Your search keyword '"Mao, Jiao"' showing total 6 results

1. First Report of Diaporthe eres Causing Leaf Blight of Buddhist Pine (Podocarpus macrophyllus) in China

Author

Fengmao Chen, Sheng-zuo Fang, Xu-lan Shang, Xiang-rong Zheng, and Mao-jiao Zhang

Subjects

Podocarpus macrophyllus, Intergenic region, biology, Phylogenetics, Botany, Blight, Plant Science, Fungal morphology, Diaporthe eres, Pathogenicity, biology.organism_classification, Agronomy and Crop Science

Published

2020

2. Roles of xanthophylls and exogenous ABA in protection against NaCl-induced photodamage in rice (Oryza sativa L) and cabbage (Brassica campestris)

Author

Jiansheng Liang, Ben-Hua Ji, Ming-Wei Chen, Su-Qin Zhu, and De-Mao Jiao

Subjects

Light, Physiology, Brassica, Plant Science, Sodium Chloride, Xanthophylls, Protective Agents, Photosynthesis, Botany, Rice plant, chemistry.chemical_classification, Oryza sativa, Quenching (fluorescence), biology, organic chemicals, fungi, Stress induced, Photosystem II Protein Complex, food and beverages, Oryza, Photochemical Processes, biology.organism_classification, Electron transport chain, Plant Leaves, Kinetics, Horticulture, chemistry, Xanthophyll, Abscisic Acid, Half-Life

Abstract

Changes in actual efficiency of PS II photochemistry, non-photochemical quenching (NPQ), content of xanthophylls and kinetics of de-epoxidation were studied in ABA-fed and non-ABA-fed leaves of rice and cabbage under NaCl stress. Salt stress induced more progressive decrease in actual efficiency of PS II photochemistry (ФPS II), higher reduction state of PS II, and a small significant increase in NPQ in NaCl-sensitive rice plants as compared with NaCl-tolerant cabbage plants, whereas exogenously supplied ABA alleviated the decrease in actual efficiency of PS II photochemistry (ФPS II), induced a lower reduction state of PS II, and caused higher capacity of NPQ in ABA-fed plants than in non-ABA-fed plants. As a result, there were higher activities of photosynthetic electron transport, higher capacity of energy dissipation, and lower cumulation of excess light in cabbage than in rice plants, and in ABA-fed leaves than in non-ABA-fed leaves. The effect of ABA was more efficient in cabbage than in rice plants. Addition of exogenous ABA resulted in enhancement of the size of the xanthophyll cycle pool, promotion of de-epoxidation of the xanthophyll cycle components, and a rise in the level of NPQ by altering the kinetics of de-epoxidation of the xanthophyll cycle. Protection from photodamage appears to be achieved by coordinated contributions by exogenous ABA and xanthophyll cycle-mediated NPQ. This variety of photoprotective mechanisms may be essential for conferring photodamage tolerance under NaCl stress.

Published

2011

3. CO2Exchange and Chlorophyll Fluorescence of Phospho-enolpyruvate Carboxylase Transgenic Rice Pollen Lines

Author

Hong-Hui Lin, Ben-Hua Ji, De-Mao Jiao, and Li-Li Ling

Subjects

Oryza sativa, food and beverages, Plant Science, Biology, Photosynthesis, medicine.disease_cause, Biochemistry, Genetically modified rice, General Biochemistry, Genetics and Molecular Biology, Pyruvate carboxylase, Pollen, Botany, medicine, Phosphoenolpyruvate carboxylase, Phosphoenolpyruvate carboxykinase, Chlorophyll fluorescence

Abstract

To elucidate the photosynthetic physiological characteristics and the physiological inherited traits of rice (Oryza sativa L.) hybrids and their parents, physiological indices of photosynthetic CO2 exchange and chlorophyll fluorescence parameters were measured in leaves of the maize phosphoenolpyruvate carboxylase (PEPC) transgenic rice as the male parent, sp. japonica rice cv. 9516 as the female parent, and the stable JAAS45 pollen line. The results revealed that the PEPC gene could be stably inherited and transferred from the male parent to the JAAS45 pollen line. Moreover, the JAAS45 pollen line exhibited high levels of PEPC activity, manifesting higher saturated photosynthetic rates, photosynthetic apparent quantum yield (AQY), photochemical efficiency of photosystem II and photochemical and non-photochemical quenching, which indicated that the JAAS45 pollen line has a high tolerance to photo-inhibition/photo-oxidation under strong light and high temperature. Furthermore, JAAS45 was confirmed to still be a C3 plant by δ13C carbon isotope determination and was demonstrated to have a limited photosynthetic C4 microcycle by feeding with exogenous C4 primary products, such as oxaloacetate or malate, or phosphoenolpyruvate. The present study explains the physiological inherited properties of PEPC transgenic rice and provides an expectation for the integration of traditional breeding and biological technology. (Managing editor: Ping He)

Published

2006

4. Introduction of Genes Encoding C4 Photosynthesis Enzymes into Rice Plants: Physiological Consequences

Author

Manuel Pinto, Xia Li, Mitsue Miyao, Dong Ha Cho, Maurice S. B. Ku, Makoto Matsuoka, and De Mao Jiao

Subjects

Stomatal conductance, Guard cell, Botany, food and beverages, Biology, Photosynthesis, Phosphoenolpyruvate carboxylase, Photosynthetic capacity, Genetically modified rice, C4 photosynthesis, Pyruvate carboxylase

Abstract

Transgenic rice plants expressing the maize phosphoeno/pyruvate carboxylase (PEPC) and pyruvate, orthophosphate dikinase (PPDK) exhibit a higher photosynthetic capacity (up to 35%) than untransformed plants. The increased photosynthetic capacity in these plants is mainly associated with an enhanced stomatal conductance and a higher internal CO2 concentration. Plants simultaneously expressing high levels of both enzymes also have a higher photosynthetic capacity. The results suggest that both PEPC and PPDK play a key role in organic acid metabolism in the guard cells to regulate stomatal opening. Under photoinhibitory and photooxidative conditions, PEPC transgenic rice plants are capable of maintaining a higher photosynthetic rate, a higher photosynthetic quantum yield by PSII and a higher capacity to dissipate excess energy photochemically and non-photochemically than untransformed plants. Preliminary data from field trials show that relative to untransformed plants, the grain yield is about 10-20% higher in selected PEPC and 30-35% higher in PPDK transgenic rice plants, due to increased tiller number. Taken together, these results suggest that introduction of C4 photosynthesis enzymes into rice has a good potential to enhance its tolerance to stress, photosynthetic capacity and yield.

Published

2007

5. Photochemical Efficiency of PS II and Characteristics of Photosynthetic CO2 Exchange in Japonica and Indica Subspecies of Rice (Oryza sativa L.) and their Reciprocal Cross F1 Hybrids under Photoinhibitory Conditions

Author

De-Mao Jiao and Ben-Hua Ji

Subjects

Photosynthetic reaction centre, Oryza sativa, Photoinhibition, biology, Chemistry, fungi, RuBisCO, food and beverages, Photosynthetic efficiency, biology.organism_classification, Photosynthesis, Photochemistry, Japonica, Horticulture, Botany, biology.protein, Photorespiration

Abstract

Plants that experience additional stress shuch as physical, chemical and biotic factors that show regular and irregular diurnal and seasonal variations, often exhibit some photosynthetic responses and their adaptive regulation. Recently have such studies been developed, particularly in studies of the secondary stress caused by excessive excitations in photosynthetic apparatus under drought, high or low temperature[1]. Photoinhibition and photooxidation caused by vissible radiation have attached the attention of biologists in the last 2 decades. During photoinhibition, D1-protein was primarily damaged by high irradiation and high rate of turnover of the protein occured. The primary sites of photoinhibition had been suggested to be located within the DI-protein to which the PSII reaction center was bound[2]. In recent years, It was found that difference in response to photoinhibition did exist in rice (O. Sativa L) subspecies indica and japonica[3]. This work was made to study the photochemical efficiency of PSII and characteristic of photosynthetic CO2 exchange in indica and japonica subspecies and their reciprocal F1 hybrids so as to develop an effective approach for breeding program of indica-japonica hybrid rice with both photoinhibition-tolerance and higher photosynthetic efficiency.

Published

1998

6. Changes in Unsaturated Levels of Fatty Acids in Thylakoid PSII Membrane Lipids During Chilling-induced Resistance in Rice.

Author

Su-Qin Zhu, Chun-Mei Yu, Xin-Yan Liu, Ben-Hua Ji, and De-Mao Jiao

Subjects

PLANT genetic engineering, GENETIC engineering, PLANT biotechnology, TRANSGENIC organisms, RICE, BOTANY

Abstract

Temperature is one of the abiotic factors limiting growth and productivity of plants. In the present work, the effect of low non-freezing temperature, as an inducer of “chilling resistance”, was studied in three cultivars of rice ( Oryza sativa L.), japonica cv. 9516 (j-9516), the two parental lines of superhigh-yield hybrid rice between subspecies, Peiai/E32 (ji-PE), and the traditional indica hybrid rice Shanyou 63 (i-SY63). Leaves of chill-treated rice showed chilling-induced resistance, as an increase of their low-temperature tolerance was measured using chlorophyll fluorescence measurements, revealing a change in photosystem II (PSII) efficiency. After 5 d of exposure to 11°C under low light (100 μmol m-2 s-1), levels of unsaturated fatty acids in PSII thylakoid membrane lipids decreased during the initial 1-2 d, then increased slowly and reached 99.2%, 95.3% and 90.1% of the initial value (0 d) in j-9516, ji-PE and i-SY63, respectively, on the fifth day. However, under medium light (600 μmol m-2 s-1), all cultivars experienced similar substantial photoinhibition, which approached steady state levels after a decline in levels of unsaturated fatty acids in PSII thylakoid membrane lipids to about 57.1%, 53.8% and 44.5% of the initial values (0 d) in j-9516, ji-PE and I-SY63 on the fifth day. Under either chilling-induced resistance (the former) or low temperature photoinhibition (the latter) conditions, the changes of other physiological parameters such as D1 protein contents, electron transport activities of PSII (ETA), Fv/ Fm, xanthophyl cycle activities expressed by DES (deepoxide state) were consistent with that of levels of unsaturated fatty acids in PSII thylakoid membrane lipids. So there were negative correlations between saturated levels of fatty acids (16:1(3t), 16:0, 18:0), especially the 16:1(3t) fatty acid on thylakoid membrane and other physiological parameters, such as D1 protein contents, ETA and (A+Z)/(A+V+Z). A specific role of desaturation of fatty acids and the photoprotective pigments of the xanthophyl cycle, leading to an acclimation response in thylakoid membrane lipids may be involved. We conclude that chilling-induced resistance is accelerated by the unsaturation of thylakoid membranes, and the ability of rice plants to cold-harden can be enhanced by genetic engineering. [ABSTRACT FROM AUTHOR]

Published

2007