基于生物适应进化原理论证生物进化的动力

文章从现有主流生物进化理论存在的问题入手, 以生物适应进化原理为认识基础, 讨论生物进化的动力, 以求对生物进化机制有一个新的认识。在薛定谔“生命赖负熵生存”观点的指导下, 提出了“负熵流”包括能量流、物质流和信息流, 以及负熵流是生命生存和发育的动力的观点。作者在原有生物适应进化原理基础上, 修改完善并提出了“DNA、RNA和蛋白质在环境作用下的生物适应进化调控系统”理论, 并根据系统发育是个体发育的“积分”的观点, 推论得出生物与环境的负熵差引起的负熵流也是生命进化的动力, 对生物进化机制作出了新的理解。基于这样的生物进化机制的认识, 提出了“进化是一个子系统在其上一等级系统中, 将自身全部或部分信息遗传给下一代子系统, 并在其适应上一等级系统过程中, 产生一些新质, 终止一些旧质, 从而在其上一等级系统中得以延续的变化过程”的概念, 并探讨了一些与进化有关的其他争议问题。     

生物多样性起源与进化研究进展

生物多样性的起源与进化是生命科学领域最重要的科学问题之一。多组学数据的积累和相关分析技术的发展, 极大地推动了人们对生物多样性起源与进化的理解和研究, 使得阐明生物进化事件发生的过程与机制成为可能。值此《生物多样性》创刊30周年之际, 本文简要回顾生物多样性起源与进化相关研究在近年来取得的重要研究进展, 以期帮助读者了解该研究方向的发展现状。过去10年中, 生物多样性起源与进化相关研究在生命之树重建、生物多样性时空分布格局、物种概念、物种形成与适应性进化以及新性状起源与多样化等方面取得了许多重要进展, 并在此基础上厘清了许多分类单元间的系统发育关系、揭示了生物多样性分布格局的部分历史成因、提出了新的物种概念和物种形成模型、阐明了新性状和新功能发生的部分分子机制。我们认为, 更精准地重建生命之树、深入挖掘基因组数据以及多学科交叉融合将是今后生物多样性研究的主要趋势。     

昆虫嗅觉策略的进化

洛克菲勒大学和东京大学的研究人员发现,昆虫利用快速反应离子通道感知气味,这是一种完全不同于其他生物的嗅觉机制,也是生物进化领域的一大突破。达尔文生物进化树描绘了生物的进化路线,并可推测当代生物多样性的演化历程,而这项关于离子通道进化的结果有可能导致现有进化树的重构。     

食肉目哺乳动物的系统发育学研究概述

追溯生物界不同生物类型的起源及进化关系,即重建生物类群的系统发育树是进化生物学领域中一个十分重要的内容。食肉目哺乳动物位于食物链顶端,很多成员不仅在我国野生动物保护工作中占有重要地位,而且还是研究动物适应性进化遗传机制的重要模式生物。因而,食肉目物种作为物种资源中的一个重要类群,其系统发育学一直是国内外研究的热门课题。构建可靠的食肉目分子系统树,无疑将具有重要的进化理论意义和保护生物学价值。鉴于目前食肉目各科间系统发育关系仍然处于“广泛争论”的状态,本文将针对食肉目科水平上的系统发育学研究进展,包括来自于形态学特征、细胞学及分子生物学方面的证据,做简要概述,并提出目前研究中存在的问题。这对今后食肉目系统发育方面的进一步研究工作具有指导意义,并为以该类群作为模式生物开展适应性进化研究奠定基础。     

食肉目哺乳动物的系统发育学研究概述

追溯生物界不同生物类型的起源及进化关系，即重建生物类群的系统发育树是进化生物学领域中一个十分重要的内容。食肉目哺乳动物位于食物链顶端，很多成员不仅在我国野生动物保护工作中占有重要地位，而且还是研究动物适应性进化遗传机制的重要模式生物。因而，食肉目物种作为物种资源中的一个重要类群，其系统发育学一直是国内外研究的热门课题。构建可靠的食肉目分子系统树，无疑将具有重要的进化理论意义和保护生物学价值。鉴于目前食肉目各科间系统发育关系仍然处于“广泛争论”的状态，本文将针对食肉目科水平上的系统发育学研究进展，包括来自于形态学特征、细胞学及分子生物学方面的证据，做简要概述，并提出目前研究中存在的问题。这对今后食肉目系统发育方面的进一步研究工作具有指导意义，并为以该类群作为模式生物开展适应性进化研究奠定基础。     

真菌化石研究进展

随着真菌化石被不断发现,利用化石中的真菌研究真菌类群的起源和进化历程逐渐成为真菌进化生物学研究的一个热点。真菌化石还是研究古生态中真菌与其他生物之间相互作用的重要材料,而这种相互作用既能用于研究古生物间的协同进化,也能成为判断古生态、古气候的重要依据。本文综述了国内外真菌化石的研究进展,旨在为更加系统准确地确定不同真菌类群的分化时间,重建真菌的系统发育树提供参考,同时也为研究生物间相互作用以及推断古生态环境提供帮助。     

遗传伦理问题起源的研究与对策

遗传伦理问题是生命科学领域最具争议并最难以妥善解决的问题之一。近年来, 此类问题的研究主要是围绕遗传伦理问题的种类及解决方法进行的。但关于遗传伦理问题起源的系统研究尚不多见, 这也使相应对策的提出显得缺乏理论支撑。文章从人类生物进化与文化进化的双重角度深入探讨了遗传伦理问题发生的进化根源和演化规律。人类是生物进化与文化进化的双重产物, 是地球上唯一既具有生物属性又具有文化属性的物种。通过对人类生物进化与文化进化及其生物属性与文化属性特点的比较研究, 文章提出了任何伦理问题都可以从人类的生物进化与文化进化之间相互作用所产生的冲突中找到其发生根源的观点, 其目的是为研究遗传伦理问题及其对策的提出寻求理论和实践上的依据。同时, 提出了一系列关于遗传伦理问题的对应策略。文章的最终目的并非仅仅为某种观点能被接受, 而是希望通过对遗传伦理问题及其起源的了解和认识, 使遗传学领域的决策者和研究者更具使命感与责任感, 使一般公众对遗传学研究及其应用少一些误解, 多一些理性, 从而使遗传学事业能健康、持续发展, 造福人类。     

植物与草食动物之间的协同适应及进化

通常协同进化是指一个物种 (或种群 )的遗传结构由于回应于另一个物种 (或种群 )遗传结构的变化而发生的相应改变。广义的理解 ,协同进化是相互作用的物种之间的互惠进化。生物之间、特别是植物与草食动物之间的协同适应与进化 ,已经成为生物进化、生态、遗传等学科十分关注的问题 ,可能成为生物学中各学科研究的交汇点或结点。作者具体阐述了 :(1)生物之间协同进化的研究意义 ,包括对生物学与生态学的价值 ;(2 )生物之间协同进化研究的限制或困难 ,诸如时间、研究对象、进化等级尺度和研究方法的限制 ;(3)植物与草食动物之间协同进化的主要研究对象 (系统 ) ,即昆虫传粉系统、昆虫诱导植物反应系统、种子散布系统、以及大型草食动物采食与植物反应系统 ;(4 )植物与草食动物之间协同进化的主要研究内容 ,包括适应特征 (性状 )——物种的可塑性 ,以及适应机制——物种适应过程与策略两个方面 ;(5 )植物与草食动物之间协同进化研究的存在问题及研究方向     

进化动力新探

许多学者,包括达尔文和杜布赞斯基等人对生物进化的原因颇有研究,伹对进化的动力问题论述甚少。然而,动力是生物进化的一种根本性的原因,是事物发展的内在根据。不搞清楚这个问题,就很难对生物的进化有更深刻的认识。关于生物进化的动力,流行的提法是遗传与变异(或称遗传与适应)之间的相互作用构成了生物进化的动力,它推动生物的进化,决定生物发展的方向和速度。其中,遗传是一种稳定性的因素,被认为是进化过程中保存物种的方面。由于生物有遗传性,谷子才成其为谷子,鸡才成其为鸡,人才成其为人。但是只遗传还不行,只遗传,原来有多少种生物,就永远是这么多生     

生物进化的"溶源菌"关系演变进程

从免疫学角度分析了病毒与噬菌体建立的“溶源菌”关系．提出了生物进化中的“溶源菌”进程观点,对一些生物进化问题做出了新的解释,包括生物在进化历程中如何抵抗疾病危害、保存物种并繁衍后代,寒武纪大爆发,生物进化在一定范围内出现的不连续性,生物间基因组的“C值悖理”及“重复基因序列”的由来等。结合转基因技术的成熟运用,提出了新的生物进化关系式:B=A x．有利于进化理论的深化完善。     

A complex-centric view of protein network evolution

The recent availability of protein–protein interaction networks for several species makes it possible to study protein complexes in an evolutionary context. In this article, we present a novel network-based framework for reconstructing the evolutionary history of protein complexes. Our analysis is based on generalizing evolutionary measures for single proteins to the level of whole subnetworks, comprehensively considering a broad set of computationally derived complexes and accounting for both sequence and interaction changes. Specifically, we compute sets of orthologous complexes across species, and use these to derive evolutionary rate and age measures for protein complexes. We observe significant correlations between the evolutionary properties of a complex and those of its member proteins, suggesting that protein complexes form early in evolution and evolve as coherent units. Additionally, our approach enables us to directly quantify the extent to which gene duplication has played a role in the evolution of complexes. We find that about one quarter of the sets of orthologous complexes have originated from evolutionary cores of homodimers that underwent duplication and divergence, testifying to the important role of gene duplication in protein complex evolution.     

How are humans related to other primates? A guided inquiry laboratory for undergraduate students

Understanding that phylogenies depict the evolutionary history of species is a critical concept for undergraduate biology students. We present an inquiry-based laboratory exercise exploring this concept in the context of the human phylogeny. This activity reinforces several important biological concepts and skills. Bolstered concepts include that evolution is descent with modification, that evolution is a genetic process, and that humans are closely related to apes. In terms of thinking skills, the lab gives students practice with hypothetical-deductive thinking, quantifying patterns from complex data, and evaluating evidence.     

Do arms races punctuate evolutionary stasis? Unified insights from phylogeny,phylogeography and microevolutionary processes

One of the major controversies in evolutionary biology concerns the processes underlying macroevolutionary patterns in which prolonged stasis is disrupted by rapid, short-term evolution that leads species to new adaptive zones. Recent advances in the understanding of contemporary evolution have suggested that such rapid evolution can occur in the wild as a result of environmental changes. Here, we examined a novel hypothesis that evolutionary stasis is punctuated by co-evolutionary arms races, which continuously alter adaptive peaks and landscapes. Based on the phylogeny of long-mouthed weevils in the genus Curculio , likelihood ratio tests showed that the macroevolutionary pattern of the weevils coincides with the punctuational evolution model. A coalescent analysis of a species, Curculio camelliae , the mouthpart of which has diverged considerably among populations because of an arms race with its host plant, further suggested that major evolutionary shifts had occurred within 7000 generations. Through a microevolutionary analysis of the species, we also found that natural selection acting through co-evolutionary interactions is potentially strong enough to drive rapid evolutionary shifts between adaptive zones. Overall, we posit that co-evolution is an important factor driving the history of organismal evolution.     

Connecting proximate mechanisms and evolutionary patterns: pituitary gland size and mammalian life history

At the proximate level, hormones are known to play a critical role in influencing the life history of mammals, including humans. The pituitary gland is directly responsible for producing several hormones, including those related to growth and reproduction. Although we have a basic understanding of how hormones affect life history characteristics, we still have little knowledge of this relationship in an evolutionary context. We used data from 129 mammal species representing 14 orders to investigate the relationship between pituitary gland size and life history variation. Because pituitary gland size should be related to hormone production and action, we predicted that species with relatively large pituitaries should be associated with fast life histories, especially increased foetal and post‐natal growth rates. Phylogenetic analyses revealed that total pituitary size and the size of the anterior lobe of the pituitary significantly predicted a life history axis that was correlated with several traits including body mass, and foetal and post‐natal growth rates. Additional models directly examining the association between relative pituitary size and growth rates produced concordant results. We also found that relative pituitary size variation across mammals was best explained by an Ornstein–Uhlenbeck model of evolution, suggesting an important role of stabilizing selection. Our results support the idea that the size of the pituitary is linked to life history variation through evolutionary time. This pattern is likely due to mediating hormone levels but additional work is needed. We suggest that future investigations incorporating endocrine gland size may be critical for understanding life history evolution.     

生物进化研究的回顾与展望

生物进化是自然科学的永恒之迷。随着历史的发展和科学的进步,生物进化思想从早期的萌芽,到自然选择学说、新达尔文主义,从现代综合理论,到分子进化的中性学说。再到新灾变论和点断平衡论等。当前,由于生物学各分支学科的飞速发展．它们就各自的研究对象在宏观和微观上不断地拓展和深入,并在不同的层次上形成了广泛的交叉、渗透和融合,现代的进化生物学研究从宏观的表型到微观的分子,从群体遗传改变的微进化到成种事件以及地史上生物类群谱系演化的宏进化,从直接的化石证据到基于形态性状、分子证据和环境变迁的综合推理,从基于遗传基础的比较基因组学到演化机理的进化发育生物学等。可以预见,在新的世纪里,在哲学和具体方法论(如系统论、控制论和信息论)的指导下,在生命科学、其他自然科学乃至社会科学工作者的通力合作下,综合遗传、发育和进化等研究领域的各种理论成果,生物进化理论即将出现也一定会出现的一个新的大综合和新的大统一。     

Arabidopsis and cotton (Gossypium) as models for studying copia-like retrotransposon evolution

Transposable elements have likely played an important role in species evolution. Questions of transposable element evolution, therefore, are best addressed within the context of their hosts' evolutionary history. This approach requires efficient means to identify and characterize transposable elements among related species. For the copia-like retrotransposons, this has recently become possible due to the development of a polymerase chain reaction assay to identify these sequences among plants. In this paper, the evolution of copia-like retrotransposons is evaluated within the context of the evolutionary history of two plant models, Arabidopsis thaliana and cotton (Gossypium).     

Historical contingency and behavioural divergence in territorial Anolis lizards

The extent that evolution - including adaptation - is historically contingent (dependent on past events) has often been hotly debated, but is still poorly understood. In particular, there are little data on the degree that behaviour, an aspect of the phenotype that is strongly linked to contemporary environments (social or physical), retains the imprint of evolutionary history. In this study, I examined whether differences in the design of the territorial displays among species of Caribbean Anolis lizards reflect island-specific selection regimes, or historically contingent predispositions associated with different clade histories. Adult males advertise territory ownership using a series of headbobs and dewlap extensions, bouts of which vary in duration among species. When display durations were mapped onto the Anolis phylogeny, prominent differences between species belonging to the Western and Eastern Caribbean radiations were apparent. Statistical analyses confirmed that species differences in the duration of headbob displays, and to some extent the duration of dewlap extensions, were historically contingent. The unique evolutionary histories of each clade have seemingly had a profound effect on the subsequent direction of display evolution among descendent taxa. These results combined with those from previous studies on these lizards show that past history can have an important impact on the type of behaviour exhibited by species today, to the point that adaptive evolution can proceed quite differently in lineages originating from different evolutionary starting points.     

What has become of the refugia hypothesis to explain biological diversity in Amazonia?

The spatial distribution of biodiversity and related processes is the core of Biogeography. Amazonia is the world's most diverse rainforest and the primary source of diversity to several Neotropical regions. The origins of such diversity continue to be an unresolved question in evolutionary biology. Among many competing hypotheses to explain the evolution of the Amazonian biodiversity, one stands out as the most influential: the refugia hypothesis by Jürgen Haffer. Here, we provide a chronological overview on how the refugia hypothesis evolved over the decades and how the criticism from different fields affected its acceptance. We conclude that the refugia hypothesis alone cannot explain the diversification of the complex Amazonian diversity, and perhaps it was not the most important diversification mechanism. However, the debate provoked by refugia has produced a great amount of knowledge on Amazonian climatic, geological, and evolutionary processes, as well as on species distributions, movements, and history.     

Rooting human parechovirus evolution in time

Background  

The Picornaviridae family contains a number of important pathogenic viruses, among which the recently reclassified human parechoviruses (HPeVs). These viruses are widespread and can be grouped in several types. Understanding the evolutionary history of HPeV could answer questions such as how long the circulating lineages last shared a common ancestor and how the evolution of this viral species is shaped by its population dynamics. Using both strict and relaxed clock Bayesian phylogenetics we investigated 1) the substitutions rates of the structural P1 and capsid VP1 regions and 2) evolutionary timescale of currently circulating HPeV lineages.     

Evolutionary history of alpine and subalpine Daphnia in western North America

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