Prunus mume derived extracellular vesicle-like particles alleviate experimental colitis via disrupting NEK7-NLRP3 interaction and inflammasome activation. [PDF]
J NanobiotechnologyLv Q +8 more
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Headspace Volatiles and Endogenous Extracts of Prunus mume Cultivars with Different Aroma Types. [PDF]
Molecules, 2021 Wang X +7 more
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The key metabolic genes and networks regulating the fruit acidity and flavonoid of Prunus mume revealed via transcriptomic and metabolomic analyses. [PDF]
Front Plant SciGao X +7 more
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Genome-wide identification of the SWEET gene family mediating the cold stress response in Prunus mume. [PDF]
PeerJ, 2022 Wen Z +6 more
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Integration of Metabolomic and Transcriptomic Analyses Reveals the Molecular Mechanisms of Flower Color Formation in Prunus mume. [PDF]
Plants (Basel)Wang R +5 more
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Genome-Wide Identification of the KNOX Gene Family in Japanese Apricot (Prunus mume Sieb. et Zucc.) and Functional Characterization of PmKNAT2 Genes. [PDF]
Genes (Basel), 2023 Bai Y +10 more
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The Effect of One-Year Fermentation of Maesil Fruit (Prunus mume) Sugar Syrup on Amygdalin Level: A Natural Toxic Compound. [PDF]
FoodsRamalingam S +4 more
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Single-cell RNA sequencing reveals a high-resolution cell atlas of petals in Prunus mume at different flowering development stages. [PDF]
Hortic ResGuo Y +7 more
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A 49-bp deletion of PmAP2L results in a double flower phenotype in Prunus mume. [PDF]
Hortic ResLiu W +10 more
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Regulatory role of Prunus mume DAM6 on lipid body accumulation and phytohormone metabolism in the dormant vegetative meristem. [PDF]
Hortic ResHsiang TF, Yamane H, Gao-Takai M, Tao R.
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