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dc.contributor.authorRussell, Michael J.
dc.contributor.authorDaniel, Roy M.
dc.contributor.authorHall, Allan J.
dc.contributor.authorSherringham, John A.
dc.identifier.citationRussell, M.J., Daniel, R.M., Hall, A. J. & Sherringham, J.A. (1994). A hydrothermally precipitated catalytic iron sulphide membrane as a first step toward life. Journal of Molecular Evolution, 39(3), 231-243.en_NZ
dc.description.abstractWe propose that life emerged from growing aggregates of iron sulphide bubbles containing alkaline and highly reduced hydrothermal solution. These bubbles were inflated hydrostatically at sulphidic submarine hot springs sited some distance from oceanic spreading centers four billion years ago. The membrane enclosing the bubbles was precipitated in response to contact between the spring waters and the mildly oxidized, acidic and iron-bearing Hadean ocean water. As the gelatinous sulphide bubbles aged and were inflated beyond their strength they budded, producing contiguous daughter bubbles by the precipitation of new membrane. [Fe2S2]+/0 or [Fe4S4]2+/+ clusters, possibly bonded by hydrothermal thiolate ligands as proferredoxins, could have catalyzed oxidation of thiolates to disulphides, thereby modifying membrane properties. We envisage the earliest iron sulphide bubbles (pro botryoids) first growing by hydrostatic inflation with hydrothermal fluid, but evolving to grow mainly by osmosis (the protocellular stage), driven by (1) catabolism of hydrothermal abiogenic organics trapped on the inner walls of the membrane, catalyzed by the iron sulphide clusters; and (2) cleavage of hydrophobic compounds dissolved in the membrane to hydrophilic moieties which were translocated, by the proton motive force inherent in the acidic Hadean ocean, to the alkaline interior of the protocell. The organics were generated first within the hydrothermal convective system feeding the hot springs operating in the oceanic crust and later in the pyritizing mound developing on the sea floor, as a consequence of the reduction of CO, CO2, and formaldehyde by Fe2+- and S2–-bearing minerals. We imagine the physicochemical interactions in and on the membrane to have been sufficiently complex to have engendered auto- and cross-catalytic replication. The membrane may have been constructed in such a way that a successful parent could have informed the daughters of membrane characteristics functional for the then-current level of evolution.en_NZ
dc.subjectiron sulphidesen_NZ
dc.subjectorigin of lifeen_NZ
dc.subjectproton motive forceen_NZ
dc.titleA hydrothermally precipitated catalytic iron sulphide membrane as a first step toward lifeen_NZ
dc.typeJournal Articleen_NZ

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