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W4298146279 abstract "Wheat plants experience substantial physiological adaptation when exposed to salt stress. Identifying such physiological mechanisms and their genetic control is especially important to improve its salt tolerance. In this study, leaf chlorophyll content (CC), leaf canopy temperature (CT), and specific leaf area (SLA) were scored in a set of 153 (103 having the best genotypic data were used for GWAS analysis) highly diverse wheat genotypes under control and salt stress. On average, CC and SLA decreased under salt stress, while the CT average was higher under salt stress compared to the control. CT was negatively and significantly correlated with CC under both conditions, while no correlation was found between SLA and CC and CT together. High genetic variation and broad-sense-heritability estimates were found among genotypes for all traits. The genome wide association study revealed important QTLs for CC under both conditions (10) and SLA under salt stress (four). These QTLs were located on chromosomes 1B, 2B, 2D, 3A, 3B, 5A, 5B, and 7B. All QTLs detected in this study had major effects with R2 extending from 20.20% to 30.90%. The analysis of gene annotation revealed three important candidate genes (TraesCS5A02G355900, TraesCS1B02G479100, and TraesCS2D02G509500). These genes are found to be involved in the response to salt stress in wheat with high expression levels under salt stress compared to control based on mining in data bases." @default.
W4298146279 created "2022-10-01" @default.
W4298146279 creator A5022483783 @default.
W4298146279 creator A5023501516 @default.
W4298146279 creator A5083737385 @default.
W4298146279 date "2022-09-30" @default.
W4298146279 modified "2023-10-01" @default.
W4298146279 title "Association mapping and candidate genes for physiological non-destructive traits: Chlorophyll content, canopy temperature, and specific leaf area under normal and saline conditions in wheat" @default.
W4298146279 cites W1507608641 @default.
W4298146279 cites W1630038621 @default.
W4298146279 cites W1967756167 @default.
W4298146279 cites W1971076873 @default.
W4298146279 cites W1985600167 @default.
W4298146279 cites W1988905808 @default.
W4298146279 cites W1999103696 @default.
W4298146279 cites W1999821470 @default.
W4298146279 cites W2010570031 @default.
W4298146279 cites W2015370929 @default.
W4298146279 cites W2020388829 @default.
W4298146279 cites W2025321991 @default.
W4298146279 cites W2032167393 @default.
W4298146279 cites W2064267934 @default.
W4298146279 cites W2085933250 @default.
W4298146279 cites W2093409353 @default.
W4298146279 cites W2097458890 @default.
W4298146279 cites W2099453164 @default.
W4298146279 cites W2107241333 @default.
W4298146279 cites W2107817705 @default.
W4298146279 cites W2110035718 @default.
W4298146279 cites W2111700206 @default.
W4298146279 cites W2113842581 @default.
W4298146279 cites W2114332921 @default.
W4298146279 cites W2117019741 @default.
W4298146279 cites W2139911862 @default.
W4298146279 cites W2144610275 @default.
W4298146279 cites W2159474015 @default.
W4298146279 cites W2255419743 @default.
W4298146279 cites W2365073618 @default.
W4298146279 cites W2468950867 @default.
W4298146279 cites W2472693185 @default.
W4298146279 cites W2485702146 @default.
W4298146279 cites W2591325033 @default.
W4298146279 cites W2593957636 @default.
W4298146279 cites W2726361837 @default.
W4298146279 cites W2755864102 @default.
W4298146279 cites W2766897539 @default.
W4298146279 cites W2768723904 @default.
W4298146279 cites W2792369804 @default.
W4298146279 cites W2794164657 @default.
W4298146279 cites W2797144664 @default.
W4298146279 cites W2802399532 @default.
W4298146279 cites W2898667361 @default.
W4298146279 cites W2901136798 @default.
W4298146279 cites W2911616178 @default.
W4298146279 cites W2977391371 @default.
W4298146279 cites W2979854810 @default.
W4298146279 cites W2983933946 @default.
W4298146279 cites W3006437452 @default.
W4298146279 cites W3037921057 @default.
W4298146279 cites W3047687085 @default.
W4298146279 cites W3092411570 @default.
W4298146279 cites W3093742445 @default.
W4298146279 cites W3093947416 @default.
W4298146279 cites W3097431194 @default.
W4298146279 cites W3109495239 @default.
W4298146279 cites W3110731757 @default.
W4298146279 cites W3112704935 @default.
W4298146279 cites W3119876269 @default.
W4298146279 cites W3120807272 @default.
W4298146279 cites W3133257680 @default.
W4298146279 cites W3136725037 @default.
W4298146279 cites W3139266928 @default.
W4298146279 cites W3139409686 @default.
W4298146279 cites W3158943822 @default.
W4298146279 cites W3168299999 @default.
W4298146279 cites W3169411611 @default.
W4298146279 cites W3170027316 @default.
W4298146279 cites W3183577120 @default.
W4298146279 cites W3183986692 @default.
W4298146279 cites W3197254836 @default.
W4298146279 cites W3197883732 @default.
W4298146279 cites W4212891432 @default.
W4298146279 cites W4233070360 @default.
W4298146279 doi "https://doi.org/10.3389/fgene.2022.980319" @default.
W4298146279 hasPubMedId "https://pubmed.ncbi.nlm.nih.gov/36246654" @default.
W4298146279 hasPublicationYear "2022" @default.
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