一个属的多样性:对Desmonostoc (Nostocaceae, Cyanobacteriota)的综合多层分析

IF 4.3 3区 材料科学 Q1 ENGINEERING, ELECTRICAL & ELECTRONIC ACS Applied Electronic Materials Pub Date : 2023-05-01 DOI:10.1016/j.syapm.2023.126422
Allan Victor M. Almeida , Marcelo Gomes Marçal Vieira Vaz , Naira Valle de Castro , Diego Bonaldo Genuário , Jean Coutinho Oder , Pedro Augusto Marazzo de Souza , Sandy Bastos Martins , Mariana Machado , Adriano Nunes-Nesi , Wagner L. Araújo
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引用次数: 1

摘要

蓝藻(Phylum Cyanobacteriota)是一种能够进行含氧光合作用的革兰氏阴性细菌。尽管蓝藻的分类学分类在很长一段时间内主要基于形态学特征,但其他技术(如分子系统发育)的应用,尤其是近几十年来,有助于更好地解决蓝藻系统学问题,从而对门进行了修订。尽管Desmonostoc是一个新的属/簇,最近也描述了一些物种,但很少有研究来阐明其多样性,包括来自不同生态起源的菌株,或检查新的表征工具的应用。在这种情况下,本研究基于形态、分子、代谢和生理特征研究了Desmonostoc的多样性。尽管生理参数的使用对于多相方法来说是不寻常的,但它们在这里进行的表征中是有效的。基于16S rRNA基因序列的系统发育分析将所有研究菌株(25)归入D1聚类,并表明出现了新的亚聚类。还可以观察到,nifD和nifH在Desmonostoc菌株中表现出不同的进化史。总的来说,代谢和生理数据,加上形态计量学数据,总体上与基于16S rRNA基因系统发育的分离非常一致。此外,该研究提供了关于从巴西不同生物群落中收集的Desmonostoc菌株多样性的重要信息,揭示了它们是世界性菌株,适应低发光强度,具有巨大的代谢多样性和巨大的生物技术潜力。
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How diverse a genus can be: An integrated multi-layered analysis into Desmonostoc (Nostocaceae, Cyanobacteriota)

Cyanobacteria (Phylum Cyanobacteriota) are Gram-negative bacteria capable of performing oxygenic photosynthesis. Although the taxonomic classification of cyanobacteria was for a long time based primarily on morphological characters, the application of other techniques (e.g. molecular phylogeny), especially in recent decades, has contributed to a better resolution of cyanobacteria systematics, leading to a revision of the phylum. Although Desmonostoc occurs as a new genus/cluster and some species have been described recently, relatively few studies have been carried out to elucidate its diversity, which encompasses strains from different ecological origins, or examine the application of new characterization tools. In this context, the present study investigated the diversity within Desmonostoc, based on morphological, molecular, metabolic, and physiological characteristics. Although the usage of physiological parameters is unusual for a polyphasic approach, they were efficient in the characterization performed here. The phylogenetic analysis based on 16S rRNA gene sequences put all studied strains (25) into the D1 cluster and indicated the emergence of novel sub-clusters. It was also possible to observe that nifD and nifH exhibited different evolutionary histories within the Desmonostoc strains. Collectively, metabolic and physiological data, coupled with the morphometric data, were in general, in good agreement with the separation based on the phylogeny of the 16S rRNA gene. Furthermore, the study provided important information on the diversity of Desmonostoc strains collected from different Brazilian biomes by revealing that they were cosmopolitan strains, acclimatized to low luminous intensities, with a large metabolic diversity and great biotechnological potential.

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