| P2093 | author name string | William J Lucas | |
| | Jung-Youn Lee | |
| P2860 | cites work | The capacity of transgenic tobacco to send a systemic RNA silencing signal depends on the nature of the inducing transgene locus | Q73592334 |
| | Long-distance signaling and the control of branching in the rms1 mutant of pea | Q73877994 |
| | Possible involvement of the phloem lectin in long-distance viroid movement | Q74136147 |
| | Polypeptide hormones | Q74229526 |
| | Rice phloem thioredoxin h has the capacity to mediate its own cell-to-cell transport through plasmodesmata | Q74585060 |
| | Cell-to-cell and long-distance trafficking of the green fluorescent protein in the phloem and symplastic unloading of the protein into sink tissues | Q74595673 |
| | Localization of a centrin-like protein to higher plant plasmodesmata | Q77931674 |
| | Role of a positive regulator of root hair development, CAPRICE, in Arabidopsis root epidermal cell differentiation | Q78438189 |
| | Immunological evidence for the presence of plant homologues of the actin- related protein Arp3 in tobacco and maize: subcellular localization to actin-enriched pit fields and emerging root hairs | Q79088565 |
| | Systemic acquired resistance | Q79760362 |
| | Comparative ultrastructure of plasmodesmata of Chara and selected bryophytes: toward an elucidation of the evolutionary origin of plant plasmodesmata | Q84455549 |
| | Systemic acquired silencing: transgene-specific post-transcriptional silencing is transmitted by grafting from silenced stocks to non-silenced scions | Q24532567 |
| | Sink plasmodesmata as gateways for phloem unloading. Myosin VIII and calreticulin as molecular determinants of sink strength? | Q24679418 |
| | RNA interference | Q28131798 |
| | Phenotypic plasticity for plant development, function and life history | Q28140534 |
| | The cellular localization of prosystemin: a functional role for phloem parenchyma in systemic wound signaling | Q28208313 |
| | Two classes of short interfering RNA in RNA silencing | Q28219196 |
| | The control of single-celled cotton fiber elongation by developmentally reversible gating of plasmodesmata and coordinated expression of sucrose and K+ transporters and expansin | Q28346112 |
| | Peptide antagonists of the plasmodesmal macromolecular trafficking pathway | Q30880076 |
| | High-throughput viral expression of cDNA-green fluorescent protein fusions reveals novel subcellular addresses and identifies unique proteins that interact with plasmodesmata | Q30956700 |
| | Comparison of peptides in the phloem sap of flowering and non-flowering Perilla and lupine plants using microbore HPLC followed by matrix-assisted laser desorption/ionization time-of-flight mass spectrometry | Q31118451 |
| | The SHORT-ROOT gene controls radial patterning of the Arabidopsis root through radial signaling | Q33334673 |
| | Cell-cell signaling and movement by the floral transcription factors LEAFY and APETALA1. | Q33334818 |
| | Intercellular trafficking of a KNOTTED1 green fluorescent protein fusion in the leaf and shoot meristem of Arabidopsis | Q33336992 |
| | The shoot apical meristem of Sinapis alba L. expands its central symplasmic field during the floral transition | Q33337203 |
| | Plasmodesmata: pathways for protein and ribonucleoprotein signaling. | Q33337273 |
| | Double labeling of KNOTTED1 mRNA and protein reveals multiple potential sites of protein trafficking in the shoot apex | Q33337470 |
| | Shoot and floral meristem maintenance in arabidopsis | Q33337550 |
| | Long-distance signaling in nodulation directed by a CLAVATA1-like receptor kinase | Q33337853 |
| | Axillary meristem development. Budding relationships between networks controlling flowering, branching, and photoperiod responsiveness. | Q33338186 |
| | Modes of intercellular transcription factor movement in the Arabidopsis apex | Q33338510 |
| | Developmental regulation and significance of KNOX protein trafficking in Arabidopsis | Q33338605 |
| | LEAFY controls floral meristem identity in Arabidopsis | Q33338883 |
| | The SCARECROW gene regulates an asymmetric cell division that is essential for generating the radial organization of the Arabidopsis root. | Q33367745 |
| | Short-range control of cell differentiation in the Arabidopsis root meristem | Q33368367 |
| | Systemic spread of sequence-specific transgene RNA degradation in plants is initiated by localized introduction of ectopic promoterless DNA. | Q33368863 |
| | Phloem sap proteins from Cucurbita maxima and Ricinus communis have the capacity to traffic cell to cell through plasmodesmata | Q33750570 |
| | Parallels between nuclear-pore and plasmodesmal trafficking of information molecules | Q33831837 |
| | Characterization of cucurbita maxima phloem serpin-1 (CmPS-1). A developmentally regulated elastase inhibitor. | Q33915323 |
| | Plasmodesmata: gatekeepers for cell-to-cell transport of developmental signals in plants | Q33921414 |
| | Leaf-to-shoot apex movement of symplastic tracer is restricted coincident with flowering in Arabidopsis | Q34010766 |
| | Distinct roles for jasmonate synthesis and action in the systemic wound response of tomato | Q34029515 |
| | The systemin receptor SR160 from Lycopersicon peruvianum is a member of the LRR receptor kinase family | Q34036206 |
| | Plasmodesmata and plant cytoskeleton | Q34082749 |
| | Root development | Q34096376 |
| | Phosphorylation of viral movement proteins--regulation of cell-to-cell trafficking | Q34134494 |
| | RNA traffics information systemically in plants | Q34153672 |
| | High molecular weight RNAs and small interfering RNAs induce systemic posttranscriptional gene silencing in plants | Q34154898 |
| | The phloem as a conduit for inter-organ communication | Q34225180 |
| | A subclass of plant heat shock cognate 70 chaperones carries a motif that facilitates trafficking through plasmodesmata. | Q34416447 |
| | RNA as a long-distance information macromolecule in plants | Q34443618 |
| | Primary and secondary plasmodesmata: structure, origin, and functioning | Q34455856 |
| | Signaling in plants by intercellular RNA and protein movement | Q34499605 |
| | Chemical communication among bacteria. | Q34583164 |
| | RNA silencing and the mobile silencing signal. | Q34667564 |
| | Regulation of symbiotic root nodule development | Q34756580 |
| | Plasmodesmata: dynamic regulation and role in macromolecular cell-to-cell signaling | Q34977167 |
| | Sieve tube unloading and post-phloem transport of fluorescent tracers and proteins injected into sieve tubes via severed aphid stylets. | Q52578968 |
| | Plasmodesmata and the supracellular nature of plants | Q56519644 |
| | Plasmodesmata and the control of symplastic transport | Q56519647 |
| | Immunolocalisation of the cytoskeleton to plasmodesmata of Chara corallina | Q56519650 |
| | Nontranslatability and dissimilar behavior in plants and protoplasts of viral RNA and movement protein complexes formed in vitro | Q73286359 |
| | Plant genetics: a decade of integration | Q35074881 |
| | In defense against pathogens. Both plant sentinels and foot soldiers need to know the enemy. | Q35106012 |
| | Regulation of plasmodesmal transport by phosphorylation of tobacco mosaic virus cell-to-cell movement protein | Q35124224 |
| | Long distance run in the wound response--jasmonic acid is pulling ahead | Q35159194 |
| | The F-box-containing protein UFO and AGAMOUS participate in antagonistic pathways governing early petal development in Arabidopsis | Q35168688 |
| | The nuclear pore complex: nucleocytoplasmic transport and beyond | Q35564601 |
| | Gap junctions - from cell to molecule | Q35566950 |
| | Symplasmic protein and RNA traffic: regulatory points and regulatory factors | Q35581444 |
| | LRR-containing receptors regulating plant development and defense. | Q35618866 |
| | Cell-to-cell transport of proteins and fluorescent tracers via plasmodesmata during plant development | Q35634206 |
| | THE GREAT ESCAPE: Phloem Transport and Unloading of Macromolecules1. | Q35687122 |
| | Plant virus movement proteins | Q36025460 |
| | TRIPTYCHON and CAPRICE mediate lateral inhibition during trichome and root hair patterning in Arabidopsis | Q39658942 |
| | Selective trafficking of non-cell-autonomous proteins mediated by NtNCAPP1. | Q40676846 |
| | Morphogenesis on the move: cell-to-cell trafficking of plant regulatory proteins | Q41600976 |
| | Proteolytic processing of CmPP36, a protein from the cytochrome b(5) reductase family, is required for entry into the phloem translocation pathway | Q42639954 |
| | Non-targeted and targeted protein movement through plasmodesmata in leaves in different developmental and physiological states | Q43495481 |
| | A surveillance system regulates selective entry of RNA into the shoot apex. | Q43584597 |
| | Analysis of the complexity of protein kinases within the phloem sieve tube system. Characterization of Cucurbita maxima calmodulin-like domain protein kinase 1. | Q43888105 |
| | Tangerine dreams: cloning of carotenoid isomerase from Arabidopsis and tomato | Q43909598 |
| | The tomato mutant spr1 is defective in systemin perception and the production of a systemic wound signal for defense gene expression | Q44311772 |
| | Enzymes of jasmonate biosynthesis occur in tomato sieve elements | Q44491413 |
| | Developmental changes due to long-distance movement of a homeobox fusion transcript in tomato. | Q44585643 |
| | Nodule initiation involves the creation of a new symplasmic field in specific root cells of medicago species | Q44654421 |
| | Engineering photoassimilate partitioning in tobacco plants improves growth and productivity and provides pathogen resistance | Q44655500 |
| | Plasmodesma-mediated selective protein traffic between "symplasmically isolated" cells probed by a viral movement protein | Q44804762 |
| | Movement protein of tobacco mosaic virus modifies plasmodesmatal size exclusion limit | Q45418642 |
| | Cell-to-Cell Trafficking of Macromolecules through Plasmodesmata Potentiated by the Red Clover Necrotic Mosaic Virus Movement Protein | Q45730741 |
| | Functional analysis of a DNA-shuffled movement protein reveals that microtubules are dispensable for the cell-to-cell movement of tobacco mosaic virus. | Q45731981 |
| | Function of microtubules in intercellular transport of plant virus RNA. | Q45739955 |
| | Phosphorylation of tobacco mosaic virus movement protein abolishes its translation repressing ability. | Q45747872 |
| | Initiation and maintenance of virus-induced gene silencing | Q45755429 |
| | Two proteins of a plant DNA virus coordinate nuclear and plasmodesmal transport | Q45779386 |
| | A gene fusion at a homeobox locus: alterations in leaf shape and implications for morphological evolution. | Q46296645 |
| | Dual genetic pathways controlling nodule number in Medicago truncatula | Q46390771 |
| | Plasmodesmata: the intercellular organelles of green plants | Q46475079 |
| | Subcellular localization determines the availability of non-targeted proteins to plasmodesmatal transport | Q46558608 |
| | Determination and Cell Interactions in Reproductive Meristems | Q46729847 |
| | Selective trafficking of KNOTTED1 homeodomain protein and its mRNA through plasmodesmata | Q46742343 |
| | Plant paralog to viral movement protein that potentiates transport of mRNA into the phloem | Q46861750 |
| | Can transcription factors function as cell–cell signalling molecules? | Q47432295 |
| | Localization of a myosin-like protein to plasmodesmata | Q47779597 |
| | Intercellular movement of the putative transcription factor SHR in root patterning. | Q47849182 |
| | Epidermal cell differentiation in Arabidopsis determined by a Myb homolog, CPC. | Q48045841 |
| | Cell pattern in the Arabidopsis root epidermis determined by lateral inhibition with feedback. | Q52122289 |
| | Simple, but not branched, plasmodesmata allow the nonspecific trafficking of proteins in developing tobacco leaves. | Q52176267 |
| P433 | issue | 9 | |
| P304 | page(s) | 712-726 | |
| P577 | publication date | 2004-09-01 | |
| P1433 | published in | Nature Reviews Molecular Cell Biology | Q1573120 |
| P1476 | title | Plasmodesmata as a supracellular control network in plants | |
| P478 | volume | 5 | |