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1.
Recent research has revealed that abscisic acid (ABA), synthesised in response to water stress, is an apo-carotenoid. Two potential carotenoid precursors, 9'- cis -neoxanthin and 9- cis -violaxanthin, have been identified in light-grown and etiolated leaves, and in roots of a variety of species. Experiments utilizing etiolated Phaseolus vulgaris leaves and deuterium oxide strongly suggest that 9'- cis -neoxanthin, synthesised from all- trans -violaxanthin, is the immediate pre-cleavage precursor of ABA. The cleavage of 9'- cis -neoxanthin, performed by an inducible and specific dioxygenase, is likely to be the rate-limiting step in ABA biosynthesis. Any apocarotenoids formed as by-products of cleavage are probably rapidly degraded by lipoxygenase or related enzymes. After cleavage xanthoxin is converted via ABA-aldehyde to ABA by constitutive enzymes in the cytosol. 相似文献
2.
Chlorophyll fluorescence analysis is one of the most convenient and widespread techniques used to monitor photosynthesis performance in plants. In this work, after a brief overview of the mechanisms of regulation of photosynthetic electron transport and protection of photosynthetic apparatus against photodamage, we describe results of our study of the effects of actinic light intensity on photosynthetic performance in Tradescantia species of different ecological groups. Using the chlorophyll fluorescence as a probe of photosynthetic activity, we have found that the shade-tolerant species Tradescantia fluminensis shows a higher sensitivity to short-term illumination (≤20 min) with low and moderate light (≤200 μE m−2 s−1) as compared with the light-resistant species Tradescantia sillamontana. In T. fluminensis, non-photochemical quenching of chlorophyll fluorescence (NPQ) and photosystem II operational efficiency (parameter ΦPSII) saturate as soon as actinic light reaches ≈200 μE m−2 s−1. Otherwise, T. sillamontana revealed a higher capacity for NPQ at strong light (≥800 μE m−2 s−1). The post-illumination adaptation of shade-tolerant plants occurs slower than in the light-resistant species. The data obtained are discussed in terms of reactivity of photosynthetic apparatus to short-term variations of the environment light. 相似文献
3.
We compared photoinhibition sensitivity to high irradiance (HI) in wild-type barley (wt) and both its chlorina f
104-nuclear gene mutant, that restricts chlorophyll (Chl) a and Chl b synthesis, and its f
2-nuclear gene mutant, that inhibits all Chl b synthesis. Both Fv/Fm and PS2 decreased more significantly in f
2 than f
104 and wt with duration of HI exposure. Chl degraded more rapidly in the f
2 than in either f
104 or wt. Most sensitivity to photoinhibition was exhibited for f
2, whereas there was little difference in response to HI between the f
104 and wt. The highest de-epoxidation (DES) value at every time point of exposure to HI was measured for f
2, whereas the wt had the lowest value among the three strains. There were two lifetime components resolved for the conversion of violaxanthin (V) to zeaxanthin plus antheraxanthin (Z + A). The most rapid lifetime was around 6 min and the slower lifetime was >140 min, in both the mutants and wt. However, the wt and f
104 both displayed larger amplitudes of both de-epoxidation lifetimes than f
2. The difference between the final de-epoxidation state (DES = [Z + A]/[V + A + Z]) in the light compared to the dark expressed as DES for wt, f
104, and f
2 was 0.630, 0.623, and 0.420, respectively. The slow lifetime component and overall larger DES in the wt and f
104 correlated with more photoprotection, as indicated by relatively higher Fv/Fm and PS2, compared to the f
2. Hence the photoprotection against photoinhibition has no relationship with the absolute DES value, but there is a strong relationship with de-epoxidation rate and relative extent or DES. 相似文献
4.
The de-epoxidation of violaxanthin to antheraxanthin and zeaxanthin in the xanthophyll cycle of higher plants is controlled
by the pH of the thylakoid lumen. The influence of N,N′-dicyclohexylcarbodiimide (DCCD) on the pH dependence of the de-epoxidation
reactions has been investigated in isolated pea thylakoids. In the presence of DCCD, the decrease in de-epoxidase activity
at increasing pH was found to be shifted by about 0.3 pH units to more-alkaline pH values. This was paralleled by a less-pronounced
cooperativity for the pH dependence of de-epoxidation. Comparative studies with antenna-depleted thylakoids from plants grown
in intermittent light and with unstacked thylakoids indicated that binding of DCCD to antenna proteins is most probably not
responsible for the altered pH dependence. Analyses of the zeaxanthin content of different antenna subcomplexes showed that
the DCCD-induced de-epoxidation at high pH leads to zeaxanthin formation in all antenna proteins from both photosystems. Our
data support the view that DCCD binding to the violaxanthin de-epoxidase may be responsible for the altered pH dependence.
Received: 4 July 1998 / Accepted: 9 September 1998 相似文献
5.
Modification of flower colour by suppressing β‐ring carotene hydroxylase genes in Oncidium 下载免费PDF全文
Oncidium ‘Gower Ramsey’ (Onc. GR) is a popular cut flower, but its colour is limited to bright yellow. The β‐ring carotene hydroxylase (BCH2) gene is involved in carotenoid biogenesis for pigment formation. However, the role of BCH2 in Onc. GR is poorly understood. Here, we investigated the functions of three BCH2 genes, BCH‐A2, BCH‐B2 and BCH‐C2 isolated from Onc. GR, to analyse their roles in flower colour. RT‐PCR expression profiling suggested that BCH2 was mainly expressed in flowers. The expression of BCH‐B2 remained constant while that of BCH‐A2 gradually decreased during flower development. Using Agrobacterium tumefaciens to introduce BCH2 RNA interference (RNAi), we created transgenic Oncidium plants with down‐regulated BCH expression. In the transgenic plants, flower colour changed from the bright yellow of the wild type to light and white‐yellow. BCH‐A2 and BCH‐B2 expression levels were significantly reduced in the transgenic flower lips, which make up the major portion of the Oncidium flower. Sectional magnification of the flower lip showed that the amount of pigmentation in the papillate cells of the adaxial epidermis was proportional to the intensity of yellow colouration. HPLC analyses of the carotenoid composition of the transgenic flowers suggested major reductions in neoxanthin and violaxanthin. In conclusion, BCH2 expression regulated the accumulation of yellow pigments in the Oncidium flower, and the down‐regulation of BCH‐A2 and BCH‐B2 changed the flower colour from bright yellow to light and white‐yellow. 相似文献
6.
High Irradiance Effects on the Xanthophyll Cycle Pigments and the Activity of Violaxanthin De-Epoxidase in Soybean Callus 总被引:1,自引:0,他引:1
High irradiance (HI) effects on xanthophyll cycle pigments (XCP) and activity of violaxanthin de-epoxidase (VDE) in terms of de-epoxidation index (DEI) were studied in soybean calli. The calli from the hypocotyl segments of 5-d seedlings were induced on a solid (1.1 % agar) MS medium (pH 5.8) supplemented with 4.52 M 2,4-dichloro-phenoxyacetic acid, 2.32 M kinetin, and 3 % sucrose. After a 30 d cultivation, the green calli were irradiated for 24 h with white light (HI, 1 300 mol m–2 s–1) and VDE was isolated from the photosystem 2 (PS2) particles. In the control (0 h irradiation) callus, the reaction of PS2 particles with VDE in the presence or absence of Tween 20 resulted in the decrease of VIO content and the increase of ZEA content. In the 24 h HI-callus, the reaction of PS2 particles in the absence of VDE led to the decrease of VIO and ANT contents and increase of ZEA content. In the control, DEIs in the presence of VDE with or without 0.1 %Tween 20 (1.04 and 1.06, respectively) were significantly higher than the DEI (0.76) in the absence of VDE. In the HI-callus, DEIs in the presence of VDE with or without 0.1 %Tween 20 (0.98 and 0.96, respectively) were similar to that (1.03) in the absence of VDE. 相似文献
7.
The multiple roles of light-harvesting chlorophyll a/b-protein complexes in the structure and function of Arabidopsis chloroplasts were investigated using two chlorophyll b-less mutants grown under metal halide lamps with a significant far-red component. In ch1-3, all six light-harvesting proteins of photosystem (PS) II were greatly decreased; in ch1-3lhcb5, Lhcb5 was completely absent while the other five proteins were further decreased. The thylakoids of ch1-3 were less negatively-charged than the wild type, and those of ch1-3lhcb5 were even less so. Despite the expected weaker electrostatic repulsion, however, thylakoids in leaves of the mutants were not well stacked, an effect we attribute to lower van der Waals attraction, lower electrostatic attraction between opposite charges, and the absence or instability of PSII supercomplexes and peripheral light-harvesting trimers. The quantum yield of oxygen evolution in leaves decreased from 0.109 (wild type) to 0.087 (ch1-3) and 0.081 (ch1-3lhcb5) O2 (photon absorbed)− 1; we attribute this decrease to an excessive spillover from PSII to PSI, a limited PSII antenna, and increased light-independent thermal dissipation in PSII in the mutants. Destabilization of the donor side of PSII, indicated by slower electron donation to the redox-active tyrosine YZ in ch1-3, probably enhanced PSII susceptibility to photoinactivation, increased the non-functional PSII complexes in vivo, and further inactivated PSII complexes in vitro. The evolution of chlorophyll b-containing chloroplasts seems to fine-tune oxygenic photosynthesis. 相似文献
8.
Anwaruzzaman M Chin BL Li XP Lohr M Martinez DA Niyogi KK 《Photosynthesis research》2004,82(3):265-276
When the absorption of light energy exceeds the capacity for its utilization in photosynthesis, regulation of light harvesting is critical in order for photosynthetic organisms to minimize photo-oxidative damage. Thermal dissipation of excess absorbed light energy, measured as non-photochemical quenching (NPQ) of chlorophyll fluorescence, is induced rapidly in response to excess light conditions, and it is known that xanthophylls such as zeaxanthin and lutein, the transthylakoid pH gradient, and the PsbS protein are involved in this mechanism. Although mutants affecting NPQ and the biosynthesis of zeaxanthin and lutein were originally isolated and characterized at the physiological level in the unicellular green alga Chlamydomonas reinhardtii, the molecular basis of several of these mutants, such as npq1 and lor1, has not been determined previously. The recent sequencing of the C. reinhardtii nuclear genome has facilitated the search for C. reinhardtii homologs of plant genes involved in xanthophyll biosynthesis and regulation of light harvesting. Here we report the identification of C. reinhardtii genes encoding PsbS and lycopene ɛ-cyclase, and we show that the lor1 mutation, which affects lutein synthesis, is located within the lycopene ɛ-cyclase gene. In contrast, no homolog of the plant violaxanthin de-epoxidase (VDE) gene was found. Molecular markers were used to map the npq1 mutation, which affects VDE activity, as a first step toward the map-based cloning of the NPQ1 gene. 相似文献
9.
The effects of kinetin (Kn) on pigment content and electron transport activities (ETA) in wheat leavesin vivo and chloroplastsin vitro aging in light was investigated. Excised wheat leaves were infiltrated with Kn for 3 h under irradiation. The treatment increased
zeaxanthin (Zx) content by 40% and also increased chlorophyll (Chia, Chib) and major carotenoid (Car) contents in the leaves (per fresh mass unit). Chloroplasts isolated from Kn treated leaves, when
incubated in light for 4 h showed relatively lower pigment loss and slower loss of ETA compared to the chloroplasts of untreated
leaves. These observations suggest photoprotective action of Kn. The photoprotection was more prominent when Kn was applied
directly to the irradiated chloroplastsin vitro. Moreover, chloroplasts agingin vitro under irradiation without Kn treatment lost pigments and ETA. Within 3 h of irradiation, both whole chain (H2O to methylviologen) electron transport as well as photosystem (PS) 2 activity were completely lost. However, in the chloroplasts
treated with Kn, the loss of pigments was slow and even after 4 h of irradiation the chloroplasts retained 15 % of PS 2 and
9 % of whole chain ETA. In the untreated chloroplasts, the loss of Zx after 4 h of irradiation was 49 % whereas in Kn treated
samples its level was 1.3 times higher than that of control. Since a higher level of Zx was maintained in Kn treated chloroplasts,
photoprotective action of Kn is possibly mediated through Zx.
One of us (NKC) thanks Sambalpur University for study leave and Department of Biological Sciences, Mankato State University,
Mankato for labortory facilities. 相似文献
10.
Deng Ying Lin Rong-Cheng Jing Yu-Xiang Wang Qiang Li Liang-Bi Liu Bo-Lin Kuang Ting-Yun 《Photosynthetica》2003,41(1):137-141
Violaxanthin de-epoxidase (VDE) is localised in the thylakoid lumen of chloroplasts and catalyses de-epoxidation of violaxanthin into antheraxanthin and zeaxanthin. Tobacco vde gene was inserted into a binary vector pCAMBIA1301 with the hygromycin resistant gene for selection in antisense and overexpressed ways. Two constructs with antisense and overexpressed vde gene were introduced in tobacco (Nicotiana tabacum L.) using Agrobacterium tumefaciens strain LBA4404, PCR and Southern blot analyses demonstrated that the exogenous gene was integrated into genome of tobacco plants. VDE activity assay and HPLC analysis of pigments showed that the vde gene was expressed in the overexpressed transformants, whereas suppressed in the antisense ones. The chlorophyll fluorescence measurements proved that the contents of VDE in transgenic plants have a significant function in non-photochemical quenching. 相似文献