-
, molecular and cellular biology, transcriptomics and proteomics, induced pluripotent stem cell culture/differentiation, and mouse models of disease. Opportunities to become involved in clinical research
-
, genetic, high-throughput genomics, proteomics, and quantitative behavioral assays to achieve a mechanistic understanding of how circadian clocks are organized and regulated inside a living cell. Our lab has
-
of experience/training include cell biology or genetics. Familiarity with cell type-specific proteome dynamics; the relationship between gene expression and regulation of protein synthesis. Exceptional verbal and
-
to assess the functional significance of our genomic discoveries, with engineering collaborations and integrative genomic studies of transcriptomic, proteomic and epigenetic factors involved in genome
-
, proteomics, and flow assisted cytometry sorting (FACS). We aim to address important questions and make novel discoveries that significantly enhance our understanding of lung biology and disease. We hope
-
transcriptomic and proteomic signatures of treatment response, (4) comparing molecular and bioinformatic signatures between juvenile myositis and lupus and (5) generating a single-cell, spatially resolved atlas
-
and mucosal wound repair. Our studies employ state-of-the-art immunology, molecular/cell biology, imaging, and multi-omics (proteomics, single-cell sequencing including spatial transcriptomics