FRINK Linked Data Fragments server

Matches in SemOpenAlex for { <https://semopenalex.org/work/W2065183750> ?p ?o ?g. }

• W2065183750 endingPage "61" @default.
• W2065183750 startingPage "51" @default.
• W2065183750 abstract "SUMMARY Seasonal patterns of antioxidative enzymes and proteins and their relations to cold-hardiness of nine olive ( Olea europaea L.) cultivars (Ascolona, Domat, Gemlik, Hojoblanca, Lecquest, Manzanilla, Meski, Samanli and Uslu) are documented in the current study. Fully expanded, uniformly sized leaves from 2-year-old shoots of the cultivars were collected from 20-year-old trees in cold-acclimated (CA, in January) and non-acclimated (NA, in July) stages. Leaf samples were exposed to low temperature at 4, −5, −10 and −20°C for 12 h to determine their cold-hardiness (LT 50 ; assessed by electrolyte leakage). Cold-acclimation produced an increase in freezing tolerance of all cultivars (by lowering LT 50 ). Domat and Lecquest were found to have the highest cold-hardiness among the nine cultivars investigated. Ascolona, Gemlik, Hojoblanca had moderate cold-hardiness, while Samanli, Meski, Uslu and Manzanilla were more sensitive. Activities of catalase (CAT: EC 1·11·1·6), ascorbate peroxidase (APX: EC 1·11·1·11) and nicotinamide adenine dinucleotide phosphate (NADPH) oxidase significantly varied depending on the cold-acclimation stage and the cold-hardiness level of the cultivars. Activities of the three antioxidative enzymes and total soluble proteins (TSP) were higher in the CA stage than in the NA stage. Although no accumulation of major polypeptides, except a 23 kDa protein, was detected either in CA samples or NA samples by SDS-PAGE, anti-dehydrin immunoblots revealed that the 43 and 23 kDa polypeptides were detectable during cold-acclimation of olive cultivars. Accumulation of both 43 and 23 kDa dehydrin was significantly higher in the CA stage than in the NA stage in all cultivars. Accumulation of 43 kDa dehydrin was correlated with cold-hardiness of the cultivars, while 23 kDa dehydrin was considered as cultivar-dependent since its accumulation was not parallel to LT 50 values of the cultivars. Indeed, the tissues of cvs Domat, Lecquest, Ascolona, Hojoblanca and Gemlik were found to enhance the structural stability of cellular membranes in the CA stage by increasing both the activity of such enzymes as CAT, APX and NADPH oxidase to activate the antioxidative systems and the expression of 43 kDa dehydrins." @default.
• W2065183750 created "2016-06-24" @default.
• W2065183750 creator A5014780819 @default.
• W2065183750 creator A5060535523 @default.
• W2065183750 creator A5067435453 @default.
• W2065183750 date "2008-09-16" @default.
• W2065183750 modified "2023-09-26" @default.
• W2065183750 title "Cold-hardiness of olive (<i>Olea europaea</i>L.) cultivars in cold-acclimated and non-acclimated stages: seasonal alteration of antioxidative enzymes and dehydrin-like proteins" @default.
• W2065183750 cites W124727345 @default.
• W2065183750 cites W1692280103 @default.
• W2065183750 cites W1910434993 @default.
• W2065183750 cites W1973046766 @default.
• W2065183750 cites W1977941648 @default.
• W2065183750 cites W1983596556 @default.
• W2065183750 cites W1985630686 @default.
• W2065183750 cites W1990812485 @default.
• W2065183750 cites W1992905411 @default.
• W2065183750 cites W199380990 @default.
• W2065183750 cites W2008316903 @default.
• W2065183750 cites W2017937407 @default.
• W2065183750 cites W2020669622 @default.
• W2065183750 cites W2041296719 @default.
• W2065183750 cites W2044597507 @default.
• W2065183750 cites W2044880691 @default.
• W2065183750 cites W2046344891 @default.
• W2065183750 cites W2050041373 @default.
• W2065183750 cites W2052612577 @default.
• W2065183750 cites W2057593154 @default.
• W2065183750 cites W2063035441 @default.
• W2065183750 cites W2068851849 @default.
• W2065183750 cites W2073631499 @default.
• W2065183750 cites W2079702033 @default.
• W2065183750 cites W2080250784 @default.
• W2065183750 cites W2081922070 @default.
• W2065183750 cites W2096742598 @default.
• W2065183750 cites W2096924611 @default.
• W2065183750 cites W2100641812 @default.
• W2065183750 cites W2103266119 @default.
• W2065183750 cites W2110393579 @default.
• W2065183750 cites W2116788801 @default.
• W2065183750 cites W2134343596 @default.
• W2065183750 cites W2135967461 @default.
• W2065183750 cites W2144446240 @default.
• W2065183750 cites W2152567181 @default.
• W2065183750 cites W2159593762 @default.
• W2065183750 cites W2160828053 @default.
• W2065183750 cites W2160920790 @default.
• W2065183750 cites W2162149518 @default.
• W2065183750 cites W2178198103 @default.
• W2065183750 cites W2297001430 @default.
• W2065183750 cites W2313854370 @default.
• W2065183750 cites W2314531018 @default.
• W2065183750 cites W2324343919 @default.
• W2065183750 cites W2327788009 @default.
• W2065183750 cites W2328259301 @default.
• W2065183750 cites W2334790679 @default.
• W2065183750 cites W2503359834 @default.
• W2065183750 cites W2589381811 @default.
• W2065183750 cites W2590196601 @default.
• W2065183750 cites W2590516208 @default.
• W2065183750 cites W4238574612 @default.
• W2065183750 doi "https://doi.org/10.1017/s0021859608008058" @default.
• W2065183750 hasPublicationYear "2008" @default.
• W2065183750 type Work @default.
• W2065183750 sameAs 2065183750 @default.
• W2065183750 citedByCount "48" @default.
• W2065183750 countsByYear W20651837502012 @default.
• W2065183750 countsByYear W20651837502013 @default.
• W2065183750 countsByYear W20651837502014 @default.
• W2065183750 countsByYear W20651837502015 @default.
• W2065183750 countsByYear W20651837502016 @default.
• W2065183750 countsByYear W20651837502017 @default.
• W2065183750 countsByYear W20651837502018 @default.
• W2065183750 countsByYear W20651837502019 @default.
• W2065183750 countsByYear W20651837502020 @default.
• W2065183750 countsByYear W20651837502021 @default.
• W2065183750 countsByYear W20651837502022 @default.
• W2065183750 countsByYear W20651837502023 @default.
• W2065183750 crossrefType "journal-article" @default.
• W2065183750 hasAuthorship W2065183750A5014780819 @default.
• W2065183750 hasAuthorship W2065183750A5060535523 @default.
• W2065183750 hasAuthorship W2065183750A5067435453 @default.
• W2065183750 hasConcept C119406331 @default.
• W2065183750 hasConcept C130698151 @default.
• W2065183750 hasConcept C144027150 @default.
• W2065183750 hasConcept C162008176 @default.
• W2065183750 hasConcept C181199279 @default.
• W2065183750 hasConcept C185592680 @default.
• W2065183750 hasConcept C197321923 @default.
• W2065183750 hasConcept C2778979269 @default.
• W2065183750 hasConcept C2780390811 @default.
• W2065183750 hasConcept C2781397471 @default.
• W2065183750 hasConcept C55493867 @default.
• W2065183750 hasConcept C59822182 @default.
• W2065183750 hasConcept C86803240 @default.
• W2065183750 hasConceptScore W2065183750C119406331 @default.
• W2065183750 hasConceptScore W2065183750C130698151 @default.
• W2065183750 hasConceptScore W2065183750C144027150 @default.

• next