A nonprofit institute where scientists, educators, and entrepreneurs translate the power of genomics into real world results to create a healthier more sustainable world.
Ph.D. in Biochemistry, University of California Berkeley
Genomic and genetic analysis of human traits and diseases.
Richard Myers, PhD, is president and scientific director at HudsonAlpha. Myer’s lab focuses on applying functional genomics and genetics approaches to understanding how genes and regulatory regions contribute to basic biology, human disease, responses to the environment and population genetics.
PhD in Pharmacology, University of Iowa
Genomics, common human disease
Howard Jacob, PhD, uses molecular genetics to understand complex, multifactorial disease. As executive vice president for genomic medicine at HudsonAlpha, Jacob brings together genome sequencing, bioinformatics and basic research to make a clinical diagnosis possible for patients.
MD, George Washington University School of Medicine
Human clinical genetics
David Bick, MD, PhD, is a clinical geneticist with more than 20 years experience diagnosing and treating children with genetic disorders. Bick is the medical director of the Clinic for Genomic Medicine on the HudsonAlpha campus.
Ph.D. in Biochemistry and Molecular Biology, Emory University
Epigenomic analysis of complex human traits and diseases
Devin Absher, PhD, uses the epigenome to study complex diseases and traits, especially autoimmune disease, cardiovascular disease, cancer and aging.
PhD in Genetics, Imperial College, London, UK
Clinical and translational use of genomic data
Liz Worthey, PhD, uses genomics and informatics to define the genetic underpinnings of human disease. In addition to her research goals, as the director of software development and informatics, she leads her team in supporting the informatics goals of the institute as well as the clinical mission to provide definitive diagnoses for patients.
M.D. and Ph.D. in pathology, University of Washington, Seattle
Genetic architecture of morphologic variation
Greg Barsh, PhD, MD, studies the genetic mechanisms that underlie differences in individual appearance and that could give new insight into both basic biology and human disease.
Ph.D. in Genetics, Stanford University
Human Genetics and Genomics
Greg Cooper, PhD, researches the structures, functions and evolutionary histories of human genomes, with an emphasis on applying genomic approaches to study human disease.
Ph.D. in Microbiology, University of Leeds, United Kingdom
Genomic resource development for plants
Jane Grimwood, PhD, co-directs the Genome Sequencing Center at HudsonAlpha, managing one of the few centers in the world that produces, analyzes and interprets genomic data on economically important plant and organism species to improve crop breeding and other agricultural practices.
B.S. in computer science, B.S. in biology, North Central College
Whole genome sequencing and assembly, population genomics
Jeremy Schmutz co-directs the Genome Sequencing Center at HudsonAlpha, managing one of the few centers in the world that produces, analyzes and interprets genomic data on economically important plant and organism species to improve crop breeding and other agricultural practices.
M.D., SuZhou Medical College, China; Ph.D. University of Alabama at Birmingham
Technology development to advance medical science
Jian Han, MD, PhD, focuses on developing integrated solutions for molecular differential diagnosis and mapping the personalized immunorepertoire.
MD, Comenius University, Martin, Czechoslovakia
PhD in Physiology, Comenius University, Bratislava, Czechoslovakia
Genomics, Common Human Diseases
The ultimate goal for personalized genomic medicine is tailoring treatment. Because we expect the majority of patients to have a unique sequence variant, tailoring treatment for patients with rare disease will require validation nominated sequence variants using different molecular biology approaches. In the validation process, the Lazar lab will utilize primary patients or commercially available human cell lines for different cellular assays or vertebrate model system using gene editing to generate and functionally test the variant of interest. The goal of Lazar’s work is to develop a functional screening program to rapidly test variants or genes identified in individual clinical cases and testing potential treatment modalities
PhD in Biology, Dartmouth College
Understanding the role of the rhizome in resource reallocation and perenniality.
Kankshita Swaminathan, PhD, studies the role of the rhizome in nutrient storage and reproduction in plants. She is interested in how perennial plants remobilize nutrients year after year.
PhD in Bioethics, University of Sydney, Sydney, NSW Australia
Genomics and Ethics
Kim Strong, PhD, is a genetics-trained bioethicist, a scientist who studies the application and limits of empirical ethics, particularly as it relates to contentious and emerging genetic technologies.
Ph.D. in Genetics and Molecular Biology, Emory University
Educational outreach relating to genetics, genomics and biotechnology
Neil Lamb, PhD, oversees all educational programming developed at HudsonAlpha as vice president for educational outreach. Lamb creates innovative teacher training, student experiences, public enrichment, classroom kits and digital resources that re-shape how science education is delivered.
Ph.D. in Genetics, Stanford University
Sara Cooper, PhD, focuses on combining metabolomics with genomics and applying that data to pancreatic and ovarian cancer.
Ph.D. in Biochemistry, Emory University
Technology development and automation, informatics, genomic variation
Shawn Levy, PhD, uses high performance genotyping and sequencing technologies to support projects from plant and animal phylogenetic studies to translational and clinical based projects at the Genomic Services Laboratory and the Clinical Services Laboratory.
PhD in Cell Biology, University of British Columbia, Canada
Molecular mechanisms of sarcomagenesis.
Le Su, PhD, has been actively involved in sarcoma research for nearly ten years. As a junior fellow at HudsonAlpha, his major focus is on chromosomal translocation-associated sarcomagenesis in children and young adults.
Our Genomic Research
Since opening its doors in 2008, HudsonAlpha has further secured its role as a global leader in biotechnology and genomic research. We’ve made discoveries in ALS, childhood genetic disorders and kidney cancer; expanded research in bipolar and schizophrenia and continued critical research in other devastating conditions, including cancer, Parkinson’s, lupus, multiple sclerosis and more.