Gregory Dick

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Gregory Dick

Associate Professor

Office Location(s): 2014 CC Little
Phone: 734.763.3228
Fax: 734.763.4690
gdick@umich.edu
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  • Fields of Study
    • Geomicrobiology
    • Marine microbiology and oceanography
    • Molecular mechanisms of biogeochemical processes
    • Molecular evolution
    • Genomics, metagenomics, proteomics, and bioinformatics
    • Microbial metabolic diversity
    • Astrobiology and life in extreme environments
  • About

    Research Interests, Projects, and Approaches

    Microorganisms have dominated the history of Earth, playing an intimate role in shaping its chemical and physical properties.  Microbes continue their role as agents of biogeochemistry today as they drive a wide range of processes, including the cycling of carbon, oxygen, nitrogen, sulfur, and metals.  My research interests are focused on this interplay between the biosphere and the geosphere, examining how microbes drive geochemistry and how geochemistry in turn shapes microbial diversity, metabolism, and evolution.  Many biogeochemical cycles are actively driven by genetically encoded molecules that are often carefully regulated to be produced only under certain environmental or physiological conditions.  Thus an understanding of biogeochemical cycles that take place on global scales demands knowledge of dynamics that take place on molecular scales.  As such, my research relies heavily on molecular-biological approaches that are closely coupled with geochemical approaches to achieve an integrated view of geomicrobiology.

    Current and past research projects include:

    • Genetics, biochemistry, physiology, and genomics of Mn(II)-oxidizing bacteria that catalyze the formation of biogenic Mn oxides.  Work in this area has focused on a marine a-proteobacteria and Bacillus spores.
    • Diversity and function of microbial communities in deep-sea hydrothermal plumes.  This project investigates the microbially-mediated formation of Mn oxides in deep-sea hydrothermal vent plumes in Guaymas Basin (Gulf of California).  It also addresses questions of how deep-sea microbial communities respond to and transform potential energy sources emanating from deep-sea hydrothermal vents, such as methane, ammonium, sulfur, iron, and manganese.
    • Microbial community genomics of acid mine drainage (AMD).  This project, in Jill Banfield's laboratory (http://seismo.berkeley.edu/~jill/banres.html), investigates how microbes drive the dissolution of pyrite and the formation of acid mine drainage.  Community genomics and proteomics are used to understand molecular mechanisms and evolutionary processes in this extremely acidic, chemolithoautotrophic ecosystem.  My work has focused on sulfur cycling, assembly of metagenomic DNA sequences, and bioinformatic methods to analyze low-abundance community members.

    Approaches and technical interests:

    • Genomics (metagenomics) and proteomics of microbial communities in natural environments; functional approaches for identifying genes and enzymes.
    • Bioinformatics.
    • Biochemistry: protein purification and enzyme function.
    • Microbial physiology: isolation and physiological studies of microbes in pure culture.

  • Education
    • Postdoc, Earth and Planetary Science, UC Berkeley
    • PhD, Marine Biology, Scripps Institution of Oceanography, University of California San Diego, 2006
    • BA, Biology, University of Virginia, 2000