https://www.selleckchem.com/pr....oducts/sp-600125.htm
After joint analysis with the transcriptome change of the corresponding period, miR156-SPL10/SPL11, miR395-APS3, and miR397-LAC2/LAC11 modules were identified to be directly involved in the development of Chinese kale seeds. What's more, modified 5'RLM-RACE and Agrobacteria-mediated Chinese kale transient transformation suggest miR395b_2 is involved in sulfur metabolism during seed development by regulating its target gene APS3.Annual species show traits, such as shortleaf lifetimes, higher specific leaf area, and leaf nutrient concen
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