Sarcophaga peregrina(双翅目: Sarcophagidae)各生命阶段的肠道细菌组成以及阿米卡星对其发育的影响。

Fengqin Yang, Qiongshan Ma, Xiangyan Zhang, Yanjie Shang, Fernand Jocelin Ngando, Lipin Ren, Jifeng Cai
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摘要

昆虫和微生物是自然界中无处不在的生物,在其进化史中发展出了错综复杂的关系。然而,大多数研究都集中在特定的时间点或生命阶段,但也有一些有限的研究调查了昆虫体内微生物多样性在不同生命阶段的动态变化。本文利用 16S rDNA 测序技术研究了 Sarcophaga peregrina (Robineau-Desvoidy) (双翅目: Sarcophagidae)不同生命阶段的肠道细菌群落。结果表明,S. peregrina 的肠道细菌多样性随生命阶段而变化,并在附近的生命阶段表现出相似性。珍珠鸡肠道细菌的主要门类是蛋白质细菌、放线菌、固形菌和类杆菌。Providencia、Ignatzschineria 和 Myroides 等菌属在这种肉蝇的发育过程中可能起着关键作用。此外,阿米卡星对 S. peregrina 生长发育的影响在统计学上并不显著。不过,我们确实观察到了蛋白质水平的显著变化,这表明蛋白质水平的变化与生长发育密切相关。此外,我们推测游隼鱼在非进食阶段会调节其营养状况,以满足爆发期的需求。这项研究首次全面考察了珍珠贝各生命阶段的肠道细菌组成。我们的发现加深了我们对这种肉蝇肠道微生物群的了解,为进一步探索微生物与昆虫之间错综复杂的相互作用奠定了基础。
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The gut bacterial composition across life stages of Sarcophaga peregrina (Diptera: Sarcophagidae) and the effects of amikacin on their development.

Insects and microorganisms, ubiquitous organisms in the natural world, have developed intricate relationships throughout their evolutionary histories. However, most studies have concentrated on specific time points or life stages, but some limited studies have investigated the dynamics of microbial diversity within insects across life stages. Here, 16S rDNA sequencing technology was used to investigate the gut bacterial community across the life stages of Sarcophaga peregrina (Robineau-Desvoidy) (Diptera: Sarcophagidae). The results revealed that the gut bacterial diversity of S. peregrina varied with life stage and showed similarity in the nearby life stages. Proteobacteria, Actinobacteria, Firmicutes, and Bacteroidetes were the dominant phyla in S. peregrina. Genera such as Providencia, Ignatzschineria, and Myroides are implicated in potentially pivotal roles during the developmental processes of this flesh fly. Furthermore, the effects of amikacin on the growth and development of S. peregrina were not statistically significant. However, we did observe significant changes at the protein level, which suggests a close association between protein-level alterations and growth and development. Additionally, we speculate that S. peregrina regulates its nutritional status during nonfeeding stages to meet the demands of eclosion. This study represents the first comprehensive examination of the intestinal bacterial composition across various life stages of S. peregrina. Our findings deepen our understanding of the gut microbiota in this flesh fly and lay the groundwork for further exploration into the intricate interactions between microorganisms and insects.

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