Big Biology The Vital Question: The Chemistry of Early Life
Jan 1, 2026
Join biochemist Nick Lane, a professor at University College London and author of The Vital Question, as he explores the origins of life. He proposes that life began in alkaline hydrothermal vents, where metabolism powered by proton gradients came first, challenging traditional views centered on genetics. Lane discusses how protocells formed and evolved, the crucial role of mitochondria in supporting eukaryotic complexity, and why life on other planets may mirror these conditions. His fresh perspective reshapes our understanding of life's early chemistry.
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Energy-First Origin Model
- Early protocells likely exploited natural proton gradients inside alkaline hydrothermal vent pores to power CO2 fixation and growth.
- Nick Lane argues metabolism and energy harnessing preceded genes and organized heredity.
Lab Evidence Links Geochemistry To Metabolism
- Laboratory work shows hydrogen can react with CO2 to produce carboxylic acids, matching core metabolic intermediates.
- These products map directly onto Krebs cycle intermediates central to modern metabolism.
Protocell Membranes Self-Form In Vents
- Fatty acids can self-assemble into bilayer membranes under alkaline vent conditions, forming protocells with aqueous interiors.
- These protocells could host internal CO2-fixing chemistry that channels products into membrane growth.
