Literature DB >> 15669147

Oxidative stress responses during cassava post-harvest physiological deterioration.

Kim Reilly1, Rocío Gómez-Vásquez, Holger Buschmann, Joe Tohme, John R Beeching.   

Abstract

A major constraint to the development of cassava (Manihot esculenta Crantz) as a crop to both farmers and processors is its starchy storage roots' rapid post-harvest deterioration, which can render it unpalatable and un-marketable within 24-72 h. An oxidative burst occurs within 15 min of the root being injured, that is followed by the altered regulation of genes, notably for catalase and peroxidase, related to the modulation of reactive oxygen species, and the accumulation of secondary metabolites, some of which show antioxidant properties. The interactions between these enzymes and compounds, in particular peroxidase and the coumarin, scopoletin, are largely confined to the vascular tissues where the visible symptoms of deterioration are observed. These, together with other data, are used to develop a tentative model of some of the principal events involved in the deterioration process.

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Year:  2004        PMID: 15669147     DOI: 10.1007/s11103-005-2271-6

Source DB:  PubMed          Journal:  Plant Mol Biol        ISSN: 0167-4412            Impact factor:   4.076


  15 in total

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Review 5.  The apoplastic oxidative burst in response to biotic stress in plants: a three-component system.

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7.  Hydrogen peroxide and flavan-3-ols in storage roots of cassava (Manihot esculenta crantz) during postharvest deterioration.

Authors:  H Buschmann; K Reilly; M X Rodriguez; J Tohme; J R Beeching
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8.  Transfer and expression of an artificial storage protein (ASP1) gene in cassava (Manihot esculenta Crantz).

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Authors:  D Bowles
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  18 in total

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4.  Auxin response factor 2 (ARF2) plays a major role in regulating auxin-mediated leaf longevity.

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5.  Enhanced reactive oxygen species scavenging by overproduction of superoxide dismutase and catalase delays postharvest physiological deterioration of cassava storage roots.

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6.  Large-Scale Proteomics of the Cassava Storage Root and Identification of a Target Gene to Reduce Postharvest Deterioration.

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7.  Unlocking the potential of tropical root crop biotechnology in east Africa by establishing a genetic transformation platform for local farmer-preferred cassava cultivars.

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8.  Toward better understanding of postharvest deterioration: biochemical changes in stored cassava (Manihot esculenta Crantz) roots.

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Review 10.  Roots and Tuber Crops as Functional Foods: A Review on Phytochemical Constituents and Their Potential Health Benefits.

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