the study investigated the mechanism of enzymatic dephosphonylation.
该研究探讨了酶解脱磷酰基的机理。
efficient dephosphonylation methods are crucial for synthetic organic chemistry.
高效的脱磷酰基方法对有机合成化学至关重要。
they achieved selective dephosphonylation under mild reaction conditions.
他们在温和的反应条件下实现了选择性脱磷酰基。
the reagent promotes rapid dephosphonylation of the intermediate compound.
该试剂促进了中间体化合物的快速脱磷酰基。
chemical dephosphonylation cleaves the carbon-phosphorus bond effectively.
化学脱磷酰基有效地断裂了碳-磷键。
photocatalytic dephosphonylation offers a novel route for substrate modification.
光催化脱磷酰基为底物修饰提供了一条新途径。
protein dephosphonylation plays a role in cellular signal transduction.
蛋白质脱磷酰基在细胞信号转导中起作用。
the base-catalyzed dephosphonylation yielded the desired product in high yield.
碱催化的脱磷酰基反应以高产率生成了所需产物。
acid-mediated dephosphonylation was attempted to remove the protecting group.
人们尝试利用酸介导的脱磷酰基反应来去除保护基。
this paper describes a protocol for visible-light-induced dephosphonylation.
本文描述了一种可见光诱导脱磷酰基的方案。
radical dephosphonylation proceeds via a homolytic cleavage mechanism.
自由基脱磷酰基通过均裂机理进行。
monitoring the dephosphonylation process requires advanced spectroscopic techniques.
监测脱磷酰基过程需要先进的光谱技术。
the study investigated the mechanism of enzymatic dephosphonylation.
该研究探讨了酶解脱磷酰基的机理。
efficient dephosphonylation methods are crucial for synthetic organic chemistry.
高效的脱磷酰基方法对有机合成化学至关重要。
they achieved selective dephosphonylation under mild reaction conditions.
他们在温和的反应条件下实现了选择性脱磷酰基。
the reagent promotes rapid dephosphonylation of the intermediate compound.
该试剂促进了中间体化合物的快速脱磷酰基。
chemical dephosphonylation cleaves the carbon-phosphorus bond effectively.
化学脱磷酰基有效地断裂了碳-磷键。
photocatalytic dephosphonylation offers a novel route for substrate modification.
光催化脱磷酰基为底物修饰提供了一条新途径。
protein dephosphonylation plays a role in cellular signal transduction.
蛋白质脱磷酰基在细胞信号转导中起作用。
the base-catalyzed dephosphonylation yielded the desired product in high yield.
碱催化的脱磷酰基反应以高产率生成了所需产物。
acid-mediated dephosphonylation was attempted to remove the protecting group.
人们尝试利用酸介导的脱磷酰基反应来去除保护基。
this paper describes a protocol for visible-light-induced dephosphonylation.
本文描述了一种可见光诱导脱磷酰基的方案。
radical dephosphonylation proceeds via a homolytic cleavage mechanism.
自由基脱磷酰基通过均裂机理进行。
monitoring the dephosphonylation process requires advanced spectroscopic techniques.
监测脱磷酰基过程需要先进的光谱技术。
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