We study fertilization and develop new diagnostic tools for quality assessment and gamete selection for Centers of Assisted Reproduction.
We study new binding proteins, so called recombinant ligands, that are aimed against moleculos of human cytokines and their receptors or selected oncomarkers.
We focus on molecular biology of cancer and design of novel anti-cancer therapies, primarily on the role of mitochondria in cancer and in cancer treatment.
Cytoskeletal dynamics at single molecule resolution
We study structural and functional properties of biologically relevant molecules and their interactions.
High-throughput gene expression profiling and single-cell analysis using qPCR and RNA-Seq
Metabolism of healthy and tumor tissue at single cell resolution.
Transcription and epigenetic regulations in embryonal development and the pathogenesis of disease
Structural biology and characterization of relationships between structure and function of medicinally relevant proteins
We study interactions driving specific recognition between biomolecules with a potential diagnostic, medical, or biotechnological use.
Laboratory is focused on the mechanisms of cancer resistance and iron metabolism.
Application of structural and biophysical techniques on enzymes, receptors and bacterial transcription system
GliaOmics Lab studies glial cells in the central nervous system using state-of-the-art omics technologies.
