scholarly article | Q13442814 |
P50 | author | Romain Berruyer | Q121886723 |
Seogchan Kang | Q30530648 | ||
P2093 | author name string | Martha C Giraldo | |
Sook-Young Park | |||
Kirk Czymmek | |||
Barbara Valent | |||
Prasanna Kankanala | |||
Chang Hyun Khang | |||
P2860 | cites work | RXLR-mediated entry of Phytophthora sojae effector Avr1b into soybean cells does not require pathogen-encoded machinery | Q44939705 |
The ER chaperone LHS1 is involved in asexual development and rice infection by the blast fungus Magnaporthe oryzae | Q46104607 | ||
Agrobacterium-Mediated Transformation of Fusarium oxysporum: An Efficient Tool for Insertional Mutagenesis and Gene Transfer | Q46302730 | ||
A translocation signal for delivery of oomycete effector proteins into host plant cells | Q46968391 | ||
The problem of how fungal and oomycete avirulence proteins enter plant cells | Q48022135 | ||
Interaction transcriptome analysis identifies Magnaporthe oryzae BAS1-4 as Biotrophy-associated secreted proteins in rice blast disease | Q48029682 | ||
The PWL host specificity gene family in the blast fungus Magnaporthe grisea. | Q48069389 | ||
The Magnaporthe oryzae avirulence gene AvrPiz-t encodes a predicted secreted protein that triggers the immunity in rice mediated by the blast resistance gene Piz-t | Q48070832 | ||
Identification, cloning, and characterization of PWL2, a gene for host species specificity in the rice blast fungus | Q48071873 | ||
Identification of a protein from rust fungi transferred from haustoria into infected plant cells | Q48108445 | ||
A putative polyketide synthase/peptide synthetase from Magnaporthe grisea signals pathogen attack to resistant rice. | Q48176726 | ||
Exploration of new chromophore structures leads to the identification of improved blue fluorescent proteins. | Q50469796 | ||
A multicolored set of in vivo organelle markers for co-localization studies in Arabidopsis and other plants. | Q50671576 | ||
Simple, but not branched, plasmodesmata allow the nonspecific trafficking of proteins in developing tobacco leaves. | Q52176267 | ||
Pseudohypha budding patterns of Candida albicans. | Q53402035 | ||
Quantitative and qualitative influence of inoculation methods on in planta growth of rice blast fungus. | Q54511222 | ||
A P-type ATPase required for rice blast disease and induction of host resistance | Q57362439 | ||
Genome Organization and Evolution of theAVR-PitaAvirulence Gene Family in theMagnaporthe griseaSpecies Complex | Q61464836 | ||
A telomeric avirulence gene determines efficacy for the rice blast resistance gene Pi-ta | Q73220345 | ||
A GFP-based assay reveals a role for RHD3 in transport between the endoplasmic reticulum and Golgi apparatus | Q75292033 | ||
Roles for rice membrane dynamics and plasmodesmata during biotrophic invasion by the blast fungus | Q79830706 | ||
The unique cellular interaction between the leaf pathogen Cymadothea trifolii and Trifolium repens | Q82841242 | ||
The genome sequence of the rice blast fungus Magnaporthe grisea | Q22122482 | ||
Hyphal growth: a tale of motors, lipids, and the Spitzenkörper. | Q24678230 | ||
A monomeric red fluorescent protein | Q28131782 | ||
Cloning and analysis of CUT1, a cutinase gene from Magnaporthe grisea | Q28295611 | ||
Plasma membrane-cell wall adhesion is required for expression of plant defense responses during fungal penetration | Q28354302 | ||
Improving the photostability of bright monomeric orange and red fluorescent proteins | Q29617607 | ||
Origins of host-specific populations of the blast pathogen Magnaporthe oryzae in crop domestication with subsequent expansion of pandemic clones on rice and weeds of rice. | Q30350457 | ||
Chromosome walking to the AVR1-CO39 avirulence gene of Magnaporthe grisea: discrepancy between the physical and genetic maps. | Q31984086 | ||
The malarial host-targeting signal is conserved in the Irish potato famine pathogen | Q33245074 | ||
Pep1, a secreted effector protein of Ustilago maydis, is required for successful invasion of plant cells | Q33406249 | ||
Molecular cloning and characterization of the AVR-Pia locus from a Japanese field isolate of Magnaporthe oryzae. | Q33436001 | ||
Magnaporthe grisea genes for pathogenicity and virulence identified through a series of backcrosses | Q33957486 | ||
Plant infection and the establishment of fungal biotrophy | Q34776667 | ||
Under pressure: investigating the biology of plant infection by Magnaporthe oryzae | Q34945621 | ||
Cell-to-cell transport of proteins and fluorescent tracers via plasmodesmata during plant development | Q35634206 | ||
The ins and outs in membrane dynamics: tubulation and vesiculation | Q36092083 | ||
A catalogue of the effector secretome of plant pathogenic oomycetes | Q36382600 | ||
Maurer's clefts of Plasmodium falciparum are secretory organelles that concentrate virulence protein reporters for delivery to the host erythrocyte | Q36445940 | ||
RXLR effector reservoir in two Phytophthora species is dominated by a single rapidly evolving superfamily with more than 700 members | Q36534493 | ||
Tête à tête inside a plant cell: establishing compatibility between plants and biotrophic fungi and oomycetes | Q36570570 | ||
The surprising complexity of signal sequences | Q36571413 | ||
Flax rust resistance gene specificity is based on direct resistance-avirulence protein interactions. | Q36789365 | ||
Magnaporthe as a model for understanding host-pathogen interactions | Q36816009 | ||
Groovy times: filamentous pathogen effectors revealed | Q36870373 | ||
Dissecting cellular components of the secretory pathway in filamentous fungi: insights into their application for protein production | Q36936756 | ||
Manipulation of host-cell pathways by bacterial pathogens | Q36974212 | ||
A genome-wide meta-analysis of rice blast resistance genes and quantitative trait loci provides new insights into partial and complete resistance | Q37183483 | ||
Delivering proteins for export from the cytosol | Q37420386 | ||
tA single amino acid difference distinguishes resistant and susceptible alleles of the rice blast resistance gene Pi-ta | Q38306380 | ||
Direct interaction of resistance gene and avirulence gene products confers rice blast resistance | Q40392306 | ||
Association genetics reveals three novel avirulence genes from the rice blast fungal pathogen Magnaporthe oryzae | Q42621695 | ||
P275 | copyright license | Creative Commons Attribution 4.0 International | Q20007257 |
P6216 | copyright status | copyrighted | Q50423863 |
P433 | issue | 4 | |
P921 | main subject | Magnaporthe oryzae | Q16661995 |
P304 | page(s) | 1388-1403 | |
P577 | publication date | 2010-04-30 | |
P1433 | published in | The Plant Cell | Q3988745 |
P1476 | title | Translocation of Magnaporthe oryzae effectors into rice cells and their subsequent cell-to-cell movement. | |
P478 | volume | 22 |
Q64295498 | A Chitinase Interacts with a Rice Jacalin-Related Lectin to Promote Host Colonization |
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Q46862208 | A novel elicitor identified from Magnaporthe oryzae triggers defense responses in tobacco and rice |
Q44866603 | A novel structural effector from rust fungi is capable of fibril formation |
Q57943276 | A nuclear contortionist: the mitotic migration of nuclei during plant infection |
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Q37157778 | Analysis of Magnaporthe oryzae Genome Reveals a Fungal Effector, Which Is Able to Induce Resistance Response in Transgenic Rice Line Containing Resistance Gene, Pi54 |
Q41331185 | Appressorium-mediated penetration of Magnaporthe oryzae and Colletotrichum orbiculare into surface-cross-linked agar media. |
Q57448556 | Arabidopsis downy mildew effector HaRxL106 suppresses plant immunity by binding to RADICAL-INDUCED CELL DEATH1 |
Q89241777 | BAS2 Is Required for Conidiation and Pathogenicity of Colletotrichum gloeosporioides from Hevea brasiliensis |
Q60747572 | Blast effector proteins may pave the way for hyphal invasion |
Q28080678 | Cell biology of Zymoseptoria tritici: Pathogen cell organization and wheat infection |
Q38132678 | Cells in cells: morphogenetic and metabolic strategies conditioning rice infection by the blast fungus Magnaporthe oryzae |
Q52650406 | Colletotrichum orbiculare Secretes Virulence Effectors to a Biotrophic Interface at the Primary Hyphal Neck via Exocytosis Coupled with SEC22-Mediated Traffic. |
Q35198077 | Concerted action of two avirulent spore effectors activates Reaction to Puccinia graminis 1 (Rpg1)-mediated cereal stem rust resistance |
Q60935308 | Conserved fungal effector suppresses PAMP-triggered immunity by targeting plant immune kinases |
Q36333097 | Cross-talk of the biotrophic pathogen Claviceps purpurea and its host Secale cereale |
Q40113426 | Delivery of cytoplasmic and apoplastic effectors from Phytophthora infestans haustoria by distinct secretion pathways. |
Q45843851 | Deployment of the Burkholderia glumae type III secretion system as an efficient tool for translocating pathogen effectors to monocot cells |
Q40178245 | Direct and Indirect Visualization of Bacterial Effector Delivery into Diverse Plant Cell Types during Infection |
Q33683029 | ER retention receptor, MoERR1 is required for fungal development and pathogenicity in the rice blast fungus, Magnaporthe oryzae |
Q38328397 | Effector-mediated suppression of chitin-triggered immunity by magnaporthe oryzae is necessary for rice blast disease |
Q38214162 | Effector-triggered defence against apoplastic fungal pathogens |
Q35082194 | Effectors and effector delivery in Magnaporthe oryzae |
Q55092543 | Effectors of plant-colonizing fungi and beyond. |
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Q37912267 | Entry of oomycete and fungal effectors into plant and animal host cells |
Q48430163 | Evidence for a diffusible factor that induces susceptibility in the Colletotrichum-maize disease interaction. |
Q40097365 | Expression of HopAI interferes with MAP kinase signalling in Magnaporthe oryzae |
Q38152954 | Filamentous plant pathogen effectors in action |
Q40574546 | Fluorescent reporter analysis revealed the timing and localization of AVR-Pia expression, an avirulence effector of Magnaporthe oryzae |
Q42754941 | Focal effector accumulation in a biotrophic interface at the primary invasion sites of Colletotrichum orbiculare in multiple susceptible plants |
Q34109773 | Fungal virulence and development is regulated by alternative pre-mRNA 3'end processing in Magnaporthe oryzae |
Q44245943 | Fungal-specific transcription factor AbPf2 activates pathogenicity in Alternaria brassicicola |
Q38558096 | Genome plasticity in filamentous plant pathogens contributes to the emergence of novel effectors and their cellular processes in the host |
Q35737591 | Genome-Wide Analysis of Hypoxia-Responsive Genes in the Rice Blast Fungus, Magnaporthe oryzae. |
Q21563381 | Genomic analysis of the necrotrophic fungal pathogens Sclerotinia sclerotiorum and Botrytis cinerea |
Q35251104 | Global genome and transcriptome analyses of Magnaporthe oryzae epidemic isolate 98-06 uncover novel effectors and pathogenicity-related genes, revealing gene gain and lose dynamics in genome evolution |
Q35675766 | Glucosinolate-derived isothiocyanates impact mitochondrial function in fungal cells and elicit an oxidative stress response necessary for growth recovery |
Q37083738 | Growth in rice cells requires de novo purine biosynthesis by the blast fungus Magnaporthe oryzae |
Q33886701 | HYR1-mediated detoxification of reactive oxygen species is required for full virulence in the rice blast fungus |
Q53498838 | Heterologous production, purification, and immunodetection of Magnaporthe oryzae avirulence protein AVR-Pia. |
Q38366604 | Hitchhiker's guide to multi-dimensional plant pathology |
Q35105547 | How do filamentous pathogens deliver effector proteins into plant cells? |
Q44864859 | Identification and characterization of suppressors of plant cell death (SPD) effectors from Magnaporthe oryzae. |
Q90401623 | Identification of Regulatory Networks of MicroRNAs and Their Targets in Response to Colletotrichum gloeosporioides in Tea Plant (Camellia sinensis L.). |
Q55510656 | In Planta Functional Analysis and Subcellular Localization of the Oomycete Pathogen Plasmopara viticola Candidate RXLR Effector Repertoire. |
Q46852605 | Internalization of flax rust avirulence proteins into flax and tobacco cells can occur in the absence of the pathogen |
Q36895663 | LYM2-dependent chitin perception limits molecular flux via plasmodesmata |
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