Selection of Enzymes for Terminal Restriction Fragment Length Polymorphism Analysis of Fungal Internally Transcribed Spacer Sequences

Alvarado, Pablo; Manjón, José Luis

doi:10.1128/aem.00568-09

Cited by 24 publications

(10 citation statements)

References 39 publications

(53 reference statements)

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“…Only at the sites, where a strong SOC accumulation might be expected in response to shifts in tillage management, archaea might also be affected, as a result of the autotrophic lifestyle of ammonia oxidizers, which has been recently shown by Souza et al (2013) using a metagenomic approach. However, as the sensitivity of the T-RFLP approach depends on the variability of the amplified region of the marker gene as well as on the used restriction enzyme (Liu et al 1997;Alvarado and Manjon 2009), it cannot be excluded that the sensitivity of the used fingerprinting approach was insufficient to identify shifts in the archaeal phylum. Here, sequencing approaches of 16S rRNA gene amplicons might be of use to confirm the observed response pattern in the future.…”

Section: Dynamics Of Microbial Communitiesmentioning

confidence: 98%

“…only peaks with an intensity of >50 fluorescence units and a size of >50 bases were selected for further analysis to avoid problems with primer dimers). In addition, the number of TRFs in the fingerprints depends on the selected primer pairs and restriction enzymes (Liu et al 1997;Alvarado and Manjon 2009). In many cases, Buniversal primers^for one phylum are not really universal when the bias of PCR has been considered.…”

Section: Dynamics Of Microbial Communitiesmentioning

confidence: 99%

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Consequences of minimum soil tillage on abiotic soil properties and composition of microbial communities in a shallow Cambisol originated from fluvioglacial deposits

et al. 2015

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A long-term field experiment was run for 12 years to evaluate the impact of minimum tillage (MT) compared to conventional mouldboard ploughing (CT) on soil chemical, physical and microbial properties in a shallow Cambisol formed over fluvioglacial deposits of Drava river in Slovenia. Significant differences between MT and CT were found in vertical distribution of soil organic C (SOC) and nutrients (total N and plant available potassium); under MT, concentrations decreased from the soil surface to the lower layers, as opposed to CT which maintained rather uniform distribution down to the ploughing depth. MT in comparison with CT also increased the proportion of water-stable 2-4-mm-sized aggregates (80.9 and 61.3 %, respectively), water holding capacity (24.8 and 22.2 %, respectively) and plant available water (13.4 and 10.3 %, respectively) in the upper 0-10-cm soil layer. Bulk density, porosity, the proportion of water-stable 1-2-mm-sized aggregates and infiltration rate showed no significant differences between the tillage treatments. SOC content in the upper 0-10-cm soil layer was not significantly different between MT and CT (1.60±0.07 and 1.45±0.05 %, respectively), as well as the overall stock in the investigated soil profile (0-60 cm) remained unaffected (57.4± 0.8 and 59.1± 2.2 t ha −1 , respectively). Microbial biomass, estimated by the total soil DNA, was higher in MT than CT in the 0-10-cm layer. Furthermore, a positive linear dependence of microbial biomass on SOC content was observed. Fingerprinting of bacterial, fungal and archaeal communities indicated that microbial community composition changed by long-term MT, whereas changes in microbial diversity were not detected for any domain. The most pronounced shifts in the composition were found for bacterial communities in the 10-20-cm layer, while the composition of fungal communities slightly changed in the upper 0-10 cm of MT soil. The composition of archaeal communities was not affected by the tillage or by the soil depth. Our results indicate that MT generates modest changes in soil structure and soil water retention properties and could support measures against erosion, drought and nutrient leaching. Considering increased microbial biomass in the topsoil of MT and shifts in microbial diversity, the impacts of MT on soil microbiome are also evident and need to be further investigated to identify the affected functional traits.

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Section: Dynamics Of Microbial Communitiesmentioning

confidence: 98%

Section: Dynamics Of Microbial Communitiesmentioning

confidence: 99%

Consequences of minimum soil tillage on abiotic soil properties and composition of microbial communities in a shallow Cambisol originated from fluvioglacial deposits

et al. 2015

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“…Restriction enzyme HinfI was selected over HaeIII for T-RFLP community analysis after comparison trials on replicate samples revealed its ability to identify the greatest amount of variation. Both HinfI and HaeIII are widely used in fungal T-RFLP profiling (Avis et al 2006;Dickie and FitzJohn 2007;Alvarado and Manjon 2009). GeneMapper software 4.0 (Applied Biosystems Inc., Foster City, CA) was used to determine fragment fluorescence, OTUs were binned to 1 bp in width, and a binary analysis of presence or absence was performed following the methods of Rinehart (2004).…”

Section: Genetic Analysis Of Samplesmentioning

confidence: 99%

Impact of postfire logging on soil bacterial and fungal communities and soil biogeochemistry in a mixed-conifer forest in central Oregon

et al. 2011

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Aims Postfire logging recoups the economic value of timber killed by wildfire, but whether such forest management activity supports or impedes forest recovery in stands differing in structure from historic conditions remains unclear. The aim of this study was to determine the impact of mechanical logging after wildfire on soil bacterial and fungal communities and other measures influencing soil productivity. Methods We compared soil bacterial and fungal communities and biogeochemical responses of 1) soils compacted, and 2) soils compacted and then subsoiled, to 3) soils receiving no mechanical disturbance, across seven stands, 1-3 years after postfire logging. Results Compaction decreased plant-available N on average by 27% compared to no mechanical disturbance, while subsoiling decreased plant-available P (Bray) on average by 26% compared to the compacted and non-mechanically disturbed treatments. Neither bacterial nor fungal richness significantly differed among treatments, yet distinct separation by year in both bacterial and fungal community composition corresponded with significant increases in available N and available P between the first and second postharvest year. Conclusions Results suggest that nutrients critical to soil productivity were reduced by mechanical applications used in timber harvesting, yet soil bacteria and fungi, essential to mediating decomposition and nutrient cycling, appeared resilient to mechanical disturbance. Results of this study contribute to the understanding about impacts of harvesting fire-killed trees and bear consideration along with the recovery potential of a site and the impending risk of future fire in stands with high densities of fire-killed trees.

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“…Amplicons were digested following the manufacturer's instructions using restriction enzymes EcoRII and FspBI for 2 hours at 37°C (Fermentas Canada Inc., Burlington, Ontario) (isoschizomers for MaeII and BstNI respectively. Alvarado and Manjón (2009) performed an in silico study of terminal fragment size distributions to test primer-enzyme pairs, and recommended these enzymes for T-RFLP using ITS1F-ITS1 primers based on their effectiveness in producing differential T-RFLP cuts reflective of fungal diversity. Digests contained 15 μl of PCR product, 2U each EcoRII and FspBI, 2 μl Tango™ 1X buffer, and 2.6 μl sterile water.…”

Section: Amplification and Digestion Of Total Fungal (Tf) Fragmentsmentioning

confidence: 99%

Investigation of fungal root colonizers of the invasive plant Vincetoxicum rossicum and co-occurring local native plants in a field and woodland area in Southern Ontario

Bongard¹,

Butler²,

Fulthorpe³

2013

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Fungal communities forming associations with plant roots have generally been described as ranging from symbiotic to parasitic. Disruptions to these associations consequently can have significant impacts on native plant communities. We examined how invasion by Vincetoxicum rossicum, a plant native to Europe, can alter both the arbuscular mycorrhizal fungi, as well as the general fungal communities associating with native plant roots in both field and woodland sites in Southern Ontario. In two different sites in the Greater Toronto Area, we took advantage of invasion by V. rossicum and neighbouring uninvaded sites to investigate the fungal communities associating with local plant roots, including goldenrod (Solidago spp.), wild red raspberry (Rubus idaeus), Canada anemone (Anemone canadensis), meadow rue (Thalictrum dioicum), and wild ginger (Asarum canadense). Fungi colonizing roots were characterized with terminal restriction fragment length polymorphism (T-RFLP) analysis of amplified total fungal (TF) and arbuscular mycorrhizal fungal (AMF) ribosomal fragments. We saw a significant effect of the presence of this invader on the diversity of TF phylotypes colonizing native plant roots, and a composition shift of both the TF and AMF community in native roots in both sites. In native communities invaded by V. rossicum, a significant increase in richness and colonization density of TF suggests that invaders such as V. rossicum may be able to influence the composition of soil fungi available to natives, possibly via mechanisms such as increased carbon provision or antibiosis attributable to unique root exudates. ReSeARCh ARtICle Launched to accelerate biodiversity conservation A peer-reviewed open-access journalCindy L. Bongard et al. / Nature Conservation 4: 55-75 (2013) 56

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Selection of Enzymes for Terminal Restriction Fragment Length Polymorphism Analysis of Fungal Internally Transcribed Spacer Sequences

Cited by 24 publications

References 39 publications

Consequences of minimum soil tillage on abiotic soil properties and composition of microbial communities in a shallow Cambisol originated from fluvioglacial deposits

Consequences of minimum soil tillage on abiotic soil properties and composition of microbial communities in a shallow Cambisol originated from fluvioglacial deposits

Impact of postfire logging on soil bacterial and fungal communities and soil biogeochemistry in a mixed-conifer forest in central Oregon

Investigation of fungal root colonizers of the invasive plant Vincetoxicum rossicum and co-occurring local native plants in a field and woodland area in Southern Ontario

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