The plasmodesmatal transport pathway for homeotic proteins, silencing signals and viruses

Non-cell-autonomous signals in the form of microRNAs and transcription factors could have important developmental functions. Plasmodesmata (PD) form a cytoplasmic network throughout the plant body and provide the means of symplasmic cell-to-cell transport in plants. Homeodomain transcription factors...

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Veröffentlicht in:	Current opinion in plant biology 2004-12, Vol.7 (6), p.641-650
Hauptverfasser:	Ruiz-Medrano, Roberto, Xoconostle-Cazares, Beatriz, Kragler, Friedrich
Format:	Artikel
Sprache:	eng
Schlagworte:	Animals Biological Transport cell communication gene expression regulation gene silencing Homeodomain Proteins - metabolism literature reviews microRNA Models, Biological plant diseases and disorders plant viruses plants Plants - metabolism plasmodesmata Plasmodesmata - metabolism RNA RNA Interference RNA, Plant - metabolism RNA-Binding Proteins - metabolism Signal Transduction silencing-induced RNA transcription factors
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container_title	Current opinion in plant biology
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creator	Ruiz-Medrano, Roberto Xoconostle-Cazares, Beatriz Kragler, Friedrich
description	Non-cell-autonomous signals in the form of microRNAs and transcription factors could have important developmental functions. Plasmodesmata (PD) form a cytoplasmic network throughout the plant body and provide the means of symplasmic cell-to-cell transport in plants. Homeodomain transcription factors, small RNA molecules and viral genomic information move selectively to adjacent cells via PD microchannels. Tissue-specific expression studies of non-cell-autonomous transcription factors and RNA molecules have confirmed that their intercellular transport is a highly regulated process, which depends on the tissue, developmental stage and nature of the transported macromolecule. We have known for some time that gene-silencing signals spread both locally from cell to cell and across long distances following the source to sink transition. Recent work has provided evidence that small single-stranded silencing-induced RNAs and microRNA molecules are present in the phloem transport system of different plant species. Further, recent evidence has confirmed that the transport of silencing RNA via PD is a regulated and active process, and that an amplification–relay mechanism is in place for the long-distance spread of silencing signals.
doi_str_mv	10.1016/j.pbi.2004.09.012
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Plasmodesmata (PD) form a cytoplasmic network throughout the plant body and provide the means of symplasmic cell-to-cell transport in plants. Homeodomain transcription factors, small RNA molecules and viral genomic information move selectively to adjacent cells via PD microchannels. Tissue-specific expression studies of non-cell-autonomous transcription factors and RNA molecules have confirmed that their intercellular transport is a highly regulated process, which depends on the tissue, developmental stage and nature of the transported macromolecule. We have known for some time that gene-silencing signals spread both locally from cell to cell and across long distances following the source to sink transition. Recent work has provided evidence that small single-stranded silencing-induced RNAs and microRNA molecules are present in the phloem transport system of different plant species. 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Plasmodesmata (PD) form a cytoplasmic network throughout the plant body and provide the means of symplasmic cell-to-cell transport in plants. Homeodomain transcription factors, small RNA molecules and viral genomic information move selectively to adjacent cells via PD microchannels. Tissue-specific expression studies of non-cell-autonomous transcription factors and RNA molecules have confirmed that their intercellular transport is a highly regulated process, which depends on the tissue, developmental stage and nature of the transported macromolecule. We have known for some time that gene-silencing signals spread both locally from cell to cell and across long distances following the source to sink transition. Recent work has provided evidence that small single-stranded silencing-induced RNAs and microRNA molecules are present in the phloem transport system of different plant species. 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source	MEDLINE; ScienceDirect Journals (5 years ago - present)
subjects	Animals Biological Transport cell communication gene expression regulation gene silencing Homeodomain Proteins - metabolism literature reviews microRNA Models, Biological plant diseases and disorders plant viruses plants Plants - metabolism plasmodesmata Plasmodesmata - metabolism RNA RNA Interference RNA, Plant - metabolism RNA-Binding Proteins - metabolism Signal Transduction silencing-induced RNA transcription factors
title	The plasmodesmatal transport pathway for homeotic proteins, silencing signals and viruses
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