沙漠盐盐和盐盐盐水中原核菌群差异rRNA基因元条形码研究

IF 2.2 Q1 MARINE & FRESHWATER BIOLOGY
Hosam Elsaied , Taha Soliman , Rania Siam , Mohamad Saad Abdelkarim , Sarah Sonbol
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引用次数: 1

摘要

不依赖培养的分子研究首次对两种沙漠盐水中的原核生物群落进行了探索和评价;埃及西部沙漠Siwa绿洲的“Aghormy”海盐湖和西奈北岸Bardawil泻湖的“Sebeaka Sabkha”海盐盐沼。16S rRNA基因元条形码从这两个地点共获得488,828个reads,分为17,741个operational taxonomic units (otu)。2个站点共有3030个otu, Aghormy Lake和Sebeaka Sabkha站点共有2255个和9426个otu。两个地点均有丰富的拟杆菌门,特别是在Aghormy和Sebeaka Sabkha分别有Salisaeta属和Salinibacter属。Aghormy卤水的系统类型为Deinococcus-Thermus、Spirochaetes、Rhodovibrio、pisciricketttsiaceae和GMD14H09 (Deltaproteobacteria)。而AT12OctB3 (Bacteroidetes)、rhodobacteraceae、Ectothiorhodospiraceae和Xanthomonadaceae组成了Sebeaka Sabkha细菌群落。在两种盐水中都发现了一种蓝藻样的种型。古细菌科(Halobacteriaceae)占Sebeaka卤水读数的4.8%。尽管两种盐水中记录的一些种型属于同一门,但它们在较低的分类等级上存在差异,这暗示了遥远的盐水环境对形成嗜盐群落的影响。代谢预测分析显示,TCA循环、支链氨基酸生物合成和血红素生物合成是耐盐的共同代谢特征。
本文章由计算机程序翻译,如有差异,请以英文原文为准。
Differential rRNA gene metabarcoding of prokaryotic consortia in desert athalassohaline and thalassohaline brines

Culture-independent molecular study presented the first exploring and evaluation of prokaryotic communities in two desert brines; the athalassohaline Lake “Aghormy”, Siwa Oasis, Western Desert of Egypt, and the thalassohaline saltern “Sebeaka Sabkha”, Bardawil Lagoon, north coast of the Sinai. 16S rRNA gene metabarcoding generated a total of 488,828 reads from both sites, grouped into 17,741 operational taxonomic units (OTUs). 3030 OTUs were shared in both sites, while 2255 and 9426 OTUs were unique to Aghormy Lake and Sebeaka Sabkha, respectively. Both sites showed an abundance of Bacteroidetes, particularly the genera Salisaeta and Salinibacter in Aghormy and Sebeaka Sabkha, respectively. Aghormy brine was characterized by phylotypes belonging to Deinococcus-Thermus, Spirochaetes, Rhodovibrio, Piscirickettsiaceae and GMD14H09 (Deltaproteobacteria). While phylotypes assigned to AT12OctB3 (Bacteroidetes), Rhodobacteriaceae, Ectothiorhodospiraceae, and Xanthomonadaceae formed Sebeaka Sabkha bacterial community. A Cyanobacteria-like phylotype was assigned to genus Dactylococcopsis in both brines. The archaeal family, Halobacteriaceae, represented 4.8% of Sebeaka brine reads. Although some of the recorded phylotypes in both brines belonged to the same phyla, they differed in lower taxonomic ranks, implicating distant brine environments' impact on shaping halophilic communities. The metabolic prediction analyses showed a dominance of TCA cycle, branched amino acid biosynthesis and heme biosynthesis, common metabolic features for salt tolerance.

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来源期刊
Egyptian Journal of Aquatic Research
Egyptian Journal of Aquatic Research MARINE & FRESHWATER BIOLOGY-
CiteScore
6.80
自引率
5.70%
发文量
63
审稿时长
39 days
期刊介绍: The Egyptian Journal of Aquatic Research is published by the National Institute of Oceanography & Fisheries. The Journal isdevoted to the publication of original papers and reviews in all branches of aquatic sciences (Oceanography, Limnology, Fisheries,Aquaculture and environmental sciences)
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