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51.
The division of labor between template and catalyst is a fundamental property of
all living systems: DNA stores genetic information whereas proteins function as
catalysts. The RNA world hypothesis, however, posits that, at the earlier stages
of evolution, RNA acted as both template and catalyst. Why would such division
of labor evolve in the RNA world? We investigated the evolution of DNA-like
molecules, i.e. molecules that can function only as template, in minimal
computational models of RNA replicator systems. In the models, RNA can function
as both template-directed polymerase and template, whereas DNA can function only
as template. Two classes of models were explored. In the surface models,
replicators are attached to surfaces with finite diffusion. In the compartment
models, replicators are compartmentalized by vesicle-like boundaries. Both
models displayed the evolution of DNA and the ensuing division of labor between
templates and catalysts. In the surface model, DNA provides the advantage of
greater resistance against parasitic templates. However, this advantage is at
least partially offset by the disadvantage of slower multiplication due to the
increased complexity of the replication cycle. In the compartment model, DNA can
significantly delay the intra-compartment evolution of RNA towards catalytic
deterioration. These results are explained in terms of the trade-off between
template and catalyst that is inherent in RNA-only replication cycles: DNA
releases RNA from this trade-off by making it unnecessary for RNA to serve as
template and so rendering the system more resistant against evolving parasitism.
Our analysis of these simple models suggests that the lack of catalytic activity
in DNA by itself can generate a sufficient selective advantage for RNA
replicator systems to produce DNA. Given the widespread notion that DNA evolved
owing to its superior chemical properties as a template, this study offers a
novel insight into the evolutionary origin of DNA. 相似文献
52.
Koonin EV 《PLoS computational biology》2011,7(8):e1002173
Research in quantitative evolutionary genomics and systems biology led to the discovery of several universal regularities connecting genomic and molecular phenomic variables. These universals include the log-normal distribution of the evolutionary rates of orthologous genes; the power law-like distributions of paralogous family size and node degree in various biological networks; the negative correlation between a gene's sequence evolution rate and expression level; and differential scaling of functional classes of genes with genome size. The universals of genome evolution can be accounted for by simple mathematical models similar to those used in statistical physics, such as the birth-death-innovation model. These models do not explicitly incorporate selection; therefore, the observed universal regularities do not appear to be shaped by selection but rather are emergent properties of gene ensembles. Although a complete physical theory of evolutionary biology is inconceivable, the universals of genome evolution might qualify as "laws of evolutionary genomics" in the same sense "law" is understood in modern physics. 相似文献
53.
Evolutionary conservation suggests a regulatory function of AUG triplets in 5'-UTRs of eukaryotic genes 下载免费PDF全文
By comparing sequences of human, mouse and rat orthologous genes, we show that in 5′-untranslated regions (5′-UTRs) of mammalian cDNAs but not in 3′-UTRs or coding sequences, AUG is conserved to a significantly greater extent than any of the other 63 nt triplets. This effect is likely to reflect, primarily, bona fide evolutionary conservation, rather than cDNA annotation artifacts, because the excess of conserved upstream AUGs (uAUGs) is seen in 5′-UTRs containing stop codons in-frame with the start AUG and many of the conserved AUGs are found in different frames, consistent with the location in authentic non-coding sequences. Altogether, conserved uAUGs are present in at least 20–30% of mammalian genes. Qualitatively similar results were obtained by comparison of orthologous genes from different species of the yeast genus Saccharomyces. Together with the observation that mammalian and yeast 5′-UTRs are significantly depleted in overall AUG content, these findings suggest that AUG triplets in 5′-UTRs are subject to the pressure of purifying selection in two opposite directions: the uAUGs that have no specific function tend to be deleterious and get eliminated during evolution, whereas those uAUGs that do serve a function are conserved. Most probably, the principal role of the conserved uAUGs is attenuation of translation at the initiation stage, which is often additionally regulated by alternative splicing in the mammalian 5′-UTRs. Consistent with this hypothesis, we found that open reading frames starting from conserved uAUGs are significantly shorter than those starting from non-conserved uAUGs, possibly, owing to selection for optimization of the level of attenuation. 相似文献
54.
Conservation versus parallel gains in intron evolution 总被引:10,自引:1,他引:9
Orthologous genes from distant eukaryotic species, e.g. animals and plants, share up to 25–30% intron positions. However, the relative contributions of evolutionary conservation and parallel gain of new introns into this pattern remain unknown. Here, the extent of independent insertion of introns in the same sites (parallel gain) in orthologous genes from phylogenetically distant eukaryotes is assessed within the framework of the protosplice site model. It is shown that protosplice sites are no more conserved during evolution of eukaryotic gene sequences than random sites. Simulation of intron insertion into protosplice sites with the observed protosplice site frequencies and intron densities shows that parallel gain can account but for a small fraction (5–10%) of shared intron positions in distantly related species. Thus, the presence of numerous introns in the same positions in orthologous genes from distant eukaryotes, such as animals, fungi and plants, appears to reflect mostly bona fide evolutionary conservation. 相似文献
55.
We report an in-depth computational study of the protein sequences and structures of the superfamily of archaeo-eukaryotic primases (AEPs). This analysis greatly expands the range of diversity of the AEPs and reveals the unique active site shared by all members of this superfamily. In particular, it is shown that eukaryotic nucleo-cytoplasmic large DNA viruses, including poxviruses, asfarviruses, iridoviruses, phycodnaviruses and the mimivirus, encode AEPs of a distinct family, which also includes the herpesvirus primases whose relationship to AEPs has not been recognized previously. Many eukaryotic genomes, including chordates and plants, encode previously uncharacterized homologs of these predicted viral primases, which might be involved in novel DNA repair pathways. At a deeper level of evolutionary connections, structural comparisons indicate that AEPs, the nucleases involved in the initiation of rolling circle replication in plasmids and viruses, and origin-binding domains of papilloma and polyoma viruses evolved from a common ancestral protein that might have been involved in a protein-priming mechanism of initiation of DNA replication. Contextual analysis of multidomain protein architectures and gene neighborhoods in prokaryotes and viruses reveals remarkable parallels between AEPs and the unrelated DnaG-type primases, in particular, tight associations with the same repertoire of helicases. These observations point to a functional equivalence of the two classes of primases, which seem to have repeatedly displaced each other in various extrachromosomal replicons. 相似文献
56.
Moroz OV Murzin AG Makarova KS Koonin EV Wilson KS Galperin MY 《Journal of molecular biology》2005,347(2):243-255
Structure-guided analysis of the new dimeric dUTPase family revealed its sequence relationship to the phage T4 dCTPase, phosphoribosyl-ATP pyrophosphatase HisE, NTP pyrophosphatase MazG, and several uncharacterized protein families, including the human protein XTP3TPA (RS21-C6), which is overexpressed in embryonic and cancer cells. Comparison with the recently determined structure of a MazG-like protein from Sulfolobus solfataricus supported the unification of these enzymes in one superfamily of all-alpha NTP pyrophosphatases, suggesting that dimeric dUTPases evolved from a tetrameric MazG-like ancestor by gene duplication. Analysis of the structure of the Sulfolobus MazG points to 2-hydroxyadenosine (isoguanosine) triphosphate, a product of oxidative damage of ATP, as the most likely substrate. We predict that uncharacterized members of this superfamily perform "house-cleaning" functions by hydrolyzing abnormal NTPs and are functionally analogous to the structurally unrelated hydrolases of the Nudix superfamily. We outline probable tertiary and quaternary structures of the all-alpha NTP pyrophosphatase superfamily members. 相似文献
57.
Artem S Novozhilov Faina S Berezovskaya Eugene V Koonin Georgy P Karev 《Biology direct》2006,1(1):6-18
Background
Oncolytic viruses that specifically target tumor cells are promising anti-cancer therapeutic agents. The interaction between an oncolytic virus and tumor cells is amenable to mathematical modeling using adaptations of techniques employed previously for modeling other types of virus-cell interaction. 相似文献58.
In eukaryotes, the GINS complex is essential for DNA replication and has been implicated as having a role at the replication fork. This complex consists of four paralogous GINS subunits, Psf1, Psf2, Psf3 and Sld5. Here, we identify an archaeal GINS homologue as a direct interaction partner of the MCM helicase. The core archaeal GINS complex contains two subunits that are poorly conserved homologues of the eukaryotic GINS subunits, in complex with a protein containing a domain homologous to the DNA-binding domain of bacterial RecJ. Interaction studies show that archaeal GINS interacts directly with the heterodimeric core primase. Our data suggest that GINS is important in coordinating the architecture of the replication fork and provide a mechanism to couple progression of the MCM helicase on the leading strand with priming events on the lagging strand. 相似文献
59.
The U box is a modified RING finger - a common domain in ubiquitination 总被引:15,自引:0,他引:15
60.
Daria V. Dibrova Michail Y. Chudetsky Michael Y. Galperin Eugene V. Koonin Armen Y. Mulkidjanian 《Origins of life and evolution of the biosphere》2012,42(5):459-468
Any scenario of the transition from chemistry to biology should include an ??energy module?? because life can exist only when supported by energy flow(s). We addressed the problem of primordial energetics by combining physico-chemical considerations with phylogenomic analysis. We propose that the first replicators could use abiotically formed, exceptionally photostable activated cyclic nucleotides both as building blocks and as the main energy source. Nucleoside triphosphates could replace cyclic nucleotides as the principal energy-rich compounds at the stage of the first cells, presumably because the metal chelates of nucleoside triphosphates penetrated membranes much better than the respective metal complexes of nucleoside monophosphates. The ability to exploit natural energy flows for biogenic production of energy-rich molecules could evolve only gradually, after the emergence of sophisticated enzymes and ion-tight membranes. We argue that, in the course of evolution, sodium-dependent membrane energetics preceded the proton-based energetics which evolved independently in bacteria and archaea. 相似文献