@lorenzlab1.bsky.social
Our latest manuscript to be published introduces PUCHIK (bit.ly/3QeqbT4), a novel & efficient Python package designed for the analysis of molecular dynamics simulations of nanoparticles, w/ a focus on accurately describing the interfaces of aspherical nanoparticles. 1/10
February 13, 2025 at 8:55 AM
Our latest manuscript to be published introduces PUCHIK (bit.ly/3QeqbT4), a novel & efficient Python package designed for the analysis of molecular dynamics simulations of nanoparticles, w/ a focus on accurately describing the interfaces of aspherical nanoparticles. 1/10
Our latest manuscript has been published in
Langmuir: bit.ly/4hMNBuy. In this manuscript we show that thanatin, a naturally occurring antimicrobial peptide, punches holes & disrupts bacterial membranes through multiple mechanisms, causing them to break apart 1/3
Langmuir: bit.ly/4hMNBuy. In this manuscript we show that thanatin, a naturally occurring antimicrobial peptide, punches holes & disrupts bacterial membranes through multiple mechanisms, causing them to break apart 1/3
February 10, 2025 at 7:53 PM
Our latest manuscript has been published in
Langmuir: bit.ly/4hMNBuy. In this manuscript we show that thanatin, a naturally occurring antimicrobial peptide, punches holes & disrupts bacterial membranes through multiple mechanisms, causing them to break apart 1/3
Langmuir: bit.ly/4hMNBuy. In this manuscript we show that thanatin, a naturally occurring antimicrobial peptide, punches holes & disrupts bacterial membranes through multiple mechanisms, causing them to break apart 1/3
Our latest manuscript is now available in Biochemistry @acs.org (bit.ly/3Ct1PSm) In it we show that C-terminal amidation of an antimicrobial peptide increases its conformational flexibility, which improves membrane penetration, leads to faster bacterial killing & better selectivity for pathogens.
January 29, 2025 at 7:38 PM
Our latest manuscript is now available in Biochemistry @acs.org (bit.ly/3Ct1PSm) In it we show that C-terminal amidation of an antimicrobial peptide increases its conformational flexibility, which improves membrane penetration, leads to faster bacterial killing & better selectivity for pathogens.