| P50 | author | Daphne Goring | Q59704135 |
| | Yara Zayed | Q96050944 |
| P2093 | author name string | Abdalla Ahmed | |
| | Emily Indriolo | |
| | Darya Safavian | |
| | Laura Chapman | |
| P2860 | cites work | Self/non-self recognition mechanisms in sexual reproduction: New insight into the self-incompatibility system shared by flowering plants and hermaphroditic animals | Q22337345 |
| | The deubiquitylase USP33 discriminates between RALB functions in autophagy and innate immune response | Q24337002 |
| | RalB and the exocyst mediate the cellular starvation response by direct activation of autophagosome assembly | Q24337344 |
| | The Exocyst is a multiprotein complex required for exocytosis in Saccharomyces cerevisiae | Q24561799 |
| | Exorcising the exocyst complex | Q26824772 |
| | Male-female crosstalk during pollen germination, tube growth and guidance, and double fertilization | Q26829569 |
| | The exocyst at the interface between cytoskeleton and membranes in eukaryotic cells | Q26859795 |
| | Floral dip: a simplified method for Agrobacterium-mediated transformation of Arabidopsis thaliana | Q27860555 |
| | Identification of 23 complementation groups required for post-translational events in the yeast secretory pathway | Q27931724 |
| | Exo84p is an exocyst protein essential for secretion | Q27932396 |
| | The exocyst complex is required for targeting of Glut4 to the plasma membrane by insulin | Q28190100 |
| | The exocyst complex associates with microtubules to mediate vesicle targeting and neurite outgrowth | Q28365291 |
| | Dissecting a hidden gene duplication: the Arabidopsis thaliana SEC10 locus | Q28660173 |
| | The exocyst subunit Exo70B1 is involved in the immune response of Arabidopsis thaliana to different pathogens and cell death | Q30317571 |
| | The ubiquitin ligase PUB22 targets a subunit of the exocyst complex required for PAMP-triggered responses in Arabidopsis | Q30317952 |
| | Electron tomographic analysis of somatic cell plate formation in meristematic cells of Arabidopsis preserved by high-pressure freezing. | Q33339822 |
| | Early flower development in Arabidopsis | Q33351057 |
| | Electron tomographic analysis of post-meiotic cytokinesis during pollen development in Arabidopsis thaliana | Q58478797 |
| | Identification of genes required for pollen-stigma recognition in Arabidopsis thaliana | Q61730622 |
| | Organization of stigma surface components in Brassica: a cytochemical study | Q70020031 |
| | Pollen-stigma interaction in Brassica oleracea: the role of stigmatic proteins in pollen grain adhesion | Q72144873 |
| | Alterations in CER6, a gene identical to CUT1, differentially affect long-chain lipid content on the surface of pollen and stems | Q73102589 |
| | Pollen-stigma adhesion in Arabidopsis: a species-specific interaction mediated by lipophilic molecules in the pollen exine | Q73168266 |
| | Gene families from the Arabidopsis thaliana pollen coat proteome | Q74115284 |
| | Pollen-stigma adhesion in Brassica spp involves SLG and SLR1 glycoproteins | Q77933605 |
| | SEC8, a subunit of the putative Arabidopsis exocyst complex, facilitates pollen germination and competitive pollen tube growth | Q80925199 |
| | The Botany Array Resource: e-Northerns, Expression Angling, and promoter analyses | Q81859888 |
| | Arabidopsis exocyst subunits SEC8 and EXO70A1 and exocyst interactor ROH1 are involved in the localized deposition of seed coat pectin | Q84553651 |
| | The exocyst complex contributes to PIN auxin efflux carrier recycling and polar auxin transport in Arabidopsis | Q85482586 |
| | Identification of pollen components regulating pollination-specific responses in the stigmatic papillae of Brassica oleracea | Q88432200 |
| | Pollen-stigma interaction in Brassica. III. Hydration of the pollen grains | Q93648863 |
| | Developmentally distinct activities of the exocyst enable rapid cell elongation and determine meristem size during primary root growth in Arabidopsis | Q33359799 |
| | Complex sexual signals for the male gametophyte | Q33745363 |
| | AtEXO70A1, a member of a family of putative exocyst subunits specifically expanded in land plants, is important for polar growth and plant development. | Q33835182 |
| | RhoGTPase-binding proteins, the exocyst complex and polarized vesicle trafficking | Q33967748 |
| | Construct design for efficient, effective and high-throughput gene silencing in plants. | Q34092911 |
| | The exocyst complex in exocytosis and cell migration | Q34224053 |
| | Tethering the assembly of SNARE complexes | Q34377311 |
| | The role for the exocyst complex subunits Exo70B2 and Exo70H1 in the plant-pathogen interaction | Q34697563 |
| | Secretory activity is rapidly induced in stigmatic papillae by compatible pollen, but inhibited for self-incompatible pollen in the Brassicaceae | Q35080899 |
| | Isolation and characterization of pollen coat proteins of Brassica campestris that interact with S locus-related glycoprotein 1 involved in pollen-stigma adhesion. | Q35122586 |
| | PaxDb, a database of protein abundance averages across all three domains of life | Q36144185 |
| | Visualization of the exocyst complex dynamics at the plasma membrane of Arabidopsis thaliana. | Q36608409 |
| | Diverse cell signalling pathways regulate pollen-stigma interactions: the search for consensus | Q37351888 |
| | Sec3p is involved in secretion and morphogenesis in Saccharomyces cerevisiae | Q37385566 |
| | Tethering factors as organizers of intracellular vesicular traffic | Q37540143 |
| | Pollen-pistil interactions regulating successful fertilization in the Brassicaceae. | Q37698008 |
| | Self/non-self discrimination in angiosperm self-incompatibility | Q37941922 |
| | Calcium entry into pollen tubes. | Q37959131 |
| | Speed dating, rejection, and finding the perfect mate: advice from flowering plants | Q38136040 |
| | Exocyst complexes multiple functions in plant cells secretory pathways. | Q38163647 |
| | The mechanism and key molecules involved in pollen tube guidance | Q38332656 |
| | Evolution of the land plant exocyst complexes | Q42053385 |
| | The Arabidopsis exocyst subunit SEC3A is essential for embryo development and accumulates in transient puncta at the plasma membrane. | Q44474951 |
| | A conditional sterile mutation eliminates surface components from Arabidopsis pollen and disrupts cell signaling during fertilization. | Q45979057 |
| | High humidity partially rescues the Arabidopsis thaliana exo70A1 stigmatic defect for accepting compatible pollen. | Q46873292 |
| | The ARC1 E3 Ligase Promotes Two Different Self-Pollen Avoidance Traits in Arabidopsis | Q46903662 |
| | PCP-A1, a defensin-like Brassica pollen coat protein that binds the S locus glycoprotein, is the product of gametophytic gene expression | Q47674096 |
| | Arabidopsis exocyst subcomplex containing subunit EXO70B1 is involved in autophagy-related transport to the vacuole. | Q47780667 |
| | Cellular pathways regulating responses to compatible and self-incompatible pollen in Brassica and Arabidopsis stigmas intersect at Exo70A1, a putative component of the exocyst complex. | Q48067705 |
| | An exocyst complex functions in plant cell growth in Arabidopsis and tobacco. | Q50459026 |
| | A pollen coat-inducible autoinhibited Ca2+-ATPase expressed in stigmatic papilla cells is required for compatible pollination in the Brassicaceae. | Q50460637 |
| | The Arabidopsis Exocyst Complex Is Involved in Cytokinesis and Cell Plate Maturation | Q50540459 |
| | Genetic transformation of Arabidopsis lyrata: specific expression of the green fluorescent protein (GFP) in pistil tissues. | Q50702521 |
| | Ca2+ dynamics in a pollen grain and papilla cell during pollination of Arabidopsis. | Q50789282 |
| | EXO70A1-mediated vesicle trafficking is critical for tracheary element development in Arabidopsis. | Q50958731 |
| | Regulation of cytokinesis by exocyst subunit SEC6 and KEULE in Arabidopsis thaliana. | Q50965637 |
| | Pollen-Stigma Adhesion in Kale Is Not Dependent on the Self-(In)Compatibility Genotype. | Q52114926 |
| | The roothairless1 gene of maize encodes a homolog of sec3, which is involved in polar exocytosis. | Q53669038 |
| | The ARC1 E3 ligase gene is frequently deleted in self-compatible Brassicaceae species and has a conserved role in Arabidopsis lyrata self-pollen rejection. | Q54468186 |
| | Characterization of the Arabidopsis thaliana exocyst complex gene families by phylogenetic, expression profiling, and subcellular localization studies | Q57936684 |
| | Plant Cytokinesis Is Orchestrated by the Sequential Action of the TRAPPII and Exocyst Tethering Complexes | Q58001228 |
| P433 | issue | 4 | |
| P407 | language of work or name | English | Q1860 |
| P921 | main subject | pollen | Q79932 |
| P1104 | number of pages | 13 | |
| P304 | page(s) | 2526-2538 | |
| P577 | publication date | 2015-10-06 | |
| P1433 | published in | Plant Physiology | Q3906288 |
| P1476 | title | RNA Silencing of Exocyst Genes in the Stigma Impairs the Acceptance of Compatible Pollen in Arabidopsis | |
| P478 | volume | 169 | |