Massimo Di Giulio
Orcid: 0000-0003-2660-2571
According to our database1,
Massimo Di Giulio
authored at least 19 papers
between 2007 and 2025.
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Bibliography
2025
The existence of the two domains of life, Bacteria and Archaea, would in itself imply that LUCA and the ancestors of these domains were progenotes.
Biosyst., 2025
2024
The polyphyletic origins of glycyl-tRNA synthetase and lysyl-tRNA synthetase and their implications.
Biosyst., 2024
Theories of the origin of the genetic code: Strong corroboration for the coevolution theory.
Biosyst., 2024
2023
The absence of the evolutionary state of the Prokaryote would imply a polyphyletic origin of proteins and that LUCA, the ancestor of bacteria and that of archaea were progenotes.
Biosyst., November, 2023
The error minimization of the genetic code would have been determined by natural selection and not by a neutral evolution.
Biosyst., February, 2023
2022
Biosyst., 2022
Biosyst., 2022
The RNase P, LUCA, the ancestors of the life domains, the progenote, and the tree of life.
Biosyst., 2022
The genetic code is very close to a global optimum in a model of its origin taking into account both the partition energy of amino acids and their biosynthetic relationships.
Biosyst., 2022
2021
The phylogenetic distribution of the cell division system would not imply a cellular LUCA but a progenotic LUCA.
Biosyst., 2021
The evolutionary stages of the complexity of biological catalysts mark and clarify the phases of the origin of the genetic code: A model for the origin of the reading frame with codons from proto-mRNAs with different frames.
Biosyst., 2021
Biosyst., 2021
The late appearance of DNA, the nature of the LUCA and ancestors of the domains of life.
Biosyst., 2021
2020
LUCA as well as the ancestors of archaea, bacteria and eukaryotes were progenotes: Inference from the distribution and diversity of the reading mechanism of the AUA and AUG codons in the domains of life.
Biosyst., 2020
The phylogenetic distribution of the glutaminyl-tRNA synthetase and Glu-tRNA<sup>Gln</sup> amidotransferase in the fundamental lineages would imply that the ancestor of archaea, that of eukaryotes and LUCA were progenotes.
Biosyst., 2020
2019
The key role of the elongation factors in the origin of the organization of the genetic code.
Biosyst., 2019
2018
A discriminative test among the different theories proposed to explain the origin of the genetic code: The coevolution theory finds additional support.
Biosyst., 2018
2007
The first lines of divergence in the Bacteria domain were the hyperthermophilic organisms, the Thermotogales and the Aquificales, and not the mesophilic Planctomycetales.
Biosyst., 2007