scholarly article | Q13442814 |
P50 | author | Bruce A. McDonald | Q30504882 |
Dee Carter | Q38323266 | ||
Daniel Croll | Q52327087 | ||
Jason J Rudd | Q57002996 | ||
Javier Palma-Guerrero | Q58979810 | ||
P2093 | author name string | Marcello Zala | |
Stefano F F Torriani | |||
Mikaël Courbot | |||
P2860 | cites work | Finished genome of the fungal wheat pathogen Mycosphaerella graminicola reveals dispensome structure, chromosome plasticity, and stealth pathogenesis | Q21563385 |
Lifestyle transitions in plant pathogenic Colletotrichum fungi deciphered by genome and transcriptome analyses | Q22122085 | ||
TopHat: discovering splice junctions with RNA-Seq | Q24655505 | ||
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Sexual development and cryptic sexuality in fungi: insights from Aspergillus species | Q28253241 | ||
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Using GOstats to test gene lists for GO term association | Q29615168 | ||
Expression profiling of the wheat pathogen Zymoseptoria tritici reveals genomic patterns of transcription and host-specific regulatory programs | Q33836652 | ||
Tomato Cf resistance proteins mediate recognition of cognate homologous effectors from fungi pathogenic on dicots and monocots. | Q33842117 | ||
Surface attachment and pre-penetration stage development by plant pathogenic fungi | Q34433640 | ||
Fungal secondary metabolism - from biochemistry to genomics | Q34472162 | ||
Defining the predicted protein secretome of the fungal wheat leaf pathogen Mycosphaerella graminicola. | Q34510277 | ||
Comparative transcriptome profiling of the early response to Magnaporthe oryzae in durable resistant vs susceptible rice (Oryza sativa L.) genotypes | Q34517011 | ||
Building lipid barriers: biosynthesis of cutin and suberin. | Q34591126 | ||
Halogenation strategies in natural product biosynthesis | Q34753169 | ||
Breakage-fusion-bridge cycles and large insertions contribute to the rapid evolution of accessory chromosomes in a fungal pathogen. | Q34778539 | ||
Rapidly Evolving Genes Are Key Players in Host Specialization and Virulence of the Fungal Wheat Pathogen Zymoseptoria tritici (Mycosphaerella graminicola). | Q35725669 | ||
Genetics of resistance to Zymoseptoria tritici and applications to wheat breeding | Q35876882 | ||
Coevolution and life cycle specialization of plant cell wall degrading enzymes in a hemibiotrophic pathogen | Q36830866 | ||
Surface lipids and plant defenses | Q37397216 | ||
Stagonospora nodorum: cause of stagonospora nodorum blotch of wheat | Q37761201 | ||
Update on mechanisms of azole resistance in Mycosphaerella graminicola and implications for future control | Q38021430 | ||
The wheat-Septoria conflict: a new front opening up? | Q38222633 | ||
Zymoseptoria tritici: A major threat to wheat production, integrated approaches to control | Q38532820 | ||
Is Zymoseptoria tritici a hemibiotroph? | Q38532827 | ||
Measuring quantitative virulence in the wheat pathogen Zymoseptoria tritici using high-throughput automated image analysis | Q40177246 | ||
Effector discovery in the fungal wheat pathogen Zymoseptoria tritici | Q41457905 | ||
Transcriptome and metabolite profiling of the infection cycle of Zymoseptoria tritici on wheat reveals a biphasic interaction with plant immunity involving differential pathogen chromosomal contributions and a variation on the hemibiotrophic lifesty | Q41538755 | ||
Plant resistance signalling hijacked by a necrotrophic fungal pathogen | Q42172630 | ||
Mycosphaerella graminicola LysM effector-mediated stealth pathogenesis subverts recognition through both CERK1 and CEBiP homologues in wheat. | Q42266245 | ||
Analysis of two in planta expressed LysM effector homologs from the fungus Mycosphaerella graminicola reveals novel functional properties and varying contributions to virulence on wheat. | Q43617007 | ||
QoI resistance emerged independently at least 4 times in European populations of Mycosphaerella graminicola | Q46333368 | ||
Evolution of the CYP51 gene in Mycosphaerella graminicola: evidence for intragenic recombination and selective replacement. | Q48073509 | ||
Transcriptional adaptation of Mycosphaerella graminicola to programmed cell death (PCD) of its susceptible wheat host. | Q53570016 | ||
Variation for neutral markers is correlated with variation for quantitative traits in the plant pathogenic fungus Mycosphaerella graminicola. | Q53850770 | ||
Avirulence in the wheat septoria tritici leaf blotch fungus Mycosphaerella graminicola is controlled by a single locus. | Q54027567 | ||
Significant difference in pathogenicity between MAT1-1 and MAT1-2 isolates in the wheat pathogen Mycosphaerella graminicola | Q57134698 | ||
GPR34 as a lysophosphatidylserine receptor | Q59939717 | ||
The global genetic structure of the wheat pathogen Mycosphaerella graminicola is characterized by high nuclear diversity, low mitochondrial diversity, regular recombination, and gene flow | Q73234219 | ||
Distribution of mating type alleles in the wheat pathogen Mycosphaerella graminicola over spatial scales from lesions to continents | Q74351478 | ||
Evidence for extensive recent intron transposition in closely related fungi | Q82592941 | ||
Identification and characterisation of Mycosphaerella graminicola secreted or surface-associated proteins with variable intragenic coding repeats | Q84840657 | ||
P433 | issue | 6 | |
P921 | main subject | transcriptome | Q252857 |
Zymoseptoria tritici | Q104837794 | ||
P6104 | maintained by WikiProject | WikiProject Ecology | Q10818384 |
P304 | page(s) | 845-859 | |
P577 | publication date | 2015-11-26 | |
P1433 | published in | Molecular Plant Pathology | Q11937220 |
P1476 | title | Comparative transcriptomic analyses of Zymoseptoria tritici strains show complex lifestyle transitions and intraspecific variability in transcription profiles | |
P478 | volume | 17 |
Q52431469 | A Review of the Interactions between Wheat and Wheat Pathogens: Zymoseptoria tritici, Fusarium spp. and Parastagonospora nodorum. |
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Q46428445 | A fungal wheat pathogen evolved host specialization by extensive chromosomal rearrangements. |
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