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Showing 1–6 of 6 results

Advanced filters: Author: Stephan Kamrad Clear advanced filters

Interspecies interactions drive bacterial proteome reorganization and emergent metabolism

An analysis of the responses of 15 diverse human gut bacteria in more than 100 pairwise co-cultures reveals extensive remodelling of the bacterial proteome and metabolome in response to the presence of other species.

Stephan Kamrad
Simran K. Aulakh
Kiran R. Patil
ResearchOpen Access31 Mar 2026
Nature Ecology & Evolution

P: 1-18
Industrial and agricultural chemicals exhibit antimicrobial activity against human gut bacteria in vitro

Screening of 1,076 compounds reveals 168 chemical pollutants with inhibitory effects on gut bacteria and genetic screens indicate commonality between pollutant and antibiotic resistance.

Indra Roux
Anna E. Lindell
Kiran R. Patil
ResearchOpen Access26 Nov 2025
Nature Microbiology

Volume: 10, P: 3107-3121
Human gut bacteria bioaccumulate per- and polyfluoroalkyl substances

Human gut bacteria bioaccumulate per- and polyfluoroalkyl substances (PFAS), commonly known as forever chemicals, in intracellular aggregates. Colonization of gnotobiotic mice with bioaccumulating bacteria increases faecal PFAS excretion.

Anna E. Lindell
Anne Grießhammer
Kiran R. Patil
ResearchOpen Access01 Jul 2025
Nature Microbiology

Volume: 10, P: 1630-1647
Metabolic heterogeneity and cross-feeding within isogenic yeast populations captured by DILAC

Stable isotope-labelled amino acid incorporation into proteins reveals that genetically homogeneous yeast colonies contain metabolically distinct subpopulations that cross-feed each other and are phenotypically diverse.

Stephan Kamrad
Clara Correia-Melo
Markus Ralser
ResearchOpen Access16 Feb 2023
Nature Microbiology

Volume: 8, P: 441-454
Gut reaction: it’s not all about enzymes

Biotransformation of xenobiotics by gut microbiota can impact bioactivity and toxicity. A new study shows how hydrogen sulfide generated by gut microbes reduces azo compounds extracellularly and non-enzymatically.

Stephan Kamrad
Anna E. Lindell
Kiran R. Patil
News & Views20 Oct 2022
Nature Metabolism

Volume: 4, P: 1219-1220
Lysine harvesting is an antioxidant strategy and triggers underground polyamine metabolism

The harvest of large quantities of lysine by yeast and other microbes triggers a reprogramming of redox metabolism, in which NADPH is channelled into glutathione metabolism to reduce levels of reactive oxygen species and increase tolerance to oxidative stress.

Viridiana Olin-Sandoval
Jason Shu Lim Yu
Markus Ralser
Research31 Jul 2019
Nature

Volume: 572, P: 249-253