Comparative Metaproteomic Analysis on Consecutively Rehmannia glutinosa-Monocultured Rhizosphere Soil

Wu, Linkun; Wang, Haibin; Zhang, Zhixing; Li, Rui; Zhang, Zhongyi; Lin, Wenxiong

doi:10.1371/journal.pone.0020611

Cited by 102 publications

(87 citation statements)

References 64 publications

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“…In that study, microorganisms were sampled from leaf material, and parallel metagenomics and metaproteomics analyses were performed using one-dimensional protein separation followed by liquid chromatography high-accuracy mass spectrometry. Metaproteomic studies of rhizosphere samples are still at its beginning and first reports were only published very recently Wu et al, 2011). In those studies, proteins were directly extracted from rhizosphere samples (without a preceding physical enrichment step of microbial cells; Bastida et al, 2009), separated by twodimensional gel electrophoresis and identified by MALDI-TOF/TOF.…”

Section: Introductionmentioning

confidence: 99%

Metaproteogenomic analysis of microbial communities in the phyllosphere and rhizosphere of rice

et al. 2011

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The above-and below-ground parts of rice plants create specific habitats for various microorganisms. In this study, we characterized the phyllosphere and rhizosphere microbiota of rice cultivars using a metaproteogenomic approach to get insight into the physiology of the bacteria and archaea that live in association with rice. The metaproteomic datasets gave rise to a total of about 4600 identified proteins and indicated the presence of one-carbon conversion processes in the rhizosphere as well as in the phyllosphere. Proteins involved in methanogenesis and methanotrophy were found in the rhizosphere, whereas methanol-based methylotrophy linked to the genus Methylobacterium dominated within the protein repertoire of the phyllosphere microbiota. Further, physiological traits of differential importance in phyllosphere versus rhizosphere bacteria included transport processes and stress responses, which were more conspicuous in the phyllosphere samples. In contrast, dinitrogenase reductase was exclusively identified in the rhizosphere, despite the presence of nifH genes also in diverse phyllosphere bacteria.

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Section: Introductionmentioning

confidence: 99%

Metaproteogenomic analysis of microbial communities in the phyllosphere and rhizosphere of rice

et al. 2011

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“…In the last decade environmental proteomics has broadened its analytical spectrum to various natural and polluted soil types, plant phyllosphere and rhizosphere, waters and other environmental matrices, such as organic wastes and mine spoils (Wilmes and Bond, 2004;Tyson et al, 2004;Ram et al, 2005;Schulze et al, 2005;Benndorf et al, 2007;Chourey et al, 2010;Williams et al, 2010;Wang et al, 2011;Wu et al, 2011). Early environmental proteomics aimed at developing efficient methods for increasing the yield of protein extraction in the direction 'the more the proteins the better', leading mostly to inventories of bulk soil proteins than to discovery of relevant protein expression profile of soil microbial communities.…”

Section: Advances In Environmental Proteomicsmentioning

confidence: 99%

“…The relative rarity of key function protein molecules against a background of abundant and diverse structural proteins may be responsible for the low rate of unique discoveries in soil metaproteomic studies, despite the rapid progress in protein extraction and detection methodologies. Even the most exhaustive studies are only able to identify 10e300 proteins (Benndorf et al, 2007;Chourey et al, 2010;Williams et al, 2010;Wang et al, 2011;Wu et al, 2011). Soil proteolytic activity (Renella et al, 2002) and geochemical denaturation are partially responsible for the low yield of protein extraction and identification.…”

Section: Genomes (Nbci)mentioning

confidence: 99%

Environmental proteomics: A long march in the pedosphere

Renella

Ogunseitan

Arenella

2014

Soil Biology and Biochemistry

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“…Previous studies showed that rhizospheric microbial dynamics largely governed proper soil ecosystem function and had close interaction with consecutive monoculture problems (Qu and Wang, 2008;Qi et al, 2009;Wu et al, 2009;Wu et al, 2011;Li et al, 2012b;Wu et al, 2013). Crop consecutive monoculture not only alters the physical and chemical properties of the soil, but also contributes to the development of diverse microbial groups in the rhizosphere (Minh, 2005;Lin et al, 2007;Yoneyama and Natsume, 2010;Berendsen et al, 2012;Ndabamenye et al, 2013).…”

Section: Introductionmentioning

confidence: 99%

“…The autotoxic compounds were often isolated from consecutive monoculture soil, such as phenolic acid and aliphatic acid compounds, which could selectively enhance specific microbial populations in the soil which then leads to a shift in microbial communities (Qu and Wang, 2008;Li et al, 2012b). Wu et al (2011) analyzed the rhizospheric biological properties of consecutively monocultured R. glutinosa using soil metaproteomics and found that consecutive monoculture can induce the changes of microbes in the expression of proteins.…”

Section: Introductionmentioning

confidence: 99%

Screening and Identification of Harmful and Beneficial Microorganisms Associated with Replanting Disease in Rhizosphere Soil of Pseudostellariae heterophylla

Lin¹,

Dai²,

Chen³

et al. 2015

IJAB

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Pseudostellariae heterophylla, an important medicinal plant, has been shown to suffer from serious replanting disease that causes significant declines in both yield and quality. The objective of this study was to isolate the soil-born pathogen and antagonistic microorganism for investigation of the relationship between these microorganism and consecutive monoculture problems of P. heterophylla. In this study, we isolated the bacteria with different morphology from P. heterophylla rhizosphere soil, detected the pathogenicity of these bacteria to P. heterophylla plantlet and antagonistic ability to Fusarium of P. heterophylla biotype, identified their species and analyzed their abundance with qRT-PCR in rhizosphere soil of different planting years. We isolated Enterobacter sp1 and Burkholderia sp1 from P. heterophylla rhizosphere soil, and found Enterobacter sp1 possessed the pathogenicity to P. heterophylla plantlet and Burkholderia sp1 was antagonistic for Fusarium of P. heterophylla biotype. However, Burkholderia sp1 was not the antagonistic microorganism to Enterobacter sp1. The growth of Enterobacter sp1 was stimulated by phenolic acids at a certain concentration nearly closed to that in P. heterophylla rhizosphere soil, which increased as planting years of P. heterophylla increased. On the contrary, the phenolic acids had no promoting effect on the growth of Burkholderia sp1. And with the increase of planting years, the abundance of Burkholderia sp1 decreased and abundance of Enterobacter sp1 increased in the P. heterophylla rhizosphere soil. The results indicated that harmful microorganisms increase and beneficial microorganisms decrease, which were mediated by the accumulated autotoxins in rhizosphere soil of consecutively monocultured P. heterophylla, and hence leads to the imbalance of microbial community structure and the degradation of soil ecological function. So several abatement methods, such as crop rotation, specific microbial fertilizer and organic matter, could be used to improve the structure and functional diversity of microbial community, and overcome the obstacles of continuous cropping.

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Comparative Metaproteomic Analysis on Consecutively Rehmannia glutinosa-Monocultured Rhizosphere Soil

Cited by 102 publications

References 64 publications

Metaproteogenomic analysis of microbial communities in the phyllosphere and rhizosphere of rice

Metaproteogenomic analysis of microbial communities in the phyllosphere and rhizosphere of rice

Environmental proteomics: A long march in the pedosphere

Screening and Identification of Harmful and Beneficial Microorganisms Associated with Replanting Disease in Rhizosphere Soil of Pseudostellariae heterophylla

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