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W4313640025 startingPage "144" @default.
W4313640025 abstract "Nitrogen (N) is an essential nutrient for plant growth and development. Dioecious plants, especially perennial plants, are often faced with a shortage of N supply in nature. Poplar is one of the most important dioecious and perennials species. Due to the different ecological functions, female and male poplars adopt different adaptation strategies to N limitation. However, the regulation in epigenetic mechanism is poorly understood on sexes. Here, the integrative analysis of whole-genome bisulfite sequencing (WGBS), RNA sequencing, and plant physiological analysis on female and male Populus cathayana were performed. We found that N deficiency reprograms methylation in both sexes, and the CG and CHH methylation types played critical roles in female and male poplars, respectively. Induced by DNA methylation, N-deficient males had a stronger phenylpropanoid synthesis pathway and less anthocyanin accumulation than females, which not only strengthened the N cycle but also reduced the defense cost of males. In addition, compared with male poplars, females accumulated more starch to expend excess energy under N limited condition. Additionally, DNA methylation also mediated hormone signalling involved in anthocyanin synthesis and starch metabolism. Therefore, our study reveals new molecular evidences that male poplars are more tolerant to N deficiency than females, which provides a reference for ecological adaptability of forest trees." @default.
W4313640025 created "2023-01-07" @default.
W4313640025 creator A5009547261 @default.
W4313640025 creator A5047855118 @default.
W4313640025 creator A5047932271 @default.
W4313640025 creator A5052276317 @default.
W4313640025 creator A5064039087 @default.
W4313640025 creator A5084964847 @default.
W4313640025 date "2023-02-01" @default.
W4313640025 modified "2023-09-27" @default.
W4313640025 title "DNA methylation-mediated phenylpropane and starch metabolism causes male poplars to be more tolerant to nitrogen deficiency than females" @default.
W4313640025 cites W1810028515 @default.
W4313640025 cites W1936922076 @default.
W4313640025 cites W1966327575 @default.
W4313640025 cites W1980184720 @default.
W4313640025 cites W1986662234 @default.
W4313640025 cites W1987467424 @default.
W4313640025 cites W2012657725 @default.
W4313640025 cites W2016839589 @default.
W4313640025 cites W2026343134 @default.
W4313640025 cites W2031367168 @default.
W4313640025 cites W2038749716 @default.
W4313640025 cites W2058712998 @default.
W4313640025 cites W2068559156 @default.
W4313640025 cites W2071806650 @default.
W4313640025 cites W2075206648 @default.
W4313640025 cites W2084332647 @default.
W4313640025 cites W2091192245 @default.
W4313640025 cites W2094687474 @default.
W4313640025 cites W2102712082 @default.
W4313640025 cites W2103912979 @default.
W4313640025 cites W2106889224 @default.
W4313640025 cites W2110289886 @default.
W4313640025 cites W2119099372 @default.
W4313640025 cites W2121794037 @default.
W4313640025 cites W2122914905 @default.
W4313640025 cites W2123836320 @default.
W4313640025 cites W2127524244 @default.
W4313640025 cites W2143314868 @default.
W4313640025 cites W2154062191 @default.
W4313640025 cites W2154834173 @default.
W4313640025 cites W2158217645 @default.
W4313640025 cites W2159675211 @default.
W4313640025 cites W2162554587 @default.
W4313640025 cites W2174119873 @default.
W4313640025 cites W2203577599 @default.
W4313640025 cites W2209705351 @default.
W4313640025 cites W2243343182 @default.
W4313640025 cites W2519363174 @default.
W4313640025 cites W2543784084 @default.
W4313640025 cites W2565286867 @default.
W4313640025 cites W2605501249 @default.
W4313640025 cites W2791813482 @default.
W4313640025 cites W2804344327 @default.
W4313640025 cites W2804369390 @default.
W4313640025 cites W2806742579 @default.
W4313640025 cites W2809300037 @default.
W4313640025 cites W2885942465 @default.
W4313640025 cites W2898730423 @default.
W4313640025 cites W2908283757 @default.
W4313640025 cites W2940963005 @default.
W4313640025 cites W2946108068 @default.
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W4313640025 cites W3004211251 @default.
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W4313640025 cites W3094663765 @default.
W4313640025 cites W3118113464 @default.
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W4313640025 cites W3160880852 @default.
W4313640025 cites W4210607116 @default.
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W4313640025 doi "https://doi.org/10.1016/j.plaphy.2023.01.004" @default.
W4313640025 hasPubMedId "https://pubmed.ncbi.nlm.nih.gov/36638604" @default.
W4313640025 hasPublicationYear "2023" @default.
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