Speculation on Quantum Mechanics and the Operation of Life Giving Catalysts

Haydon, Nathan; McGlynn, Shawn E.; Robus, Olin M.

doi:10.1007/s11084-010-9210-5

Cited by 9 publications

(8 citation statements)

References 50 publications

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“…7A). Such transition-metal sulfide catalysts would thereby be ripe for participation in the growing network of reactions requisite for the onset of metabolism (McGlynn et al, 2009;Berg et al, 2010;Haydon et al, 2010;Say and Fuchs, 2010).…”

Section: Figmentioning

confidence: 99%

Design, Fabrication, and Test of a Hydrothermal Reactor for Origin-of-Life Experiments

et al. 2010

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We describe a continuous high-pressure flow reactor designed to simulate the unforced convective interaction of hydrothermal solutions and ocean waters with submarine crust on early Earth-conditions appropriate to those that may have led to the onset of life. The experimental operating conditions are appropriate for investigating kinetic hydrothermal processes in the early history of any sizable wet, rocky planet. Beyond the description of the fabrication, we report an initial experiment that tested the design and investigated the feasibility of sulfide and silica dissolution in alkaline solution from iron sulfide and basaltic rock, and their possible subsequent transport as HS(-) and H(2)SiO(2-)(4) in hot alkaline solutions. Delivery of hydrogen sulfide and dihydrogen silicate ions would have led to the precipitation of ferrous hydroxide, hydroxysilicates, and iron sulfides as integral mineral components of an off-ridge compartmentalized hydrothermal mound in the Hadean. Such a mound could, we contend, have acted as a natural chemical and electrochemical reactor and, ultimately, as the source of all biochemistry on our planet. In the event, we show that an average of ∼1 mM/kg of both sulfide and silica were released throughout, though over 10 mM/kg of HS(-) was recorded for ∼100 minutes in the early stages of the experiment. This alkaline effluent from the reactor was injected into a reservoir of a simulacrum of ferrous iron-bearing "Hadean Ocean" water in an experiment that demonstrated the capacity of such fluids to generate hydrothermal chimneys and a variety of contiguous inorganic microgeode precipitates bearing disseminations of discrete metal sulfides. Comparable natural composite structures may have acted as hatcheries for emergent life in the Hadean.

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Section: Figmentioning

confidence: 99%

Design, Fabrication, and Test of a Hydrothermal Reactor for Origin-of-Life Experiments

et al. 2010

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“…Biology may have coopted such a pre-existing functionality through the process of geo-mimicry [54,55,75]. Furthermore, these entities could accommodate chemical evolution from the quantum-scale upwards [45]. Indeed, organisms today carry out a myriad of reactions involving protein-bound Fe-S clusters, strongly suggesting that these chemical agents were involved in biology from their very beginning [2,75,81,[94][95][96].…”

Section: Discussionmentioning

confidence: 99%

Peptide and RNA contributions to iron–sulphur chemical gardens as life's first inorganic compartments, catalysts, capacitors and condensers

McGlynn

Kanik

Russell

2012

Phil. Trans. R. Soc. A.

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Hydrothermal chimneys and compartments comprising transition metal sulphides and associated minerals have been proposed as likely locations for the beginnings of life. In laboratory simulations of off-axis alkaline springs, it is shown that the interaction of a simulated alkaline sulphide-bearing submarine vent solution with a primeval anoxic iron-bearing ocean leads to the formation of chimney structures reminiscent of chemical gardens. These chimneys display periodicity in their deposition and exhibit diverse morphologies and mineralogies, affording the possibilities of catalysis and molecular sequestration. The addition of peptides and RNA to the alkaline solution modifies the elemental stoichiometry of the chimneys-perhaps indicating the very initial stage of the organic takeover on the way to living cells by charged organic polymers potentially synthesized in this same environment.

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“…There are several other pathways that also contain enzymes that reduce ubiquinone to ubiquinol and therefore function to feed electrons into the respiratory chain. The proton translocation by CI, CIII, and CIV generates an energy gradient across the inner membrane that is used by enzymes to synthesize ATP [110] .…”

Section: Tunnelling In Biological Systems -Redox Reactions and Enzymementioning

confidence: 99%

Quantum Biology: Does quantum physics hold the key to revolutionizing medicine?

Goh¹,

Tong²,

Pusparajah³

2020

Prog Drug Discov Biomed Sci

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Quantum biology is the study of quantum effects on biochemical mechanisms and biological function. Quantum physics describes the behaviour of the nanoscale particles that make up all matter including living organisms, but it was generally believed that the ‘warm, wet and noisy environment’ in living organisms would result in decoherence making it impossible for meaningful quantum effects to occur. However, there is now a substantial body of work supporting that nature has actually adapted in such a way as to exploit quantum properties to enhance cellular functioning and is believed to have role in a diverse range of key processes in living organisms ranging from maintaining the stability of DNA to neuron function to conscious cognition; from light harvesting in photosynthesis to avian magnetic field based navigation. This review aims to summarize the various mechanisms and functions in living organisms believed to utilize quantum mechanics to purposefully and effectively enhance their performance, and to explore the potential this could hold in diagnosing and treating various medical conditions.

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Speculation on Quantum Mechanics and the Operation of Life Giving Catalysts

Cited by 9 publications

References 50 publications

Design, Fabrication, and Test of a Hydrothermal Reactor for Origin-of-Life Experiments

Design, Fabrication, and Test of a Hydrothermal Reactor for Origin-of-Life Experiments

Peptide and RNA contributions to iron–sulphur chemical gardens as life's first inorganic compartments, catalysts, capacitors and condensers

Quantum Biology: Does quantum physics hold the key to revolutionizing medicine?

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