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引用次数: 0
摘要
进化生物学的许多最新研究扩展并完善了生物进化和自然选择的定义。目前的进化模型包含了不同的适应性和非适应性过程,这些过程基于分子遗传变化,以及 DNA 在单细胞物种中或在元动物物种的生殖细胞和体细胞中如何随着时间的推移而改变。有观点认为,自然选择应被视为一种生物规律,与描述个体适应性以及种群内部和种群之间变化的定量数学方程相一致。进化论是一个总体框架,它包含了自然选择法则,并阐明了表型变异为何会越来越普遍并导致物种适应性的提高。生物进化的概念框架包含许多共同具有预测价值的内聚原则。随着高分辨率技术的改进,这一框架将继续发展,使我们能够研究驱动生物表型的适应性和非适应性变化。
Natural selection and evolution: evolving concepts.
Many recent studies in evolutionary biology have expanded and refined definitions of biological evolution and natural selection. Current evolutionary models incorporate different adaptive and non-adaptive processes based on molecular genetic changes and how DNA is modified over time in unicellular species, or in germline versus somatic cells in metazoan species. Cogent arguments can be raised for the view that natural selection should be considered a biological law, consistent with quantitative mathematical equations that describe the fitness of individuals, as well as variations within and among populations. Evolution is an overarching framework that incorporates the laws of natural selection and clarifies why phenotypic variation can increase in prevalence and result in species adaptations. The conceptual framework for biological evolution incorporates many cohesive principles that collectively have a predictive value. This framework will continue to evolve with improvements in high-resolution technologies that enable us to examine both adaptive and non-adaptive changes that drive biological phenotypes.
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