The search for exoplanet biosignatures is guided by whether planetary environments can sustain photosynthesis.
redox chemistry
Posted inAstrogeology, Atmospheres, Climate, Weather, Biogeochemical Cycles & Geobiology, Biosignatures & Paleobiology, Habitable Zones, Imaging & Spectroscopy, Mars, Robotics/Rovers/UAVs, Status Report
Strong Nickel Enrichment Co-located With Redox-organic Interactions In Neretva Vallis, Mars
In 2024, NASA’s Perseverance rover explored Neretva Vallis, an ancient river channel that once transported water into Jezero crater.
Posted inAtmospheres, Climate, Weather, Biochemistry & Organic Chemistry, Biogeochemical Cycles & Geobiology, Biophysics, Biosignatures & Paleobiology, Genomics, Proteomics, Bioinformatics, Habitable Zones, Origin & Evolution of Life, Status Report
Redox Chemistry Of Early Earth And The Origin Of Life
Multiple controversial scenarios have been proposed explaining the emergence of life, both from environmental and chemical perspectives.
Posted inBiochemistry & Organic Chemistry, Biophysics, Biosignatures & Paleobiology, Fossils & Paleontology, Genomics, Proteomics, Bioinformatics, Microbiology & Virology, Origin & Evolution of Life, Status Report
Designing Peptide Fossils That Model the Evolution of the Bacterial Ferredoxin Fold
Electron transfer coupled to redox chemistry is at the heart of metabolism. The proteins responsible for moving electrons (protein electron carriers) must have emerged at the origin of life.
