| scholarly article | Q13442814 |
| P2093 | author name string | Jeanmarie Verchot-Lubicz | |
| P2860 | cites work | Class-specific interaction of profilin and ADF isovariants with actin in the regulation of plant development | Q47746434 |
| Localization of a myosin-like protein to plasmodesmata | Q47779597 | ||
| Tobacco WLIM1 is a novel F-actin binding protein involved in actin cytoskeleton remodeling. | Q48085379 | ||
| Cell-to-cell movement of the PVX 12K, 8K, or coat proteins may depend on the host, leaf developmental stage, and the PVX 25K protein. | Q52114408 | ||
| Effects of myosin ATPase inhibitor 2,3-butanedione 2-monoxime on distributions of myosins, F-actin, microtubules, and cortical endoplasmic reticulum in maize root apices. | Q52166251 | ||
| Simple, but not branched, plasmodesmata allow the nonspecific trafficking of proteins in developing tobacco leaves. | Q52176267 | ||
| Developmental regulation of intercellular protein trafficking through plasmodesmata in tobacco leaf epidermis | Q52183469 | ||
| Intercellular protein trafficking through plasmodesmata. | Q52184560 | ||
| CELL-TO-CELL COMMUNICATION VIA PLANT ENDOMEMBRANES | Q56519649 | ||
| Profilin plays a role in cell elongation, cell shape maintenance, and flowering in Arabidopsis | Q73294999 | ||
| In situ localization of the putative movement protein (pr17) from potato leafroll luteovirus (PLRV) in infected and transgenic potato plants | Q73661462 | ||
| The endomembrane sheath: a key structure for understanding the plant cell? | Q74477205 | ||
| Mastoparan-Induced Intracellular Ca2+ Fluxes May Regulate Cell-to-Cell Communication in Plants | Q74776468 | ||
| Endoplasmic Reticulum Forms a Dynamic Continuum for Lipid Diffusion between Contiguous Soybean Root Cells | Q77070831 | ||
| Dynamic changes in the frequency and architecture of plasmodesmata during the sink-source transition in tobacco leaves | Q77319138 | ||
| Quantification of symplastic continuity as visualised by plasmodesmograms: diagnostic value for phloem-loading pathways | Q86623497 | ||
| Plasmodesmata signaling: many roles, sophisticated statutes | Q28145473 | ||
| Plant viral movement proteins: agents for cell-to-cell trafficking of viral genomes | Q28287724 | ||
| Phloem long-distance transport of CmNACP mRNA: implications for supracellular regulation in plants | Q33333996 | ||
| Maize calreticulin localizes preferentially to plasmodesmata in root apex | Q33334004 | ||
| Myosin, microtubules, and microfilaments: co-operation between cytoskeletal components during cambial cell division and secondary vascular differentiation in trees | Q33337059 | ||
| Tobacco mosaic virus: a pioneer of cell-to-cell movement | Q33599698 | ||
| Plasmodesmata: gatekeepers for cell-to-cell transport of developmental signals in plants | Q33921414 | ||
| Unconventional myosins of the plant-specific class VIII: endocytosis, cytokinesis, plasmodesmata/pit-fields, and cell-to-cell coupling | Q35101786 | ||
| Phase change and the regulation of developmental timing in plants. | Q35180356 | ||
| Symplasmic protein and RNA traffic: regulatory points and regulatory factors | Q35581444 | ||
| TRANSPORT OF PROTEINS AND NUCLEIC ACIDS THROUGH PLASMODESMATA. | Q35687199 | ||
| Getting connected: actin-based cell-to-cell channels in plants and animals | Q35861616 | ||
| Plasmodesmata as a supracellular control network in plants | Q35876004 | ||
| Plasmodesmata form and function | Q35885616 | ||
| A new cell-to-cell transport model for Potexviruses | Q36097166 | ||
| Distribution of tobamovirus movement protein in infected cells and implications for cell-to-cell spread of infection | Q38350895 | ||
| Plasmodesmata: composition, structure and trafficking | Q39370915 | ||
| Selective trafficking of non-cell-autonomous proteins mediated by NtNCAPP1. | Q40676846 | ||
| Development of a quantitative tool for measuring changes in the coefficient of conductivity of plasmodesmata induced by developmental, biotic, and abiotic signals | Q43410733 | ||
| Non-targeted and targeted protein movement through plasmodesmata in leaves in different developmental and physiological states | Q43495481 | ||
| Microinjection reveals cell-to-cell movement of green fluorescent protein in cells of maize coleoptiles | Q43603275 | ||
| Identification of a developmental transition in plasmodesmatal function during embryogenesis in Arabidopsis thaliana. | Q43903115 | ||
| Actin-related defense mechanism to reject penetration attempt by a non-pathogen is maintained in tobacco BY-2 cells | Q44427712 | ||
| Loss of actin cytoskeletal function and EDS1 activity, in combination, severely compromises non-host resistance in Arabidopsis against wheat powdery mildew | Q44471209 | ||
| Insertion and topology of a plant viral movement protein in the endoplasmic reticulum membrane | Q44697619 | ||
| Tobamovirus and dianthovirus movement proteins are functionally homologous. | Q44862337 | ||
| Effects of calreticulin on viral cell-to-cell movement. | Q45058198 | ||
| Plasmodesmata transport of GFP alone or fused to potato virus X TGBp1 is diffusion driven. | Q45391549 | ||
| Tobacco mosaic virus (TMV) replicase and movement protein function synergistically in facilitating TMV spread by lateral diffusion in the plasmodesmal desmotubule of Nicotiana benthamiana | Q45397302 | ||
| The potato virus X TGBp2 movement protein associates with endoplasmic reticulum-derived vesicles during virus infection | Q45428937 | ||
| The tobacco mosaic virus 126-kilodalton protein, a constituent of the virus replication complex, alone or within the complex aligns with and traffics along microfilaments. | Q45432876 | ||
| Cell-to-cell movement of the 25K protein of potato virus X is regulated by three other viral proteins | Q45742191 | ||
| Visualization and characterization of tobacco mosaic virus movement protein binding to single-stranded nucleic acids | Q45872840 | ||
| Subcellular localization determines the availability of non-targeted proteins to plasmodesmatal transport | Q46558608 | ||
| Restoration of DWF4 expression to the leaf margin of a dwf4 mutant is sufficient to restore leaf shape but not size: the role of the margin in leaf development | Q46972760 | ||
| The actin-interacting protein AIP1 is essential for actin organization and plant development. | Q47248521 | ||
| The evolution of new structures: clues from plant cytoskeletal genes | Q47712278 | ||
| P433 | issue | 10 | |
| P921 | main subject | Leaf expansion | Q24897173 |
| P304 | page(s) | 902-905 | |
| P577 | publication date | 2008-10-01 | |
| P1433 | published in | Plant Signaling and Behavior | Q15757476 |
| P1476 | title | Plasmodesmata transport of GFP and GFP fusions requires little energy and transitions during leaf expansion | |
| P478 | volume | 3 |
| Q91595057 | Blast resistance gene Pi54 over-expressed in rice to understand its cellular and sub-cellular localization and response to different pathogens | cites work | P2860 |
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