Cassava brown streak disease effects on leaf metabolites and pigment accumulation

Nuwamanya, Ephraim; Baguma, Yona; Atwijukire, Evans; Acheng, S.; Abidrabo, Phillip; Omongo, C.A.; Alicai, Titus

doi:10.4314/acsj.v25i1.3

Cited by 8 publications

(9 citation statements)

References 20 publications

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“…In addition to the strong peaks attributed to the A‐type structure, B‐type presents a low intensity peak at 2 θ = 5.51°. The relative crystallinity of sweet cassava starch was determined to be 36.9%, in concordance with the results previously reported . The starch oxidation clearly decreases the crystallinity as can be seen in Figure S5, Supporting Information, which can be attributed to the increase of carboxyl groups content .…”

Section: Resultssupporting

confidence: 90%

Fat‐Replacer Properties of Oxidized Cassava Starch Using Hydrogen Peroxide/Sodium Bicarbonate Redox System in Mayonnaise Formulation and Its Stability

León¹,

Soto²,

López

et al. 2019

Starch Stärke

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The stability and fat‐replacer properties of mayonnaise prepared with oxidized sweet cassava starch is studied. In a first step, the oxidation of starch using different conditions, i.e., thermal and thermochemical processes with the redox pair system (H2O2/NaHCO3), is analyzed. Oxidized starches can be used to produce food grade emulsions without the addition of surfactant, then, the mayonnaise emulsions are prepared using oxidized starch paste as partial substituent of the fat. They show greater stability with respect to the mayonnaise prepared with the native paste due to electro‐steric effects and Pickering type that the oxidized starch exerts on the emulsion. The rheological performance of mayonnaises with oxidized starches is analyzed and compared with that of full‐fat mayonnaise; demonstrating the oxidized starches applicability as stabilizers and fat‐reducers. Finally, a sensory analysis of the mayonnaise emulsions is carried out where all mayonnaise samples are judged to be sensorially acceptable.

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Section: Resultssupporting

confidence: 90%

Fat‐Replacer Properties of Oxidized Cassava Starch Using Hydrogen Peroxide/Sodium Bicarbonate Redox System in Mayonnaise Formulation and Its Stability

León¹,

Soto²,

López

et al. 2019

Starch Stärke

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“…Furthermore, the CO 2 fixation decrease might be directly related to soluble sugar production. Nuwamanya et al (2017) demonstrated that cassava brown streak disease (CBSD), caused by potyviruses, leads to a general reduction in primary carbohydrate composition (total reducing sugar and starch contents) in leaves; these effects correlated with the negative effect on photosynthetic apparatus of infected leaves. However, our results did not show such significant differences in the total soluble sugar contents in CsCMV-infected source leaves with respect to non-infected plants.…”

Section: Discussionmentioning

confidence: 99%

“…A wide range of physiological and biochemical disorders are triggered from cell infection, including relocation of photoassimilates, redox imbalance and premature senescence, with significant economic losses (Rodríguez et al 2010, 2012; Souza and Carvalho 2019). Viral infections lead to a decline in CO 2 fixation, which could be directly related to a decrease in carbohydrate accumulation, reducing plant growth and development (Sade et al 2013; Nuwamanya et al 2017). On the contrary, other studies have demonstrated that soluble sugars and starch accumulate in the infected leaves, where photosynthesis is reduced (Rodriguez et al 2010; Andreola et al 2019; De Haro et al 2019).…”

Section: Introductionmentioning

confidence: 99%

Cassava common mosaic viruscauses photosynthetic alterations associated with changes in chloroplast ultrastructure and carbohydrate metabolism of cassava plants

Luna

et al. 2020

Preprint

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“…Nuwamanya et al. [ 7 ] studied the physicochemical and functional characteristics of five improved Ugandan cassava varieties and their F1 progenies and significant differences were observed between varieties, progenies and within the F1 progenies. Thitisaksakul et al.…”

Section: Introductionmentioning

confidence: 99%

“…Even though a dearth of knowledge is available on the surface properties, granular crystallinity, amylose content, amylopectin chain length, and physicochemical properties of root starches, in many studies, only one cultivar has been used and the properties determined may not be truly representative of the species. [ 7,8,12–15 ] There is thus, a need to carry out a systematic investigation on starch from different cultivars of the same species using the same set of analytical techniques and experimental conditions so that a deep insight into the physicochemical properties as well as structural features can be obtained. Sanchez et al.…”

Section: Introductionmentioning

confidence: 99%

Physicochemical and Structural Properties of Starch from Cassava Roots Differing in Growing Duration and Ploidy Level

2020

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Wide variability exists in starch properties even among the same botanical source depending on climatic factors, genotypic differences, harvesting period, etc. The present study is an attempt to understand changes in structure, composition and physicochemical properties of cassava starch with root development. Starch is isolated from five cultivars of cassava at different root harvesting periods starting from root initiation stage, that is, 2-12 months after planting. The cultivars are selected in such a way that they represent different growing duration (short and normal), ploidy level (diploid and triploid), and end use (industrial and edible). Amylose/amylopectin ratio varies in a narrow range (0.24-0.28) for the starch from different varieties. Starch granule morphology does not show any significant variation with root growth and cultivar, but the average granule size varies significantly. All the starches show A-type X-ray diffraction pattern and the percentage crystallinity ranges from 37% to 48%. Average chain length and molecular weight of the starch show varietal differences. Even though the swelling power, solubility, water binding capacity and paste clarity are not significantly affected by the root harvesting period, the cultivar differences are evident for these parameters. Significant differences in the physicochemical and functional properties of starch with ploidy of the plant are not observed.

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Cassava brown streak disease effects on leaf metabolites and pigment accumulation

Cited by 8 publications

References 20 publications

Fat‐Replacer Properties of Oxidized Cassava Starch Using Hydrogen Peroxide/Sodium Bicarbonate Redox System in Mayonnaise Formulation and Its Stability

Fat‐Replacer Properties of Oxidized Cassava Starch Using Hydrogen Peroxide/Sodium Bicarbonate Redox System in Mayonnaise Formulation and Its Stability

Cassava common mosaic viruscauses photosynthetic alterations associated with changes in chloroplast ultrastructure and carbohydrate metabolism of cassava plants

Physicochemical and Structural Properties of Starch from Cassava Roots Differing in Growing Duration and Ploidy Level

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