Kasthuri Venkateswaran - Microbes in Space | MVIF37 S04 скачать в хорошем качестве

Kasthuri Venkateswaran - Microbes in Space | MVIF37 S04

Title of the presentation: Microbes in Space Speaker: Kasthuri Venkateswaran More info on this event: https://www.microbiome-vif.org/en-US/... Join us at the next meeting (free registration!): https://www.microbiome-vif.org/ And you can join us on Twitter:   / microbiomevif   Abstract of this talk: Elucidating microbial behavior in space and its potential impact on future space exploration missions are critical. Microorganisms isolated from oligotrophic environments, such as the International Space Station (ISS), analogous habitat on Earth (Inflated Lunar/Mars Analog Habitat), and mission critical NASA assembly facilities, present unique adaptations to survive in nutrient-poor and high-stress conditions. These modifications offer important new perspectives on the evolution of microbial resistance in challenging environments. These include defense mechanisms against environmental stressors including radiation and microgravity, as well as systems for DNA repair and biofilm formation. One of the primary findings of the study is the identification of genes and proteins, such as oxidoreductases and mechanosensitive channels, which indicate convergent evolutionary strategies among diverse bacteria. Under these circumstances, with limited resources and confined space, some molecular traits allow bacteria to thrive. These adaptations are critical to our understanding of microbial survival and have far-reaching consequences for human health, biosecurity, and space habitat management. The tendency of these microorganisms to create biofilms and their ability to produce biomolecules with therapeutic applications (such as antioxidants and antibiotics) could affect the deterioration of spacecraft material and jeopardize structural integrity. This creates a twofold problem: long-term missions to Mars or beyond require careful management of the pathogenic potential of some microbes in order to protect astronaut health, even though some microbial products may be used for advantageous purposes (such as biomanufacturing or waste recycling in life support systems). By extending the knowledge gained in space microbiology research to other oligotrophic ecosystems on Earth, such polar deserts or marine systems, we can learn more about how life endures in hostile environments. The molecular insights gained from this study could also lead to new biotechnological applications, such the development of intelligent materials for space habitats or new antibacterial drugs to treat diseases. The study concludes by highlighting the role that bacteria play in establishing sustainable space exploration as well as the importance of microbial surveillance in enclosed settings.