Phloem unloading in sink leaves of Nicotiana benthamiana: comparison of a fluorescent virus

Phloem unloading in sink leaves of Nicotiana benthamiana: comparison of a fluorescent virus

Using noninvasive imaging techniques, we compared phloem unloading of the membrane-impermeant, fluorescent solute carboxyfluorescein (CF) with that of potato virus X expressing the gene for the green fluorescent protein. Although systemic virus transport took considerably longer to occur than did CF...

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Bibliographic Details
Published in:The Plant cell Vol. 9; no. 8
Main Authors: Roberts, A.G, Cruz, S.S, Roberts, I.M, Prior, D.A.M, Turgeon, R, Oparka, K.J
Format: Journal Article
Language:English
Published: 01-08-1997
Subjects:
ANIMAL PROTEINS
CARBOXYFLUORESCEIN
CELL TO CELL MOVEMENT
COLORANT
COLORANTES
DYES
FEUILLE
FISIOLOGIA VEGETAL
FLOEMA
FLUORESCENCE
FLUORESCENCIA
FLUORESCENT DYES
GREEN FLUORESCENT PROTEIN
HOJAS
INFECCION
INFECTION
INFECTIONS
LEAF VEINS
LEAVES
MESOFILO
MESOPHYLL
MESOPHYLLE
MINOR LEAF VEINS
NERVADURAS FOLIARES
NERVURE FOLIAIRE
NICOTIANA
PATHOGENESE
PATHOGENESIS
PATOGENESIS
PHLOEM
PHLOEME
PHYSIOLOGIE VEGETALE
PLANT PHYSIOLOGY
POTATO X POTEXVIRUS
POTEXVIRUS X DE LA PATATA
POTEXVIRUS X POMME DE TERRE
PROTEINAS
PROTEINAS RECOMBINANTES
PROTEINE
PROTEINE RECOMBINANTE
PROTEINS
RECOMBINANT PROTEINS
TRANSLOCATION
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Summary:Using noninvasive imaging techniques, we compared phloem unloading of the membrane-impermeant, fluorescent solute carboxyfluorescein (CF) with that of potato virus X expressing the gene for the green fluorescent protein. Although systemic virus transport took considerably longer to occur than did CF transport, unloading of both solute and virus occurred predominantly from the class III vein network, a highly branched veinal system found between class II veins. The minor veins (classes IV and V) played no role in solute or virus import but were shown to be functional in xylem transport at the time of import by labeling with Texas Red dextran. After virus exit from the class III phloem, the minor veins eventually became infected by cell-to-cell virus movement from the mesophyll. During the sink/source transition, phloem unloading of CF was inhibited from class III veins before the cessation of phloem import through them, suggesting a symplastic isolation of the phloem in class III veins before its involvement in export. The progression of the sink/source transition for carbon was unaffected by the presence of the virus in the sink leaf. However, the virus was unable to cross the sink/source boundary for carbon that was present at the time of viral entry, suggesting a limited capacity for cell-to-cell virus movement into the apical (source) region of the leaf. A functional model of the sink/source transition in Nicotiana benthamiana is presented. This model provides a framework for the analysis of solute and virus movement in leaves
Bibliography:F60
1997060360
H20
ISSN:1040-4651
1532-298X