Colocalization of sucrose synthase expression and sucrose storage in the sugarbeet taproot indicates a potential role for sucrose catabolism in sucrose accumulation

Colocalization of sucrose synthase expression and sucrose storage in the sugarbeet taproot indicates a potential role for sucrose catabolism in sucrose accumulation

Sucrose metabolism is believed to have a central role in promoting sink strength and sucrose storage in the sugarbeet taproot. How sucrose accumulation is increased by sucrose-degrading enzymes, however, is a paradox. To elucidate roles for sucrose-degrading activities in sucrose accumulation, relat...

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Bibliographic Details
Published in:Journal of plant physiology Vol. 240; p. 153016
Main Authors: Fugate, Karen K., Eide, John D., Martins, Daniel N., Grusak, Michael A., Deckard, Edward L., Finger, Fernando L.
Format: Journal Article
Language:English
Published: Germany Elsevier GmbH 01-09-2019
Elsevier Science Ltd
Subjects:
Accumulation
Acid invertase
Alkaline invertase
Beta vulgaris
Beta vulgaris - genetics
Beta vulgaris - metabolism
Beta vulgaris - ultrastructure
Bioaccumulation
Biosynthesis
Catabolism
Cell walls
Energy metabolism
Enzymes
Glucosyltransferases - genetics
Glucosyltransferases - metabolism
In situ hybridization
Localization
Microscopy, Electron, Transmission
Parenchyma
Plant Roots - metabolism
Plant Roots - ultrastructure
Storage
Substrates
Sucrose
Sucrose - metabolism
Sucrose synthase
Sugar
Sugar beets
Sugarbeet
Taproot
Tissues
Xylem
Alkaline invertase
SBSS1
SBSS2
Sucrose
Taproot
Sucrose synthase
Beta vulgaris
In situ hybridization
Sugarbeet
Acid invertase
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Summary:Sucrose metabolism is believed to have a central role in promoting sink strength and sucrose storage in the sugarbeet taproot. How sucrose accumulation is increased by sucrose-degrading enzymes, however, is a paradox. To elucidate roles for sucrose-degrading activities in sucrose accumulation, relationships between the intercellular location of sucrose-catabolizing enzymes and sites of sucrose accumulation were determined in the sugarbeet taproot. Sucrose storage was evident in parenchyma cells of the outer cortex, rays, and rings of parenchyma tissue, but was absent in phloem, the vascular cambium, cells surrounding these tissues, or cells surrounding xylem. Sucrose synthase, which was primarily responsible for sucrose catabolism throughout the taproot, was expressed in similar cell and tissue types to those accumulating sucrose. Colocalization of sucrose synthase with sucrose accumulation, as well as sucrose synthase localization near the tonoplast, suggests a role for the enzyme in generating metabolic energy to fuel sucrose sequestration in the vacuole. Localization near the plasma membrane also suggests a role for sucrose synthase in supplying substrates for cell wall biosynthesis. By utilizing sucrose for ATP or cell wall biosynthesis, sucrose synthase likely maintains the source-to-sink sucrose gradient that drives sucrose transport into the root, thereby promoting sugarbeet root sink strength.
Bibliography:ObjectType-Article-1
SourceType-Scholarly Journals-1
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content type line 23
ISSN:0176-1617
1618-1328
DOI:10.1016/j.jplph.2019.153016