Precision medicine and genetic engineering

Combining ancient fermentation techniques with modern CRISPR editing for probiotic enhancement

ancient fermentation CRISPR editing probiotics microbiome synthetic biology

Upgrading 1990s technologies like CRISPR-Cas3 for ultra-precise megabase-scale genome editing

CRISPR-Cas3 genome engineering retrobiotechnology DNA repair synthetic biology

Harnessing circadian gene oscillations for optimized cancer chronotherapy

circadian rhythms chronotherapy cancer treatment gene oscillations chemotherapy

During circadian rhythm minima to optimize cancer chronotherapy delivery

chronobiology chemotherapy timing tumor metabolism pharmacokinetics personalized medicine

CRISPR-Cas12a gene editing for multi-generational studies in microgravity environments

CRISPR-Cas12a microgravity genetic adaptation space biology multi-generational research

Targeting cellular senescence with CRISPR-based gene editing to extend healthspan

cellular senescence CRISPR aging gene therapy healthspan

For epigenetic age reversal, can CRISPR-targeted DNA methylation erase cellular senescence markers

epigenetic editing CRISPR DNA methylation cellular senescence age reversal

Decoding billion-year evolutionary perspectives of CRISPR-Cas systems in archaea

CRISPR-Cas archaeal evolution horizontal gene transfer genome editing extremophiles

Merging archaeogenetics with machine learning to trace prehistoric human migrations

archaeogenetics machine learning human migration ancient DNA population genetics

Tracing enzymatic pathways during RNA world to protein world transitions

RNA world enzyme evolution prebiotic chemistry origin of life peptidyl transferase

Targeting cellular senescence with CRISPR-based gene editing for age-related disease reversal

CRISPR senescence aging gene therapy age-related diseases

Epigenetic age reversal in mammalian models using CRISPR-based chromatin remodeling

epigenetic reversal CRISPR chromatin remodeling aging research gene therapy