Deciphering the gut microbiota of zebrafish, the most used fish as a biological model: A meta-analytic approach

IF 4.6 Q2 MATERIALS SCIENCE, BIOMATERIALS
Estefanía Garibay-Valdez , Cinthia Alejandra Olivas-Bernal , Francisco Vargas-Albores , Marcel Martínez-Porchas , Diana Marbella García-Godínez , Diana Medina-Félix , Luis Rafael Martínez-Córdova , Francesco Cicala
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Abstract

A meta-analytic approach deciphered the taxonomic profile of the zebrafish gut microbiota at different developmental stages. Data (16S rDNA) were systematically searched in databases, selecting those with intestine samples of fish not exposed to a particular treatment or challenge (e.g., pathogens, dietetic tests, xenobiotics, etc.) and obtaining 340 samples to be processed. Results revealed marked differences between the developmental phases. Proteobacteria was the dominant phylum in the larval phase, with a relative abundance of 90%, while the rest of the phyla did not exceed 2%. Vibrio, Aeromonas, Plesiomonas, Pseudomonas, Shewanella, and Acinetobacter were the dominant genera in this phase. Transitional changes were observed after the larvae stage. Proteobacteria still registered high abundance (48%) in the juvenile phase, but Fusobacteria (40%) and Bacteriodota (5.9%) registered considerable increases. Genera, including Cetobacterium, Plesiomonas, Aeromonas, Vibrio, and Flavobacterium, dominated this stage. The phyla Proteobacteria (48%) and Fusobacteria (35%) were strongly established in the adult phase. Cetobacterium was registered as the most abundant genus, followed by Aeromonas, Acinetobacter, Plesiomonas, Vibrio, and ZOR0006 (Firmicutes; 6%). In conclusion, the composition of the intestinal microbiota of zebrafish is consistently determined by two primary phyla, Proteobacteria and Fusobacteria; however, this composition varies depending on the developmental stage. Cetobacterium and Aeromonas are the most relevant genera in juveniles and adults. Finally, these results reveal a consistent pattern of certain bacterial groups in the zebrafish microbiota that could help shape gnotobiotic models (colonized with a specific known bacterial community) or synthetic microbiota (in vitro assembly of microbes), among other approaches.

Abstract Image

解密斑马鱼--最常用的生物模型鱼类--的肠道微生物群:元分析方法
荟萃分析法破解了斑马鱼肠道微生物群在不同发育阶段的分类概况。在数据库中系统地搜索了数据(16S rDNA),选择了那些未暴露于特定处理或挑战(如病原体、饮食测试、异种生物等)的鱼的肠道样本,并获得了 340 个样本进行处理。结果显示,不同发育阶段之间存在明显差异。蛋白细菌是幼虫期的优势菌门,相对丰度为 90%,而其他菌门不超过 2%。弧菌属、气单胞菌属、普莱西单胞菌属、假单胞菌属、雪旺菌属和醋氨细菌属是这一阶段的优势菌属。幼虫阶段之后出现了过渡性变化。在幼虫阶段,蛋白质细菌的丰度仍然很高(48%),但镰刀菌(40%)和细菌群(5.9%)的丰度有了显著提高。包括鲸杆菌属、莱西单胞菌属、气单胞菌属、弧菌属和黄杆菌属在内的菌属在这一阶段占主导地位。变形菌门(48%)和镰刀菌门(35%)在成虫阶段占据重要地位。鲸杆菌是数量最多的菌属,其次是气单胞菌、醋杆菌、普莱西单胞菌、弧菌和 ZOR0006(固着菌;6%)。总之,斑马鱼肠道微生物群的组成始终由两个主要门类决定,即变形菌门和镰刀菌门;然而,这种组成随发育阶段的不同而变化。在幼鱼和成鱼中,鲸杆菌和气单胞菌是最相关的菌属。最后,这些结果揭示了斑马鱼微生物群中某些细菌类群的一致模式,有助于形成非生物模型(定植特定的已知细菌群落)或合成微生物群(体外组装微生物)等方法。
本文章由计算机程序翻译,如有差异,请以英文原文为准。
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来源期刊
ACS Applied Bio Materials
ACS Applied Bio Materials Chemistry-Chemistry (all)
CiteScore
9.40
自引率
2.10%
发文量
464
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