7 results on '"Deborah Rees"'
Search Results
2. Combining conventional QTL analysis and whole-exome capture-based bulk-segregant analysis provides new genetic insights into tuber sprout elongation and dormancy release in a diploid potato population
- Author
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Richard Colgan, Stephen Young, Sanjeev Kumar Sharma, Mads Sønderkær, Colin G. N. Turnbull, Karen McLean, Deborah Rees, Leon A. Terry, Mark A. Taylor, Glenn J. Bryan, and Biotechnology and Biological Sciences Research Cou
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0106 biological sciences ,0301 basic medicine ,Genetic mapping ,01 natural sciences ,Plant breeding ,chemistry.chemical_compound ,Chlorpropham ,Exome ,Cultivar ,Genetics (clinical) ,Genetics & Heredity ,education.field_of_study ,Ecology ,CONSTRUCTION ,GENOME SEQUENCE ,food and beverages ,Plant Tubers ,Horticulture ,ALLELE ,MAP ,GROWTH ,Life Sciences & Biomedicine ,Agricultural genetics ,S1 ,Population ,Environmental Sciences & Ecology ,Quantitative trait locus ,Biology ,Article ,03 medical and health sciences ,0603 Evolutionary Biology ,Genetics ,education ,SB ,Solanum tuberosum ,Evolutionary Biology ,0604 Genetics ,Science & Technology ,fungi ,FRAMEWORK ,Diploidy ,Bulb ,Plant Breeding ,030104 developmental biology ,chemistry ,Next-generation sequencing ,Dormancy ,Genetic markers ,010606 plant biology & botany ,Sprouting - Abstract
Tuber dormancy and sprouting are commercially important potato traits as long-term tuber storage is necessary to ensure year-round availability. Premature dormancy release and sprout growth in tubers during storage can result in a significant deterioration in product quality. In addition, the main chemical sprout suppressant chlorpropham has been withdrawn in Europe, necessitating alternative approaches for controlling sprouting. Breeding potato cultivars with longer dormancy and slower sprout growth is a desirable goal, although this must be tempered by the needs of the seed potato industry, where dormancy break and sprout vigour are required for rapid emergence. We have performed a detailed genetic analysis of tuber sprout growth using a diploid potato population derived from two highly heterozygous parents. A dual approach employing conventional QTL analysis allied to a combined bulk-segregant analysis (BSA) using a novel potato whole-exome capture (WEC) platform was evaluated. Tubers were assessed for sprout growth in storage at six time-points over two consecutive growing seasons. Genetic analysis revealed the presence of main QTL on five chromosomes, several of which were consistent across two growing seasons. In addition, phenotypic bulks displaying extreme sprout growth phenotypes were subjected to WEC sequencing for performing BSA. The combined BSA and WEC approach corroborated QTL locations and served to narrow the associated genomic regions, while also identifying new QTL for further investigation. Overall, our findings reveal a very complex genetic architecture for tuber sprouting and sprout growth, which has implications both for potato and other root, bulb and tuber crops where long-term storage is essential.
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- 2021
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3. Exposure to ozone reduces postharvest quality loss in red and green chilli peppers
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Marcin Glowacz and Deborah Rees
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Ozone ,Antioxidant ,Red peppers ,medicine.medical_treatment ,Ascorbic Acid ,theater ,Analytical Chemistry ,chemistry.chemical_compound ,0404 agricultural biotechnology ,Phenols ,medicine ,Food science ,Continuous exposure ,SB ,Plant Diseases ,food and beverages ,04 agricultural and veterinary sciences ,General Medicine ,Ascorbic acid ,Skin colour ,040401 food science ,Fungicides, Industrial ,chemistry ,Chilli peppers ,Postharvest ,Capsicum ,theater.play ,Oxidation-Reduction ,Food Science - Abstract
The effect of continuous exposure to ozone at 0.45, 0.9 and 2 μmol mol−1 on quality changes during the storage of red and green chilli peppers at 10 °C was investigated. Ozone at 0.45 and 0.9 μmol mol−1 reduced disease incidence in red peppers, with no further benefits at 2 μmol mol−1. Ozone at 0.9 μmol mol−1 reduced weight loss during storage and improved firmness maintenance. Skin colour was bleached in red peppers exposed to ozone at 2 μmol mol−1, and in green ones at all tested doses. Total phenolic content was not affected by ozone but antioxidant activity was reduced in green chilli peppers exposed to ozone at 2 μmol mol−1, due to lower ascorbic acid content in those samples. Ozone at 0.9 μmol mol−1 extended the shelf-life of chilli peppers.
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- 2016
4. Using jasmonates and salicylates to reduce losses within the fruit supply chain
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Marcin Glowacz and Deborah Rees
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0106 biological sciences ,business.industry ,Consumer demand ,Supply chain ,Food spoilage ,04 agricultural and veterinary sciences ,General Chemistry ,Nutritional quality ,Biology ,01 natural sciences ,Biochemistry ,Industrial and Manufacturing Engineering ,040501 horticulture ,Biotechnology ,Postharvest ,Food science ,Chilling injury ,0405 other agricultural sciences ,business ,Quality characteristics ,Relevant information ,010606 plant biology & botany ,Food Science - Abstract
The fresh produce industry is constantly growing, due to increasing consumer demand. The shelf-life of some fruit, however, is relatively short, limited by microbial contamination or visual, textural and nutritional quality loss. Thus, techniques for reducing undesired microbial contamination, spoilage and decay, as well as maintaining product’s visual, textural and nutritional quality are in high demand at all steps within the supply chain. The postharvest use of signalling molecules, i.e. jasmonates and salicylates, seems to have unexplored potential. The focus of this review is on the effects of treatment with jasmonates and salicylates on the fresh produce quality, defined by decay incidence and severity, chilling injury, maintenance of texture, visual quality, taste and aroma, and nutritional content. Postharvest treatments with jasmonates and salicylates have the ability to reduce decay by increasing fruit resistance to diseases and reducing chilling injury in numerous products. These treatments also possess the ability to improve other quality characteristics, i.e. appearance, texture maintenance and nutritional content. Furthermore, they can easily be combined with other treatments, e.g. heat treatment and ultrasound treatment. A good understanding of all the benefits and limitations related to the postharvest use of jasmonates and salicylates is needed, and relevant information has been reviewed in this paper.
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- 2016
5. Influence of continuous exposure to gaseous ozone on the quality of red bell peppers, cucumbers and zucchini
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Richard Colgan, Marcin Glowacz, and Deborah Rees
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Ozone ,S1 ,Vitamin C ,Fructose ,Horticulture ,Ascorbic acid ,Gaseous ozone ,chemistry.chemical_compound ,chemistry ,Botany ,Bell peppers ,Continuous exposure ,Agronomy and Crop Science ,SB ,Food Science - Abstract
The effect of continuous exposure to ozone on quality changes during the storage of red bell peppers, cucumbers and zucchini was investigated. Peppers were stored at 14 °C and were exposed to ozone at 0.1 and 0.3 μmol mol−1, while cucumbers and zucchini were stored at 12 and 8 °C, respectively, and exposed to ozone at 0.1 μmol mol−1. The content of fructose (2.75 g/100 g FW) and glucose (2.00 g/100 g FW) in red bell peppers exposed to ozone at 0.1 μmol mol−1 was increased by 8 and 7%, respectively, when compared to controls. Continuous exposure to ozone at 0.3 μmol mol−1, on the other hand, had no effect on fructose (2.52 g/100 g FW) and glucose (1.88 g/100 g FW) content. The content of vitamin C was significantly enhanced in red bell peppers exposed to ozone at 0.1 and 0.3 μmol mol−1 after 7 d of storage, however, this effect was not maintained. After 14 d, vitamin C content in peppers exposed to ozone at 0.1 μmol mol−1 was not significantly different from the control, whereas it was reduced at 0.3 μmol mol−1. Total phenolics content was increased in peppers exposed to ozone at 0.1 μmol mol−1, but was unaffected at 0.3 μmol mol−1. Continuous exposure of red bell peppers to ozone at 0.1 and 0.3 μmol mol−1 had no significant effect on weight loss, texture and colour. In cucumbers and zucchini, continuous exposure to ozone at 0.1 μmol mol−1 reduced weight loss by more than 40% and improved texture maintenance, while having no significant effect on their biochemistry. The findings from this study suggest that continuous exposure to ozone at 0.1 μmol mol−1 is a promising method for shelf-life extension of cucumbers and zucchini. Even though in red bell peppers continuously exposed to ozone at 0.1 μmol mol−1 sugars and phenolics content was increased, further work is still needed to better understand the exact mechanism of ozone action and its potential for the industrial use.
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- 2015
6. Influence of sweetpotato rooting characteristics on infestation and damage by Cylas spp
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S. Kabi, Tanya Stathers, Deborah Rees, M. W. Ogenga-Latigo, and N. Smit
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Germplasm ,biology ,business.industry ,Weevil ,Animal production ,Growing season ,General Medicine ,Cylas puncticollis ,medicine.disease_cause ,biology.organism_classification ,Agronomy ,resistance ,sweetpotato weevils ,Uganda ,Agriculture ,Infestation ,medicine ,Cultivar ,business - Abstract
Studies were carried out in the field at Serere Agricultural and Animal Production Research Institute (SAARI), Eastern Uganda, to establish whether the existing sweetpotato germplasm in Uganda has cultivars resistant to the sweetpotato weevils, Cylas spp. The trials were conducted during the two growing seasons of 1997. Root size was the only sweetpotato rooting characteristic that significantly influenced tuber infestation (P=0.009) and damage (P=0.049). Root size was positively correlated to tuber infestation by Cylas spp. (Y=0.0456x + 21.206; R2 = 0.2731) and negatively correlated to damage by Cylas weevils (Y=-0.027x + 29.684, R2=0.1647). A laboratory study demonstrated the effect of temperature on oviposition, survival and developement of Cylas puncticollis (Boheman). The variety 'Tanzania' that was used as the susceptible check registered the highest weevil emergence under both wet and dry weather conditions while varieties 'Kasira' and 'Akere-Ikokolak' registered the least emergence of adult C. puncticollis. These results indicate that the latter two varieties posses considerable levels of resistance to sweetpotato weevils. Key Words: Germplasm, resistance, sweetpotato weevils, Uganda (African Crop Science Journal 2001 9(1): 165-174)
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- 2001
7. Enhancement of the ΔpH-dependent dissipation of excitation energy in spinach chloroplasts by light-activation: correlation with the synthesis of zeaxanthin
- Author
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Peter Horton, Deborah Rees, Graham Noctor, Andrew J. Young, and George Britton
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chemistry.chemical_classification ,Quenching (fluorescence) ,Biophysics ,Fluorescence spectrometry ,food and beverages ,Cell Biology ,Photochemistry ,Biochemistry ,chemistry.chemical_compound ,chemistry ,Structural Biology ,Chlorophyll ,Thylakoid ,Xanthophyll ,Genetics ,Electrochemical gradient ,Molecular Biology ,Chlorophyll fluorescence ,Violaxanthin - Abstract
The extent of energy-dependent quenching of chlorophyll fluorescence in broken spinach chloroplasts has been quantitatively related to the size of the thylakoid proton gradient as measured by the quenching of 9-aminoacridine fluorescence by titration at constant irradiance with the uncoupler nigericin or by change in irradiance. It was found that chloroplasts prepared from leaves that had been pre-illuminated with strong light for 30 min showed energy-dependent quenching at a lower proton gradient than chloroplasts prepared from dark-adapted leaves. Measurement of the carotenoid composition of the thylakoids showed that light treatment raised the ratio of zeaxanthin: violaxanthin. The possible dependence of energy-dependent quenching on xanthophyll composition and the physiological implications of this light-activation process to the regulation of photosynthetic electron transport are discussed.
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