A novel PCR-clamping assay reducing plant host DNA amplification significantly improves prokaryotic endo-microbiome community characterization

Lefèvre, Emilie; Gardner, Courtney M.; Gunsch, Claudia K.

doi:10.1093/femsec/fiaa110

Cited by 13 publications

(17 citation statements)

References 73 publications

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“…We found that the predominance of plant DNA in crown gall samples led to the low resolution of endophytic bacterial microbiota survey via standard 16S rRNA gene amplicon sequencing due to the co-amplification of chloroplast and mitochondrial sequences. Although the use of 16S rRNA gene primers containing mismatches to 16S rRNA gene of plant chloroplast or mitochondria could potentially reduce host contamination in endophytic microbiota studies (23, 39), the “bacteria-specific” primers did not work well in previous studies (20) and resulted in > 90% host reads of our initial attempt (Round I) (Table 2). When adding blockers that could specifically anneal to chloroplast or mitochondrial DNA but not be extended by DNA polymerase during PCR, we successfully reduced the host contamination and obtained sufficient sequencing depth for this study.…”

Section: Discussionmentioning

confidence: 99%

Development of a soil inoculation method coupled with blocker-mediated 16S rRNA gene amplicon sequencing reveals the effect of antibacterial T6SS on agrobacteria tumorigenesis and gallobiome composition

Wang

Chen

Chou

et al. 2022

Preprint

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The type VI secretion system (T6SS) is deployed by many proteobacteria to secrete effector proteins into bacterial competitors for competition or eukaryotic cells for pathogenesis. Agrobacterium tumefacien, a soil-borne phytopathogen causing crown gall disease on various plant species, deploys its T6SS to attack closely- and distantly-related bacterial species in vitro and in planta. Current evidence suggests that the A. tumefaciens T6SS is not essential for pathogenesis under direct inoculation but it remains unknown whether T6SS influences natural disease incidence and microbial community of crown galls. To address these two key questions, we established a soil inoculation method on wounded tomato seedlings that mimics natural infections and performed 16S rRNA gene amplicon sequencing. By comparing the A. tumefaciens C58 wild-type strain with two T6SS mutants, we demonstrate that the T6SS influences disease occurrence and microbiota composition within crown galls. Based on multiple inoculation trials across seasons, all three strains could induce tumors but the mutants had significantly lower disease incidences. The season of inoculation played a more important role than the T6SS in shaping the gall microbiota (i.e., gallobiome). The influence of T6SS was evident in summer, in which two bacterial families (Sphingomonadaceae and Burkhoderiaceae) were enriched in the gallobiome induced by the T6SS mutants. Further in-vitro competition and colonization assay demonstrated the T6SS-mediated antagonism to a tomato isolate Sphingomonas sp. R1. In conclusion, this study informs that the A. tumefaciens T6SS may promote tumorigenesis in natural infection process and provide competitive advantages in gall-associated microbiota.

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Section: Discussionmentioning

confidence: 99%

Development of a soil inoculation method coupled with blocker-mediated 16S rRNA gene amplicon sequencing reveals the effect of antibacterial T6SS on agrobacteria tumorigenesis and gallobiome composition

Wang

Chen

Chou

et al. 2022

Preprint

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“…The elucidation of the ubiquitous existence of diverse microorganisms in live plant cells with their continuous vertical transmission opens up scope for further research on spin-off study areas in plant biology similar to the interdependent human- and animal-associated microbiota ( Engel and Moran, 2013 ; Almeida et al, 2019 ). It might be possible to bring out more diversity adopting alternate methods to block the amplification of mitochondrial and plastid sequences, such as the design and the use of PNA PCR clamps ( Lundberg et al, 2013 ; Lefèvre et al, 2020 ). This warrants a comparative study to assess if the two-step QIIME analysis adopted in this study, or the use of PNA clamps harnesses more taxonomic diversity.…”

Section: Discussionmentioning

confidence: 99%

Cytobacts: Abundant and Diverse Vertically Seed-Transmitted Cultivation-Recalcitrant Intracellular Bacteria Ubiquitous to Vascular Plants

2022

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We have recently described ‘Cytobacts’ as abundant intracellular endophytic bacteria inhabiting live plant cells based on the observations with callus and cell suspension cultures of grapevine and other plant species with the origin ascribable to field explants. In this study, we investigated the prevalence of such cytoplasmic bacterial associations in field plants across different taxa, their cultivability, and the extent of taxonomic diversity and explored the possibility of their embryo-mediated vertical transmission. Over 100 genera of field plants were surveyed for ‘Cytobacts’ through bright-field live-cell imaging as per our previous experience using fresh tissue sections from surface-sterilized shoot-tissues with parallel cultivation-based assessments. This revealed widespread cellular bacterial associations visualized as copious motile micro-particles in the cytoplasm with no or sparse colony forming units (CFU) from the tissue-homogenates indicating their general non-cultivability. Based on the ease of detection and the abundance of ‘Cytobacts’ in fresh tissue sections, the surveyed plants were empirically classified into three groups: (i) motile bacteria detected instantly in most cells; (ii) motility not so widely observed, but seen in some cells; and (iii) only occasional motile units observed, but abundant non-motile bacterial cells present. Microscopy versus 16S-rRNA V3–V4 amplicon profiling on shoot-tip tissues of four representative plants—tomato, watermelon, periwinkle, and maize—showed high bacterial abundance and taxonomic diversity (11–15 phyla) with the dominance of Proteobacteria followed by Firmicutes/Actinobacteria, and several other phyla in minor shares. The low CFU/absence of bacterial CFU from the tissue homogenates on standard bacteriological media endorsed their cultivation-recalcitrance. Intracellular bacterial colonization implied that the associated organisms are able to transmit vertically to the next generation through the seed-embryos. Microscopy and 16S-rRNA V3–V4 amplicon/metagenome profiling of mature embryos excised from fresh watermelon seeds revealed heavy embryo colonization by diverse bacteria with sparse or no CFU. Observations with grapevine fresh fruit-derived seeds and seed-embryos endorsed the vertical transmission by diverse cultivation-recalcitrant endophytic bacteria (CREB). By and large, Proteobacteria formed the major phylum in fresh seed-embryos with varying shares of diverse phyla. Thus, we document ‘Cytobacts’ comprising diverse and vertically transmissible CREBs as a ubiquitous phenomenon in vascular plants.

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“…Tissues were then removed from the tube and the tube was centrifuged at 13000 g for 5 min to obtain a cell pellet. The supernatant was decanted, and DNA was extracted from the resulting pellet using the UltraClean Microbial DNA kit (MoBio Laboratories), according to the manufacturer’s instructions [50]. All extracted DNA was quantified using a Qubit 2.0 fluorometer and stored at −80°C until further analysis.…”

Section: Methodsmentioning

confidence: 99%

Evaluation of developing maize microbiomes and associations among nitrogen cyclers and key fungal taxa

et al. 2022

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More sustainable approaches to agriculture are urgently needed to protect existing resources and optimize crop yields and to provide food for a growing global human population. More sustainable agricultural practices that utilize plant–microbe relationships across cultivation are urgently needed. The main objectives of this study were to track the prokaryotic and fungal microbiomes associated with key growth stages of developing maize to evaluate the relationships among nitrogen cycling bacteria and major fungal genera including those known to contain arbuscular mycorrhizal fungi and other important taxa. Prokaryotic and fungal microbiomes associated with bulk soils, rhizosphere soils and tissues of developing maize were characterized using Illumina MiSeq sequencing. Similarities in microbiome diversity and abundance were compared to sample metadata to explore the influence of external factors on microbiome development. Correlations among target fungal taxa, bulk bacteria and nitrogen cycling bacteria were determined using non-parametric Spearman correlations. Important maize-associated fungal taxa were detected in all samples across growth stages, with Fusarium, Penicillium and Aspergillus fungi comprising up to 4.21, 4.26 and 0.28% of all fungal genera, respectively. Thirteen statistically significant correlations between nitrogen cycling genera and targeted fungal genera were also identified (r S≥0.70 or r S≤−0.70; P<0.05). This study is the first to note a strong positive association among several nitrifying bacteria and Fusarium (R=0.71; P=0.0046), Aspergillus (R=0.71; P=0.0055) and Cladosporium spcies (R=0.74; P=0.0038), suggesting the levels of soil nitrate, nitrite or nitrification intermediates may have large roles in the proliferation of important maize-associated fungi.

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A novel PCR-clamping assay reducing plant host DNA amplification significantly improves prokaryotic endo-microbiome community characterization

Cited by 13 publications

References 73 publications

Development of a soil inoculation method coupled with blocker-mediated 16S rRNA gene amplicon sequencing reveals the effect of antibacterial T6SS on agrobacteria tumorigenesis and gallobiome composition

Development of a soil inoculation method coupled with blocker-mediated 16S rRNA gene amplicon sequencing reveals the effect of antibacterial T6SS on agrobacteria tumorigenesis and gallobiome composition

Cytobacts: Abundant and Diverse Vertically Seed-Transmitted Cultivation-Recalcitrant Intracellular Bacteria Ubiquitous to Vascular Plants

Evaluation of developing maize microbiomes and associations among nitrogen cyclers and key fungal taxa

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