Microbial diversity in lake sediments detected by PCR-DGGE

Zhao, Xinqing; Yang, Liuyan; Chen, Can; Xiao, Lin; Jiang, Lijuan; Ma, Zhe; Zhu, Haowei; Yin, Daqiang

doi:10.1007/s11515-008-0044-8

Cited by 5 publications

(7 citation statements)

References 12 publications

(3 reference statements)

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“…Moreover, being pathogenic members of the coliform bacteria, they pose a real public health risk through direct contact with this soil or the crops produced from it. These results are consistent with those of Joynt et al (2006), Zhao et al (2006) and Mocali et al (2008) where pollution shifted the indigenous population to more resistant Gram-positive species mainly Bacillus and Brevibacillus ([83%) as well as Acinetobacter. In contrast to Mocali et al (2008), in the present study the dominant identified species were Gram-negative, non-spore-forming bacteria which confirmed that their dominance and resistance resulted from selective pressure of microbial species with a set of genes involved in biodegradation of such contaminants and their ability to use them as energy sources.…”

Section: Discussionsupporting

confidence: 89%

“…The PCR-DGGE or PCR-DHPLC (as in the present study) techniques combined with sequence analysis are a feasible and efficient method for the determination of microbial communities in environmental samples and differentiation of the very closely related species (Zhao et al 2006;Mocali et al 2008;Wang et al 2008;Yin et al 2008;Zhang et al 2008). However, it is obvious that due to the hazardous effect of pollution, only a low percentage of the microbial population is cultivable.…”

Section: Discussionmentioning

confidence: 80%

“…It represents an accurate, effective and fast technology for identification of microbial diversity in different environments (Ogram et al 1987;Pace 1997;Hatamoto et al 2008). Genetic diversity can identify individual organisms from some unique part of their DNA or RNA providing definitive information on soil biodiversity (Ward et al 1990;Zhao et al 2006;Betancourt et al 2008;Hatamoto et al 2008;Mocali et al 2008;Norton et al 2008;Sallam and Steinbüchel 2008;Wang et al 2008) and has also been recognized for its economic potential through bio-prospecting (Franco and McClure 1998).…”

mentioning

confidence: 99%

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Molecular characterization of soil microorganisms: effect of industrial pollution on distribution and biodiversity

Hafez

El-Bestawy²

2008

World J Microbiol Biotechnol

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The present study aimed to investigate variations in the diversity of the indigenous bacterial and fungal populations in contaminated soil. Soil samples were collected from highly contaminated agricultural soil adjacent to an industrial drain in the Nile Delta named the ''Defsho'' drain, located at the city of Kafr El-Dawar, 20 km south of Alexandria (Longitude 30.12917 and Latitude 31.13972). PCR has become a popular tool for the retrieval of the natural environmental rRNA genes that represent native microbial species. Soil DNA was extracted and the 16S and 18S rRNA genes were amplified using polymerase chain reaction (PCR) and gene cloning. About 5,000 clones were obtained and genotyped using denaturing high performance liquid chromatography (DHPLC) to fingerprinting the biodiversity in the soil. Clones, which give different peaks with DHPLC, were then subjected to partial sequencing. Five prokaryotic and two eukaryotic out of 1,000 recombinant clones were randomly selected and further studied by DNA sequencing analysis. These clones were designated PT and ET for prokaryotes and eukaryotes, respectively. Results confirmed the hazardous effects of pollution on the distribution and biodiversity of soil microorganisms where most of the native beneficial microorganisms were disappeared or non-cultured under these stressed conditions compared to the normal nonpolluted soils in the same governorate which is certainly affecting soil fertility and productivity. Five prokaryotic (PT) and two eukaryotic (ET) recombinant clones were randomly selected and further studied by DNA sequence analysis. DNA sequencing revealed that most of the identified bacteria are members of the class Proteobacteria; subdivision Gammaproteobacteria; order Enterobacteriales and family Enterobacteriaceae. Two PT clones (PT2 and PT4) were identified as Shigella flexneri 301-AF499895; members of PT1 and PT3 were related to Escherichia sp. and the uncultured bacterium S000009863 while PT5 was uncultured bacterium-S000331457 in addition to unclassified member of Desulfobacteriaceae, subdivision Deltaproteobacteria. ET1 was uncultured Trichocomaceae clone HC-B1/1-AF548306 and ET2 represents uncultured fungus clone SBS8w47f-AY681463, respectively. In conclusion, the significant decline in the genetic diversity in Defsho soil emphasized the hazardous effect of the industrial pollution on the biodiversity, stability and functioning of the native microbial population. Results also proved the efficiency of molecular characterization as precise and fast techniques for determining soil biodiversity compared to the traditional cultivation methods.

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Section: Discussionsupporting

confidence: 89%

Section: Discussionmentioning

confidence: 80%

mentioning

confidence: 99%

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Molecular characterization of soil microorganisms: effect of industrial pollution on distribution and biodiversity

Hafez

El-Bestawy²

2008

World J Microbiol Biotechnol

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“…For the assessment of sediment environmental stress, bacterial community may be function as indicator organisms because sediment provides substrate for bacterial colonization and nutrients for bacterial growth (Atlas 1984;Kassen and Rainey 2000;Kemp and Aller 2004;Kostanjšek et al 2005). In the recent years, molecular biological tools like denaturing gradient gel electrophoresis (DGGE) and temporal temperature gradient electrophoresis (TTGE) have become popular for bacterial community analysis in sediments due to their effectivity to monitor bacterial structure changes (Torsvik et al 2002;Freitag and Prosser 2003;Kostanjšek et al 2005;Zhao et al 2008;Ikenaga et al 2009). The methodological protocols are mainly based on sequencing analyses of 16S ribosomal DNA (rDNA) fragments from dominant electrophoresed bands on a gel.…”

Section: Introductionmentioning

confidence: 99%

Bacterial community structure analysis of sediment in the Sagami River, Japan using a rapid approach based on two-dimensional DNA gel electrophoresis mapping with selective primer pairs

Rajendran

Amemiya

et al. 2011

Environ Monit Assess

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A rapid approach based on two-dimensional DNA gel electrophroesis (2-DGE) mapping with selective primer pairs was employed to analyze bacterial community structure in sediments from upstream, midstream and downstream of Sagami River in Japan. The 2-DGE maps indicated that Alpha- and Delta-proteobacteria were major bacterial populations in the upstream and midstream sediments. Further bacterial community structure analysis showed that richness proportion of Alpha- and Delta-proteobacterial groups reflected a trend toward decreasing from the upstream to downstream sediments. The biomass proportion of bacterial populations in the midstream sediment showed a significantly difference from that in the other sediments, suggesting that there may be an environmental pressure on the midstream bacterial community. Lorenz curves, together with Gini coefficients were successfully applied to the 2-DGE mapping data for resolving evenness of bacterial populations, and showed that the plotted curve from high-resolution 2-DGE mapping became less linear and more an exponential function than that of the 1-DGE methods such as chain length analysis and denaturing gradient gel electrophoresis, suggesting that the 2-DGE mapping may achieve a more detailed evaluation of bacterial community. In conclusion, the 2-DGE mapping combined with the selective primer pairs enables bacterial community structure analysis in river sediment and thus it can also monitor sediment pollution based on the change of bacterial community structure.

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“…Moreover, a brighter band signal suggested a higher richness of the species. Therefore, we could obtain information about the number of dominant species and quantity of microbes in the samples (Zhao et al, 2008). The DGGE patterns were showed in Fig.…”

Section: Amplification Of Endophytic Bacterial 16s Rdnamentioning

confidence: 99%

Presence of indigenous endophytic bacteria in jujube seedlings germinated from seeds in vitro

Hou

Li²,

Han

et al. 2010

Front. Agric. China

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The presence of indigenous endophytic bacteria in tissue-cultured seedlings germinated from seeds of Zizyphus jujuba var. Fupingdazao was investigated using cultivation, light microscopy and scanning electronic microscopy (SEM). In addition, bacteria specific 16S rDNA PCR followed by denaturing gradient gel electrophoresis (DGGE) was used. No cultivable bacteria could be detected on plates or in liquid cultures. However, large quantities of endophytic bacteria in jujube seedlings were observed under the light microscope. The bacterial cells were round (measuring 1.5 μm -1.8 μm), short rods (2.2 μm -2.9 μm Â 1.1 μm -1.9 μm) and rod shaped (3.7 μm -4.4 μm Â 1.6 μm -1.9 μm). Rod-shaped bacterial cells (measuring 3.5 m -4.0 m Â 1.5 m -2.0 m) were observed by SEM as well. A 16S rDNA fragment of 1.5 kb could be amplified from the total DNA of seedlings of jujube using the bacterial primer pair 27F/1525R. The V3 fragment of 16S rDNA was separated by DGGE, and the 16S rDNA-PCR-DGGE showed that there were at least six dominant bands within the seedlings of Z. jujuba var. Fupingdazao. It can be concluded that endophytic bacteria that cannot be detected by cultivation are present with high densities in jujube seeds.

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Microbial diversity in lake sediments detected by PCR-DGGE

Cited by 5 publications

References 12 publications

Molecular characterization of soil microorganisms: effect of industrial pollution on distribution and biodiversity

Molecular characterization of soil microorganisms: effect of industrial pollution on distribution and biodiversity

Bacterial community structure analysis of sediment in the Sagami River, Japan using a rapid approach based on two-dimensional DNA gel electrophoresis mapping with selective primer pairs

Presence of indigenous endophytic bacteria in jujube seedlings germinated from seeds in vitro

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