Harnessing the Power of Model Organisms To Unravel Microbial Functions in the Coral Holobiont.

IF 8 1区 生物学 Q1 MICROBIOLOGY Microbiology and Molecular Biology Reviews Pub Date : 2022-12-21 Epub Date: 2022-10-26 DOI:10.1128/mmbr.00053-22
Giulia Puntin, Michael Sweet, Sebastian Fraune, Mónica Medina, Koty Sharp, Virginia M Weis, Maren Ziegler
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引用次数: 9

Abstract

Stony corals build the framework of coral reefs, ecosystems of immense ecological and economic importance. The existence of these ecosystems is threatened by climate change and other anthropogenic stressors that manifest in microbial dysbiosis such as coral bleaching and disease, often leading to coral mortality. Despite a significant amount of research, the mechanisms ultimately underlying these destructive phenomena, and what could prevent or mitigate them, remain to be resolved. This is mostly due to practical challenges in experimentation on corals and the highly complex nature of the coral holobiont that also includes bacteria, archaea, protists, and viruses. While the overall importance of these partners is well recognized, their specific contributions to holobiont functioning and their interspecific dynamics remain largely unexplored. Here, we review the potential of adopting model organisms as more tractable systems to address these knowledge gaps. We draw on parallels from the broader biological and biomedical fields to guide the establishment, implementation, and integration of new and emerging model organisms with the aim of addressing the specific needs of coral research. We evaluate the cnidarian models Hydra, Aiptasia, Cassiopea, and Astrangia poculata; review the fast-evolving field of coral tissue and cell cultures; and propose a framework for the establishment of "true" tropical reef-building coral models. Based on this assessment, we also suggest future research to address key aspects limiting our ability to understand and hence improve the response of reef-building corals to future ocean conditions.

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利用模式生物的力量解开珊瑚Holobiont中的微生物功能。
石珊瑚构成了珊瑚礁的框架,这些生态系统具有巨大的生态和经济重要性。这些生态系统的存在受到气候变化和其他人为压力的威胁,这些压力表现为珊瑚白化和疾病等微生物生态失调,通常导致珊瑚死亡。尽管进行了大量研究,但这些破坏性现象的最终机制,以及如何预防或减轻这些现象,仍有待解决。这主要是由于珊瑚实验中的实际挑战,以及珊瑚全生物的高度复杂性质,其中还包括细菌、古菌、原生生物和病毒。虽然这些伙伴的总体重要性得到了充分的认可,但它们对全生物功能及其种间动态的具体贡献在很大程度上仍未被探索。在这里,我们回顾了采用模式生物作为更易处理的系统来解决这些知识差距的潜力。我们借鉴更广泛的生物和生物医学领域的相似之处,指导新的和新兴的模式生物的建立、实施和整合,以满足珊瑚研究的具体需求。我们评估了珊瑚虫模型Hydra、Aiptasia、仙后座和Astrangia poculata;回顾珊瑚组织和细胞培养快速发展的领域;并提出了建立“真正的”热带珊瑚礁建造珊瑚模型的框架。基于这一评估,我们还建议未来的研究解决限制我们理解能力的关键方面,从而改善造礁珊瑚对未来海洋条件的反应。
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来源期刊
CiteScore
18.80
自引率
0.80%
发文量
27
期刊介绍: Microbiology and Molecular Biology Reviews (MMBR), a journal that explores the significance and interrelationships of recent discoveries in various microbiology fields, publishes review articles that help both specialists and nonspecialists understand and apply the latest findings in their own research. MMBR covers a wide range of topics in microbiology, including microbial ecology, evolution, parasitology, biotechnology, and immunology. The journal caters to scientists with diverse interests in all areas of microbial science and encompasses viruses, bacteria, archaea, fungi, unicellular eukaryotes, and microbial parasites. MMBR primarily publishes authoritative and critical reviews that push the boundaries of knowledge, appealing to both specialists and generalists. The journal often includes descriptive figures and tables to enhance understanding. Indexed/Abstracted in various databases such as Agricola, BIOSIS Previews, CAB Abstracts, Cambridge Scientific Abstracts, Chemical Abstracts Service, Current Contents- Life Sciences, EMBASE, Food Science and Technology Abstracts, Illustrata, MEDLINE, Science Citation Index Expanded (Web of Science), Summon, and Scopus, among others.
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