以高多胺水稻品种金陵香糯为材料,在抽穗期、开花期和灌浆期用不同浓度的多胺合成抑制剂 D -精氨酸(D -Arg)、甲基乙二醛双(鸟苷腙)(MGBG)和环己胺(CHA)喷施穗部和剑叶,研究它们对水稻籽粒中游离态和结合态多胺含量和组成的影响。结果表...以高多胺水稻品种金陵香糯为材料,在抽穗期、开花期和灌浆期用不同浓度的多胺合成抑制剂 D -精氨酸(D -Arg)、甲基乙二醛双(鸟苷腙)(MGBG)和环己胺(CHA)喷施穗部和剑叶,研究它们对水稻籽粒中游离态和结合态多胺含量和组成的影响。结果表明,D- Arg对3个时期水稻籽粒中游离态和结合态各多胺含量及总量均有显著抑制作用,其中开花期和灌浆期处理的效果较明显。MGBG和CHA主要影响籽粒多胺的组成,对多胺总量的影响仅MGBG在开花期、CHA在抽穗期和开花期处理的抑制作用达显著水平。展开更多
Carbon dioxide(CO_(2)) is the main greenhouse gas and also an ideal C1 feedstock in organic synthesis because it is abundant,nontoxic,nonflammable,and renewable.The synthesis of organic carbamates using CO_(2) as a ph...Carbon dioxide(CO_(2)) is the main greenhouse gas and also an ideal C1 feedstock in organic synthesis because it is abundant,nontoxic,nonflammable,and renewable.The synthesis of organic carbamates using CO_(2) as a phosgene alternative has attracted extensive attention because of the importance of carbamates in organic synthesis and in the pharmaceutical and agrochemical industries.In recent decades,many multicomponent reaction strategies have been designed for constructing different types of organic carbamate molecules.Most of these methods rely on the in situ generation of carbamate anions from CO_(2) and amines,followed by reactions with other coupling partners.Synthetic strategies for acyclic carbamates include nucleophile‐electrophile coupling,nucleo‐phile‐nucleophile oxidative coupling,difunctionalization of unsaturated hydrocarbons,and C–H bond functionalization.Strategies for the synthesizing cyclic carbamates include carboxylative cyclization of in situ‐generated unsaturated amines and difunctionalization of unsaturated amines with CO_(2) and other electrophilic reagents.This review summarizes the recent advances in the synthesis of organic carbamates from CO_(2) using different multicomponent reaction strategies.Future perspectives and challenges in the incorporation of CO_(2) into carbamates are also presented.展开更多
文摘以高多胺水稻品种金陵香糯为材料,在抽穗期、开花期和灌浆期用不同浓度的多胺合成抑制剂 D -精氨酸(D -Arg)、甲基乙二醛双(鸟苷腙)(MGBG)和环己胺(CHA)喷施穗部和剑叶,研究它们对水稻籽粒中游离态和结合态多胺含量和组成的影响。结果表明,D- Arg对3个时期水稻籽粒中游离态和结合态各多胺含量及总量均有显著抑制作用,其中开花期和灌浆期处理的效果较明显。MGBG和CHA主要影响籽粒多胺的组成,对多胺总量的影响仅MGBG在开花期、CHA在抽穗期和开花期处理的抑制作用达显著水平。
文摘Carbon dioxide(CO_(2)) is the main greenhouse gas and also an ideal C1 feedstock in organic synthesis because it is abundant,nontoxic,nonflammable,and renewable.The synthesis of organic carbamates using CO_(2) as a phosgene alternative has attracted extensive attention because of the importance of carbamates in organic synthesis and in the pharmaceutical and agrochemical industries.In recent decades,many multicomponent reaction strategies have been designed for constructing different types of organic carbamate molecules.Most of these methods rely on the in situ generation of carbamate anions from CO_(2) and amines,followed by reactions with other coupling partners.Synthetic strategies for acyclic carbamates include nucleophile‐electrophile coupling,nucleo‐phile‐nucleophile oxidative coupling,difunctionalization of unsaturated hydrocarbons,and C–H bond functionalization.Strategies for the synthesizing cyclic carbamates include carboxylative cyclization of in situ‐generated unsaturated amines and difunctionalization of unsaturated amines with CO_(2) and other electrophilic reagents.This review summarizes the recent advances in the synthesis of organic carbamates from CO_(2) using different multicomponent reaction strategies.Future perspectives and challenges in the incorporation of CO_(2) into carbamates are also presented.
