| 海洋玫瑰杆菌类群研究进展; Research progresses of marine Roseobacter lineage | |
| 陈正浩 ; 张永雨 ; 杨素萍 | |
| 2014-07-14 | |
| 关键词 | 玫瑰杆菌 好氧不产氧光合作用 硫代谢 次生代谢物质 玫瑰杆菌噬菌体 Roseobacter lineage aerobic anoxygenic photosynthesis sulfur metabolism secondary metabolites roseophage |
| 英文摘要 | 海洋玫瑰杆菌类群(rOSEObACTEr lInEAgE)是属于α-变形菌纲中的一类系统发育相近,但生理代谢功能多样的细菌类群,包含40多个不同的细菌种属。它们在海洋中丰度较高,且分布极为广泛,尤其在近海与极地海洋中,其丰度约占整个浮游细菌群落的15%—25%。玫瑰杆菌类群通过其多样化的生理代谢功能(如好氧不产氧光合作用、一氧化碳氧化、硫化物降解等)在海洋碳、硫循环和全球气候调节中发挥着重要作用。此外,玫瑰杆菌类群还能产生多种具生物活性的次生代谢物质。简要综述了海洋玫瑰杆菌类群的生态分布特征、生存方式、生理代谢功能、基因组特征等的一些研究进展,并结合作者的工作对未来的研究进行了展望。; Marine Roseobacter clade is a phylogenetically coherent,but physiologically diverse group of α-Proteobacteria,with members sharing > 89% identity of the 16 S rRNA gene.It contains more than 40 different genera.Roseobacter was found to be abundant in marine environment,especially in coastal and polar oceans,where Roseobacter clade comprises 15% —25% of the total bacterioplankton communities.Roseobacters also exist ubiquitously in the ocean.Based on culture collections,16 S rRNA clone libraries, and single-cell analyses, roseobacters have been identified in most marine environment sampled,such as sea ice,sea floor,hypersaline microbial mats,sponges,sea grasses,and coastal biofilms,etc.whereas,this bacterial group is noticeable absent in analogous freshwater and terrestrial soil environment.Quantitative 16 S rRNA gene analyses show that Roseobacter populations fall off with depth in the ocean,and are often most abundant in bacterial communities associated with marine algae.Roseobacter lineage is the only abundant marine group,whose cultivated representatives are closely related to the not-yet-cultivated environmental clone sequences.Diverse life styles have been found in Roseobacter clade, such as free living, particle associated, or in commensal relationships with marine phytoplankton,invertebrates,and vertebrates.Also,diverse physiological metabolic traits were found in this bacterial group.For example, some roseobacters can generate metabolic energy from light using the ancient purple bacterial mechanism of anaerobic photosynthesis without production of oxygen( anaerobic anoxygenic photosynthesis),while someroseobacters have the physiological metabolic traits of degradation of sulfur compounds or aromatics,oxidation of carbon monoxide,or reduction of trace metals,etc.Thus,it is considered that roseobacters may play important roles in marine carbon and sulfur cycles,as well as the global climate regulation.There are more than forty roseobacters whose whole genome sequences are available in the current public databases.Analysis of these genomes also reflected the metabolic versatility of the Roseobacter lineage.The cellular requirements of roseobacters for nitrogen are largely satisfied by regenerated ammonium and organic compounds( polyamines,allophanate,and urea),while the requirement for carbon sources are satisfied by amino acids,glyoxylate,and aromatic metabolites.Also,a large number of genes are predicted to encode proteins involved in the production,degradation,and efflux of toxins and metabolites,suggesting the potential for interacting with neighboring cells and impacting the routing of organic matter into the microbial loop.Laboratory experiments found that the various bioactive secondary metabolites of roseobacters include antagonist against fish larval bacterial pathogens,antibiotic against marine bacteria and algae,shellfish poison,and the bioactive LuxR- activating acylated homoserine lactones( AHLs),which are a class of signaling molecules involved in bacterial quorum sensing,etc.Recently,the interactions between roseobacters and their phages caused widespread attention.Several host-phage interaction systems of the roseobacters were set up in the laboratory.Laboratory experiments revealed that roseophages play important roles in mediating the physiology and promoting the evolution of roseobacters in marine environment.This review described the recent research progresses of Roseobacter lineage in terms of their ecological distribution,lifestyle,physiological functions,and genome features.Finally we suggested future research directions based on our understanding of the literature and our own work.; 国家重大科学研究计划(2013CB955700); 国家自然科学基金项目(41006087;31070054); 厦门市科技计划项目(3502Z20132014); 厦门大学近海海洋环境科学国家重点实验室访问学者基金(MELRS1206) |
| 语种 | zh_CN |
| 内容类型 | 期刊论文 |
| 源URL | [http://dspace.xmu.edu.cn/handle/2288/108434]  |
| 专题 | 环境生态-已发表论文 |
| 推荐引用方式 GB/T 7714 | 陈正浩,张永雨,杨素萍. 海洋玫瑰杆菌类群研究进展, Research progresses of marine Roseobacter lineage[J],2014. |
| APA | 陈正浩,张永雨,&杨素萍.(2014).海洋玫瑰杆菌类群研究进展.. |
| MLA | 陈正浩,et al."海洋玫瑰杆菌类群研究进展".(2014). |
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