Anuj Sharma scite author profile

dClostridium difficile infection (CDI) causes nearly half a million cases of diarrhea and colitis in the United States each year. Although the importance of the gut microbiota in C. difficile pathogenesis is well recognized, components of the human gut flora critical for colonization resistance are not known. Culture-independent high-density Roche 454 pyrosequencing was used to survey the distal gut microbiota for 39 individuals with CDI, 36 subjects with C. difficile-negative nosocomial diarrhea (CDN), and 40 healthy control subjects. A total of 526,071 partial 16S rRNA sequence reads of the V1 to V3 regions were aligned with 16S databases, identifying 3,531 bacterial phylotypes from 115 fecal samples. Genomic analysis revealed significant alterations of organism lineages in both the CDI and CDN groups, which were accompanied by marked decreases in microbial diversity and species richness driven primarily by a paucity of phylotypes within the Firmicutes phylum. Normally abundant gut commensal organisms, including the Ruminococcaceae and Lachnospiraceae families and butyrate-producing C2 to C4 anaerobic fermenters, were significantly depleted in the CDI and CDN groups. These data demonstrate associations between the depletion of Ruminococcaceae, Lachnospiraceae, and butyrogenic bacteria in the gut microbiota and nosocomial diarrhea, including C. difficile infection. Mechanistic studies focusing on the functional roles of these organisms in diarrheal diseases and resistance against C. difficile colonization are warranted.

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A centenary for bacterial spot of tomato and pepper

Osdaghi

Jones

Sharma

et al. 2021

Molecular Plant Pathology

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Future of Bacterial Disease Management in Crop Production

Sharma

Abrahamian

Carvalho

et al. 2022

Annu. Rev. Phytopathol.

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Bacterial diseases are a constant threat to crop production globally. Current management strategies rely on an array of tactics, including improved cultural practices; application of bactericides, plant activators, and biocontrol agents; and use of resistant varieties when available. However, effective management remains a challenge, as the longevity of deployed tactics is threatened by constantly changing bacterial populations. Increased scrutiny of the impact of pesticides on human and environmental health underscores the need for alternative solutions that are durable, sustainable, accessible to farmers, and environmentally friendly. In this review, we discuss the strengths and shortcomings of existing practices and dissect recent advances that may shape the future of bacterial disease management. We conclude that disease resistance through genome modification may be the most effective arsenal against bacterial diseases. Nonetheless, more research is necessary for developing novel bacterial disease management tactics to meet the food demand of a growing global population. Expected final online publication date for the Annual Review of Phytopathology, Volume 60 is August 2022. Please see http://www.annualreviews.org/page/journal/pubdates for revised estimates.

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Dynamics and Spread of Bacterial Spot Epidemics in Tomato Transplants Grown for Field Production

et al. 2021

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Tomato transplants are the primary means of establishing commercial tomato production fields in the eastern United States. Transplants are often suspected as the source of inoculum for major outbreaks in production fields of bacterial spot of tomato (BST) caused by Xanthomonas perforans (Xp). A combination of high plant densities coupled with over-head irrigation, high humidity and temperatures are ideal conditions for BST outbreaks during transplant production. In addition to chemical control, transplant growers utilize roguing for removing diseased transplants, as a primary means to manage BST during transplant production. The value of roguing is often questioned, since information regarding the rate of pathogen spread and the incubation period between infection and symptom development is limited. In this study, we evaluated the extent of Xp spread on tomato transplants relative to symptom development using a rifampicin-resistant Xp strain by conducting experiments in an environmentally controlled greenhouse simulating grower practices and also at a commercial transplant facility in Florida. BST symptom development typically lagged behind Xp dispersal by at least five and seven days depending on environmental conditions. Furthermore, Xp was capable of aerosolization, which resulted in long distance dispersal of up to 2 m under highly favorable conditions. To limit disease spread, it is thus recommended that growers do not only rogue diseased plants but also non-symptomatic plants as far as one to three meters away from diseased plants depending on outbreak severity. This can be expected to reduce introduction of infected transplants into the field and subsequently lower pesticide applications.

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Recent advances in developing disease resistance in plants

2019

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Approaches to manipulating disease resistance in plants is expanding exponentially due to advances in our understanding of plant defense mechanisms and new tools for manipulating the plant genome. The application of effective strategies is only limited now by adoption of rapid classical genetic techniques and the acceptance of genetically engineered traits for some problems. The use of genome editing and cis-genetics, where possible, may facilitate applications that otherwise require considerable time or genetic engineering, depending on settling legal definitions of the products. Nonetheless, the variety of approaches to developing disease resistance has never been greater.

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Anuj Sharma

Intestinal Dysbiosis and Depletion of Butyrogenic Bacteria in Clostridium difficile Infection and Nosocomial Diarrhea

A centenary for bacterial spot of tomato and pepper

Future of Bacterial Disease Management in Crop Production

Dynamics and Spread of Bacterial Spot Epidemics in Tomato Transplants Grown for Field Production

Recent advances in developing disease resistance in plants

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