Through methane-eating bacterial consortia to reduce landfill greenhouse gas emissions
methane mitigation
bacterial consortia
landfill gas
greenhouse reduction
bioengineering
Optimizing enzyme turnover numbers via machine learning-driven directed evolution
enzyme kinetics
directed evolution
machine learning
biocatalysis
metabolic engineering
Through Arctic permafrost stabilization using bioengineered microbial consortia
permafrost
bioengineering
climate mitigation
microbial ecology
carbon sequestration
Via mitochondrial uncoupling to extend lifespan in model organisms
mitochondria
aging
longevity
metabolic regulation
oxidative stress
For epigenetic age reversal through targeted mitochondrial chromatin remodeling
epigenetic aging
mitochondrial chromatin
age reversal
cellular rejuvenation
DNA methylation
Using biocatalytic cascades for sustainable pharmaceutical manufacturing with reduced waste
biocatalysis
green chemistry
pharmaceutical synthesis
enzyme engineering
waste reduction
During RNA world transitions to uncover prebiotic chemical networks
RNA world hypothesis
prebiotic chemistry
origin of life
ribozymes
protocells
Accelerating mass extinction recovery through synthetic ecological networks
synthetic ecology
biodiversity
extinction recovery
ecological engineering
habitat restoration
Enhancing human longevity via targeted telomerase activation in stem cells
telomerase
aging
stem cells
longevity
cancer prevention
Deploying modular vaccine platforms for immediate pandemic response using unconventional methodologies
pandemic response
modular vaccines
unconventional manufacturing
rapid deployment
biologics
Stabilizing Arctic permafrost with engineered microbial communities to mitigate methane release
Arctic permafrost
methane mitigation
synthetic microbes
climate engineering
cryogenic ecosystems
Using microbiome rejuvenation to reverse age-related gut dysbiosis in elderly populations
microbiome
aging
probiotics
gut health
metabolic syndrome