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The Biosynthesis of Ladderane Lipids

$48,864F32FY2013GMNIH

University Of Texas At Austin, Austin TX

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Abstract

DESCRIPTION (provided by applicant): The goal of this project is to determine the biosynthetic steps leading to the production of ladderanes, a class of unusual bacterial lipids displaying a highly strained structure composed of three to five linearly fused cyclobutane rings. The biosynthesis of ladderanes is thought to involve enzymes belonging to the radical SAM enzyme superfamily including several cobalamin-dependent radical SAM enzymes. Cobalamin- dependent radical SAM enzymes are also involved in the biosynthesis of a number of pharmaceutically important compounds including anti-microbial, anti-tumor, and anti-viral (including anti-HIV) agents. However, the mechanisms by which these enzymes carry out their unusual chemical transformations remain unknown to date. The knowledge gained from an understanding of the steps involved in ladderane biosynthesis may, therefore, lead to the rational design of pharmaceutical agents with new or improved biological function through the manipulation of these unprecedented reactions. Furthermore, ladderane producing bacteria have recently ben utilized for the bioremediation of nitrogen contaminated wastewater. A detailed understanding of ladderane biosynthesis may provide new insight for the development and bioengineering of this industrial process, which would be a boon for public health. To accomplish this goal, the enzymes involved in the biosynthesis of ladderanes will be recombinantly expressed, purified, and assayed for activity in the production of lipid biosynthetic intermediates. The identity and structural determination of the biosynthetic pathway intermediates will be achieved using high performance liquid chromatography, mass spectrometry, and nuclear magnetic resonance spectroscopy by comparison with synthetic standards. The precise mechanisms underlying the activity of the cobalamin-dependent radical SAM enzymes involved in ladderane biosynthesis will be interrogated using deuterated substrates to determine the stereochemistry of the proposed hydrogen atom transfers and a combination of UV/Vis and electron paramagnetic resonance spectroscopy to determine the relevant redox states of the cobalamin cofactor during catalysis.

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