The Florian-Rodriguez Lab investigates the cellular and molecular mechanisms of pelvic organ prolapse.

The Gospocic group studies how epigenetic pathways and gene expression regulate brain plasticity in the context of social behavior and aging by working with a unique ant species Harpegnathos saltator. We take a multidisciplinary approach and combine functional genomics, biochemistry, and behavioral assays in H. saltator, as well as the conventional Drosophila and mouse models to expedite genetic screening and provide evolutionary context to identified epigenetic pathways.

Specialty Areas: epigenetics, chromatin biology, gene regulation, social behavior, aging, neurodegeneration

The Solmonson lab is interested in how the placenta senses and achieves metabolic homeostasis between the adult and fetal compartments during pregnancy. 

The Camacho Lab focuses on understanding key genetic events that lead to cancer in an effort to identify novel targets that will help improve existing therapies

We investigate epigenome regulation of nervous system development and homeostasis. We are particularly interested in understanding how disruption of these mechanisms lead to neurological disorders.

We study how biomolecular condensates organize gene regulation.

We study the molecular events that drive this process in a term pregnancy and how perturbation of these processes contribute to premature birth.

We explore questions on genomes using a systems biology approach: developing and employing integrative approaches at the interface of gene regulation, epigenetics, single-cell genomics, and bioinformatics.

Our goal is to tackle difficult problems in human health and cancer biology. We work on the diseases of triple-negative breast cancer and other difficult-to-treat cancers.

The Grow lab takes genome-wide, single-cell, and computational approaches to deeply understand epigenome and transcriptome landscapes and how they are reprogrammed.