The emergence and evolution of metabolic pathways represented a crucial step in molecular and cellular evolution. In fact, the exhaustion of the prebiotic supply of amino acids and other compounds that were likely present on the primordial Earth imposed an important selective pressure, favoring those primordial heterotrophic cells that became able to synthesize those molecules. Thus, the emergence of metabolic pathways allowed primitive organisms to become increasingly less dependent on exogenous sources of organic compounds. Comparative analyses of genes and genomes from organisms belonging to Archaea, Bacteria, and Eukarya reveal that, during evolution, different forces and molecular mechanisms might have driven the shaping of genomes and the emergence of new metabolic abilities. Among these gene elongations, gene and operon duplications played a crucial role since they can lead to the (immediate) appearance of new genetic material that, in turn, might undergo evolutionary divergence, giving rise to new genes coding for new metabolic abilities. Concerning the mechanisms of pathway assembly, both the analysis of completely sequenced genomes and directed evolution experiments strongly support the patchwork hypothesis, according to which metabolic pathways have been assembled through the recruitment of primitive enzymes that could react with a wide range of chemically related substrates. However, the analysis of the structure and organization of genes belonging to ancient metabolic pathways, such as histidine biosynthesis, suggests that other different hypothesis, i.e., the retrograde hypothesis, may account for the evolution of some steps within metabolic pathways.

The Origin and Evolution of Metabolic Pathways: Why and How did Primordial Cells Construct Metabolic Routes? / Fani R. - In: EVOLUTION. - ISSN 1936-6426. - STAMPA. - 5:(2012), pp. 367-381.

The Origin and Evolution of Metabolic Pathways: Why and How did Primordial Cells Construct Metabolic Routes?

FANI, RENATO
2012

Abstract

The emergence and evolution of metabolic pathways represented a crucial step in molecular and cellular evolution. In fact, the exhaustion of the prebiotic supply of amino acids and other compounds that were likely present on the primordial Earth imposed an important selective pressure, favoring those primordial heterotrophic cells that became able to synthesize those molecules. Thus, the emergence of metabolic pathways allowed primitive organisms to become increasingly less dependent on exogenous sources of organic compounds. Comparative analyses of genes and genomes from organisms belonging to Archaea, Bacteria, and Eukarya reveal that, during evolution, different forces and molecular mechanisms might have driven the shaping of genomes and the emergence of new metabolic abilities. Among these gene elongations, gene and operon duplications played a crucial role since they can lead to the (immediate) appearance of new genetic material that, in turn, might undergo evolutionary divergence, giving rise to new genes coding for new metabolic abilities. Concerning the mechanisms of pathway assembly, both the analysis of completely sequenced genomes and directed evolution experiments strongly support the patchwork hypothesis, according to which metabolic pathways have been assembled through the recruitment of primitive enzymes that could react with a wide range of chemically related substrates. However, the analysis of the structure and organization of genes belonging to ancient metabolic pathways, such as histidine biosynthesis, suggests that other different hypothesis, i.e., the retrograde hypothesis, may account for the evolution of some steps within metabolic pathways.
2012
5
367
381
Fani R
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Utilizza questo identificatore per citare o creare un link a questa risorsa: https://hdl.handle.net/2158/686041
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