Balancing the Equation: A Natural History of Trimethylamine and Trimethylamine-N-oxide
Journal of Proteome Research, 2022•ACS Publications
Trimethylamine (TMA) and its N-oxide (TMAO) are ubiquitous in prokaryote and eukaryote
organisms as well as in the environment, reflecting their fundamental importance in
evolutionary biology, and their diverse biochemical functions. Both metabolites have
multiple biological roles including cell-signaling. Much attention has focused on the
significance of serum and urinary TMAO in cardiovascular disease risk, yet this is only one of
the many facets of a deeper TMA–TMAO partnership that reflects the significance of these …
organisms as well as in the environment, reflecting their fundamental importance in
evolutionary biology, and their diverse biochemical functions. Both metabolites have
multiple biological roles including cell-signaling. Much attention has focused on the
significance of serum and urinary TMAO in cardiovascular disease risk, yet this is only one of
the many facets of a deeper TMA–TMAO partnership that reflects the significance of these …
Trimethylamine (TMA) and its N-oxide (TMAO) are ubiquitous in prokaryote and eukaryote organisms as well as in the environment, reflecting their fundamental importance in evolutionary biology, and their diverse biochemical functions. Both metabolites have multiple biological roles including cell-signaling. Much attention has focused on the significance of serum and urinary TMAO in cardiovascular disease risk, yet this is only one of the many facets of a deeper TMA–TMAO partnership that reflects the significance of these metabolites in multiple biological processes spanning animals, plants, bacteria, and fungi. We report on analytical methods for measuring TMA and TMAO and attempt to critically synthesize and map the global functions of TMA and TMAO in a systems biology framework.
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