Phys.org on MSN: Bacteria's 'two-way door' revealed: How antimicrobials cross cell membranes
Researchers at Durham have helped unlock a new understanding of how bacteria import antimicrobial peptides—the molecules that can kill or inhibit microbes. The research sheds new light on SbmA, a key ...
MSN: Food and Agriculture Organization meets stakeholders in fight against antimicrobial resistance
EurekAlert!: IIT Gandhinagar researchers develop ultrasound-activated molecules with the potential to kill antibiotic-resistant bacteria
IIT Gandhinagar researchers develop ultrasound-activated molecules with the potential to kill antibiotic-resistant bacteria
The current widespread use of antimicrobials in human and veterinary medicine, agriculture, and industrial applications has resulted in their continual ...
Antibiotics, our infantry against bacteria, are losing their ability to fight against bacterial infections due to the rise of superbugs—microbes that have developed resistance to medications that are ...
EurekAlert!: New insights into how bacteria control DNA synthesis open the door to next generation antimicrobials
New insights into how bacteria control DNA synthesis open the door to next generation antimicrobials
BioTechniques: Camel antimicrobials could get us over the hump of antibiotic resistance
Learn how carbapenem-resistant superbugs threaten global health and how stewardship programs, phage therapy, and stronger last resort drugs aim to fight antimicrobial resistance. Pixabay, geratl ...
Science Daily: Scientists discover a bacterial kill switch and it could change the fight against superbugs
Scientists discover a bacterial kill switch and it could change the fight against superbugs
Molecules is a leading international, peer-reviewed, open access journal of chemistry published semimonthly online by MDPI.
Concepts similar to molecules have been discussed since ancient times, but modern investigation into the nature of molecules and their bonds began in the 17th century.