Improvement of photosynthetic efficiency is a major approach to increase crop yield potential.Previously,we cloned a gene encoding the chloroplast-located putative monooxygenase TCD5,which is essential in plastid deve...Improvement of photosynthetic efficiency is a major approach to increase crop yield potential.Previously,we cloned a gene encoding the chloroplast-located putative monooxygenase TCD5,which is essential in plastid development under low temperature in rice(Oryza sativa L.).In this study,the effects of TCD5 on the photosynthesis and the yields were investigated in rice.Two sets of genetic materials with three levels of TCD5 expression,including tcd5 mutant or TCD5 RNAi transgenic lines and TCD5 over-expression transgenic lines in Jiahua1 and Nipponbare backgrounds,were used in the field trails of multi-locations and multi-years.TCD5 positively affected the panicle number and the yield at dosage.Compared with the wild-types,the panicle numbers were 12.4%-14.6%less in tcd5 mutant and 8.3%-38.6%less in TCD5 RNAi lines,but 26.2%-61.8%more in TCD5 over-expression lines.The grain yields per plant were 9.1%-18.4%less in tcd5 mutant and 14.3%-56.7%less in TCD5 RNAi lines,but 6.9%-56.5%more in TCD5 over-expression lines.The measurements of net photosynthetic rate indicated that mutation or knock down of TCD5 decreased the net photosynthetic rate by 10.4%and 15.6%,respectively,while increasing it by 8.9%and 8.7%in the TCD5 over-expression lines in Jiahua1 and Nipponbare backgrounds,respectively.Accordingly,the measurements of chlorophyll fluorescence parameters showed that the electron transport rate and quantum yield decreased in tcd5 mutant or TCD5 RNAi lines but increased in TCD5 overexpression lines,both in Jiahua1 and Nipponbare backgrounds.IP-MS screening revealed that TCD5 interacts with 29 chloroplast proteins involved in chlorophyll synthesis,photo-reactions of the photosynthesis,carbon assimilation and metabolism,energy metabolism,redox balance,protein synthesis and transportation.Two TCD5 interacted proteins,D1 and FBA were effective targets for improving photosynthesis.These results suggest a potentially new strategy for increasing rice yield by enhancing photosynthesis.展开更多
中药石斛基原复杂,其主流品种有霍山石斛Dendrobium huoshanense C.Z.Tang et S.J.Cheng、铁皮石斛D.officinale Kimura et Migo、金钗石斛D.nobile Lindl.,《中华人民共和国药典》(以下简称《中国药典》)2005年版石斛项下增加了“及其...中药石斛基原复杂,其主流品种有霍山石斛Dendrobium huoshanense C.Z.Tang et S.J.Cheng、铁皮石斛D.officinale Kimura et Migo、金钗石斛D.nobile Lindl.,《中华人民共和国药典》(以下简称《中国药典》)2005年版石斛项下增加了“及其近似种”的描述,难以确定具体物种,有必要对其进一步正本清源。对石斛属的起源进行本草考证,对霍山石斛、铁皮石斛、金钗石斛的本草起源进行梳理,为不同石斛属药材的应用提供参考。霍山石斛是最早作为中药石斛应用的品种,高效液相色谱法特征图谱等方法为《中国药典》2020年版收录霍山石斛提供了技术支撑;铁皮石斛应为石斛药材中应用时间最久、范围最广的品种,其主要为浙江、云南、贵州,以及广东、广西、福建、江西等地丹霞地貌上生长的种群,应高度重视并对其进行保护;D.nobile在历代文献中的中文名称混乱,应明确将其作为金钗石斛的拉丁学名。枫斗是我国名贵中药和传统保健品,起源于霍山石斛。古代名医对霍山石斛、铁皮石斛、金钗石斛、川石斛的用法各有特色,建议厘清品种来源、功效,加强现代研究,在修订《中国药典》时将其各自单列,充分发挥中药石斛的临床价值。展开更多
基金funded by the National Natural Science Foundation of China(Grand No.U19A2025)Scientific Research Foundation of China Jiliang University.
文摘Improvement of photosynthetic efficiency is a major approach to increase crop yield potential.Previously,we cloned a gene encoding the chloroplast-located putative monooxygenase TCD5,which is essential in plastid development under low temperature in rice(Oryza sativa L.).In this study,the effects of TCD5 on the photosynthesis and the yields were investigated in rice.Two sets of genetic materials with three levels of TCD5 expression,including tcd5 mutant or TCD5 RNAi transgenic lines and TCD5 over-expression transgenic lines in Jiahua1 and Nipponbare backgrounds,were used in the field trails of multi-locations and multi-years.TCD5 positively affected the panicle number and the yield at dosage.Compared with the wild-types,the panicle numbers were 12.4%-14.6%less in tcd5 mutant and 8.3%-38.6%less in TCD5 RNAi lines,but 26.2%-61.8%more in TCD5 over-expression lines.The grain yields per plant were 9.1%-18.4%less in tcd5 mutant and 14.3%-56.7%less in TCD5 RNAi lines,but 6.9%-56.5%more in TCD5 over-expression lines.The measurements of net photosynthetic rate indicated that mutation or knock down of TCD5 decreased the net photosynthetic rate by 10.4%and 15.6%,respectively,while increasing it by 8.9%and 8.7%in the TCD5 over-expression lines in Jiahua1 and Nipponbare backgrounds,respectively.Accordingly,the measurements of chlorophyll fluorescence parameters showed that the electron transport rate and quantum yield decreased in tcd5 mutant or TCD5 RNAi lines but increased in TCD5 overexpression lines,both in Jiahua1 and Nipponbare backgrounds.IP-MS screening revealed that TCD5 interacts with 29 chloroplast proteins involved in chlorophyll synthesis,photo-reactions of the photosynthesis,carbon assimilation and metabolism,energy metabolism,redox balance,protein synthesis and transportation.Two TCD5 interacted proteins,D1 and FBA were effective targets for improving photosynthesis.These results suggest a potentially new strategy for increasing rice yield by enhancing photosynthesis.
文摘中药石斛基原复杂,其主流品种有霍山石斛Dendrobium huoshanense C.Z.Tang et S.J.Cheng、铁皮石斛D.officinale Kimura et Migo、金钗石斛D.nobile Lindl.,《中华人民共和国药典》(以下简称《中国药典》)2005年版石斛项下增加了“及其近似种”的描述,难以确定具体物种,有必要对其进一步正本清源。对石斛属的起源进行本草考证,对霍山石斛、铁皮石斛、金钗石斛的本草起源进行梳理,为不同石斛属药材的应用提供参考。霍山石斛是最早作为中药石斛应用的品种,高效液相色谱法特征图谱等方法为《中国药典》2020年版收录霍山石斛提供了技术支撑;铁皮石斛应为石斛药材中应用时间最久、范围最广的品种,其主要为浙江、云南、贵州,以及广东、广西、福建、江西等地丹霞地貌上生长的种群,应高度重视并对其进行保护;D.nobile在历代文献中的中文名称混乱,应明确将其作为金钗石斛的拉丁学名。枫斗是我国名贵中药和传统保健品,起源于霍山石斛。古代名医对霍山石斛、铁皮石斛、金钗石斛、川石斛的用法各有特色,建议厘清品种来源、功效,加强现代研究,在修订《中国药典》时将其各自单列,充分发挥中药石斛的临床价值。