I study how the environment shapes the genome and epigenome across generations, cell types, and biological contexts. My work spans preconception stress, reproductive system, autism-associated methylation, conservation genetics, and population genomics, combining wet-lab and dry-lab expertise to go from sample to insight.
Epigenomics - single-cell and bulk WGBS, DMR/DMG identification, co-methylation networks, TF regulatory analysis Multi-omics integration - linking methylation, gene expression, and chromatin states across tissue types and exposure models Population genomics - WGS-based population structure, connectivity, and conservation genetics Pipeline development - scalable Snakemake/SLURM workflows on HPC for large-scale NGS datasets