Advances in understanding obligate biotrophy in rust fungi

Lorrain, Cécile; Santos, Karen Cristine Gonçalves Dos; Germain, Hugo; Hecker, Arnaud; Duplessis, Sébastien

doi:10.1111/nph.15641

Cited by 116 publications

(117 citation statements)

References 173 publications

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“…New stem rust strains arising on the alternate host barberry are sometimes able to overcome Resistance genes deployed in wheat (Zhao et al , ). Fortunately, hundreds of Resistance genes have been discovered in wheat and its relatives, among which have been found genes effective against new stem rust strains (Singh et al , ; Dean et al , ; Harris et al , ; Lorrain et al , ). This is also the case for the Hessian fly, Mayetiola destructor , an insect pest of wheat that caused havoc when it invaded North America in the late eighteenth century (Harris et al , ).…”

Section: Diverse Biotic Interactionsmentioning

confidence: 99%

“…Genome sequencing of antagonists of plants predicts ‘effector candidates’ based on screening of in silico ‐translated products for presence of an N‐terminal signal peptide, protein size, and homology to known sequences (Sperschneider et al , ; Thordal‐Christensen et al , ). Predictions of which effector candidates are most important for colonization – as well as which effectors are encoded by parasite Avirulence genes – are being refined by ‘effectoromics’, which involves high‐throughput in planta expression screen approaches (Lorrain et al , ). Fungal rust species – among which are many gall‐inducing species – are noteworthy for having thousands of genes that encode secreted proteins that are strongly expressed during colonization (Lorrain et al , ).…”

Section: Galls As Parasitismmentioning

confidence: 99%

“…Predictions of which effector candidates are most important for colonization – as well as which effectors are encoded by parasite Avirulence genes – are being refined by ‘effectoromics’, which involves high‐throughput in planta expression screen approaches (Lorrain et al , ). Fungal rust species – among which are many gall‐inducing species – are noteworthy for having thousands of genes that encode secreted proteins that are strongly expressed during colonization (Lorrain et al , ). The genome of the Hessian fly, a member of a large gall‐inducing insect clade, predicted 1400 effector candidates (Zhao et al , ).…”

Section: Galls As Parasitismmentioning

confidence: 99%

“…A genomic 'signature' of the arms race in plants is the expansion of gene families encoding traits that play a role in their most important biotic interactions (Meyers et al, 2003;Harris et al, 2014;Plomian et al, 2018;Hipp et al, 2019). Likewise, the genomic 'signature' of the arms race in parasites is expansion of gene families encoding traits that enable colonization and maximal exploitation of the plant (Zhao et al, 2015;Lorrain et al, 2019).…”

Section: Molecular Frameworkmentioning

confidence: 99%

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Plants make galls to accommodate foreigners: some are friends, most are foes

Harris

Pitzschke

2020

New Phytologist

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At the colonization site of a foreign entity, plant cells alter their trajectory of growth and development. The resulting structurea plant gallaccommodates various needs of the foreigner, which are phylogenetically diverse: viruses, bacteria, protozoa, oomycetes, true fungi, parasitic plants, and many types of animals, including rotifers, nematodes, insects, and mites. The plant species that make galls also are diverse. We assume gall production costs the plant. All is well if the foreigner provides a gift that makes up for the cost. Nitrogen-fixing nodule-inducing bacteria provide nutritional services. Gall wasps pollinate fig trees. Unfortunately for plants, most galls are made for foes, some of which are deeply studied pathogens and pests: Agrobacterium tumefaciens, Rhodococcus fascians, Xanthomonas citri, Pseudomonas savastanoi, Pantoea agglomerans, 'Candidatus' phytoplasma, rust fungi, Ustilago smuts, root knot and cyst nematodes, and gall midges. Galls are an understudied phenomenon in plant developmental biology. We propose gall inception for discovering unifying features of the galls that plants make for friends and foes, talk about molecules that plants and gall-inducers use to get what they want from each other, raise the question of whether plants colonized by arbuscular mycorrhizal fungi respond in a gall-like manner, and present a research agenda.'Only connect!' E. M. Forster, Howard's End

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Section: Diverse Biotic Interactionsmentioning

confidence: 99%

Section: Galls As Parasitismmentioning

confidence: 99%

Section: Galls As Parasitismmentioning

confidence: 99%

Section: Molecular Frameworkmentioning

confidence: 99%

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Plants make galls to accommodate foreigners: some are friends, most are foes

Harris

Pitzschke

2020

New Phytologist

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“…239 These molecular determinants are conserved across rust species and may play an 240 important role in pathogenesis-related processes. 241 242 Prediction of in planta secreted proteins expressed by G. yamadae during apple leaf 243 infection 244 Rust fungi possess very large repertoires of secreted proteins (SPs) that contain effectors, 245 which have significant roles in the establishment of compatible interactions with their host 246 plants (Lorrain et al 2019). We predicted 38,039 and 29,160 proteins from G. yamadae 247 spermogonia and aecia unigenes, respectively.…”

Section: Introductionmentioning

confidence: 99%

Transcriptome analysis of apple leaves infected by the rust fungus Gymnosporangium yamadae at two sporulation stages (spermogonia and aecia) reveals specific host responses, rust pathogenesis-related genes and a shift in the phyllosphere fungal community composition

Tao¹,

Auer

Morin

et al. 2019

Preprint

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1 Gymnosporangium yamadae at two sporulation stages (spermogonia and 2 aecia) reveals specific host responses, rust pathogenesis-related genes and 3 a shift in the phyllosphere fungal community composition 4 5 Abstract 17Apple rust disease caused by Gymnosporangium yamadae is one of the major threats to 18 apple orchards. In this study, dual RNA-seq analysis was conducted to simultaneously 19 monitor gene expression profiles of G. yamadae and infected apple leaves during the 20 formation of rust spermogonia and aecia. The molecular mechanisms underlying this 21 compatible interaction at 10 and 30 days post inoculation (dpi) indicate a significant 22 reaction from the host plant and comprise detoxication pathways at the earliest stage and 23 the induction of secondary metabolism related pathways at 30dpi. Such host reactions 24 have been previously reported in other rust pathosystems and may represent a general 25 reaction to rust infection. G. yamadae transcript profiling indicates a conserved genetic 26 program in spermogonia and aecia that is shared with other rust fungi, whereas secretome 27 prediction reveals the presence of specific secreted candidate effector proteins expressed 28 during apple infection. Unexpectedly, the survey of fungal unigenes in the transcriptome 29 assemblies of inoculated and mock-inoculated apple leaves reveals that G. yamadae 30 infection modifies the fungal community composition in the apple phyllosphere at 30 dpi. 31 Collectively, our results provide novel insights into the compatible apple-apple rust 32 interaction and advance the knowledge of this heteroecious demicyclic rust fungus. 33 34

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Mycobiota profile, phenology, and potential toxicogenic and pathogenic species associated with stored groundnuts (Arachis hypogaea L.) from the Volta Region, Ghana

Kortei

Tetteh

Wiafe-Kwagyan

et al. 2022

Food Science & Nutrition

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This study updates the mycobiota resident in groundnut seeds, their phenology during storage with the view to ascertain their occurrence, potential toxigenic species, and pathologically important species in the stored samples. The moisture content of the seeds ranged from 5.7% to 6.5% within the stipulated safe moisture content of 8% for extension of shelf life. Culturing the seeds on mycological media (Sabouraud's Dextrose Agar SDA; Oxytetracycline Glucose Yeast Extract OGYE, Potato Dextrose Agar, PDA) caused a de novo growth of the quiescent spores at 28-30°C for 7-14 days.Fungal population counts on the three media ranged from 2.01 to 2.16 log 10 CFU/g samples to a final 6-month count of 1.67-2.60 log 10 CFU/g. Eighteen different fungal species belonging to ten genera were encountered on the media, namely Aspergillus,

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Advances in understanding obligate biotrophy in rust fungi

Cited by 116 publications

References 173 publications

Plants make galls to accommodate foreigners: some are friends, most are foes

Plants make galls to accommodate foreigners: some are friends, most are foes

Transcriptome analysis of apple leaves infected by the rust fungus Gymnosporangium yamadae at two sporulation stages (spermogonia and aecia) reveals specific host responses, rust pathogenesis-related genes and a shift in the phyllosphere fungal community composition

Mycobiota profile, phenology, and potential toxicogenic and pathogenic species associated with stored groundnuts (Arachis hypogaea L.) from the Volta Region, Ghana

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