| scholarly article | Q13442814 |
| P50 | author | Zhengguang Zhang | Q51786966 |
| P2093 | author name string | Haifeng Zhang | |
| Ping Wang | |||
| Xiao Li | |||
| Xiaobo Zheng | |||
| Lianwei Li | |||
| Muxing Liu | |||
| Ziyi Yin | |||
| Chuyun Gao | |||
| P2860 | cites work | In vivo analysis of autophagy in response to nutrient starvation using transgenic mice expressing a fluorescent autophagosome marker | Q24633015 |
| A Pan1/End3/Sla1 complex links Arp2/3-mediated actin assembly to sites of clathrin-mediated endocytosis | Q27305943 | ||
| The late endosomal HOPS complex anchors active G-protein signaling essential for pathogenesis in magnaporthe oryzae | Q27334223 | ||
| Dynamic phosphoregulation of the cortical actin cytoskeleton and endocytic machinery revealed by real-time chemical genetic analysis | Q27930350 | ||
| Novel protein kinases Ark1p and Prk1p associate with and regulate the cortical actin cytoskeleton in budding yeast. | Q27930624 | ||
| A pathway for association of receptors, adaptors, and actin during endocytic internalization. | Q27935237 | ||
| EH domain proteins Pan1p and End3p are components of a complex that plays a dual role in organization of the cortical actin cytoskeleton and endocytosis in Saccharomyces cerevisiae. | Q27936190 | ||
| Membrane recruitment of Aut7p in the autophagy and cytoplasm to vacuole targeting pathways requires Aut1p, Aut2p, and the autophagy conjugation complex | Q27937466 | ||
| Pan1p, End3p, and S1a1p, three yeast proteins required for normal cortical actin cytoskeleton organization, associate with each other and play essential roles in cell wall morphogenesis | Q27939792 | ||
| Multiple plant surface signals are sensed by different mechanisms in the rice blast fungus for appressorium formation | Q28476784 | ||
| Host-microbe interactions: shaping the evolution of the plant immune response | Q29617734 | ||
| Phosphate-binding tag, a new tool to visualize phosphorylated proteins | Q29617792 | ||
| Negative regulation of yeast Eps15-like Arp2/3 complex activator, Pan1p, by the Hip1R-related protein, Sla2p, during endocytosis. | Q30478903 | ||
| A quantitative imaging-based screen reveals the exocyst as a network hub connecting endocytosis and exocytosis | Q30664635 | ||
| The adenylate cyclase gene MAC1 of Magnaporthe grisea controls appressorium formation and other aspects of growth and development | Q32176336 | ||
| Live-cell imaging of tubulin in the filamentous fungus Magnaporthe grisea treated with anti-microtubule and anti-microfilament agents | Q33214639 | ||
| R-SNARE Homolog MoSec22 Is Required for Conidiogenesis, Cell Wall Integrity, and Pathogenesis of Magnaporthe oryzae | Q33719444 | ||
| Fluorescence perturbation techniques to study mobility and molecular dynamics of proteins in live cells: FRAP, photoactivation, photoconversion, and FLIP. | Q33760242 | ||
| MoVam7, a conserved SNARE involved in vacuole assembly, is required for growth, endocytosis, ROS accumulation, and pathogenesis of Magnaporthe oryzae | Q33808820 | ||
| The bZIP transcription factor MoAP1 mediates the oxidative stress response and is critical for pathogenicity of the rice blast fungus Magnaporthe oryzae | Q33839481 | ||
| Two phosphodiesterase genes, PDEL and PDEH, regulate development and pathogenicity by modulating intracellular cyclic AMP levels in Magnaporthe oryzae | Q33840933 | ||
| MAP kinase and protein kinase A-dependent mobilization of triacylglycerol and glycogen during appressorium turgor generation by Magnaporthe grisea | Q33919378 | ||
| MgCRZ1, a transcription factor of Magnaporthe grisea, controls growth, development and is involved in full virulence. | Q51786874 | ||
| Pleiotropic function of the putative zinc-finger protein MoMsn2 in Magnaporthe oryzae. | Q52646721 | ||
| MoTup1 is required for growth, conidiogenesis and pathogenicity of Magnaporthe oryzae. | Q52656557 | ||
| Translocation of Magnaporthe oryzae effectors into rice cells and their subsequent cell-to-cell movement. | Q53471907 | ||
| The syntaxin protein (MoSyn8) mediates intracellular trafficking to regulate conidiogenesis and pathogenicity of rice blast fungus. | Q53811200 | ||
| Septin-Mediated Plant Cell Invasion by the Rice Blast Fungus, Magnaporthe oryzae | Q57362284 | ||
| Magnaporthe grisea pth11p is a novel plasma membrane protein that mediates appressorium differentiation in response to inductive substrate cues | Q73083355 | ||
| Rapid Stimulation of an Oxidative Burst during Elicitation of Cultured Plant Cells : Role in Defense and Signal Transduction | Q83268241 | ||
| Endocytosis, signaling, and beyond | Q33938561 | ||
| Regulation of yeast actin cytoskeleton-regulatory complex Pan1p/Sla1p/End3p by serine/threonine kinase Prk1p | Q33948756 | ||
| Magnaporthe grisea genes for pathogenicity and virulence identified through a series of backcrosses | Q33957486 | ||
| Control of the autophagy maturation step by the MAPK ERK and p38: lessons from environmental carcinogens | Q34000894 | ||
| Actin dynamics and endocytosis in yeast and mammals. | Q34188493 | ||
| MAPK15/ERK8 stimulates autophagy by interacting with LC3 and GABARAP proteins | Q34297536 | ||
| Autophagic fungal cell death is necessary for infection by the rice blast fungus. | Q34518796 | ||
| Actin and endocytosis in budding yeast | Q34667847 | ||
| The Ark1/Prk1 family of protein kinases. Regulators of endocytosis and the actin skeleton. | Q35084594 | ||
| System-wide characterization of bZIP transcription factor proteins involved in infection-related morphogenesis of Magnaporthe oryzae | Q35185642 | ||
| Two MAPK-signaling pathways are required for mitophagy in Saccharomyces cerevisiae | Q35196032 | ||
| 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 | Q35251104 | ||
| Rgs1 regulates multiple Galpha subunits in Magnaporthe pathogenesis, asexual growth and thigmotropism. | Q35629671 | ||
| MoSwi6, an APSES family transcription factor, interacts with MoMps1 and is required for hyphal and conidial morphogenesis, appressorial function and pathogenicity of Magnaporthe oryzae | Q35968882 | ||
| MoDnm1 Dynamin Mediating Peroxisomal and Mitochondrial Fission in Complex with MoFis1 and MoMdv1 Is Important for Development of Functional Appressorium in Magnaporthe oryzae | Q36111262 | ||
| The actin-regulating kinase homologue MoArk1 plays a pleiotropic function in Magnaporthe oryzae | Q36812113 | ||
| Two distinct secretion systems facilitate tissue invasion by the rice blast fungus Magnaporthe oryzae | Q37006304 | ||
| GPCR signaling along the endocytic pathway | Q37141950 | ||
| Effects of membrane trafficking on signaling by receptor tyrosine kinases | Q37258713 | ||
| Evidence for the interplay between JNK and p53-DRAM signalling pathways in the regulation of autophagy | Q37641677 | ||
| Protein scaffolds in the coupling of synaptic exocytosis and endocytosis | Q37838259 | ||
| Coupling exo- and endocytosis: an essential role for PIP₂ at the synapse. | Q37990335 | ||
| N-glycosylation of effector proteins by an α-1,3-mannosyltransferase is required for the rice blast fungus to evade host innate immunity | Q38308336 | ||
| Effector-mediated suppression of chitin-triggered immunity by magnaporthe oryzae is necessary for rice blast disease | Q38328397 | ||
| Divergent cAMP signaling pathways regulate growth and pathogenesis in the rice blast fungus Magnaporthe grisea | Q38334367 | ||
| Genome plasticity in filamentous plant pathogens contributes to the emergence of novel effectors and their cellular processes in the host | Q38558096 | ||
| The Magnaporthe grisea species complex and plant pathogenesis. | Q38635240 | ||
| The rate of N-WASP exchange limits the extent of ARP2/3-complex-dependent actin-based motility | Q39877031 | ||
| The Putative Protein Phosphatase MoYvh1 Functions Upstream of MoPdeH to Regulate the Development and Pathogenicity in Magnaporthe oryzae | Q40700747 | ||
| Rab GTPases and tethering in the yeast endocytic pathway | Q41784228 | ||
| Tracing the endocytic pathway of Aspergillus nidulans with FM4-64. | Q42486550 | ||
| The basic leucine zipper transcription factor Moatf1 mediates oxidative stress responses and is necessary for full virulence of the rice blast fungus Magnaporthe oryzae | Q42976156 | ||
| Structure-function analyses of the Pth11 receptor reveal an important role for CFEM motif and redox regulation in rice blast | Q46453410 | ||
| Endocytosis is essential for pathogenic development in the corn smut fungus Ustilago maydis | Q48086500 | ||
| A mitogen-activated protein kinase cascade regulating infection-related morphogenesis in Magnaporthe grisea | Q48148021 | ||
| P275 | copyright license | Creative Commons Attribution 4.0 International | Q20007257 |
| P6216 | copyright status | copyrighted | Q50423863 |
| P4510 | describes a project that uses | ImageJ | Q1659584 |
| P433 | issue | 6 | |
| P921 | main subject | Magnaporthe oryzae | Q16661995 |
| P304 | page(s) | e1006449 | |
| P577 | publication date | 2017-06-19 | |
| P1433 | published in | PLOS Pathogens | Q283209 |
| P1476 | title | MoEnd3 regulates appressorium formation and virulence through mediating endocytosis in rice blast fungus Magnaporthe oryzae | |
| P478 | volume | 13 |
| Q42343941 | Correction: MoEnd3 regulates appressorium formation and virulence through mediating endocytosis in rice blast fungus Magnaporthe oryzae |
| Q93364532 | Current opinions on autophagy in pathogenicity of fungi |
| Q47687075 | Genome sequencing and comparative genomics reveal the potential pathogenic mechanism of Cercospora sojina Hara on soybean |
| Q91682201 | Histone acetyltransferase MoHat1 acetylates autophagy-related proteins MoAtg3 and MoAtg9 to orchestrate functional appressorium formation and pathogenicity in Magnaporthe oryzae |
| Q92446682 | In Silico Identification of Potential Inhibitor Against a Fungal Histone Deacetylase, RPD3 from Magnaporthe Oryzae |
| Q90629876 | Magnaporthe oryzae Auxiliary Activity Protein MoAa91 Functions as Chitin-Binding Protein To Induce Appressorium Formation on Artificial Inductive Surfaces and Suppress Plant Immunity |
| Q90356783 | Magnaporthe oryzae fimbrin organizes actin networks in the hyphal tip during polar growth and pathogenesis |
| Q88569420 | MoMip11, a MoRgs7-interacting protein, functions as a scaffolding protein to regulate cAMP signaling and pathogenicity in the rice blast fungus Magnaporthe oryzae |
| Q91673230 | MoPpe1 partners with MoSap1 to mediate TOR and cell wall integrity signalling in growth and pathogenicity of the rice blast fungus Magnaporthe oryzae |
| Q52570067 | MoYvh1 subverts rice defense through functions of ribosomal protein MoMrt4 in Magnaporthe oryzae. |
| Q50208060 | Rise of a Cereal Killer: The Biology of Magnaporthe oryzae Biotrophic Growth. |
| Q90730511 | System-Wide Characterization of MoArf GTPase Family Proteins and Adaptor Protein MoGga1 Involved in the Development and Pathogenicity of Magnaporthe oryzae |
| Q64106703 | The seven transmembrane domain protein MoRgs7 functions in surface perception and undergoes coronin MoCrn1-dependent endocytosis in complex with Gα subunit MoMagA to promote cAMP signaling and appressorium formation in Magnaporthe oryzae |
Search more.