A tandem combinatorial model for the prebiogenesis of diverse tetrapyrrole macrocycles

Taniguchi, Masahiko; Soares, Ana Raquel; Chandrashaker, Vanampally; Lindsey, Jonathan S.

doi:10.1039/c2nj21050a

Cited by 24 publications

(70 citation statements)

References 74 publications

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“…Tetrapyrroles have been proposed as essential for evolution if not for the origin of life. 9 The expansive number of products from such a small set of reactants stems from the incorporation of four pyrroles in each porphyrin macrocycle. Indeed, the use of reactants that bear polar and/or nonpolar substituents affords a mixture of porphyrins, the hydrophilic, amphiphilic, and hydrophobic members of which partition spontaneously in aqueous-surfactant media.…”

Section: Prebiotic Relevancementioning

confidence: 99%

“…One of the classic examples of a structure-directed reaction of proposed prebiotic relevance is the conversion of hydrogen cyanide to heterocycles including adenine. [7][8][9][10][11][12][13][14] Tetrapyrrole macrocycles have been suggested as valuable photoactive constituents in the evolution if not the origin of life. 5 A more recent example concerns the formation of nucleotides from simple constituents.…”

Section: Introductionmentioning

confidence: 99%

“…One reaction pathway is shown in Scheme 1. As one example, a combinatorial reaction of two aminoketones and two diketones affords up to 538 porphyrinogens, 9 whereas a corresponding [4 Â 4] combinatorial reaction affords up to 131 464 porphyrinogens. The a-methoxymethyl group enables self-condensation of the pyrrole leading to uroporphyrinogens; the latter upon dehydrogenation afford uroporphyrins, which have been proposed as ideal prebiotic photosensitizers.…”

Section: Introductionmentioning

confidence: 99%

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Complexity in structure-directed prebiotic chemistry. Effect of a defective competing reactant in tetrapyrrole formation

et al. 2015

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Chemical reactions in prebiotic environments likely entailed complex combinatorial processes with mixtures of reactants. As a case study, the effect of a defective reactant has been examined in a chemical model for the prebiogenesis of tetrapyrrole macrocycles (uroporphyrins). The latter are formed by a multistep process that includes (1) condensation of a b-diketone and an a-aminoketone to form a pyrrole, (2) self-condensation of the pyrrole to form a bilane (tetrapyrromethane), (3) cyclization of the bilane to form a porphyrinogen, and (4) oxidation of the porphyrinogen to form the porphyrin. A defective b-diketone (acetylacetone) affords a pyrrole that can react with nascent oligopyrromethane chains and in so doing terminate chain growth. Quantitative studies show that the porphyrin yield decreases with the fourth power of the mole fraction of the non-defective reactant. Mass spectral examination of the reaction mixture revealed the presence of the pyrrole and of end-capped oligomers derived from the defective diketone. Taken together, the results show the poisoning effect of a small amount of defective reactant in repetitive, irreversible structure-directed reactions, which have been a mainstay in thinking about chemistry leading to the origin of life.Scheme 1 Abiotic pathway to tetrapyrrole macrocycles.Chart 1 Pyrrole structural features required for self-condensation (top) and pyrroles lacking such features (bottom).

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Section: Prebiotic Relevancementioning

confidence: 99%

Section: Introductionmentioning

confidence: 99%

Section: Introductionmentioning

confidence: 99%

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Complexity in structure-directed prebiotic chemistry. Effect of a defective competing reactant in tetrapyrrole formation

et al. 2015

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“…Recently, we examined the three pairwise reactions of 1-AcOH + 2-PrOH, 1-Me + 2-PrOH, and 1-Me + 2-Et (one dione and one aminoketone each), as are shown in Scheme 3. Each reaction was performed in aqueous solution in the presence or absence of the surfactant sodium dodecylsulfate (Taniguchi et al, 2012). The pairwise reactions (upon chemical oxidation) give the wellknown uroporphyrin, coproporphyrin, and etioporphyrin macrocycles, respectively, which represent three different classes of polarity.…”

Section: Primordial Oil Slick and Tetrapyrrole Macrocyclesmentioning

confidence: 99%

“…Coproporphyrins, with four hydrophilic and four hydrophobic groups, can either aggregate in water or associate with a surfactant. Etioporphyrins have no carboxylic acid substituents, are hydrophobic, and are not expected to form in water in significant yields due to aggregation/precipitation of oligopyrromethane intermediates (Taniguchi et al, 2012).…”

Section: Primordial Oil Slick and Tetrapyrrole Macrocyclesmentioning

confidence: 99%

Primordial Oil Slick and the Formation of Hydrophobic Tetrapyrrole Macrocycles

Soares

Taniguchi²,

Chandrashaker³

et al. 2012

Astrobiology

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The functional end products of the extant biosynthesis of tetrapyrrole macrocycles in photosynthetic organisms are hydrophobic: chlorophylls and bacteriochlorophylls. A model for the possible prebiogenesis of hydrophobic analogues of nature's photosynthetic pigments was investigated by reaction of acyclic reactants in five media: aqueous solution (pH 7, 60°C, 24 h); aqueous solution containing 0.1 M decanoic acid (which forms a turbid suspension of vesicles); or aqueous solution accompanied by dodecane, mesitylene, or a five-component organic mixture (each of which forms a phase-separated organic layer). The organic mixture was composed of equimolar quantities of decanoic acid, dodecane, mesitylene, naphthalene, and pentyl acetate. The reaction of 1,5-dimethoxy-3-methylpentan-2,4-dione and 1-aminobutan-2-one to give etioporphyrinogens was enhanced in the presence of decanoic acid, affording (following chemical oxidation) etioporphyrins (tetraethyltetramethylporphyrins) in yields of 1.4-10.8% across the concentration range of 3.75-120 mM. The yield of etioporphyrins was greater in the presence of the five-component organic mixture (6.6% at 120 mM) versus that with dodecane or mesitylene (2.1% or 2.9%, respectively). The reaction in aqueous solution with no added oil-slick constituents resulted in phase separation-where the organic reactants themselves form an upper organic layer-and the yield of etioporphyrins was 0.5-2.6%. Analogous reactions leading to uroporphyrins (hydrophilic, eight carboxylic acids) or coproporphyrins (four carboxylic acids) were unaffected by the presence of decanoic acid or dodecane, and all yields were at most ∼2% or ∼8%, respectively. Taken together, the results indicate a facile means for the formation of highly hydrophobic constituents of potential value for prebiotic photosynthesis.

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Primitive Photosynthetic Architectures Based on Self‐Organization and Chemical Evolution of Amino Acids and Metal Ions

et al. 2018

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The emergence of light‐energy‐utilizing metabolism is likely to be a critical milestone in prebiotic chemistry and the origin of life. However, how the primitive pigment is spontaneously generated still remains unknown. Herein, a primitive pigment model based on adaptive self‐organization of amino acids (Cystine, Cys) and metal ions (zinc ion, Zn2+) followed by chemical evolution under hydrothermal conditions is developed. The resulting hybrid microspheres are composed of radially aligned cystine/zinc (Cys/Zn) assembly decorated with carbonate‐doped zinc sulfide (C‐ZnS) nanocrystals. The part of C‐ZnS can work as a light‐harvesting antenna to capture ultraviolet and visible light, and use it in various photochemical reactions, including hydrogen (H2) evolution, carbon dioxide (CO2) photoreduction, and reduction of nicotinamide adenine dinucleotide (NAD+) to nicotinamide adenine dinucleotide hydride (NADH). Additionally, guest molecules (e.g., glutamate dehydrogenase, GDH) can be encapsulated within the hierarchical Cys/Zn framework, which facilitates sustainable photoenzymatic synthesis of glutamate. This study helps deepen insight into the emergent functionality (conversion of light energy) and complexity (hierarchical architecture) from interaction and reaction of prebiotic molecules. The primitive pigment model is also promising to work as an artificial photosynthetic microreactor.

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A tandem combinatorial model for the prebiogenesis of diverse tetrapyrrole macrocycles

Cited by 24 publications

References 74 publications

Complexity in structure-directed prebiotic chemistry. Effect of a defective competing reactant in tetrapyrrole formation

Complexity in structure-directed prebiotic chemistry. Effect of a defective competing reactant in tetrapyrrole formation

Primordial Oil Slick and the Formation of Hydrophobic Tetrapyrrole Macrocycles

Primitive Photosynthetic Architectures Based on Self‐Organization and Chemical Evolution of Amino Acids and Metal Ions

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