Botanical microbiomes on the cheap: Inexpensive molecular fingerprinting methods to study plant‐associated communities of bacteria and fungi

Johnston‐Monje, David; Mejía, Jessica López

doi:10.1002/aps3.11334

Cited by 27 publications

(15 citation statements)

References 84 publications

(90 reference statements)

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“…Therefore, more traditional methods, such as isolation, culture and fingerprinting, have been maintained and are becoming popular again. For instance, traditional fingerprinting methods, such as terminal restriction fragment length polymorphism (T‐RLFP), can yield results comparable to recent metabarcoding approaches regarding the structure of plant bacterial endophytic communities, but their cost is much lower, making them accessible to a larger scientific community (Johnston‐Monje and Mejia, 2020). Compared to second‐generation metabarcoding approaches, isolation and culture of bacterial endophytes permit more accurate taxonomic identification through the sequencing of longer portions of marker genes (Asghari et al ., 2019) or whole‐genome sequencing (WGS) (López‐Fernández et al ., 2015; Chaudhry et al ., 2017; Jauri et al ., 2019; Eida et al ., 2020).…”

Section: Methodological Challenges and Limitations To Study Endophytesmentioning

confidence: 99%

The plant endosphere world – bacterial life within plants

Compant

Cambon

Vacher

et al. 2020

Environmental Microbiology

187

104

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The plant endosphere is colonized by complex microbial communities and microorganisms, which colonize the plant interior at least part of their lifetime and are termed endophytes. Their functions range from mutualism to pathogenicity. All plant organs and tissues are generally colonized by bacterial endophytes and their diversity and composition depend on the plant, the plant organ and its physiological conditions, the plant growth stage as well as on the environment. Plant-associated microorganisms, and in particular endophytes, have lately received high attention, because of the increasing awareness of the importance of host-associated microbiota for the functioning and performance of their host. Some endophyte functions are known from mostly lab assays, genome prediction and few metagenome analyses; however, we have limited understanding on in planta activities, particularly considering the diversity of micro-environments and the dynamics of conditions. In our review, we present recent findings on endosphere environments, their physiological conditions and endophyte colonization. Furthermore, we discuss microbial functions, the interaction between endophytes and plants as well as methodological limitations of endophyte research. We also provide an outlook on needs of future research to improve our understanding on the role of microbiota colonizing the endosphere on plant traits and ecosystem functioning.

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Section: Methodological Challenges and Limitations To Study Endophytesmentioning

confidence: 99%

The plant endosphere world – bacterial life within plants

Compant

Cambon

Vacher

et al. 2020

Environmental Microbiology

187

104

View full text Add to dashboard Cite

show abstract

“…The T‐RFLP community fingerprinting method was used to compare soil bacterial community composition and taxa richness between the plots. While T‐RFLP cannot provide taxonomic identification of the bacterial community, it is an established molecular tool which can yield results at a level of resolution comparable to metabarcode sequencing with Illumina Miseq when studying community shifts in plant‐associated microbiomes (Johnston‐Monje & Lopez Mejia, 2020). The 16S rRNA gene was amplified in the soil DNA samples using primers 63F (5′‐CAGGCCTAACACATGCAAGTC‐3) labelled with 6‐FAM fluorescent dye at the 5′end and 530R (5′‐GTATTACCGCGGCTGCTG‐3′) as per Thomson et al.…”

Section: Methodsmentioning

confidence: 99%

Effects of maternal genotypic identity and genetic diversity of the red mangroveRhizophora mangleon associated soil bacterial communities: A field‐based experiment

Craig

Kennedy

Devlin

et al. 2020

Ecology and Evolution

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“…These methods present very low resolution when compared to 16S amplicon sequencing, but may represent a convenient way to analyze the overall community stability of complex communities, and will likely be able to provide a semi-quantitative assessment of the relative abundance of known members of simple communities. Overall, these methods have shown a comparable capacity to discern broad scale diversity patterns when compared to high-throughput sequencing methods, but seem to systematically underestimate community richness [19] , [20] , [21] , [22] .…”

Section: Wet Lab Methodsmentioning

confidence: 99%

Experimental and computational approaches to unravel microbial community assembly

Cárcer

2020

Computational and Structural Biotechnology Journal

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Microbial communities have a preponderant role in the life support processes of our common home planet Earth. These extremely diverse communities drive global biogeochemical cycles, and develop intimate relationships with most multicellular organisms, with a significant impact on their fitness. Our understanding of their composition and function has enjoyed a significant thrust during the last decade thanks to the rise of high-throughput sequencing technologies. Intriguingly, the diversity patterns observed in nature point to the possible existence of fundamental community assembly rules. Unfortunately, these rules are still poorly understood, despite the fact that their knowledge could spur a scientific, technological, and economic revolution, impacting, for instance, agricultural, environmental, and health-related practices. In this minireview, I recapitulate the most important wet lab techniques and computational approaches currently employed in the study of microbial community assembly, and briefly discuss various experimental designs. Most of these approaches and considerations are also relevant to the study of microbial microevolution, as it has been shown that it can occur in ecological relevant timescales. Moreover, I provide a succinct review of various recent studies, chosen based on the diversity of ecological concepts addressed, experimental designs, and choice of wet lab and computational techniques. This piece aims to serve as a primer to those new to the field, as well as a source of new ideas to the more experienced researchers.

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Botanical microbiomes on the cheap: Inexpensive molecular fingerprinting methods to study plant‐associated communities of bacteria and fungi

Cited by 27 publications

References 84 publications

The plant endosphere world – bacterial life within plants

The plant endosphere world – bacterial life within plants

Effects of maternal genotypic identity and genetic diversity of the red mangroveRhizophora mangleon associated soil bacterial communities: A field‐based experiment

Experimental and computational approaches to unravel microbial community assembly

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