机构地区:[1]National Key Laboratoly of Plant Molecular Genetics,Institute of Plant Physiology and Ecology Shanghai Institutes for Biological Sciences Chinese Academy of Seiences,Shanghai 200032,China [2]College of Life and Environment Sciences,Shanghai Normal University,Shanghai 200234,China
出 处:《Chinese Science Bulletin》2012年第30期3872-3877,共6页
基 金:supported by the National Key Basic Research Program of China (2009CB118504);the National Natural Science Foundation of China (30870183,31070215)
摘 要:Bisulfite at low concentrations(L-NaHSO3) increases cyclic electron transport around photosystem I(PSI) and photosynthesis.However,little is known regarding the detailed contribution of cyclic electron transport to the promoted photosynthesis by L-NaHSO3.In the present work,we used tobacco mutant defective in ndhC-ndhK-ndhJ(ndhCKJ) to investigate the role of NAD(P)H dehydrogenase(NDH)-dependent cyclic electron transport around PSI in an increase in photosynthesis by L-NaHSO3.After the treatment of tobacco leaves with L-NaHSO3(10 μmol L-1),the NDH-dependent cyclic electron transport,monitored by a transient post-illumination increase in Chl fluorescence and the amount of NDH,was notably up-regulated in wild type(WT).The NDH-dependent cyclic electron transport was severely impaired in ndhCKJ and was not significantly affected by treatment with L-NaHSO3.Accordingly,the NDH-dependent transthylakoid membrane proton gradient(pH),as reflected by the slow phase of millisecond-delayed light emission(ms-DLE),was increased by L-NaHSO3 in WT,but not in ndhCKJ;the enhancement of cyclic photophosphorylation(PSP) activity by L-NaHSO3 was more obvious in WT than ndhCKJ.The accumulation of both superoxide and hydrogen peroxide was reduced in WT when subjected to L-NaHSO3 treatment,but not in ndhCKJ.Furthermore,the increase of photosynthetic O 2 evolution rate by L-NaHSO3 was more significant in WT than in ndhCKJ.We therefore conclude that L-NaHSO3 alleviates the photo-oxidative damage by the enhancement of NDH-dependent cyclic PSP,thereby improving photosynthesis.Bisulfite at low concentrations (L-NaHSO3) increases cyclic electron transport around photosystem l (PSI) and photosynthesis. However, little is known regarding the detailed contribution of cyclic electron transport to the promoted photosynthesis by L-NaHSO3. In the present work, we used tobacco mutant defective in ndhC-ndhK-ndhJ (AndhCKJ) to investigate the role of NAD(P)H dehydrogenase (NDH)-dependent cyclic electron transport around PSI in an increase in photosynthesis by L-NaHSO3. After the treatment of tobacco leaves with L-NaHSO3 (10 ~rnol L-I), the NDH-dependent cyclic electron transport, monitored by a transient post-illumination increase in Chl fluorescence and the amount of NDH, was notably up-regulated in wild type (WT). The NDH-dependent cyclic electron transport was severely impaired in AndhCKJ and was not significantly affected by treatment with L-NaHSO3. Accordingly, the NDH-dependent transthylakoid membrane proton gradient (ApH), as reflected by the slow phase of millisecond-delayed light emission (ms-DLE), was increased by L-NaHSO3 in WT, but not in AndhCKJ; the enhancement of cy- clic photophosphorylation (PSP) activity by L-NaHSO3 was more obvious in WT than AndhCKJ. The accumulation of both su- peroxide and hydrogen peroxide was reduced in WT when subjected to L-NaHSO3 treatment, but not in AndhCKJ. Furthermore, the increase of photosynthetic 02 evolution rate by L-NaHSO3 was more significant in WT than in AndhCKJ. We therefore con- clude that L-NaHSO3 alleviates the photo-oxidative damage by the enhancement of NDH-dependent cyclic PSP, thereby improv- ing photosynthesis.
关 键 词:循环电子传递 光合磷酸化 光合作用 氧化损伤 脱氢酶 NAD 低浓度 烟草
分 类 号:Q945.11[生物学—植物学] X503.1[环境科学与工程—环境工程]
正在载入数据...
正在载入数据...
正在载入数据...
正在载入数据...
正在载入数据...
正在载入数据...
正在载入数据...
