Niche–dependent sponge hologenome expression profiles and the host-microbes interplay: a case of the hawaiian demosponge Mycale Grandis

IF 6.2 2区 环境科学与生态学 Q1 GENETICS & HEREDITY
Fang Liu, Taewoo Ryu, Timothy Ravasi, Xin Wang, Guangyi Wang, Zhiyong Li
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Abstract

Most researches on sponge holobionts focus primarily on symbiotic microbes, yet data at the level of the sponge hologenome are still relatively scarce. Understanding of the sponge host and its microbial gene expression profiles and the host-microbes interplay in different niches represents a key aspect of sponge hologenome. Using the Hawaiian demosponge Mycale grandis in different niches as a model, i.e. on rocks, on the surface of coral Porites compressa, under alga Gracilaria salicornia, we compared the bacterial and fungal community structure, functional gene diversity, expression pattern and the host transcriptome by integrating open-format (deep sequencing) and closed-format (GeoChip microarray) high-throughput techniques. Little inter-niche variation in bacterial and fungal phylogenetic diversity was detected for M. grandis in different niches, but a clear niche-dependent variability in the functional gene diversity and expression pattern of M. grandis host and its symbiotic microbiota was uncovered by GeoChip microarray and transcriptome analyses. Particularly, sponge host genes related to innate immunity and microbial recognition showed a strong correlation with the microbial symbionts’ functional gene diversity and transcriptional richness in different niches. The cross-niche variability with respect to the symbiont functional gene diversity and the transcriptional richness of M. grandis holobiont putatively reflects the interplay of niche-specific selective pressure and the symbiont functional diversity. Niche–dependent gene expression profiles of M. grandis hologenome and the host-microbes interplay were suggested though little inter-niche variation in bacterial and fungal diversity was detected, particularly the sponge innate immunity was found to be closely related to the symbiotic microbes. Altogether, these findings provide novel insights into the black box of one sponge holobiont in different niches at the hologenome level.
取决于生境的海绵全基因组表达谱以及宿主与微生物之间的相互作用:以夏威夷海绵Mycale Grandis为例
大多数关于海绵全生物体的研究主要集中在共生微生物方面,但海绵全基因组水平的数据仍然相对匮乏。了解海绵宿主及其微生物基因表达谱以及宿主与微生物在不同生态位中的相互作用是海绵全基因组研究的一个关键方面。我们以夏威夷大鳞片海棉(Mycale grandis)在不同生境(岩石上、珊瑚表面、藻类下)为模型,通过整合开放式(深度测序)和封闭式(GeoChip 微阵列)高通量技术,比较了细菌和真菌群落结构、功能基因多样性、表达模式和宿主转录组。在不同生态位中,大花鲈的细菌和真菌系统发育多样性在生态位之间几乎没有变化,但通过 GeoChip 微阵列和转录组分析,发现大花鲈宿主及其共生微生物群的功能基因多样性和表达模式存在明显的生态位依赖性变化。特别是,与先天免疫和微生物识别相关的海绵宿主基因与不同生境中微生物共生体的功能基因多样性和转录丰富度有很强的相关性。大孔藻全生物共生体在共生体功能基因多样性和转录丰富度方面的跨生态位变异可能反映了生态位特异性选择压力和共生体功能多样性的相互作用。尽管在细菌和真菌的多样性方面几乎没有检测到不同生态位之间的差异,但却发现了大叶藻全生物群的生态位依赖性基因表达谱以及宿主与微生物之间的相互作用,特别是发现海绵的先天免疫与共生微生物密切相关。总之,这些发现在全基因组水平上为了解不同生态位中海绵全生物体的黑箱提供了新的视角。
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来源期刊
Environmental Microbiome
Environmental Microbiome Immunology and Microbiology-Microbiology
CiteScore
7.40
自引率
2.50%
发文量
55
审稿时长
13 weeks
期刊介绍: Microorganisms, omnipresent across Earth's diverse environments, play a crucial role in adapting to external changes, influencing Earth's systems and cycles, and contributing significantly to agricultural practices. Through applied microbiology, they offer solutions to various everyday needs. Environmental Microbiome recognizes the universal presence and significance of microorganisms, inviting submissions that explore the diverse facets of environmental and applied microbiological research.
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