Dr. Xing is the Executive Director of the Department of Biomedical and Health Informatics, the Francis West Lewis Chair and director of the Center for Computational and Genomic Medicine at CHOP, and professor of Pathology and Laboratory Medicine at the University of Pennsylvania. His research focuses on computational biology and genomics of RNA processing and regulation.
Dr. Diskin's research is focused on translational genomics in childhood cancers. Her laboratory seeks to identify the genetic basis of childhood cancers by combining quantitative computational methods with rigorous "wet-lab" experimental approaches. In parallel, she has developed, and is applying, a proteogenomic approach to identify novel immunotherapeutic targets for high-risk and relapsed pediatric malignancies.
Dr. Ackermann studies diabetes (types 1 and 2) and congenital hyperinsulinism using mouse models, cell lines, and primary human tissue. She aims to identify novel pathways regulating beta cell insulin secretion, leading to innovative therapeutic strategies for these disorders. Current studies include in vivo mouse physiology, ex vivo human islet physiology, CRISPR-Cas9 gene editing, epigenetic modification, and single-cell functional genomics.
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.
Dr. Choi's research focuses on the role of RNA-binding proteins in the regulation of alternative splicing and how mutations in these factors contribute to cancer. He uses a combination of genetically-engineered models and high-throughput approaches to better understand how alternative splicing influences cellular function and to identify potential opportunities for therapeutic intervention.
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.