First record of the endophytic bacteria of Deschampsia antarctica Ė. Desv. from two distant localities of the maritime Antarctic

IF 0.5 Q4 ECOLOGY

Czech Polar Reports Pub Date : 2021-08-24 DOI:10.5817/cpr2021-1-10

O. Podolich, I. Prekrasna, I. Parnikoza, T. Voznyuk, G. Zubova, I. Zaets, N. Miryuta, G. Myryuta, O. Poronnik, I. Kozeretska, V. Kunakh, Anna Maria Pirttila, E. Dykyi, N. Kozyrovska

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引用次数: 3

Abstract

Endophytic bacteria, recognized for their beneficial effects on plant development and adaptation, can facilitate the survival of Antarctic plants in severe environments. Here we studied endophytes of the vascular plant Deschampsia antarctica Ė. Desv. from two distantly located regions in the maritime Antarctic: King George Island (South Shetland Islands) and Galindez Island (Argentine Islands). Bacterial group-specific PCR indicated presence of Alphaproteobacteria, Betaproteobacteria, Gammaproteobacteria, Firmicutes, Cytophaga-Flavobacteria and Actinobacteria in root and leaf endosphere of D. antarctica sampled at four distinct sites of both locations. The diversity of endophytic bacteria was significantly higher in the leaves compared to the roots in plants from Galindez Island. Similarly, the diversity of endophytes was higher in the leaves rather than roots of plants from the King George Island. Twelve bacterial species were isolated from roots of D. antarctica of Galindez Island (the Karpaty Ridge and the Meteo Point) and identified by sequencing the 16S rRNA gene. Isolates were dominated by the Pseudomonas genus, followed by the genera Bacillus and Micrococcus. The vast majority of the isolates exhibited cellulase and pectinase activities, however, Bacillus spp. expressed neither of them, suggesting lack of genetic flow of these traits in endophytic bacilli in the maritime Antarctic. Pseudomonas sp. IMBG305 promoted an increase in the leaf number in most of the treated plant genotypes when compared with non-inoculated plants, and a rapid vegetation period of D. antarctica cultured in vitro, albeit the length of leaves in the treated plants was significantly lower, and flavonoid content leveled off in all treated plants. D. antarctica is known to develop diverse ecotypes with regard to ecological conditions, such as organic input, moisture or wind exposition. The D. antarctica phenotype could be extended further through the endophyte colonization, since phenotypic changes were observed in the inoculated D. antarcticaplants grown in vitro in our study. Herewith, endophytes can contribute to plant phenotypic plasticity, potentially beneficial for adaptation of D. antarctica.

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Deschampsia antarctica内生细菌的首次记录Ė。Desv。来自两个遥远的南极海域

内生细菌因其对植物发育和适应的有益作用而被公认，可以促进南极植物在恶劣环境中的生存。在这里，我们研究了维管植物南极德尚的内生菌。Desv。来自南极海洋中两个遥远的地区：乔治王岛（南设得兰群岛）和加林德斯岛（阿根廷群岛）。细菌群特异性PCR显示，在两个位置的四个不同位置取样的南极D.antarctica根和叶内层中存在α蛋白菌、β变形菌、γ变形菌、厚壁菌门、细胞吞噬黄细菌和放线菌。与加林德斯岛植物的根相比，叶中内生细菌的多样性明显更高。同样，乔治王岛植物的叶片中内生菌的多样性高于根系。从加林德斯岛南极D.antarctica（Karpaty山脊和Meteo Point）的根中分离到12种细菌，并通过16S rRNA基因测序进行了鉴定。分离物以假单胞菌属为主，其次是芽孢杆菌属和微球菌属。绝大多数分离株都表现出纤维素酶和果胶酶活性，但芽孢杆菌均不表达，这表明在南极海洋的内生杆菌中缺乏这些特征的遗传流动。与未接种的植物相比，假单胞菌属IMBG305促进了大多数处理植物基因型的叶片数量增加，并促进了体外培养的南极D.antarctica的快速植被期，尽管处理植物的叶片长度明显较低，并且所有处理植物中的类黄酮含量趋于平稳。D.众所周知，南极在生态条件方面发展出不同的生态型，如有机输入、水分或风力暴露。由于在我们的研究中在接种的体外生长的南极D.antarcticaplants中观察到表型变化，因此可以通过内生菌定殖进一步扩展南极D.antraca表型。因此，内生菌有助于植物表型的可塑性，可能有利于南极D.antarctica的适应。

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来源期刊

Czech Polar Reports Agricultural and Biological Sciences-Agricultural and Biological Sciences (all)

CiteScore

1.30

自引率

10.00%

发文量

期刊介绍： Czech Polar Reports is an international, multidisciplinary, peer-reviewed journal. It is issued 2 times a year. The journal is dedicated to provide original research papers for sciences related to the polar regions and other planets with polar analogues. Czech Polar Reports covers the disciplines listed below. polar paleontology, geology, geochemistry, geomorphology, glaciology, climatology, hydrology, pedology, biochemistry, ecology, environmental science, microbiology, plant and animal biology including marine biology.