Bioenergetic constraints on the origin of autotrophic metabolism

Boyd, Eric S.; Amenabar, Maximiliano J.; Poudel, Saroj; Templeton, Alexis S.

Abstract

Autotrophs form the base of all complex food webs and seemingly have done so since early in Earth history. Phylogenetic evidence suggests that early autotrophs were anaerobic, used CO2 as both an oxidant and carbon source, were dependent on H-2 as an electron donor, and used iron-sulfur proteins (termed ferredoxins) as a primary electron carrier. However, the reduction potential of H-2 is not typically low enough to efficiently reduce ferredoxin. Instead, in modern strictly anaerobic and H-2-dependent autotrophs, ferredoxin reduction is accomplished using one of several recently evolved enzymatic mechanisms, including electron bifurcating and coupled ion translocating mechanisms. These observations raise the intriguing question of why anaerobic autotrophs adopted ferredoxins as central electron carriers only to have to evolve complex machinery to reduce them. Here, we report calculated reduction potentials for H-2 as a function of observed environmental H-2 concentration, pH and temperature. Results suggest that a combination of alkaline pH and high H-2 concentration yield H-2 reduction potentials low enough to efficiently reduce ferredoxins. Hyperalkaline, H-2 rich environments have existed in discrete locations throughout Earth history where ultramafic minerals are undergoing hydration through the process of serpentinization. These results suggest that serpentinizing systems, which would have been common on early Earth, naturally produced conditions conducive to the emergence of H-2-dependent autotrophic life. The primitive process of hydrogenotrophic methanogenesis is used to examine potential changes in methanogenesis and Fd reduction pathways as these organisms diversified away from serpentinizing environments. This article is part of a discussion meeting issue 'Serpentinite in the earth system'.

Más información

Título según WOS: ID WOS:000505778500009 Not found in local WOS DB
Título de la Revista: PHILOSOPHICAL TRANSACTIONS OF THE ROYAL SOCIETY A-MATHEMATICAL PHYSICAL AND ENGINEERING SCIENCES
Volumen: 378
Número: 2165
Editorial: ROYAL SOC
Fecha de publicación: 2020
DOI:

10.1098/rsta.2019.0151

Notas: ISI