Pablo Carbonell, scientific researcher at the Institute of Integrative Systems Biology (I2SysBio), located in the scientific-academic area of the Science Park (PCUV), says: "Our proposal is based on the methodologies of generative metabolism, which has a proven success in the field of synthetic biology and metabolic engineering". On the other hand, "the novelty is that these techniques can be applied to one of the great outstanding problems of the primitive evolution of life: how LUCA’s complex metabolism emerged," said Juli Peretó, also an I2SysBio researcher.
In this work it is argued that generative metabolism models, based on a set of reaction rules, open a promising way to explore the enzymatic evolution within an extended metabolic space, which includes both the metabolic reactions that are currently real and those that are possible under given environmental conditions. "By understanding this full range of possible reactions, we can make more detailed hypotheses about the origins of life," the researchers point out.
"You can trace the evolution of enzymes through the tree of life to LUCA and map the ancestral genes that possibly had LUCA and its corresponding groups of encoded reactions", Pablo Carbobell and Juli Peretó, researchers at I2SysBio
One of the classic problems of studying the primitive evolution of life is how the transition from prebiotic chemistry (before the appearance of life) occurred on a planet very different from the present, towards the more primitive metabolisms which made possible the evolution of the first micro-organisms. Until now, the combination of bottom-up (from chemistry to biology) and bottom-up approaches (from current metabolic diversity to LUCA) could not bridge the gap between the prebiotic world and LUCA.
"You can trace the evolution of enzymes through the tree of life to LUCA and map the ancestral genes that LUCA possibly had and their corresponding groups of encoded reactions," explain Carbonell and Peretó. With the methodologies derived from generative metabolism, the authors propose that these reaction groups we currently observe can be rewound to the set of prebiotic reactions associated with the beginnings of biological evolution.
The article is part of a special volume of the PTRS magazine, which is dedicated to the subject "Origins of life: the possible and the actual", which collects in part the papers presented at a symposium of the Santa Fe Institute and coordinated by Ricard Solé (ICREA, Institute of Evolutionary Biology CSIC-UPF), Chris Kempes (Santa Fe Institute ) and Susan Stepney (University of York).
Source: UV News