Metal ions turn on a stereoselective nonenzymatic reduction of keto acids by the coenzyme NADH

Robert J. Mayer; Joseph Moran

doi:10.1016/j.chempr.2024.05.007

Metal ions turn on a stereoselective nonenzymatic reduction of keto acids by the coenzyme NADH

Robert J. Mayer
, Joseph Moran

Technical University of Munich

Institut de Science et d'Ingénierie Supramoléculaires (ISIS)
Institut Universitaire de France
University of Ottawa

Research output: Contribution to journal › Article › peer-review

18 Scopus citations

Abstract

The relationship between genetic molecules and metabolism is one of the longest-standing problems for the origin of life. A central molecule within early metabolism is the coenzyme nicotinamide adenine dinucleotide (NAD(H)), a modified ribonucleotide and reducing agent. Yet, without enzymes, NADH does not reduce carbonyl compounds, its primary metabolic substrates, leading to an apparent paradox regarding its role in the evolution of metabolism. We now report that abundant metal ions turn on a nonenzymatic, stereoselective, and potentially primordial reduction reaction of keto acids by NADH. Kinetic, mechanistic, and computational studies elucidate the reaction mechanism and the way stereochemistry is transferred. Complexes of metals with RNA-derived coenzymes could have mediated the transition from inorganic to organic reducing agents and the propagation of chirality in early metabolism.

Original language	English
Pages (from-to)	2564-2576
Number of pages	13
Journal	Chem
Volume	10
Issue number	8
DOIs	https://doi.org/10.1016/j.chempr.2024.05.007
State	Published - 8 Aug 2024

Keywords

coenzymes
metabolism
NADH
origin of life
prebiotic chemistry
SDG14: Life below water
SDG15: Life on land
stereochemistry

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10.1016/j.chempr.2024.05.007

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title = "Metal ions turn on a stereoselective nonenzymatic reduction of keto acids by the coenzyme NADH",

abstract = "The relationship between genetic molecules and metabolism is one of the longest-standing problems for the origin of life. A central molecule within early metabolism is the coenzyme nicotinamide adenine dinucleotide (NAD(H)), a modified ribonucleotide and reducing agent. Yet, without enzymes, NADH does not reduce carbonyl compounds, its primary metabolic substrates, leading to an apparent paradox regarding its role in the evolution of metabolism. We now report that abundant metal ions turn on a nonenzymatic, stereoselective, and potentially primordial reduction reaction of keto acids by NADH. Kinetic, mechanistic, and computational studies elucidate the reaction mechanism and the way stereochemistry is transferred. Complexes of metals with RNA-derived coenzymes could have mediated the transition from inorganic to organic reducing agents and the propagation of chirality in early metabolism.",

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N2 - The relationship between genetic molecules and metabolism is one of the longest-standing problems for the origin of life. A central molecule within early metabolism is the coenzyme nicotinamide adenine dinucleotide (NAD(H)), a modified ribonucleotide and reducing agent. Yet, without enzymes, NADH does not reduce carbonyl compounds, its primary metabolic substrates, leading to an apparent paradox regarding its role in the evolution of metabolism. We now report that abundant metal ions turn on a nonenzymatic, stereoselective, and potentially primordial reduction reaction of keto acids by NADH. Kinetic, mechanistic, and computational studies elucidate the reaction mechanism and the way stereochemistry is transferred. Complexes of metals with RNA-derived coenzymes could have mediated the transition from inorganic to organic reducing agents and the propagation of chirality in early metabolism.

AB - The relationship between genetic molecules and metabolism is one of the longest-standing problems for the origin of life. A central molecule within early metabolism is the coenzyme nicotinamide adenine dinucleotide (NAD(H)), a modified ribonucleotide and reducing agent. Yet, without enzymes, NADH does not reduce carbonyl compounds, its primary metabolic substrates, leading to an apparent paradox regarding its role in the evolution of metabolism. We now report that abundant metal ions turn on a nonenzymatic, stereoselective, and potentially primordial reduction reaction of keto acids by NADH. Kinetic, mechanistic, and computational studies elucidate the reaction mechanism and the way stereochemistry is transferred. Complexes of metals with RNA-derived coenzymes could have mediated the transition from inorganic to organic reducing agents and the propagation of chirality in early metabolism.

KW - coenzymes

KW - metabolism

KW - NADH

KW - origin of life

KW - prebiotic chemistry

KW - SDG14: Life below water

KW - SDG15: Life on land

KW - stereochemistry

UR - https://www.scopus.com/pages/publications/85197027549

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DO - 10.1016/j.chempr.2024.05.007

M3 - Article

AN - SCOPUS:85197027549

SN - 2451-9308

VL - 10

SP - 2564

EP - 2576

JO - Chem

JF - Chem

IS - 8

ER -

Metal ions turn on a stereoselective nonenzymatic reduction of keto acids by the coenzyme NADH

Abstract

Keywords

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