Dr. Alexander-Bloch investigates normal brain development and the altered developmental trajectories that lead to mental illness. His multi-disciplinary research integrates brain imaging, genomics and clinical information.
Dr. Heuckeroth investigates mechanisms controlling bowel motility in order to find new ways to treat, diagnose, and prevent intestinal motility disorders. He works to define genetic, biochemical, and cellular processes that impact bowel function, with a special interest in the enteric nervous system and intestinal smooth muscle cells.
Bone disorders exact a considerable toll on human health in both children and adults. Dr. Long seeks to understand the fundamental mechanisms underlying both normal skeletal development and the pathophysiology of bone diseases. His current research includes studies of skeletal stem cells and progenitors, metabolic regulation of bone cells, and the integration of bone and whole-body metabolism.
Dr. Grinspan's research program focuses on oligodendrocytes, cells of the central nervous system that synthesize the myelin sheath required for transmission of nervous impulses. Her research seeks to understand the signaling pathways that regulate oligodendrocyte maturation and how they are perturbed in diseases such as multiple sclerosis, HIV, and perinatal white matter injury.
Dr. Emanuel investigates diseases caused by abnormalities of human chromosome 22. These include the most common microdeletion syndrome, 22q11.2 deletion syndrome, and the most common recurrent constitutional translocation in humans, the t(11;22). Her efforts include discerning the mechanisms involved in generating the deletion and translocation as well as looking for modifiers of the phenotype in individuals with the deletion syndrome.
Dr. Lin studies RNA modifications (a.k.a "epitranscriptomics") in human diseases, including cancer. She develops and applies high-throughput sequencing strategies and transcriptome engineering technologies to study the regulation and function of RNA modifications, including A-to-I RNA editing and m6A RNA methylation.
Dr. Tan studies transcriptional regulation during normal development and disease. This involves the interplay of multiple transcription and epigenetic factors in a 3D chromosomal environment. Using experimental genomics and computational modeling, Dr. Tan investigates transcriptional regulatory networks underlying embryonic hematopoiesis, T cell differentiation, and pediatric leukemia.
Dr. Conine works to understand the functions of small RNAs in reproduction, epigenetic inheritance, and development. His research focuses on how small RNAs in sperm transmit epigenetic information to offspring, as well as their involvement in male fertility.
Whitney Guthrie, PhD, is a clinical psychologist and scientist at the Center for Autism Research. Dr. Guthrie’s research focuses on the early developmental trajectories that characterize autism spectrum disorder with the ultimate goal of improving early detection and intervention.