5 years ago

A primordial and reversible TCA cycle in a facultatively chemolithoautotrophic thermophile

Masayuki Miyazaki, Yumiko Kato, Nobuyuki Fujita, Yoshito Chikaraishi, Aya Shuto, Shigeru Shimamura, Naohiko Ohkouchi, Takeshi Harada, Haruyuki Atomi, Koji Mori, Ken Takai, Katsunori Yanagawa, Takaaki Sato, Takuro Nunoura, Yoshihiro Takaki, Takashi Suwa, Rikihisa Izaki

Inorganic carbon fixation is essential to sustain life on Earth, and the reductive tricarboxylic acid (rTCA) cycle is one of the most ancient carbon fixation metabolisms. A combination of genomic, enzymatic, and metabolomic analyses of a deeply branching chemolithotrophic Thermosulfidibacter takaii ABI70S6T revealed a previously unknown reversible TCA cycle whose direction was controlled by the available carbon source(s). Under a chemolithoautotrophic condition, a rTCA cycle occurred with the reverse reaction of citrate synthase (CS) and not with the adenosine 5'-triphosphate–dependent citrate cleavage reactions that had been regarded as essential for the conventional rTCA cycle. Phylometabolic evaluation suggests that the TCA cycle with reversible CS may represent an ancestral mode of the rTCA cycle and raises the possibility of a facultatively chemolithomixotrophic origin of life.

Publisher URL: http://science.sciencemag.org/cgi/content/short/359/6375/559

DOI: 10.1126/science.aao3407

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