1989
DOI: 10.1104/pp.90.2.530
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Vacuolar Acid Hydrolysis as a Physiological Mechanism for Sucrose Breakdown

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Cited by 50 publications
(39 citation statements)
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“…2; 2013 (Echeverria & Burns, 1989). It was also possible that acids were used for alcoholic fermentation in harvested citrus (Echeverria & Burns, 1989). The results showed that the decreases in TA and citric acid content were faster during storage on-tree than at 25°C.…”
Section: Changes In Ta Juice Ph and Organic Acids Contentsmentioning
confidence: 59%
See 1 more Smart Citation
“…2; 2013 (Echeverria & Burns, 1989). It was also possible that acids were used for alcoholic fermentation in harvested citrus (Echeverria & Burns, 1989). The results showed that the decreases in TA and citric acid content were faster during storage on-tree than at 25°C.…”
Section: Changes In Ta Juice Ph and Organic Acids Contentsmentioning
confidence: 59%
“…5, No. 2; 2013 (Echeverria & Burns, 1989). It was also possible that acids were used for alcoholic fermentation in harvested citrus (Echeverria & Burns, 1989).…”
Section: Changes In Ta Juice Ph and Organic Acids Contentsmentioning
confidence: 99%
“…Second, even if sucrose were hydrolyzed and rapidly resynthesized during transport, percentages of "'C-hexoses indicate that the process occurs to approximately the same degree throughout the vascular, nonvascular, and sink tissues examined. In addition, activities of acid invertases in these tissues drop to barely detectable levels at this stage of development (23), and pH along the transport path is not likely to be low enough for rapid action of the nonenzymatic sucrose hydrolysis reported in acid limes (5). The suggestion that sucrose hydrolysis in this system is more closely related to storage than transport is also supported by the observation that instances of most pronounced formation of "'C-hexoses occurred in the final storage sites (juice sacs) rather than en route.…”
Section: Sucrose Hydrolysismentioning
confidence: 99%
“…Vacuoles also function as a depository of xenobiotic and toxic compounds, minimizing toxicity in the cytoplasm where sensitive biochemical processes take place. Secondary metabolites and proteins involved in plant defense against pathogens and herbivores are also kept in the vacuole and released in response to attack and cellular damage (5). Vacuoles play a critical role in pH regulation as well, with its own pH typically around 5-6 because of action of H + -ATPases and pyrophosphatase that pump protons into the lumen (6).…”
mentioning
confidence: 99%