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  • Liliana Florea Lab

    Research in the Liliana Florea Lab applies computational techniques toward modeling and problem solving in biology and genetic medicine. We work to develop computational methods for analyzing large-scale sequencing data to help characterize molecular mechanisms of diseases. The specific application areas of our research include genome analysis and comparison, cDNA-to-genome alignment, gene and alternative splicing annotation, RNA editing, microbial comparative genomics, miRNA genomics and computational vaccine design. Our most recent studies seek to achieve accurate and efficient RNA-seq correction and explore the role of HCV viral miRNA in hepatocellular carcinoma.

    Research Areas: evolutionary genomics, vaccines, carcinoma, cancer, genomics, bioinformatics, RNA, comparative genomics

    Principal Investigator

    Liliana Florea, M.Sc., Ph.D.

    Department

    Medicine

  • Loyal Goff Laboratory

    The Loyal Goff Laboratory seeks to answer a fundamental biological question: How is the genome properly interpreted to coordinate the diversity of cell types observed during neuronal development? We are focused on the acquisition of specific cellular identities in neuronal development and identifying the molecular determinants responsible for proper brain development. Using novel experimental approaches for the enrichment and purification of specific neuronal cell types and recent technological advances in single-cell RNA sequencing, we can discover and explore the cellular factors that contribute to neuronal cell fate decisions during mammalian brain development.

    Research Areas: brain, neuronal development, genomics, RNA

    Lab Website

    Principal Investigator

    Loyal Goff, Ph.D.

    Department

    Neuroscience

  • Rasika Mathias Lab

    Research in the Rasika Mathias Lab focuses on the genetics of asthma in people of African ancestry. Our work led to the first genomewide association study of its kind in 2009. Currently, we are analyzing the whole-genome sequence of more than 1,000 people of African ancestry from the Consortium on Asthma among African-ancestry Populations in the Americas (CAAPA). CAAPA’s goal is to use whole-genome sequencing to expand our understanding of how genetic variants affect asthma risk in populations of African ancestry and to provide a public catalog of genetic variation for the scientific community. We’re also involved in the study of coronary artery disease though the GeneSTAR Program, which aims to identify mechanisms of atherogenic vascular diseases and attendant comorbidities.

    Research Areas: heart disease, African Americans, asthma, genomics, health disparities

    Principal Investigator

    Rasika Mathias, Sc.D.

    Department

    Medicine

  • Ryuya Fukunaga Lab

    The Fukunaga Lab uses multidisciplinary approaches to understand the cell biology, biogenesis and function of small silencing RNAs from the atomic to the organismal level.

    The lab studies how small silencing RNAs, including microRNAs (miRNAs), small interfering RNAs (siRNAs) and piwi-interacting RNAs (piRNAs), are produced and how they function. Mutations in the small RNA genes or in the genes involved in the RNA pathways cause many diseases, including cancers. We use a combination of biochemistry, biophysics, fly genetics, cell culture, X-ray crystallography and next-generation sequencing to answer fundamental biological questions and also potentially lead to therapeutic applications to human diseases.

    Research Areas: biophysics, biochemistry, cell biology, cell culture, genomics, RNA

    Principal Investigator

    Ryuya Fukunaga, Ph.D.

    Department

    Biological Chemistry

  • Salzberg Lab

    Research in the Salzberg Lab focuses on the development of new computational methods for analysis of DNA from the latest sequencing technologies. Over the years, we have developed and applied software to many problems in gene finding, genome assembly, comparative genomics, evolutionary genomics and sequencing technology itself. Our current work emphasizes analysis of DNA and RNA sequenced with next-generation technology.

    Research Areas: computational biology, DNA, genomics, sequencing technology, biostatistics, RNA

  • Saraswati Sukumar Lab

    Our lab is focused on using comprehensive gene expression, methylation and sequencing and metabolomics analysis to identify alterations in breast cancer, and exploiting these for early detection and therapy. Among deferentially expressed genes, our lab has focused on the HOX genes. HOX genes are intimately involved in the development of resistance to both chemotherapy and to agents targeting the estrogen receptor. Our work explores the alternate pathways that are activated by HOX proteins leading to this resistance and novel treatments to overcome resistance in both tissue culture and xenograft models. In addition, epigenetically silenced genes and a metabolic reprogramming in tumors also trigger novel early detection and therapeutic strategies. We are testing the utility of differentiation therapy through reactivating RAR-beta in breast cancer using histone deacetylase inhibitors with great success. Also, we are targeting enzymes involved in gluconeogenesis and glycolysis with small ...molecule FDA-approved antimetabolites to achieve antitumor effects. view more

    Research Areas: breast cancer, genetics

    Lab Website

    Principal Investigator

    Saraswati Sukumar, Ph.D.

    Department

    Oncology

  • Srinivasan Yegnasubramanian Lab

    Dr. Yegnasubramanian directs a Laboratory of Cancer Molecular Genetics and Epigenetics at the Sidney Kimmel Comprehensive Cancer Center (SKCCC), and is also the Director of the SKCCC Next Generation Sequencing Center.


    Our lab research is focused on understanding the complex interplay between genetic and epigenetic alterations in carcinogenesis and disease progression, and to exploit this understanding in developing novel biomarkers for diagnosis and risk stratification as well as in identifying targets for therapeutic intervention.

    Research Areas: cancer therapies, biomarkers, genetics, cancer, epigenetics

  • The Laboratory for Precision Immunology

    We are devoted to developing and deploying cutting edge technologies that can be used to define human immune responses. Much of our work leverages ‘next generation’ DNA sequencing, which enables massively parallel molecular measurements. Examples of our technologies include:
    - bacteriophage display of synthetic peptidome libraries for comprehensive, quantitative profiling of antibodies;
    - display of ORFeome libraries for antigen discovery, protein-protein interaction studies, and drug target identification;
    - ultrasensitive, multiplex RNA quantification techniques to monitor gene expression and detect microbes;
    - pooled genetic screening to elucidate immune cell function and identify new therapeutic targets.

    The Larman Laboratory uses these and other approaches to identify opportunities for monitoring and manipulating immune responses.

    Research Areas: immunology, precision immunology

    Lab Website

    Principal Investigator

    H. Larman, Ph.D.

    Department

    Pathology

  • Wheelan Lab

    The Wheelan Lab focuses on DNA sequence analysis. Her team creates new techniques to mathematically analyze and biologically interpret high-throughput sequencing data and other high-dimensional biological datasets. The team examines spatial relationships across genomes and uses transposons to query genomic sequence/structure relationships.

    Research Areas: computational biology, DNA, genomics, sequencing

    Principal Investigator

    Sarah Wheelan, M.D., Ph.D.

    Department

    Oncology

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