SemOpenAlex |

SemOpenAlex

Matches in SemOpenAlex for { <https://semopenalex.org/work/W2106716369> ?p ?o ?g. }

Showing items 1 to 100 of ±145 with 100 items per page.

W2106716369 endingPage "455" @default.
W2106716369 startingPage "444" @default.
W2106716369 abstract "Cultivation of grapes in West Bank - Palestine is very old and a large number of grape varieties exist as a result of continuous domestication over thousands of years. This rich biodiversity has highly influenced the consumer behavior of local people, who consume both grape berries and leaves. However, studies that address the contents of health-promoting metabolites in leaves are scarce. Accordingly the aim of this study is to assess metabolite levels in leaves of two grape varieties that were collected from semiarid and temperate regions. Metabolic profiling was conducted using GC-MS and LC-MS. The obtained results show that abiotic stresses in the semiarid region led to clear changes in primary metabolites, in particular in amino acids, which exist at very high levels. By contrast, qualitative and genotype-dependent differences in secondary metabolites were observed, whereas abiotic stresses appear to have negligible effect on the content of these metabolites. The qualitative difference in the flavonol profiles between the two genotypes is most probably related to differential expression of specific genes, in particular flavonol 3-O-rhamnosyltransferase, flavonol-3-O-glycoside pentosyltransferases and flavonol-3-O-d-glucosidel-rhamnosyltransferase by 'Beituni' grape leaves, which led to much higher levels of flavonols with rutinoside, pentoside, and rhamnoside moieties with this genotype." @default.
W2106716369 created "2016-06-24" @default.
W2106716369 creator A5000498952 @default.
W2106716369 creator A5023046799 @default.
W2106716369 creator A5082852942 @default.
W2106716369 creator A5088735018 @default.
W2106716369 date "2015-09-01" @default.
W2106716369 modified "2023-09-27" @default.
W2106716369 title "Profiling of primary metabolites and flavonols in leaves of two table grape varieties collected from semiarid and temperate regions" @default.
W2106716369 cites W1567034739 @default.
W2106716369 cites W1866000549 @default.
W2106716369 cites W1964244511 @default.
W2106716369 cites W1972019946 @default.
W2106716369 cites W1976128412 @default.
W2106716369 cites W1977073056 @default.
W2106716369 cites W1979976980 @default.
W2106716369 cites W1980474638 @default.
W2106716369 cites W1983143793 @default.
W2106716369 cites W1991139750 @default.
W2106716369 cites W1991534883 @default.
W2106716369 cites W1997301339 @default.
W2106716369 cites W2005365623 @default.
W2106716369 cites W2006237063 @default.
W2106716369 cites W2019351545 @default.
W2106716369 cites W2019560867 @default.
W2106716369 cites W2019875276 @default.
W2106716369 cites W2022202213 @default.
W2106716369 cites W2024472771 @default.
W2106716369 cites W2024951827 @default.
W2106716369 cites W2028173315 @default.
W2106716369 cites W2032019525 @default.
W2106716369 cites W2035334291 @default.
W2106716369 cites W2039529424 @default.
W2106716369 cites W2042002866 @default.
W2106716369 cites W2043813705 @default.
W2106716369 cites W2045276677 @default.
W2106716369 cites W2045672822 @default.
W2106716369 cites W2050145129 @default.
W2106716369 cites W2051583921 @default.
W2106716369 cites W2059175526 @default.
W2106716369 cites W2060083809 @default.
W2106716369 cites W2068575585 @default.
W2106716369 cites W2070267557 @default.
W2106716369 cites W2077081557 @default.
W2106716369 cites W2077603133 @default.
W2106716369 cites W2079609797 @default.
W2106716369 cites W2083915231 @default.
W2106716369 cites W2085937384 @default.
W2106716369 cites W2092686336 @default.
W2106716369 cites W2095215507 @default.
W2106716369 cites W2095926487 @default.
W2106716369 cites W2096724410 @default.
W2106716369 cites W2096846615 @default.
W2106716369 cites W2101569886 @default.
W2106716369 cites W2106226450 @default.
W2106716369 cites W2107558927 @default.
W2106716369 cites W2112754294 @default.
W2106716369 cites W2117667017 @default.
W2106716369 cites W2119067812 @default.
W2106716369 cites W2119099372 @default.
W2106716369 cites W2128391962 @default.
W2106716369 cites W2129304037 @default.
W2106716369 cites W2132918528 @default.
W2106716369 cites W2135732728 @default.
W2106716369 cites W2137228539 @default.
W2106716369 cites W2139907115 @default.
W2106716369 cites W2141102916 @default.
W2106716369 cites W2160201278 @default.
W2106716369 cites W2164298199 @default.
W2106716369 cites W2165822511 @default.
W2106716369 cites W2166398931 @default.
W2106716369 cites W2169479124 @default.
W2106716369 cites W2169502091 @default.
W2106716369 cites W2169696545 @default.
W2106716369 cites W2326750198 @default.
W2106716369 doi "https://doi.org/10.1016/j.phytochem.2015.07.013" @default.
W2106716369 hasPubMedId "https://pubmed.ncbi.nlm.nih.gov/26196939" @default.
W2106716369 hasPublicationYear "2015" @default.
W2106716369 type Work @default.
W2106716369 sameAs 2106716369 @default.
W2106716369 citedByCount "29" @default.
W2106716369 countsByYear W21067163692016 @default.
W2106716369 countsByYear W21067163692017 @default.
W2106716369 countsByYear W21067163692018 @default.
W2106716369 countsByYear W21067163692019 @default.
W2106716369 countsByYear W21067163692020 @default.
W2106716369 countsByYear W21067163692021 @default.
W2106716369 countsByYear W21067163692022 @default.
W2106716369 countsByYear W21067163692023 @default.
W2106716369 crossrefType "journal-article" @default.
W2106716369 hasAuthorship W2106716369A5000498952 @default.
W2106716369 hasAuthorship W2106716369A5023046799 @default.
W2106716369 hasAuthorship W2106716369A5082852942 @default.
W2106716369 hasAuthorship W2106716369A5088735018 @default.
W2106716369 hasConcept C132215390 @default.
W2106716369 hasConcept C144027150 @default.
W2106716369 hasConcept C18903297 @default.
W2106716369 hasConcept C196235758 @default.