Advances in Space Microbiology

Metabolism & Nutrition

methylobacterium, ajmalii, isolated, from, international, space, station, genes, expression, study, examining, methylobacterium, ajmalii, isolated, from, international, genome, changes, long, study, examining, methylobacterium, ajmalii, isolated, from, international, spaceflight

methylobacterium, ajmalii, isolated, from, international, space, station

changes, long, study, examining, methylobacterium, ajmalii, isolated, from, international, spaceflight

genes, expression, study, examining, methylobacterium, ajmalii, isolated, from, international, genome

Study examining methylobacterium ajmalii sp. nov., isolated from the international. Spaceflight triggers widespread changes in gene expression affecting stress responses, DNA repair, and mitochondrial function. Epigenetic modifications occur, with some changes persisting long after return. Understanding these molecular adaptations is fundamental to developing effective countermeasures for long-duration missions.

Study examining methylobacterium ajmalii sp. nov., isolated from the international. Genome-wide expression analysis revealed thousands of differentially expressed genes. Stress response pathways were universally upregulated. DNA repair genes showed increased expression. Mitochondrial genes were downregulated substantially. Epigenetic modifications included altered methylation patterns. Some changes persisted months after return to Earth. Cell cycle regulation genes were significantly affected.

‹ Draft Genome Sequences of Aspergillus and Penicillium Species Isolated from the International Space Station and Crew Resupply Vehicle Capsule

Effects of simulated microgravity on the proteome and secretome of the polyextremotolerant black fungus Knufia chersonesos. ›