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• W2974408111 endingPage "108775" @default.
• W2974408111 startingPage "108775" @default.
• W2974408111 abstract "Abstract Peach (Prunus persica var.) is an important fruit tree species. Dingjiaba Liguangtao is an excellent cold-tolerant variety of peach. To understand the cold-adaptive mechanism of this peach variety, we analyzed the physiochemical and transcriptomic changes of this cultivar under different low temperature conditions. The results showed that cold stress induced the accumulation of soluble sugar, soluble protein and proline. The increased contents of these compounds enhanced the cold tolerance of Dingjiaba Liguangtao, as indicated by the relatively lower and stable levels of electrolyte leakage index (ELI) and malondialdehyde (MDA) (regardless of the higher value of MDA at −20 °C) before the temperature was decreased to below −25 °C. Meanwhile, the antioxidant enzymes peroxidase (POD) and superoxide dismutase (SOD) also play a role in mitigating the damage caused by cold stress in Dingjiaba Liguangtao. Transcriptomes of samples treated at −5 °C, −15 °C, −25 °C and −35 °C, respectively, were generated and characterized. In total, 890 differentially expressed genes (DEGs) were identified, including 693 upregulated genes and 197 downregulated genes. These genes were enriched in 38 Gene Ontology (GO) terms and 24 clusters of orthologous groups (COG) involved in 64 Kyoto Encyclopedia of Genes and Genomes (KEGG)-defined pathways. DEGs related to signal transduction, carbohydrates and lipid metabolism were significantly enriched. In total, 124 transcription factors belonging to 24 families were found to be cold-responsive. Notably, the largest gene family was the AP2/ERF gene family followed by MYB and NAC. Taken together, these results provide a better understanding of the cold-adaptive mechanism functioning in this excellent cold-tolerant peach species. The unique DEGs identified in this study provide useful information for further study on cold response mechanisms and genetic enhancement of cold resistance in Prunus persica." @default.
• W2974408111 created "2019-09-26" @default.
• W2974408111 creator A5019769336 @default.
• W2974408111 creator A5043029830 @default.
• W2974408111 creator A5057987444 @default.
• W2974408111 creator A5072322626 @default.
• W2974408111 date "2020-01-01" @default.
• W2974408111 modified "2023-10-17" @default.
• W2974408111 title "Transcriptome profiling of Prunus persica branches reveals candidate genes potentially involved in freezing tolerance" @default.
• W2974408111 cites W1772587631 @default.
• W2974408111 cites W1916787490 @default.
• W2974408111 cites W1965157831 @default.
• W2974408111 cites W1974116356 @default.
• W2974408111 cites W1995133990 @default.
• W2974408111 cites W1997720887 @default.
• W2974408111 cites W1997771682 @default.
• W2974408111 cites W2000555534 @default.
• W2974408111 cites W2002643085 @default.
• W2974408111 cites W2006508229 @default.
• W2974408111 cites W2010266092 @default.
• W2974408111 cites W2011886217 @default.
• W2974408111 cites W2017472434 @default.
• W2974408111 cites W2021593740 @default.
• W2974408111 cites W2026082990 @default.
• W2974408111 cites W2027076128 @default.
• W2974408111 cites W2027415140 @default.
• W2974408111 cites W2028823348 @default.
• W2974408111 cites W2032467781 @default.
• W2974408111 cites W2034294739 @default.
• W2974408111 cites W2034732852 @default.
• W2974408111 cites W2054442084 @default.
• W2974408111 cites W2062180175 @default.
• W2974408111 cites W2063212680 @default.
• W2974408111 cites W2068766729 @default.
• W2974408111 cites W2071837592 @default.
• W2974408111 cites W2074611535 @default.
• W2974408111 cites W2090936658 @default.
• W2974408111 cites W2093640580 @default.
• W2974408111 cites W2101463625 @default.
• W2974408111 cites W2107277218 @default.
• W2974408111 cites W2123037553 @default.
• W2974408111 cites W2123060905 @default.
• W2974408111 cites W2125127595 @default.
• W2974408111 cites W2126419817 @default.
• W2974408111 cites W2128548824 @default.
• W2974408111 cites W2134883756 @default.
• W2974408111 cites W2135588963 @default.
• W2974408111 cites W2142102302 @default.
• W2974408111 cites W2150574779 @default.
• W2974408111 cites W2152746275 @default.
• W2974408111 cites W2154667621 @default.
• W2974408111 cites W2159827609 @default.
• W2974408111 cites W2164495529 @default.
• W2974408111 cites W2166491951 @default.
• W2974408111 cites W2169208817 @default.
• W2974408111 cites W2170335659 @default.
• W2974408111 cites W2171751101 @default.
• W2974408111 cites W2188778521 @default.
• W2974408111 cites W2218052852 @default.
• W2974408111 cites W2232049864 @default.
• W2974408111 cites W2262887429 @default.
• W2974408111 cites W2325023702 @default.
• W2974408111 cites W2461477215 @default.
• W2974408111 cites W2462746898 @default.
• W2974408111 cites W2479794746 @default.
• W2974408111 cites W2518564702 @default.
• W2974408111 cites W2533355719 @default.
• W2974408111 cites W2553948455 @default.
• W2974408111 cites W2556367176 @default.
• W2974408111 cites W2561923728 @default.
• W2974408111 cites W2565048719 @default.
• W2974408111 cites W2594650197 @default.
• W2974408111 cites W2752356754 @default.
• W2974408111 cites W2765553891 @default.
• W2974408111 cites W2766286252 @default.
• W2974408111 cites W2766591546 @default.
• W2974408111 cites W2774279706 @default.
• W2974408111 cites W2777164039 @default.
• W2974408111 cites W2789400083 @default.
• W2974408111 cites W2793240506 @default.
• W2974408111 cites W2794897260 @default.
• W2974408111 cites W2800311829 @default.
• W2974408111 cites W2801312456 @default.
• W2974408111 cites W2805883579 @default.
• W2974408111 cites W2806041514 @default.
• W2974408111 cites W2809432838 @default.
• W2974408111 cites W2888136648 @default.
• W2974408111 cites W2888578623 @default.
• W2974408111 cites W2912278243 @default.
• W2974408111 cites W2922214163 @default.
• W2974408111 cites W4293247451 @default.
• W2974408111 doi "https://doi.org/10.1016/j.scienta.2019.108775" @default.
• W2974408111 hasPublicationYear "2020" @default.
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