Genomic analysis of bacteria in the Acute Oak Decline pathobiome

Doonan, James; Denman, Sandra; Pachebat, Justin A.; McDonald, James E.

doi:10.1099/mgen.0.000240

Cited by 47 publications

(46 citation statements)

References 86 publications

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“…(e) However, the most likely explanation for lack of disease development in these pathogenicity tests is that B. goodwinii is not a primary pathogen solely responsible for the symptoms on oak and hornbeam in Iran and may work in concert with other species to form a pathobiome. This point is consistent with reports on AOD (Broberg et al, ; Denman et al, ) and other pathosystems (e.g., olive knot disease Buonaurio et al, ) and supports the idea of the combined pathogenic potential of organisms and polybacterial pathobiomes (Doonan et al, ; Gilbert et al, ). In Iran, ideally further testing of field samples using metabarcoding, metagenomics and metatranscriptomic methods would be carried out as recommended by Broberg et al (), Denman et al () and Doonan et al () to fully profile the pathobiome and compare it with the microbiome of non‐symptomatic trees to identify putative disease contributing members for further testing and to elucidate important functional genes and gene products in the pathobiome.…”

Section: Discussionsupporting

confidence: 90%

“…The other Brenneria species and R. victoriana also caused a HR but it took longer. The strong positive HR tests from B. goodwinii support the discovery that these bacteria have a functional type III secretion system (TTSS) (Doonan et al, 2019), which delivers elicitor proteins such as harpin that represents a key phytopathogenic virulence factor when introduced into host tissue (Alfano & Collmer, 1997;Wei et al, 1992), which could be one of the factors responsible for inducing the HR response in the geranium (Choi, Kim, Lee, & Oh, 2013 Denman et al, 2018) and other pathosystems (e.g., olive knot disease Buonaurio et al, 2015) and supports the idea of the combined pathogenic potential of organisms and polybacterial pathobiomes (Doonan et al, 2019;Gilbert et al, 2016). In Iran, ideally further testing of field samples using metabarcoding, metagenomics and metatranscriptomic methods would These trees exist in pure and mixed plantation stands amounting to about 6.5% of the forests (Panahi, 2011), but also occur throughout the natural reserves in the area.…”

Section: Pathogenicitymentioning

confidence: 71%

“…The other Brenneria species and R. victoriana also caused a HR but it took longer. The strong positive HR tests from B. goodwinii support the discovery that these bacteria have a functional type III secretion system (TTSS) (Doonan et al, ), which delivers elicitor proteins such as harpin that represents a key phytopathogenic virulence factor when introduced into host tissue (Alfano & Collmer, ; Wei et al, ), which could be one of the factors responsible for inducing the HR response in the geranium (Choi, Kim, Lee, & Oh, ). In this study, despite positive HR tests on geranium, in both pathogenicity inoculation trials the isolates only induced occasional tissue necrosis under greenhouse conditions in the test periods, but they were successfully re‐isolated from the almost all the inoculated plants.…”

Section: Discussionmentioning

confidence: 89%

“…In the UK studies on AOD, B. goodwinii was emphasized as having primary importance in causing the rotting tissues in AOD, although the lesions and tissue rot in AOD have a polymicrobial cause (Broberg et al, ; Denman et al, ; Doonan, Denman, Pachebat, & McDonald, ). In our studies, B. goodwinii was isolated from all diseased trees but not the healthy trees and all the isolates of B. goodwinii obtained in our study induced a strong HR on geranium leaves within 12–14 hr indicating a host defence response to invasion, emphasizing their pathogenic potential.…”

Section: Discussionmentioning

confidence: 99%

“…Whole genome sequencing of key organisms would allow linkages to be made between their pathogenic potential and the gene products present in the lesion transcriptome and may even offer insights into mechanisms used by the pathogenic organisms. Doonan et al () discussed the concept of pathogenic potential of organisms and how polybacterial pathobiomes are becoming more widely recognized, but proper ground work must precede pathogenicity testing to obtain reliable results, and if possible, transcriptomics of material from pathogenicity trials would be carried out to complete the proof of linkages.…”

Section: Discussionmentioning

confidence: 99%

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Brenneria spp. and Rahnella victoriana associated with acute oak decline symptoms on oak and hornbeam in Iran

et al. 2019

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Decline diseases of forest trees are complex syndromes not attributable to single causal factors. In Iran, symptoms of decline disease have been observed in a number of native forest species including Quercus castaneifolia (chestnut‐leaved oak), Q. brantii (Persian oak) and Carpinus betulus (hornbeam). The symptoms are prevalent in the northern forests and the Zagros mountain forests. There are parallels between the disease in Iran and acute oak decline (AOD) reported in the UK, specifically the presence of weeping cankers, which have been attributed to a polybacterial complex wherein Brenneria goodwinii is considered a key necrogen. Based on the AOD symptomatology, and as a first step towards discovering potential causal agents of the stem weeping symptoms of affected trees in Iran, necrotic tissues were tested primarily for the presence of B. goodwinii. Symptomatic Q. castaneifolia and C. betulus from the Mazandaran Province and symptomatic Q. brantii from Kohgiluyeh and Boyerahmad Province were sampled. Isolation and culture on a selective medium yielded uniform bacterial colonies. Isolates were characterized using phenotypic and genotypic (DNA sequencing) tests. The isolates were phenotypically identical to members of Pectobacteriaceae and Yersiniaceae, specifically Brenneria and Rahnella spp. The nucleotide sequences of the 16S rRNA and housekeeping genes gyrB, infB and atpD (MLSA) amplified via PCR demonstrated that the isolates from the trees in Iran were indeed B. goodwinii, B. roseae subsp. roseae, Rahnella victoriana and an unknown species of Brenneria. Most bacteria isolated from non‐symptomatic trees were Gram‐positive, and Pseudomonas spp. were dominant, but bacterial species isolated from the diseased trees were not detected in healthy trees. Hypersensitivity response tests were positive, but inoculation on saplings was more variable with internal necrosis developing only once in the test period. Therefore, further testing is required. This is the first report of the incidence of B. goodwinii, B. roseae subsp. roseae, R. victoriana and Brenneria sp. associated with acute oak decline‐like symptoms on Q. castaneifolia, Q. brantii and C. betulus across the western forests of Iran and in the world.

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Section: Discussionsupporting

confidence: 90%

Section: Pathogenicitymentioning

confidence: 71%

“…The other Brenneria species and R. victoriana also caused a HR but it took longer. The strong positive HR tests from B. goodwinii support the discovery that these bacteria have a functional type III secretion system (TTSS) (Doonan et al, ), which delivers elicitor proteins such as harpin that represents a key phytopathogenic virulence factor when introduced into host tissue (Alfano & Collmer, ; Wei et al, ), which could be one of the factors responsible for inducing the HR response in the geranium (Choi, Kim, Lee, & Oh, ). In this study, despite positive HR tests on geranium, in both pathogenicity inoculation trials the isolates only induced occasional tissue necrosis under greenhouse conditions in the test periods, but they were successfully re‐isolated from the almost all the inoculated plants.…”

Section: Discussionmentioning

confidence: 89%

Section: Discussionmentioning

confidence: 99%

Section: Discussionmentioning

confidence: 99%

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Brenneria spp. and Rahnella victoriana associated with acute oak decline symptoms on oak and hornbeam in Iran

et al. 2019

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Oak declines: Reviewing the evidence for causes, management implications and research gaps

Gosling,

Jackson,

Elliot

et al. 2024

Ecol Sol and Evidence

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Oak decline is a complex disorder caused by multiple stressors. Although declines have been observed across Europe since 1700, there is still a lot of uncertainty around the cause, and therefore the appropriate management techniques. Using literature from across European oak ecosystems, this review and perspective discusses the key stressors associated with oak declines in Quercus robur L. and Q. petraea (Matt.) Liebl. in Europe and the newly described acute oak decline breaking out in the United Kingdom (and beyond), with a view to identifying important evidence gaps and management implications. The key factors implicated in oak decline include drought, pests and pathogens. These factors can interact in positive feedback loops to increase stress and decline within oaks. Extreme frost, waterlogging, soil properties, land management, nitrogen pollution, heavy metal pollution, genetic predisposition and mycorrhizal changes could also be involved in decline, but more research is required to understand these. In acute oak decline, necrotic lesions are caused by a bacterial complex of up to three species, and it has been observed that the presence of the wood borer Agrilus biguttatus Fabricius 1776 can amplify the symptoms. Practical implication: The amount that each stressor contributes towards these declines and the ‘tipping points’ are largely unknown and are likely to differ between decline events, sites and even individual trees. This makes management advice provision exceedingly difficult. Historic records show oaks in decline can recover; therefore, allowing trees time and space to recover should be a priority for management practitioners. Future research recommendations for effective management of declining oaks are discussed.

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Brenneria

Brady

Coutinho

2021

Bergey's Manual of Systematics of Archaea and Bacteria

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Bren.ne'ri.a. N.L. fem. n. Brenneria named after the American bacteriologist Don J. Brenner. Proteobacteria / Gammaproteobacteria / Enterobacterales / Pectobacteriaceae / Brenneria The genus Brenneria was created to accommodate bacteria causing disease on woody hosts. Species cause a range of cankers, wilts, and necroses on willow, oak, alder, and walnut and are also associated with disease‐causing species of Lonsdalea . Cells are Gram‐negative, facultatively anaerobic, motile, and short rods, which appear singly or rarely in pairs. Species are mesophilic, favoring growth temperatures of 28–30°C, and prefer low salt media and neutral pH. Carbon sources such as glucose, fructose, sucrose, galactose, and N ‐acetylglucosamine are readily assimilated and fermented. Species form a monophyletic clade when phylogenetic analysis is based on multilocus sequence analysis (MLSA) or whole‐genome sequences, while 16S rRNA gene sequence phylogenies indicate that the genus is polyphyletic. The major fatty acids are C 16:0 , C 18:1 ω7 c , C 17:0 cyclo, and summed features 2 (iso‐C 16:1 and/or C 14:0 3‐OH) and 3 (C 16:1 ω7 c and/or iso‐C 15:0 2‐OH). DNA G + C content (mol%) : 51.1–56.2 ( T m and genome analysis). Type species : Brenneria salicis Hauben et al. 1998, VL68 (basonym: “ Bacterium salicis ” Day 1924).

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Genomic analysis of bacteria in the Acute Oak Decline pathobiome

Cited by 47 publications

References 86 publications

Brenneria spp. and Rahnella victoriana associated with acute oak decline symptoms on oak and hornbeam in Iran

Brenneria spp. and Rahnella victoriana associated with acute oak decline symptoms on oak and hornbeam in Iran

Oak declines: Reviewing the evidence for causes, management implications and research gaps

Brenneria

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