生物遗传的 "多物质网络 "概念。

IF 1.3 4区 生物学 Q4 GENETICS & HEREDITY
Genetica Pub Date : 2024-12-01 Epub Date: 2024-10-19 DOI:10.1007/s10709-024-00216-1
Günter A Müller, Timo D Müller
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引用次数: 0

摘要

在这里,我们打算将 "以 DNA 和信息为中心 "的生物遗传概念,以及随之而来的对任何非 DNA 物质的排斥,转变为一个 "多物质网络 "框架,即除 DNA 外,还考虑其他细胞膜成分的作用。这些细胞结构,特别是细胞器和质膜,在其表面表现出特定拓扑结构的 "景观",这些 "景观 "可能会因某些环境因素而改变。这些所谓的 "膜环境景观"(MELs)通过自组织/自生成而不是自组装的方式进行复制,通过各种(囊泡和非囊泡)机制从供体细胞转移到受体细胞,并在受体细胞中发挥新的功能。以 DNA 为中心 "的概念当然足以解释供体细胞复制 DNA 后将可遗传的表型变异转移到受体细胞,从而解释生物性状遗传现象。然而,它在因果关系上并不充分。随着对表型变异的观察(最初表现在细菌转化过程中),环境因素(如营养和压力)对基因表达差异调控的影响已被广泛接受,并引发了对表观遗传机制的深入研究。然而,这些都是在 DNA(和相关蛋白质)是唯一遗传物质的概念框架下解释的。与此相反,我们的论点是,只有将遗传充分理解为 DNA 与非 DNA 物质在 "多物质网络 "概念中的协同转移。充分纳入非 DNA 物质的转移仍然是未来遗传学研究的一个必要条件,它不仅可以为实验阐明 DNA 和膜物质如何协同作用以实现先天性状的遗传,还可以为实验阐明它们是否相互作用以实现后天生物性状的遗传铺平道路。此外,"多物质网络 "概念可能为了解 "常见复杂 "疾病的发病机理打开新的视角。
本文章由计算机程序翻译,如有差异,请以英文原文为准。
A "poly-matter network" conception of biological inheritance.

Here we intend to shift the "DNA- and information-centric" conception of biological inheritance, with the accompanying exclusion of any non-DNA matter, to a "poly-matter network" framework which, in addition to DNA, considers the action of other cellular membranous constituents. These cellular structures, in particular organelles and plasma membranes, express "landscapes" of specific topologies at their surfaces, which may become altered in response to certain environmental factors. These so-called "membranous environmental landscapes" (MELs), which replicate by self-organization / autopoiesis rather than self-assembly, are transferred from donor to acceptor cells by various - vesicular and non-vesicular - mechanisms and exert novel features in the acceptor cells. The "DNA-centric" conception may be certainly explanatorily sufficient for the transfer of heritable phenotype variation to acceptor cells following the copying of DNA in donor cells and thereby for the phenomenon of biological inheritance of traits. However, it is not causally sufficient. With the observation of phenotype variation, as initially manifested during bacterial transformation, the impact of environmental factors, such as nutrition and stress, in the differential regulation of gene expression has been widely accepted and resulted in intense efforts to resolve the underlying epigenetic mechanisms. However, these are explained under a conceptual frame where the DNA (and associated proteins) are the only matter of inheritance. In contrast, it is our argumentation that inheritance can only be adequately understood as the transfer of DNA in concert with non-DNA matter in a "poly-matter network" conception. The adequate inclusion of the transfer of non-DNA matter is still a desideratum of future genetic research, which may pave the way for the experimental elucidation not only of how DNA and membrane matter act in concert to enable the inheritance of innate traits, but also whether they interact for that of acquired biological traits. Moreover, the "poly-matter network" conception may open new perspectives for an understanding of the pathogenesis of "common complex" diseases.

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来源期刊
Genetica
Genetica 生物-遗传学
CiteScore
2.70
自引率
0.00%
发文量
32
审稿时长
>12 weeks
期刊介绍: Genetica publishes papers dealing with genetics, genomics, and evolution. Our journal covers novel advances in the fields of genomics, conservation genetics, genotype-phenotype interactions, evo-devo, population and quantitative genetics, and biodiversity. Genetica publishes original research articles addressing novel conceptual, experimental, and theoretical issues in these areas, whatever the taxon considered. Biomedical papers and papers on breeding animal and plant genetics are not within the scope of Genetica, unless framed in an evolutionary context. Recent advances in genetics, genomics and evolution are also published in thematic issues and synthesis papers published by experts in the field.
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