Journal: Molecular plant pathology / Publication Year: 2016 / Source: 2016 v.17 no.2 / Subject: fungi

Author:: Reiner, Tina; Hoefle, Caroline; Hückelhoven, Ralph
Source:: Molecular plant pathology 2016 v.17 no.2 pp. 184-195
ISSN:: 1464-6722
Subject:: Blumeria graminis f. sp. hordei; barley; botulinum toxin; fungi; gene silencing; guanosinetriphosphatase; powdery mildew; proteasome endopeptidase complex; proteins; sarcoma; ubiquitin-protein ligase; ubiquitination
Abstract:: ... In an increasing number of plant–microbe interactions, it has become evident that the abundance of immunity‐related proteins is controlled by the ubiquitin–26S proteasome system. In the interaction of barley with the biotrophic barley powdery mildew fungus Blumeria graminis f.sp. hordei (Bgh), the RAC/ROP [RAT SARCOMA‐related C3 botulinum toxin substrate/RAT SARCOMA HOMOLOGUE (RHO) of plants] guan ...
DOI:: 10.1111/mpp.12271
: http://dx.doi.org/10.1111/mpp.12271

Author:: Citores, Lucía; Iglesias, Rosario; Gay, Carolina; Ferreras, José Miguel
Source:: Molecular plant pathology 2016 v.17 no.2 pp. 261-271
ISSN:: 1464-6722
Subject:: Beta vulgaris; Penicillium digitatum; antifungal properties; apoplast; cytosol; food plants; fungi; hydrogen peroxide; leaves; mechanism of action; plasma membrane; protein synthesis; ribosomal RNA; ribosomes; salicylic acid; sugar beet; viruses
Abstract:: ... The ribosome‐inactivating protein BE27 from sugar beet (Beta vulgaris L.) leaves is an apoplastic protein induced by signalling compounds, such as hydrogen peroxide and salicylic acid, which has been reported to be involved in defence against viruses. Here, we report that, at a concentration much lower than that present in the apoplast, BE27 displays antifungal activity against the green mould Pen ...
DOI:: 10.1111/mpp.12278
: http://dx.doi.org/10.1111/mpp.12278

Author:: Bradshaw, Rosie E.; Guo, Yanan; Sim, Andre D.; Kabir, M. Shahjahan; Chettri, Pranav; Ozturk, Ibrahim K.; Hunziker, Lukas; Ganley, Rebecca J.; Cox, Murray P.
Source:: Molecular plant pathology 2016 v.17 no.2 pp. 210-224
ISSN:: 1464-6722
Subject:: Dothistroma; Pinus radiata; blight; data collection; epiphytes; fungi; gene expression; gene expression regulation; genes; metabolism; necrosis; oxidoreductases; pathogens; starch; time series analysis; transcriptomics; transporters
Abstract:: ... We present genome‐wide gene expression patterns as a time series through the infection cycle of the fungal pine needle blight pathogen, Dothistroma septosporum, as it invades its gymnosperm host, Pinus radiata. We determined the molecular changes at three stages of the disease cycle: epiphytic/biotrophic (early), initial necrosis (mid) and mature sporulating lesion (late). Over 1.7 billion combine ...
DOI:: 10.1111/mpp.12273
PubMed:: 25919703
PubMed Central:: PMC4746707
: http://dx.doi.org/10.1111/mpp.12273

Author:: Bastiaanse, Héloïse; Bassett, Heather C. M.; Kirk, Christopher; Gardiner, Susan E.; Deng, Cecilia; Groenworld, Remmelt; Chagné, David; Bus, Vincent G. M.
Source:: Molecular plant pathology 2016 v.17 no.2 pp. 159-172
ISSN:: 1464-6722
Subject:: Venturia inaequalis; apples; bioinformatics; fungi; linkage groups; loci; multigene family; pathogens; proteomics; woody plants
Abstract:: ... Apple scab, caused by the fungal pathogen Venturia inaequalis, is one of the most severe diseases of apple worldwide. It is the most studied plant–pathogen interaction involving a woody species using modern genetic, genomic, proteomic and bioinformatic approaches in both species. Although ‘Geneva’ apple was recognized long ago as a potential source of resistance to scab, this resistance has not be ...
DOI:: 10.1111/mpp.12269
: http://dx.doi.org/10.1111/mpp.12269

Author:: Coleman, Jeffrey J.
Source:: Molecular plant pathology 2016 v.17 no.2 pp. 146-158
ISSN:: 1464-6722
Subject:: Fusarium solani; chlorosis; chromosomes; crop losses; crop rotation; crops; disease control; disease severity; fungi; genome; genomics; growth retardation; host plants; host range; host specificity; leaves; necrosis; pathogens; phylogeny; planting; risk reduction; root rot; virulence; wilting
Abstract:: ... Members of the Fusarium solani species complex (FSSC) are capable of causing disease in many agriculturally important crops. The genomes of some of these fungi include supernumerary chromosomes that are dispensable and encode host‐specific virulence factors. In addition to genomics, this review summarizes the known molecular mechanisms utilized by members of the FSSC in establishing disease. TAXON ...
DOI:: 10.1111/mpp.12289
: http://dx.doi.org/10.1111/mpp.12289

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