🧬 Genomics
Study of the complete DNA sequence of organisms — including whole-genome sequencing, variant analysis, and population genetics.
Used to understand disease risk, inherited traits, and evolution.
Genetics Research
Understanding life at its most fundamental level — genes, regulation, inheritance, disease risk, longevity, and the future of personalized medicine powered by biology and AI.
Core Genetics Domains
Structured knowledge — from fundamentals to cutting-edge research
🧠 Epigenetics
How genes are switched ON or OFF without changing DNA sequence — influenced by age, environment, stress, diet, and lifestyle.
Central to aging, cancer, mental health, and cell reprogramming.
🩺 Disease Genetics
Genetic variants linked to schizophrenia, cancer, diabetes, cardiovascular disease, neurodegeneration, and rare disorders.
Includes polygenic risk scores and inherited mutations.
💊 Pharmacogenomics
How genetic differences affect drug response — dosage, side effects, effectiveness, and toxicity.
Reduces trial-and-error medicine.
⏳ Genetics of Aging & Longevity
Telomeres, DNA damage, epigenetic clocks, mitochondrial genetics, inflammation, and cellular stress pathways that control aging speed.
Foundation for anti-aging and regenerative medicine.
🤖 AI × Genetics
AI models applied to gene expression analysis, variant prediction, protein folding, drug discovery, and personalized treatment design.
Future medicine will be computational + biological.