Introduction to the Special Issue on Early Evolution and the Last Common Ancestor.

The early evolution of life spans an extensive period preceding the emergence of the first eukaryotic cell. This epoch, which transpired from 4.5 to 2.5 billion years ago, marked the advent of many fundamental cellular attributes and witnessed the existence of the Last Common Ancestor (LCA) of all life forms. Uncovering and reconstructing this elusive LCA's characteristics and genetic makeup represents a formidable challenge and a pivotal pursuit in early evolution. While most scientific accounts concur that the LCA resembles contemporary prokaryotes, its precise definition, genome composition, metabolic capabilities, and ecological niche remain subjects of contentious debate.

The Unfinished Reconstructed Nature of the Last Universal Common Ancestor.

The ultimate consequence of Darwin's theory of common descent implies that all life on earth descends ultimately from a common ancestor. Biochemistry and molecular biology now provide sufficient evidence of shared ancestry of all extant life forms. However, the nature of the Last Universal Common Ancestor (LUCA) has been a topic of much debate over the years. This review offers a historical perspective on different attempts to infer LUCA's nature, exploring the debate surrounding its complexity. We further examine how different methodologies identify sets of ancient protein that exhibit only partial overlap. For example, different bioinformatic approaches have identified distinct protein subunits from the ATP synthetase identified as potentially inherited from LUCA. Additionally, we discuss how detailed molecular evolutionary analysis of reverse gyrase has modified previous inferences about an hyperthermophilic LUCA based mainly on automatic bioinformatic pipelines. We conclude by emphasizing the importance of developing a database dedicated to studying genes and proteins traceable back to LUCA and earlier stages of cellular evolution. Such a database would house the most ancient genes on earth.

Early-life origin of prostate cancer through deregulation of miR-206 networks in maternally malnourished offspring rats.

The Developmental Origins of Health and Disease (DOHaD) concept has provided the framework to assess how early life experiences can shape health and disease throughout the life course. While maternal malnutrition has been proposed as a risk factor for the developmental programming of prostate cancer (PCa), the molecular mechanisms remain poorly understood. Using RNA-seq data, we demonstrated deregulation of miR-206-Plasminogen (PLG) network in the ventral prostate (VP) of young maternally malnourished offspring. RT-qPCR confirmed the deregulation of the miR-206-PLG network in the VP of young and old offspring rats. Considering the key role of estrogenic signaling pathways in prostate carcinogenesis, in vitro miRNA mimic studies also revealed a negative correlation between miR-206 and estrogen receptor α (ESR1) expression in PNT2 cells. Together, we demonstrate that early life estrogenization associated with the deregulation of miR-206 networks can contribute to the developmental origins of PCa in maternally malnourished offspring. Understanding the molecular mechanisms by which early life malnutrition affects offspring health can encourage the adoption of a governmental policy for the prevention of non-communicable chronic diseases related to the DOHaD concept.

Entrega em adoção e demanda de reencontro à justiça: motivações da genitora / Voluntary relinquishment and request to justice for reunion: birth mother's motivations / Entrega en adopción y solicitud de reencuentro a la justicia: motivaciones de la madre biológica

Mudanças legislativas em relação à adoção vêm trazendo importantes repercussões para a compreensão do instituto. Neste artigo, temos como objetivo discutir especificidades da entrega voluntária de uma criança para adoção, no contexto da Justiça, e as motivações de demanda posterior da genitora para a viabilização de um reencontro. Problematizamos a amplitude do direito de acesso às origens, assegurado em lei aos adotados, a partir do entrelaçamento das temáticas entrega e reencontro, procurando compreender essas experiências pela perspectiva da genitora. Este trabalho parte de um caso paradigmático, atendido em uma Vara da Infância, Juventude e Idoso no estado do Rio de Janeiro, que culminou com o contato, mediado pelo Poder Judiciário, entre a adotada e sua genitora, por iniciativa desta. Trata-se de um estudo qualitativo, no qual foi realizada uma entrevista semiestruturada com a genitora, quatro anos após o acolhimento de seu pedido à Justiça. Os dados obtidos na entrevista foram analisados por meio do método de análise de conteúdo, em sua vertente categorial, resultando em duas categorias: entrega em adoção e segredos; reencontro: motivações e trajetórias. Constatamos a ausência de publicações brasileiras sobre a temática do reencontro, apontando que o assunto ainda é um tabu. Identificamos que, após o reencontro com a filha, foi possível à genitora uma transformação de si mesma, favorecendo o rompimento do segredo da entrega e de parte de sua história. Assinalamos a necessidade de mais pesquisas, incluindo-se a possibilidade da inserção do Judiciário na mediação dessas demandas.(AU)

Legislative changes related to adoption have brought important repercussions for understanding its regulations. In this article, we aim to discuss the peculiarities of a voluntary relinquishment of a child for adoption, in the context of justice, and the motivations of subsequent demand from the birth mother to set a reunion. We problematize the dimension of the right to access origins, guaranteed by law to adoptees, based on the intertwining of the themes voluntary relinquishment and reunion, seeking to understand these experiences from the perspective of the biological mother. This work is based on a paradigmatic case, attended at a Juvenile Court in the State of Rio de Janeiro, that culminated on the reunion of the adopted and her birth mother, at the initiative of the latter, mediated by the Judiciary. This is a qualitative study, in which we interviewed the biological mother, four years after her legal requirement. The data obtained in the interview were analyzed using the content analysis method, in its categorical aspect, resulting in two categories: voluntary relinquishment in adoption and secrets; reunion: motivations and trajectories. We concluded the absence of Brazilian studies about the theme of reunion, pointing out that the subject still as a taboo. We identified that, after the reunion with the daughter, it was possible for the biological mother to modify herself, favoring the breaking of the secret about the relinquishment and of part of her story. We point out the need of more research, including the possibility of inserting the Judiciary as a mediator for such demands.(AU)

Los cambios legislativos respecto a la adopción han tenido importantes repercusiones en la comprensión de la materia. Este artículo pretende discutir los detalles de la entrega espontánea de un niño para adopción, en el contexto de la Justicia, y las motivaciones de la posterior demanda de la madre biológica para hacer factible un reencuentro. Se problematiza la amplitud del derecho de acceso a los orígenes, garantizado por la ley a los adoptados, a partir del entrelazamiento de los temas entrega y reencuentro, analizando estas experiencias desde la perspectiva de la madre biológica. Este trabajo parte de un caso paradigmático que se llevó a cabo en un Juzgado de la Infancia, Juventud y Persona Mayor del Estado de Río de Janeiro y que culminó en el contacto entre la adoptada y su madre, por iniciativa de esta última, mediado por el Poder Judicial. Este estudio cualitativo realizó una entrevista semiestructurada con la madre biológica cuatro años después de su solicitud a la Justicia. A los datos obtenidos en la entrevista se aplicaron el método de análisis de contenido en su vertiente categórica, en el cual surgieron dos categorías: entrega en adopción y secretos; reencuentro: motivaciones y trayectorias. Se encontró que la falta de estudios brasileños sobre reencuentro apunta a que el concepto del sujeto todavía es un tabú. Se constató que luego del encuentro la madre biológica pasó por una autotransformación, lo que favoreció la ruptura del secreto sobre la entrega y parte de su historia. Es necesario realizar más investigaciones sobre el tema, incluida la posibilidad de insertar al Poder Judicial como mediador de tales demandas.(AU)

Prebiotic chemical refugia: multifaceted scenario for the formation of biomolecules in primitive Earth.

The origin of life was a cosmic event happened on primitive Earth. A critical problem to better understand the origins of life in Earth is the search for chemical scenarios on which the basic building blocks of biological molecules could be produced. Classic works in pre-biotic chemistry frequently considered early Earth as an homogeneous atmosphere constituted by chemical elements such as methane (CH4), ammonia (NH3), water (H2O), hydrogen (H2) and hydrogen sulfide (H2S). Under that scenario, Stanley Miller was capable to produce amino acids and solved the question about the abiotic origin of proteins. Conversely, the origin of nucleic acids has tricked scientists for decades once nucleotides are complex, though necessary molecules to allow the existence of life. Here we review possible chemical scenarios that allowed not only the formation of nucleotides but also other significant biomolecules. We aim to provide a theoretical solution for the origin of biomolecules at specific sites named "Prebiotic Chemical Refugia." Prebiotic chemical refugium should therefore be understood as a geographic site in prebiotic Earth on which certain chemical elements were accumulated in higher proportion than expected, facilitating the production of basic building blocks for biomolecules. This higher proportion should not be understood as static, but dynamic; once the physicochemical conditions of our planet changed periodically. These different concentration of elements, together with geochemical and astronomical changes along days, synodic months and years provided somewhat periodic changes in temperature, pressure, electromagnetic fields, and conditions of humidity, among other features. Recent and classic works suggesting most likely prebiotic refugia on which the main building blocks for biological molecules might be accumulated are reviewed and discussed.

The Theory of Chemical Symbiosis: A Margulian View for the Emergence of Biological Systems (Origin of Life).

The theory of chemical symbiosis (TCS) suggests that biological systems started with the collaboration of two polymeric molecules existing in early Earth: nucleic acids and peptides. Chemical symbiosis emerged when RNA-like nucleic acid polymers happened to fold into 3D structures capable to bind amino acids together, forming a proto peptidyl-transferase center. This folding catalyzed the formation of quasi-random small peptides, some of them capable to bind this ribozyme structure back and starting to form an initial layer that would produce the larger subunit of the ribosome by accretion. TCS suggests that there is no chicken-and-egg problem into the emergence of biological systems as RNAs and peptides were of equal importance to the origin of life. Life has initially emerged when these two macromolecules started to interact in molecular symbiosis. Further, we suggest that life evolved into progenotes and cells due to the emergence of new layers of symbiosis. Mutualism is the strongest force in biology, capable to create novelties by emergent principles; on which the whole is bigger than the sum of the parts. TCS aims to apply the Margulian view of biology into the origins of life field.

Natural Radioactive Environments as Sources of Local Disequilibrium for the Emergence of Life.

Certain subterranean environments of Earth have naturally accumulated long-lived radionuclides, such as 238U, 232Th, and 40K, near the presence of liquid water. In these natural radioactive environments, water radiolysis can produce chemical species of biological importance, such as H2. Although the proposal of radioactive decay as an alternative source of energy for living systems has existed for >30 years, this hypothesis gained strength after the recent discovery of a peculiar ecosystem in a gold mine in South Africa, whose existence is dependent on chemical species produced by water radiolysis. In this study, we calculate the chemical disequilibrium generated locally by water radiolysis due to gamma radiation. We then analyze the possible contribution of this disequilibrium for the emergence of life, considering conditions of early Earth and having as reference the alkaline hydrothermal vent theory. Results from our kinetic model point out the similarities between the conditions caused by water radiolysis and those found on alkaline hydrothermal systems. Our model produces a steady increase of pH with time, which favors the formation of a natural electrochemical gradient and the precipitation of minerals with catalytic activity for protometabolism in this aqueous environment. We conclude by describing a possible free-energy conversion mechanism based on protometabolism, which could be a requisite for the emergence of life in Hadean Earth.

Unexpected Thiocyanate Adsorption onto Ferrihydrite Under Prebiotic Chemistry Conditions.

The most crucial role played by minerals was in the preconcentration of biomolecules or precursors of biomolecules in prebiotic seas. If this step had not occurred, molecular evolution would not have occurred. Thiocyanate is an important molecule in the formation of biomolecules as well as a catalyst for prebiotic reactions. The adsorption of thiocyanate onto ferrihydrite was carried out under pH and ion composition conditions in seawater that resembled those of prebiotic Earth. The seawater used in this work had high Mg2+, Ca2+ and SO42- concentrations. The most important result of this work was that ferrihydrite adsorbed thiocyanateata pH value (7.2 ± 0.2) that usually does not adsorb thiocyanate. The high adsorptivity of Mg2+, Ca2+ and SO42-onto ferrihydrite showed that seawater ions can act as carriers of thiocyanate to the ferrihydrite surface, creating a huge outer-sphere complex. Kinetic adsorption and isotherm experiments showed the best fit for the pseudo-second-order model and an activation energy of 23.8 kJ mol-1forthe Langmuir-Freundlich model, respectively. Thermodynamic data showed positive ΔG values, which apparently contradict the adsorption isotherm data and kinetic data that was obtained. The adsorption of thiocyanate onto ferrihydrite could be explained by coupling with the exergonic SO42- adsorption onto ferrihydrite. The FTIR spectra showed no difference between the C≡N stretching peaks of adsorbed thiocyanate and free thiocyanate, corroborating the formation of an outer-sphere complex. All the results demonstrated the importance of the artificial seawater composition for the adsorption of thiocyanate and for understanding prebiotic chemistry.

Computer and Experimental Simulation of Alloxazine Synthesis from Gamma Irradiation of Amino Acids on Iceland Spar: A Prebiotic Chemistry Perspective.

On ancient Earth, environmental conditions favored prebiotic chemical reactions. In the Archean, some molecules with conjugated rings might have been synthesized, displaying structural stability in the Archean in the presence of ionizing radiation and hydration-dehydration events. Additionally, it is suggested that on ancient Earth, calcite was a common mineral promoting organic compound synthesis. In the present work a study of the interaction of amino acid mixtures with the (104) surface of calcite is presented. Our preliminary results show the abiotic synthesis of alloxazine (a flavin with relevant photochemical properties). Computer simulations were performed in HyperChem 8.0.1. by means of MM+ molecular mechanics and PM3 semi-empirical methods, in 27 possible amino acid trimers of alanine, glycine and lysine. Alloxazine formation is possible by the gamma irradiation of amino acids. The computer simulations show that trimers GGG and GGA promote the further transformation from diketopiperazines (DKP's) and KGK to alloxazine. The computer simulations with free radicals are not stable when alloxazine is interacting with the calcite surface. Experiments in anoxygenic environments with hydration-dehydration events in gamma irradiated samples allow the abiotic formation of flavins, DKP's and a heterocycle compound with possible relevance in prebiotic chemistry.

Biomolecules from Fossilized Hot Spring Sinters: Implications for the Search for Life on Mars.

Hot spring environments are commonly dominated by silica sinters that precipitate by the rapid cooling of silica-saturated fluids and the activity of microbial communities. However, the potential for preservation of organic traces of life in silica sinters back through time is not well understood. This is important for the exploration of early life on Earth and possibly Mars. Most previous studies have focused on physical preservation in samples <900 years old, with only a few focused on organic biomarkers. In this study, we investigate the organic geochemistry of hot spring samples from El Tatio, Chile and the Taupo Volcanic Zone, with ages varying from modern to ∼9.4 ka. Results show that all samples contain opaline silica and contain hydrocarbons that are indicative of a cyanobacterial origin. A ∼3 ka recrystallized, quartz-bearing sample also contains traces of cyanobacterial biomarkers. No aromatic compounds were detected in a ∼9.4 ka opal-A sample or in a modern sinter breccia sample. All other samples contain naphthalene, with one sample also containing other polyaromatic hydrocarbons. These aromatic hydrocarbons have a thermally mature distribution that is perhaps reflective of geothermal fluids migrating from deep, rather than surface, reservoirs. These data show that hot spring sinters can preserve biomolecules from the local microbial community, and that crystallinity rather than age may be the determining factor in their preservation. This research provides support for the exploration for biomolecules in opaline silica deposits on Mars.

Estudos funcionais e biológicos associados à interação de DUSP3 com a proteína HNRNPC1/C2 / Functional and biological studies associated to DUSP3 and HNRNPC1/C2 protein inte ractions

A regulação da fosforilação/desfosforilação das proteínas é o eixo central de muitas cascatas de sinalização. A fosfatase DUSP3, constituída apenas por um único domínio catalítico, desempenha papéis fundamentais na proliferação e senescência celular. Nas células HeLa, submetidas ao estresse genotóxico, o DUSP3 interage fisicamente com as proteínas HNRNPC, mas o efeito dessa função molecular ainda é desconhecido. Aqui demostramos que a ausência de DUPS3 mantem a proteína HNRNPC1/C2 num estado hiperfosforilado. Para entender melhor o envolvimento da interação DUSP3-HNRNPC nas funções biológicas da HNRNPC1/C2, foram estudadas células de fibroblasto deficientes de DUSP3. Foi analisado o efeito da deficiência de DUSP3 na biogênese dos ribossomos através do ensaio de perfil de polirribossomos e quantificação dos rRNAs com RT-qPCR. Os resultados mostraram que a deficiência de DUSP3 não afeta a maturação das subunidades ribossômicas, mas teria um impacto na transcrição dos pré-rRNAs e no acumulo das espécies 47S/45S. A expressado de genes contendo sequencias IRES foi analisado através do RT-qPCR e sua tradução ao longo do ciclo e em condições de estresse. Da expressão, não existe nenhuma diferença nos níveis de transcrição dos genes c-myc e xiap nas células normais e deficientes de DUSP3 em condições basais. Embora a síntese destas proteínas é maior nas células deficientes, mantendo um nível maior de tradução ao longo de todo o ciclo. Sob condições de estresse, esta duas proteínas sempre mantem uma maior expressão nas células Knockdown para DUSP3. Neste trabalho também foi estabelecido a presença de DUSP3 nos complexos da subunidade 40S, através do analise das frações obtidas do ensaio de polirribossomos e interação in vitro (Co-IP). A presença de DUSP3 nas subunidades 40S, os monossomas 80S e polissomos poderia ser através da interação direta com proteínas que possuem um domínio RRM e seria dependente dos complexos formados pelas proteínas e seus RNAs alvos. Aqui mostramos a interação in vitro de DUSP3 com a proteína PABP (com quatro domínios RRM), proteína que tem um papel importante na manutenção da taxa global de tradução, esta interação é enfraquecida na ausência de RNAs. A deficiência de DUSP3 também teria um impacto na interação das proteínas HNRNPC1/C2 e P53 in vitro. A ausência de DUSP3 diminui a interação HNRNPC-P53 através da hiperfosforilação da proteina HNRNPC1/C2. A perda desta interação, aumentaria os níveis da proteína P53 na célula deficiente de DUSP3 e poderia gerar parada no ciclo celular. Através de ensaios de imunofluorescência, se observo uma maior taxa de transcrição global na célula deficiente de DUSP3. Por fim, aqui demostramos que a interação direta de DUSP3 e HNRNPC1/C2 vai permitir a regulação das funções biológicas desta proteína, e a ausência de DUSP3 vai ter efeitos pleiotrópicos na homeostase da célula

inglêsProtein phosphorylation/dephosphorylation regulation is a central axis of many signaling cascades. DUSP3 phosphatase, consisting only of a single catalytic domain, plays key roles in cell proliferation and senescence. In HeLa cells subjected to genotoxic stress, DUSP3 physically interacts with HNRNPC proteins, but the effect of this molecular function is still unknown. Here we demonstrate that the absence of DUPS3 keeps the HNRNPC1/C2 proteins in a hyperphosphorylated state. To better understand the involvement of DUSP3- HNRNPC interaction on the biological functions of HNRNPC1/C2, DUSP3 deficient fibroblast cells were studied. The effect of DUSP3 deficiency on ribosome biogenesis was analyzed by polyribosome profile assay and RT-qPCR for rRNA quantification. The results showed that DUSP3 deficiency does not affect ribosomal subunit maturation, but would have an impact on transcription of pre-rRNAs and accumulation of 47S / 45S species. The expression of genes containing IRES sequences was analyzed by RT-qPCR and their translation throughout the cycle and under stress conditions. From expression, there is no difference in transcriptional levels of c-myc and xiap genes in normal and DUSP3 deficient cells under basal conditions. Although, the synthesis of these proteins is higher in deficient cells and these maintain a higher level of translation throughout the cell cycle. Under stress conditions, these two proteins always maintain higher expression in Knockdown cells for DUSP3. In this work, the presence of DUSP3 in the 40S ribosomal subunit complexes was also established by analyzing the fractions obtained from the polyribosome assay and in vitro interaction (CoIP). The presence of DUSP3 in the 40S subunits, 80S monosomes and polysomes could be through direct interaction with proteins that have an RRM domain and would be dependent on the complexes formed by the proteins and their target RNAs. Here we show the in vitro interaction of DUSP3 with PABP protein (with four RRM domains), a protein that plays an important role in maintaining the overall translation rate, this interaction is weakened in the absence of RNAs. DUSP3 deficiency would also have an impact on the interaction of HNRNPC1/C2 and P53 proteins in vitro. The absence of DUSP3 decreases HNRNPC-P53 interaction through hyperphosphorylation of the HNRNPC1/C2 proteins. Loss of this interaction would increase P53 protein levels in the DUSP3 deficient cell and could lead to cell cycle arrest. Through immunofluorescence assays, a higher overall transcription rate is observed in the DUSP3 deficient cell. Finally, we demonstrate that the direct interaction of DUSP3 and HNRNPC1/C2 will allow the regulation of the biological functions of this protein, and the absence of DUSP3 will have pleiotropic effects on cell homeostasis

Plastic Silica Conglomerate with an Extremophile Microbial Matrix in a Hot-Water Stream Paleoenvironment.

A new and unusual type of fossil, siliceous hot-spring deposit (sinter)-comprising monomictic, quartzose conglomerate encrusted with silicified microbial laminates-has been recognized in distal portions of Jurassic and Miocene paleo-geothermal fields of South and North America, respectively. The siliceous clasts are inferred to have originated as conduit-delivered hydrothermal silica gel, owing to their general plastic morphologies, which were then locally reworked and redistributed in geothermally influenced stream paleoenvironments. Today, hot-spring-fed streams and creeks, in places with silica-armored pavements, host microbial mats coating streambeds and/or growing over, and silicifying at, stream air-water interfaces, for example, in Yellowstone National Park (USA) and Waimangu Volcanic Valley (New Zealand). However, the modern deposits do not contain the plastically deformed silica cobbles evident in Mesozoic and Cenozoic examples described herein. Moreover, the fossil microbial laminates of this study are relatively dense and strongly coat the silica cobbles, suggesting the mats stabilized the clasts under fully submerged and hot, high-energy conditions. Thus, this new sinter facies, typically found a few kilometers from main spring-vent areas, is a perhaps unexpected extreme environment in which life took hold in hydrothermal-fluvial settings of the past, and may serve as an additional target in the search for fossil biosignatures of early Earth and possibly Mars.

Alarmones as Vestiges of a Bygone RNA World.

All known alarmones are ribonucleotides or ribonucleotide derivatives that are synthesized when cells are under stress conditions, triggering a stringent response that affects major processes such as replication, gene expression, and metabolism. The ample phylogenetic distribution of alarmones (e.g., cAMP, Ap(n)A, cGMP, AICAR, and ZTP) suggests that they are very ancient molecules that may have already been present in cellular systems prior to the evolutionary divergence of the Archaea, Bacteria, and Eukarya domains. Their chemical structure, wide biological distribution, and functional role in highly conserved cellular processes support the possibility that these modified nucleotides are molecular fossils of an epoch in the evolution of chemical signaling and metabolite sensing during which RNA molecules played a much more conspicuous role in biological catalysis and genetic information.

Prebiotic Evolution and Self-Assembly of Nucleic Acids.

Prebiotic evolution is the stage that is assumed to have taken place prior to the emergence of the first living entities, during which time the abiotic synthesis of monomers, oligomers, and supramolecular systems that led to the hypothesized RNA world occurred. In this Perspective, the success of one-pot Miller-Urey type synthesis of organic compounds is compared with the multipot syntheses developed within the framework of systems chemistry, which attempts to demonstrate that RNA could have been formed directly in the primitive environment. The prebiotic significance of liquid-crystal ordering of nucleic acid oligomers and self-organizing assemblages of RNA and DNA that are formed in the absence of membranes or mineral matrices is also addressed.

The Standard Genetic Code can Evolve from a Two-Letter GC Code Without Information Loss or Costly Reassignments.

It is widely agreed that the standard genetic code must have been preceded by a simpler code that encoded fewer amino acids. How this simpler code could have expanded into the standard genetic code is not well understood because most changes to the code are costly. Taking inspiration from the recently synthesized six-letter code, we propose a novel hypothesis: the initial genetic code consisted of only two letters, G and C, and then expanded the number of available codons via the introduction of an additional pair of letters, A and U. Various lines of evidence, including the relative prebiotic abundance of the earliest assigned amino acids, the balance of their hydrophobicity, and the higher GC content in genome coding regions, indicate that the original two nucleotides were indeed G and C. This process of code expansion probably started with the third base, continued with the second base, and ended up as the standard genetic code when the second pair of letters was introduced into the first base. The proposed process is consistent with the available empirical evidence, and it uniquely avoids the problem of costly code changes by positing instead that the code expanded its capacity via the creation of new codons with extra letters.

Constraining the Prebiotic Cell Size Limits in Extremely Hostile Environments: A Dynamical Perspective.

The ability to support a replicator population in an extremely hostile environment is considered in a simple model of a prebiotic cell. We explore from a classical approach how the replicator viability changes as a function of the cell radius. The model includes the interaction between two different species: a substrate that flows from the exterior and a replicator that feeds on the substrate and is readily destroyed in the environment outside the cell. According to our results, replicators in the cell only exist when the radius exceeds some critical value [Formula: see text] being, in general, a function of the substrate concentration, the diffusion constant of the replicator species, and the reproduction rate coefficient. Additionally, the influence of other parameters on the replicator population is also considered. The viability of chemical replicators under such drastic conditions could be crucial in understanding the origin of the first primitive cells and the ulterior development of life on our planet. Key Words: Prebiotic cell-Chemical replicator-Environment-Reproduction rate. Astrobiology 18, 403-411.

Horizontal transfer of code fragments between protocells can explain the origins of the genetic code without vertical descent.

Theories of the origin of the genetic code typically appeal to natural selection and/or mutation of hereditable traits to explain its regularities and error robustness, yet the present translation system presupposes high-fidelity replication. Woese's solution to this bootstrapping problem was to assume that code optimization had played a key role in reducing the effect of errors caused by the early translation system. He further conjectured that initially evolution was dominated by horizontal exchange of cellular components among loosely organized protocells ("progenotes"), rather than by vertical transmission of genes. Here we simulated such communal evolution based on horizontal transfer of code fragments, possibly involving pairs of tRNAs and their cognate aminoacyl tRNA synthetases or a precursor tRNA ribozyme capable of catalysing its own aminoacylation, by using an iterated learning model. This is the first model to confirm Woese's conjecture that regularity, optimality, and (near) universality could have emerged via horizontal interactions alone.

The origin of life as a probabilistic event in the Universe / A origem da vida enquanto um evento probabilístico no Universo

By means of a probabilistic mathematical model, we bring into discussion the origin of life as a stochastic process. We consider only the chance of information emergence in the proteome and genome under the ideal thermodynamic and chemical conditions. For a more realistic model, we used, as a parameter, the information amount in Nanoarchaeum equitans genome, the simplest known nowadays, as the equivalent to the first living cell that could have emerged in primitive Earth. We estimated the probability of information emergence by chance as about 10-500000. Considering the necessary ideal conditions for information emergence, the probability of the origin of life would be even smaller.

Através de um modelo probabilísticomatetmático, nós trazemos à discussão a origem da vida como um processo estocástico. Nós consideramossomente a chance da emergência da informação do proteoma e do genoma sob condições termodinâmicase químicas ideais. Para um modelo realístico, nós usamos, como parâmetro, o conteúdo informacional nogenoma do Nanoarchaeum equitans, a mais simples conhecida, como o equivalente a primeira célula viva quepoderia ter emergido na terra primitiva. Nós estimamos a probabilidade da emergência como sendo próximada 10-500.000. Considerando as condições ideais para emergência da informação, a probabilidade da origem da vida deveria ser ainda menor.

The origin of life as a probabilistic event in the Universe / A origem da vida enquanto um evento probabilístico no Universo

By means of a probabilistic mathematical model, we bring into discussion the origin of life as a stochastic process. We consider only the chance of information emergence in the proteome and genome under the ideal thermodynamic and chemical conditions. For a more realistic model, we used, as a parameter, the information amount in Nanoarchaeum equitans genome, the simplest known nowadays, as the equivalent to the first living cell that could have emerged in primitive Earth. We estimated the probability of information emergence by chance as about 10-500000. Considering the necessary ideal conditions for information emergence, the probability of the origin of life would be even smaller.(AU)

Através de um modelo probabilísticomatetmático, nós trazemos à discussão a origem da vida como um processo estocástico. Nós consideramossomente a chance da emergência da informação do proteoma e do genoma sob condições termodinâmicase químicas ideais. Para um modelo realístico, nós usamos, como parâmetro, o conteúdo informacional nogenoma do Nanoarchaeum equitans, a mais simples conhecida, como o equivalente a primeira célula viva quepoderia ter emergido na terra primitiva. Nós estimamos a probabilidade da emergência como sendo próximada 10-500.000. Considerando as condições ideais para emergência da informação, a probabilidade da origem da vida deveria ser ainda menor.(AU)