about
Peeking into pit fields: a multiple twinning model of secondary plasmodesmata formation in tobaccoArabidopsis plasmodesmal proteomeThe plasmodesmal protein PDLP1 localises to haustoria-associated membranes during downy mildew infection and regulates callose depositionThe photoreversible fluorescent protein iLOV outperforms GFP as a reporter of plant virus infectionProteomic identification of putative plasmodesmatal proteins from Chara corallina.The phytocalpain defective kernel 1 is a novel Arabidopsis growth regulator whose activity is regulated by proteolytic processing.Opportunities and successes in the search for plasmodesmal proteins.High resolution scanning electron microscopy of plasmodesmata.Reflection across plant cell boundaries in confocal laser scanning microscopy.LYM2-dependent chitin perception limits molecular flux via plasmodesmata.Receptor-mediated signaling at plasmodesmata.Plasmodesmata: gateways to local and systemic virus infection.Plasmodesmata - membrane tunnels with attitude.Plants and pathogens: putting infection strategies and defence mechanisms on the map.A cellular backline: specialization of host membranes for defence.Receptor Complex Mediated Regulation of Symplastic Traffic.Plasmodesmata "in Communicado".A calmodulin-like protein regulates plasmodesmal closure during bacterial immune responses.New Gateway-compatible vectors for a high-throughput protein-protein interaction analysis by a bimolecular fluorescence complementation (BiFC) assay in plants and their application to a plant clathrin structure analysis.CalloseMeasurer: a novel software solution to measure callose deposition and recognise spreading callose patterns.Separation of early and late responses to herbivory in Arabidopsis by changing plasmodesmal function.Evidence for unidirectional flow through plasmodesmata.Anti-tropomyosin antibodies co-localise with actin microfilaments and label plasmodesmata.High-throughput imaging of plant immune responses.A developmental framework for complex plasmodesmata formation revealed by large-scale imaging of the Arabidopsis leaf epidermis.Plasmodesmal regulation during plant-pathogen interactions.The GRV2/RME-8 protein of Arabidopsis functions in the late endocytic pathway and is required for vacuolar membrane flow.A virus-targeted plant receptor-like kinase promotes cell-to-cell spread of RNAi.Symplastic intercellular connectivity regulates lateral root patterning.Isolation of Plasmodesmata.An automated quantitative image analysis tool for the identification of microtubule patterns in plants.Spatio-temporal cellular dynamics of the Arabidopsis flagellin receptor reveal activation status-dependent endosomal sortingPlasmodesmata 2004. Surfing the symplasmAnion channel SLAH3 is a regulatory target of chitin receptor-associated kinase PBL27 in microbial stomatal closureChitin perception in plasmodesmata characterizes submembrane immune-signaling specificity in plants
P50
Q24654822-E60316F8-300A-42DD-B149-EC26BA36E5C3Q28477834-C7FC9FAC-8D06-415F-94FB-2DEC7A434D96Q28544945-77F3C1D4-30D3-4119-ABDF-FA7365CCD4DFQ30485090-EABD4C97-9719-405B-9662-D4AA3B382A23Q33220913-81EC0612-C7C4-4548-B119-79241F76BB69Q33346214-33A2CFD0-AA27-456C-9A72-D216109DECFDQ33349890-73D430F7-92C6-4BBC-9DBF-21E7DF180150Q33351335-6A4709CE-9B6A-4901-9111-D589EFD7F8DFQ33367776-44E5FA94-2D73-4C88-8FF6-D9B0D2C7136EQ36895663-CF71BCF1-A091-4247-9241-F37EF1441E73Q37400014-5FDF4B09-736B-4E5C-A034-DE6201540D61Q37778067-B6ED4160-70D7-4515-9C8C-3DC25700A32EQ37912664-AAC24A27-64D0-4140-A851-696DFA69FAEEQ38043733-B4D887B7-9E23-48E6-A19F-2A9D2470699DQ38365329-80332E3F-39FC-4261-9498-4D88CB51526CQ38665823-1BC1C892-10B0-41D0-B0E4-E8D075388DF6Q39611338-A1F809EC-BCA8-4877-B793-B55BD18D5214Q40209316-FBEC7C0B-4DA6-4B69-852A-00F2DA6A092FQ40716599-50D79BBD-E1C2-428B-9924-E3E95719D9F1Q41864256-CF0639CB-0781-452E-A571-9566AB5C3D9FQ42012472-7FF8658F-D30C-44B2-9A49-8827866EF3A4Q42450576-79453939-EA37-4066-A1CC-9A46B22FC555Q43782449-2AC1EFD3-11F9-41EB-B496-E9ED3D7B104EQ44135422-CE7F8730-593D-4102-B5F8-44572807782CQ44253635-A661550D-95EC-416D-8A38-2526B6EBE624Q46272458-B64DD928-18C5-4956-80B0-9856C308D16BQ46923402-9082D2CB-9582-40E1-A47D-87C9D9C84701Q47549399-B54C145E-0D7A-43F2-B0A0-9CD10AB515E6Q48015763-E964491E-2E06-408F-BCBD-8A42EFFB1799Q50751070-8EE13981-1FAE-4C7C-B52A-D5B57BAF6724Q52563248-1BAD2064-AD96-426F-96B9-FAA4185E05D6Q59463289-DFCA4BF3-7153-49C8-9022-7528D4EB0DEAQ59463407-A0785AC6-179C-49E4-9ABC-6EC1522D8B20Q83228131-190318B1-B702-4E8F-A4B4-AFA879A8735AQ91873601-A4CA4FE5-2B86-4E84-8283-68E8CAD767B0
P50
description
hulumtuese
@sq
researcher
@en
wetenschapper
@nl
հետազոտող
@hy
name
Christine Faulkner
@ast
Christine Faulkner
@en
Christine Faulkner
@es
Christine Faulkner
@nl
Christine Faulkner
@sl
type
label
Christine Faulkner
@ast
Christine Faulkner
@en
Christine Faulkner
@es
Christine Faulkner
@nl
Christine Faulkner
@sl
prefLabel
Christine Faulkner
@ast
Christine Faulkner
@en
Christine Faulkner
@es
Christine Faulkner
@nl
Christine Faulkner
@sl
P1053
K-4165-2015
P106
P21
P31
P3829
P496
0000-0003-3905-8077