细菌生命树的细胞包膜多样性和进化

IF 20.5 1区 生物学 Q1 MICROBIOLOGY Nature Microbiology Pub Date : 2024-09-18 DOI:10.1038/s41564-024-01812-9
Ameena Hashimi, Elitza I. Tocheva
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引用次数: 0

摘要

细菌细胞膜是一种复杂的多层结构,在所有细菌门中都是相同的。根据细胞周围膜的数量,可将其分为两大类。单核细菌由单层膜包围,而双核细菌细胞则由第二层外膜(OM)包围。细菌领域的古老划分导致了两个主要支系:Gracilicutes(葡萄球菌属),完全由diderm各门组成;Terrabacteria(地球细菌属),包括具有不同细胞膜结构的单膜和diderm物种。最近的结构和系统发育进展提高了我们对整个细菌生命树中细胞包膜的多样性和进化的认识。在此,我们将讨论主要细菌门内细胞包膜的可变性,并重点关注在真核细胞系中发现的保守特征。表征细胞包膜的生物生成机制以及细胞包膜的进化损益,有助于我们深入了解原始细胞和最后的普遍共同祖先,所有生物体都是从它们进化而来的。
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Cell envelope diversity and evolution across the bacterial tree of life
The bacterial cell envelope is a complex multilayered structure conserved across all bacterial phyla. It is categorized into two main types based on the number of membranes surrounding the cell. Monoderm bacteria are enclosed by a single membrane, whereas diderm cells are distinguished by the presence of a second, outer membrane (OM). An ancient divide in the bacterial domain has resulted in two major clades: the Gracilicutes, consisting strictly of diderm phyla; and the Terrabacteria, encompassing monoderm and diderm species with diverse cell envelope architectures. Recent structural and phylogenetic advancements have improved our understanding of the diversity and evolution of the OM across the bacterial tree of life. Here we discuss cell envelope variability within major bacterial phyla and focus on conserved features found in diderm lineages. Characterizing the mechanisms of OM biogenesis and the evolutionary gains and losses of the OM provides insights into the primordial cell and the last universal common ancestor from which all living organisms subsequently evolved. This Review discusses the diversity of cell envelope architectures across major bacterial phyla and highlights conserved features found in diderm lineages.
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来源期刊
Nature Microbiology
Nature Microbiology Immunology and Microbiology-Microbiology
CiteScore
44.40
自引率
1.10%
发文量
226
期刊介绍: Nature Microbiology aims to cover a comprehensive range of topics related to microorganisms. This includes: Evolution: The journal is interested in exploring the evolutionary aspects of microorganisms. This may include research on their genetic diversity, adaptation, and speciation over time. Physiology and cell biology: Nature Microbiology seeks to understand the functions and characteristics of microorganisms at the cellular and physiological levels. This may involve studying their metabolism, growth patterns, and cellular processes. Interactions: The journal focuses on the interactions microorganisms have with each other, as well as their interactions with hosts or the environment. This encompasses investigations into microbial communities, symbiotic relationships, and microbial responses to different environments. Societal significance: Nature Microbiology recognizes the societal impact of microorganisms and welcomes studies that explore their practical applications. This may include research on microbial diseases, biotechnology, or environmental remediation. In summary, Nature Microbiology is interested in research related to the evolution, physiology and cell biology of microorganisms, their interactions, and their societal relevance.
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