Dr. Laura M. K. Dassama, Harvard University
Host: Dr. Aaron Smith
Dr. Laura M. K. Dassama
Harvard University
Department of Pediatrics
May 4th, 2018 – Spring Seminar
Time and Location: Noon in Meyerhoff Chemistry, Room 120
Host: Dr. Aaron Smith
Transport and synthesis of a bacterial natural product
Nature is replete with natural products that are pharmacological agents, secondary metabolites, and chemical agents, among others. A common class of natural products is those that bind metals and are taken into cells to fulfill metal needs. Many of these metallo-natural products bind iron and are referred to as siderophores (iron “carriers”). Similar molecules that bind copper rather than iron have been discovered recently. The first of these were isolated from the growth media of methanotrophic bacteria (bacteria that metabolize methane), which have an elevated copper requirement. The “chalkophores” (copper “carriers”) have been termed methanobactins (Mbns). Mbns are secreted when methanotrophic bacteria are cultured under conditions of limiting copper; they acquire copper from the environment and are taken up into the cell to meet the elevated metal needs. Since their discovery over a decade ago, the mechanisms that govern Mbn synthesis, transport, and contribution(s) to the overall metal homeostasis of methanotrophic bacteria have been the focus of intensive investigations. This work describes recent efforts to identify and characterize the protein machinery responsible for transport and biosynthesis of Mbns.