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引用次数: 0
摘要
RNA 世界假说认为,RNA 分子在信息编码和催化方面发挥着核心作用。尽管实验和计算建模都积累了支持这一假说的证据,但从 RNA 世界过渡到由 DNA 编码可遗传遗传信息的世界仍是一个悬而未决的问题。最近的实验表明,RNA 和 DNA 模板都能利用游离的 RNA/DNA 核苷酸,以非酶方式或在复制酶核糖酶的作用下延伸互补引物。在这些实验的指导下,我们分析了通过 DNA 核苷酸的存在而扩展的一系列反应途径的原细胞进化。通过将这些反应封装在三种不同类型的原细胞区室(每种区室都受到不同模式的选择)中,我们展示了含有低拷贝数 DNA 编码复制酶和高拷贝数复制酶的原细胞如何在种群中占主导地位。在通过非酶促反应偶然出现复制酶后,复制酶核糖酶从编码复制酶的 DNA 模板中自动催化合成的反应促进了这一现象的发生。我们的研究揭示了一条从 RNA 世界过渡到以达尔文进化论为特征的 RNA-DNA 混合世界的途径,在这个世界中,DNA 序列编码可遗传的表型。
The RNA-DNA world and the emergence of DNA-encoded heritable traits.
The RNA world hypothesis confers a central role to RNA molecules in information encoding and catalysis. Even though evidence in support of this hypothesis has accumulated from both experiments and computational modelling, the transition from an RNA world to a world where heritable genetic information is encoded in DNA remains an open question. Recent experiments show that both RNA and DNA templates can extend complementary primers using free RNA/DNA nucleotides, either non-enzymatically or in the presence of a replicase ribozyme. Guided by these experiments, we analyse protocellular evolution with an expanded set of reaction pathways made possible through the presence of DNA nucleotides. By encapsulating these reactions inside three different types of protocellular compartments, each subject to distinct modes of selection, we show how protocells containing DNA-encoded replicases in low copy numbers and replicases in high copy numbers can dominate the population. This is facilitated by a reaction that leads to auto-catalytic synthesis of replicase ribozymes from DNA templates encoding the replicase after the chance emergence of a replicase through non-enzymatic reactions. Our work unveils a pathway for the transition from an RNA world to a mixed RNA-DNA world characterized by Darwinian evolution, where DNA sequences encode heritable phenotypes.
期刊介绍:
RNA has played a central role in all cellular processes since the beginning of life: decoding the genome, regulating gene expression, mediating molecular interactions, catalyzing chemical reactions. RNA Biology, as a leading journal in the field, provides a platform for presenting and discussing cutting-edge RNA research.
RNA Biology brings together a multidisciplinary community of scientists working in the areas of:
Transcription and splicing
Post-transcriptional regulation of gene expression
Non-coding RNAs
RNA localization
Translation and catalysis by RNA
Structural biology
Bioinformatics
RNA in disease and therapy