From controlling the transport of metals into, out of and around the cell to positioning metals in active sites to do chemical transformations that inspire synthetic chemists, biology still has unparalleled mastery that bioinorganic chemists seek to understand. A variety of diseases, from cancer to nutrient imbalances, involve processes of metal transport and reactivity within the body, making our goal of understanding the role of metals in biology an important biomedical direction. This Gordon Research Seminar presents the most novel research in the field of bioinorganic chemistry, providing a current view into our knowledge of the roles of metal in biology and our progress in emulating this chemistry. In addition to experimental investigations, this conference will highlight the emerging roles that computational tools, such as molecular dynamics, quantum mechanical calculations, bioinformatics and RNA-seq analysis, have in understanding bioinorganic chemistry.
Now in its 22nd year, the Bioinorganic Chemistry GRS was established in 1996 to supplement the routinely oversubscribed Metals in Biology Gordon Research Conference (GRC). The GRS provides a platform for young scientists to hear novel research and take part in a dynamic scientific community. The breadth of the bioinorganic chemistry field creates a collaborative environment for scientists from a variety of fields that are united by an interest in biology and inorganic chemistry. A joint session with the Metals in Biology GRC and a focus on connecting young scientists looking for their next career move with senior researchers provides exceptional networking opportunities.
We encourage prospective attendees to apply early as the GRS has been consistently oversubscribed due to the unique format of this GRS. Any scientist at the graduate student or postdoc level in the field of bioinorganic chemistry is welcome to apply. Preference will be given to those who submit poster or talk abstracts. Please contact the 2018 Chair, Jack Nicoludis, if you have any questions.
The seminar will consist of the following sessions:
Metal homeostasis: moving metals into, out of, and around the cellInspired by nature: designing metalloproteins and inorganic catalystsSpectroscopic methods to study metal reactivity and the flow of electrons in the cellEmerging computational tools for bioinorganic chemistryStructure-function relationships in bioinorganic macromolecules
Jan 25
2018
Jan 28
2018
Registration deadline
2013-01-24 United States
The Bioinorganic Chemistry Gordon Research Seminar
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