遗传、年龄和饮食影响黑翅大实蝇幼虫(Hermetia illucens)的肠道细菌群落和表现。

IF 4.9 Q1 MICROBIOLOGY
Shaktheeshwari Silvaraju, Qi-Hui Zhang, Sandra Kittelmann, Nalini Puniamoorthy
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引用次数: 0

摘要

背景:黑刺蝇幼虫(BSFL,Hermetia illucens)的肠道微生物群在回收各种有机废物流中发挥着至关重要的作用。这种能力与 BSFL 中潜在的共同核心微生物群的存在有关。然而,由于界定核心类群的主观阈值以及难以区分遗传和环境影响,文献中无法达成明确的共识。我们分析了两个基因不同的 BSF 品系(野生型(WT)和实验室适应品系(LD))的肠道细菌群落:高通量 16S rRNA 基因测序显示,肠道细菌群落受遗传(p = 0.001)、饮食(植物/肉类为主;p = 0.001)、幼虫年龄(p = 0.001)以及三者之间的相互作用(p = 0.002)的显著影响。这促使我们对常见的核心类群和特定世系的核心类群进行研究。在流行率大于 97% 的严格阈值下,确定了四个核心类群:Providencia_A_732258、肠球菌科中一个未分类的属、摩根氏菌和肠球菌_H_360604。放宽阈值(流行率大于 80%)后,核心类群还包括其他潜在的常见核心类群,如克雷伯氏菌、变形杆菌和 Scrofimicrobium。我们的数据表明,变形杆菌(Proteus)、拟杆菌(Scrofimicrobium)、棒状杆菌(Corynebacterium)、阴道球菌_B(Vagococcus_B)、赖氨巴氏杆菌_304693(均为 LD)和白杆菌_J_366884(WT)是特异的品系,而不是共同核心的成员(在 LD 或 WT 中的流行率均大于 90%,不同品系之间的流行率差异显著(p ≤ 0.05))。在 LD 中,几个核心种属与幼虫的表现呈正相关,这是高度优化的实验室适应品系的典型表现。有趣的是,只有普罗维登西亚属(Providencia)的成员似乎在两个遗传系的幼虫表现的大多数方面都发挥了关键作用:我们的研究表明,BSFL 的肠道微生物群受遗传因素、食物组成、幼虫年龄及其相互作用的影响。我们发现了一个独特的特定品系核心微生物群,强调了遗传背景的作用。未来的研究应采用标准化的高患病率阈值,至少大于 90%,除非有正当理由放宽或排除样本。在两个基因系中,普罗维登菌属与幼虫的表现一致,这突显了它们在 BSFL 肠道生态系统中的关键作用。
本文章由计算机程序翻译,如有差异,请以英文原文为准。
Genetics, age, and diet influence gut bacterial communities and performance of black soldier fly larvae (Hermetia illucens).

Background: The gut microbiota of black soldier fly larvae (BSFL, Hermetia illucens) play a crucial role in recycling various organic waste streams. This capability is linked to the presence of a potential common core microbiota in BSFL. However, subjective thresholds for defining core taxa and the difficulty of separating genetic and environmental influences have prevented a clear consensus in the literature. We analysed the gut bacterial communities of two genetically distinct BSF lines (wild type (WT) and lab-adapted line (LD)) raised on ten different diets based on common agricultural by-products and food waste in Southeast Asia.

Results: High-throughput 16S rRNA gene sequencing revealed that gut bacterial communities were significantly influenced by genetics (p = 0.001), diet (plant/meat-dominated; p = 0.001), larval age (p = 0.001), and the interactions between all three (p = 0.002). This led us to investigate both common core taxa and lineage-specific core taxa. At a strict > 97% prevalence threshold, four core taxa were identified: Providencia_A_732258, an unclassified genus within the family Enterococcaceae, Morganella, and Enterococcus_H_360604. A relaxed threshold (> 80% prevalence) extended the core to include other potential common core taxa such as Klebsiella, Proteus, and Scrofimicrobium. Our data suggest that Proteus, Scrofimicrobium, Corynebacterium, Vagococcus_B, Lysinibacillus_304693 (all LD), and Paenibacillus_J_366884 (WT) are lineage-specific rather than members of a common core (> 90% prevalence in either LD or WT, with prevalence significantly different between lines (p ≤ 0.05)). Positive correlations were observed between several core genera and larval performance in LD, typical of a highly optimized lab-adapted line. Interestingly, only members of the genus Providencia appeared to play a crucial role in most aspects of larval performance in both genetic lineages.

Conclusion: Our study demonstrates that the gut microbiota of BSFL is influenced by genetic factors, diet composition, larval age, and their interactions. We identified a distinct lineage-specific core microbiota, emphasizing genetic background's role. Future studies should apply a standardized high prevalence threshold of at least > 90% unless there is a valid reason for relaxation or sample exclusion. The consistent association of Providencia spp. with larval performance across both genetic lines highlights their crucial role in the BSFL gut ecosystem.

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