Binding of DNA from <i>Bacillus subtilis</i> on Montmorillonite–Humic Acids–Aluminum or Iron Hydroxypolymers

Crecchio, Carmine; Ruggiero, P.; Curci, Maddalena; Colombo, Claudio; Palumbo, Giuseppe; Stotzky, G.

doi:10.2136/sssaj2004.0166

Cited by 68 publications

(45 citation statements)

References 42 publications

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“…Incubations of ferruginous sediments from Lake Matano showed that hydrous ferric oxides (i.e., ferrihydrite) are rapidly reduced by dissimilatory metal-reducing bacteria, resulting in the dissolution of Fe–Mn oxyhydroxides with persistence of mainly goethite (Crowe et al, 2007a,b). The affinity of DNA for goethite is substantially lower than that of common phyllosilicates (Cai et al, 2006), and because goethite traps organic molecules indifferently, its sorption capacity also decreases with increasing organic matter content and degradation (Crecchio et al, 2005). Complete reduction of ferrihydrite occurs within the first cm of sediment at the shallow site, whereas it is even absent at the deep site due to its prior reduction in the water column (data not shown).…”

Section: Discussionmentioning

confidence: 99%

“…It includes nucleic acids from damaged dead cells, released upon lysis or actively excreted into the surrounding water and sediment (Torti et al, 2015). This fraction is partitioned between sorption onto mineral matrices (Crecchio et al, 2005; Cleaves et al, 2011) and degradation via microbial metabolism (Corinaldesi et al, 2007). Adsorption promotes its persistence, and deposition and burial in sediments, whereas free DNA is readily available for microbial uptake as a nutrient source, resulting in variable turnover rates of this fraction (Dell’Anno and Corinaldesi, 2004; Corinaldesi et al, 2008).…”

Section: Introductionmentioning

confidence: 99%

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Preservation and Significance of Extracellular DNA in Ferruginous Sediments from Lake Towuti, Indonesia

et al. 2017

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Extracellular DNA is ubiquitous in soil and sediment and constitutes a dominant fraction of environmental DNA in aquatic systems. In theory, extracellular DNA is composed of genomic elements persisting at different degrees of preservation produced by processes occurring on land, in the water column and sediment. Extracellular DNA can be taken up as a nutrient source, excreted or degraded by microorganisms, or adsorbed onto mineral matrices, thus potentially preserving information from past environments. To test whether extracellular DNA records lacustrine conditions, we sequentially extracted extracellular and intracellular DNA from anoxic sediments of ferruginous Lake Towuti, Indonesia. We applied 16S rRNA gene Illumina sequencing on both fractions to discriminate exogenous from endogenous sources of extracellular DNA in the sediment. Environmental sequences exclusively found as extracellular DNA in the sediment originated from multiple sources. For instance, Actinobacteria, Verrucomicrobia, and Acidobacteria derived from soils in the catchment. Limited primary productivity in the water column resulted in few sequences of Cyanobacteria in the oxic photic zone, whereas stratification of the water body mainly led to secondary production by aerobic and anaerobic heterotrophs. Chloroflexi and Planctomycetes, the main degraders of sinking organic matter and planktonic sequences at the water-sediment interface, were preferentially preserved during the initial phase of burial. To trace endogenous sources of extracellular DNA, we used relative abundances of taxa in the intracellular DNA to define which microbial populations grow, decline or persist at low density with sediment depth. Cell lysis became an important additional source of extracellular DNA, gradually covering previous genetic assemblages as other microbial genera became more abundant with depth. The use of extracellular DNA as nutrient by active microorganisms led to selective removal of sequences with lowest GC contents. We conclude that extracellular DNA preserved in shallow lacustrine sediments reflects the initial environmental context, but is gradually modified and thereby shifts from its stratigraphic context. Discrimination of exogenous and endogenous sources of extracellular DNA allows simultaneously addressing in-lake and post-depositional processes. In deeper sediments, the accumulation of resting stages and sequences from cell lysis would require stringent extraction and specific primers if ancient DNA is targeted.

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Section: Discussionmentioning

confidence: 99%

Section: Introductionmentioning

confidence: 99%

Preservation and Significance of Extracellular DNA in Ferruginous Sediments from Lake Towuti, Indonesia

et al. 2017

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“…[6][7][8][9] Although most plant-derived DNA in soil can be rapidly degraded by biotic and abiotic factors, [10] long-term persistence of plant DNA in soil was frequently reported, especially when DNA was adsorbed to soil particles. [6,[11][12][13][14] Further, DNA adsorbed to mineral surfaces can be protected from degradation, and thus maintains its integrity. [6,13] Recent studies showed that plant DNA including transgene DNA can be detected in soil samples collected from field trials all year-round when GM plants were grown under continuous cultivation.…”

Section: Introductionmentioning

confidence: 99%

Investigation on gene transfer from genetically modified corn (Zea maysL.) plants to soil bacteria

Blackshaw

Roy

et al. 2011

Journal of Environmental Science and Health, Part B

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Knowledge about the prevalence and diversity of antibiotic resistance genes in soil bacteria communities is required to evaluate the possibility and ecological consequences of the transfer of these genes carried by genetically modified (GM) plants to soil bacteria. The neomycin phosphotransferase gene (nptII) conferring resistance to kanamycin and neomycin is one of the antibiotic resistance genes commonly present in GM plants. In this study, we investigated kanamycin-resistant (Km(R)) and neomycin-resistant (Nm(R)) soil bacterial populations in a 3-year field trial using a commercial GM corn (Zea mays L.) carrying the nptII gene and its near isogenic line. The results showed that a portion (2.3 - 15.6 %) of cultivable soil bacteria was naturally resistant to kanamycin or neomycin. However, no significant difference in the population level of Km(R) or Nm(R) soil bacteria was observed between the GM and non-GM corn fields. The nptII gene was not detected in any of the total 3000 Km(R) or Nm(R) isolates screened by PCR. Further, total soil bacterial cells were collected through Nycodenz gradient centrifugation and bacterial community DNA was subjected to PCR. Detection limit was about 500 cells per gram of fresh soil. Our study suggests that the nptII gene was relatively rare in the soil bacterial populations and there was no evidence of gene transfer from a GM corn plant to soil bacteria based on the data from total soil bacterial communities.

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“…A number of investigations have been devoted to the adsorption and binding of DNA on various soil components such as sand, clay minerals, humic substances and soils. It was found that this process is affected by the ionic strength, pH of the medium, type and content of clay as well as the characteristics and configurations of DNA molecules [12][13][14][15][16][17]. An increase in the concentration of cations and/or a decrease in the pH favored DNA adsorption on soil colloids and clay minerals [12][13][14].…”

Section: Introductionmentioning

confidence: 99%

Role of bacteria in the adsorption and binding of DNA on soil colloids and minerals

Cai

Zhu

Huang

et al. 2009

Colloids and Surfaces B: Biointerfaces

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Binding of DNA from Bacillus subtilis on Montmorillonite–Humic Acids–Aluminum or Iron Hydroxypolymers

Cited by 68 publications

References 42 publications

Preservation and Significance of Extracellular DNA in Ferruginous Sediments from Lake Towuti, Indonesia

Preservation and Significance of Extracellular DNA in Ferruginous Sediments from Lake Towuti, Indonesia

Investigation on gene transfer from genetically modified corn (Zea maysL.) plants to soil bacteria

Role of bacteria in the adsorption and binding of DNA on soil colloids and minerals

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