对珊瑚胃血管腔的微观取样揭示了类似肠道的微生物群落。

IF 4.9 Q1 MICROBIOLOGY
Elena Bollati, David J Hughes, David J Suggett, Jean-Baptiste Raina, Michael Kühl
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引用次数: 0

摘要

动物肠道中含有大量微生物,这些微生物对营养同化和病原体防御至关重要。虽然珊瑚和其他蛇类动物没有真正的分化肠道,但它们拥有半封闭的胃血管腔(GVC),消化、繁殖和共生交换等重要过程都在这里进行。因此,胃血管腔中的微生物组可能是全生物体适应性的关键,但由于在这些小腔中工作的挑战,对它们的研究仍然严重不足。在这里,我们开发了微创方法,对珊瑚虫的GVC进行采样,并描述其中所蕴藏的微生物群落的特征。我们使用玻璃毛细管、低死体积微针或尼龙微棒对来自六种珊瑚的单个珊瑚虫的胃血管微生物组进行采样,然后使用低投入的 DNA 提取技术对这些微升体积样本中的微生物群落进行鉴定。对胃导管的微传感器测量发现了缺氧或缺氧微龛,这些微龛即使在饱和辐照度的长时间照射下也会持续存在。这些微生境中的微生物群落富含嗜微氧或兼性厌氧类群,如 Epsilonproteobacteria。在大堡礁 Lobophyllia hemprichii 的 GVC 中发现的一些核心类群也在水族馆中的同种群落中被检测到,这表明这些关联不太可能是短暂的。我们的研究结果表明,珊瑚的肠道微生物群在化学和微生物学上类似于高等后生动物的肠道。鉴于肠道微生物组在调节动物健康方面的重要性,利用珊瑚的 "肠道微生物组 "可能会促进新的积极干预措施,从而提高珊瑚礁对气候危机的适应能力。
本文章由计算机程序翻译,如有差异,请以英文原文为准。
Microscale sampling of the coral gastrovascular cavity reveals a gut-like microbial community.

Animal guts contain numerous microbes, which are critical for nutrient assimilation and pathogen defence. While corals and other Cnidaria lack a true differentiated gut, they possess semi-enclosed gastrovascular cavities (GVCs), where vital processes such as digestion, reproduction and symbiotic exchanges take place. The microbiome harboured in GVCs is therefore likely key to holobiont fitness, but remains severely understudied due to challenges of working in these small compartments. Here, we developed minimally invasive methodologies to sample the GVC of coral polyps and characterise the microbial communities harboured within. We used glass capillaries, low dead volume microneedles, or nylon microswabs to sample the gastrovascular microbiome of individual polyps from six species of corals, then applied low-input DNA extraction to characterise the microbial communities from these microliter volume samples. Microsensor measurements of GVCs revealed anoxic or hypoxic micro-niches, which persist even under prolonged illumination with saturating irradiance. These niches harboured microbial communities enriched in putatively microaerophilic or facultatively anaerobic taxa, such as Epsilonproteobacteria. Some core taxa found in the GVC of Lobophyllia hemprichii from the Great Barrier Reef were also detected in conspecific colonies held in aquaria, indicating that these associations are unlikely to be transient. Our findings suggest that the coral GVC is chemically and microbiologically similar to the gut of higher Metazoa. Given the importance of gut microbiomes in mediating animal health, harnessing the coral "gut microbiome" may foster novel active interventions aimed at increasing the resilience of coral reefs to the climate crisis.

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来源期刊
CiteScore
7.20
自引率
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审稿时长
13 weeks
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