Protobiotic Systems Chemistry Analyzed by Molecular Dynamics

Kahana, Amit; Lancet, Doron

doi:10.3390/life9020038

Cited by 19 publications

(19 citation statements)

References 98 publications

(146 reference statements)

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“…This modification allows sequestering of folate within the cell, and, as witnessed in thioester‐dependent syntheses using 4‐phosphopantetheine, it may serve as a swinging arm that permits metabolic channelling of the cofactor between successive folate‐dependent enzymes or catalytic centres (Schirch and Strong, 1989). Unravelling the possible scenarios coupling all these pathways together in an autocatalytic cycle (Kahana and Lancet, 2019) is out of the scope of the present work. Let us simply assume that, at some point, these processes resulted in the folate‐dependent synthesis of methionine following one of the many pathways involving the protection/ deprotection steps that are still distributed among extant organisms that make methionine (Ferla and Patrick, 2014; Bastard et al , 2017).…”

Section: Methionine As the Main Product Of Folate Metabolismmentioning

confidence: 99%

One‐carbon metabolism, folate, zinc and translation

Danchin

Sekowska

You

2020

Microbial Biotechnology

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The translation process, central to life, is tightly connected to the one-carbon (1-C) metabolism via a plethora of macromolecule modifications and specific effectors. Using manual genome annotations and putting together a variety of experimental studies, we explore here the possible reasons of this critical interaction, likely to have originated during the earliest steps of the birth of the first cells.Methionine, S-adenosylmethionine and tetrahydrofolate dominate this interaction. Yet, 1-C metabolism is unlikely to be a simple frozen accident of primaeval conditions. Reactive 1-C species (ROCS) are buffered by the translation machinery in a way tightly associated with the metabolism of iron-sulfur clusters, zinc and potassium availability, possibly coupling carbon metabolism to nitrogen metabolism. In this process, the highly modified position 34 of tRNA molecules plays a critical role. Overall, this metabolic integration may serve both as a protection against the deleterious formation of excess carbon under various growth transitions or environmental unbalanced conditions and as a regulator of zinc homeostasis, while regulating input of prosthetic groups into nascent proteins. This knowledge should be taken into account in metabolic engineering.

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Section: Methionine As the Main Product Of Folate Metabolismmentioning

confidence: 99%

One‐carbon metabolism, folate, zinc and translation

Danchin

Sekowska

You

2020

Microbial Biotechnology

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“…Lancet estimates this may have taken place several hundreds of millions of years after the Earth cooled down, to reach the Last Universal Common Ancestor (LUCA) at just prior to 3.5 billion years ago. The latter time frame being the point at which the existence of fossils pertaining to the unicellular life forms have been confirmed with a degree of certainty [28][29][30][31].…”

Section: Vesicles Firstmentioning

confidence: 99%

Molecules to Microbes

Jheeta¹

2020

Sci

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How did life begin on Earth? And is there life elsewhere in the Cosmos? Challenging questions, indeed. The series of conferences established by NoR CEL in 2013, addresses these very same questions. The basis for this paper is the summary report of oral presentations that were delivered by NoR CEL’s network members during the 2018 Athens conference and, as such, disseminates the latest research which they have put forward. More in depth material can be found by consulting the contributors referenced papers. Overall, the outcome of this conspectus on the conference demonstrates a case for the existence of “probable chemistry” during the prebiotic epoch.

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“…At last, a number of recent models have pointed to the role of a lipid component in the very early stages of the origin of RNA structures [17][18][19][20][21], which secondarily could have functioned independently [22]. Another possibility is that those lipids may result from the apparition of proteins catalyzing their synthesis, as in Archaea where a number of enzymes contribute to the biosynthesis of lipids [23].…”

Section: Miller's Experiments As a Bridge Between The Old Towards The mentioning

confidence: 99%

Footprints of a Singular 22-Nucleotide RNA Ring at the Origin of Life

Demongeot

Henrion‐Caude

2020

Biology

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(1) Background: Previous experimental observations and theoretical hypotheses have been providing insight into a hypothetical world where an RNA hairpin or ring may have debuted as the primary informational and functional molecule. We propose a model revisiting the architecture of RNA-peptide interactions at the origin of life through the evolutionary dynamics of RNA populations. (2) Methods: By performing a step-by-step computation of the smallest possible hairpin/ring RNA sequences compatible with building up a variety of peptides of the primitive network, we inferred the sequence of a singular docosameric RNA molecule, we call the ALPHA sequence. Then, we searched for any relics of the peptides made from ALPHA in sequences deposited in the different public databases. (3) Results: Sequence matching between ALPHA and sequences from organisms among the earliest forms of life on Earth were found at high statistical relevance. We hypothesize that the frequency of appearance of relics from ALPHA sequence in present genomes has a functional necessity. (4) Conclusions: Given the fitness of ALPHA as a supportive sequence of the framework of all existing theories, and the evolution of Archaea and giant viruses, it is anticipated that the unique properties of this singular archetypal ALPHA sequence should prove useful as a model matrix for future applications, ranging from synthetic biology to DNA computing.

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Protobiotic Systems Chemistry Analyzed by Molecular Dynamics

Cited by 19 publications

References 98 publications

One‐carbon metabolism, folate, zinc and translation

One‐carbon metabolism, folate, zinc and translation

Molecules to Microbes

Footprints of a Singular 22-Nucleotide RNA Ring at the Origin of Life

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