Feb 1, 2019
0
593
Just a few Shigella bacteria are enough to make anyone develop gastroenteritis, while illness from cholera requires ingestion of thousands to millions of Vibrio cholerae bacteria. Why does the disease-causing dosage differ ...
Cell & Microbiology
Oct 1, 2018
0
542