chlorophyll-a and benzylaminopurine

A hydroponic study was conducted to determine the effects of single and/or combined application of different doses (0, 5 and 10 μM L

Topics: Abscisic Acid; Antioxidants; Benzyl Compounds; Chlorophyll; Chlorophyll A; Cobalt; Hydrogen Peroxide; Plant Leaves; Purines; Solanum lycopersicum

Influence of polyethylene glycol (PEG) mediated osmotic stress on reactive oxygen species (ROS) scavenging machinery of Chinese potato (Solenostemon rotundifolius (Poir.) J. K. Morton) was investigated. Five genotypes of Chinese potato were raised in Murashige and Skoog (MS) basal medium containing 6-benzylaminopurine (BAP, 1 mg L

Topics: Antioxidants; Ascorbate Peroxidases; Ascorbic Acid; Benzyl Compounds; Catalase; Chlorophyll; Glutathione; Hydrogen Peroxide; Lipid Peroxidation; Malondialdehyde; Osmosis; Osmotic Pressure; Oxidative Stress; Plant Leaves; Polyethylene Glycols; Purines; Reactive Oxygen Species; Solanum tuberosum; Superoxide Dismutase

Commercial strawberries are mainly propagated using daughter plants produced on aerial runners because asexual propagation is faster than seed propagation, and daughter plants retain the characteristics of the mother plant. This study was conducted to investigate the effective factors for runner induction, as well as the molecular mechanisms behind the runner induction. An orthogonal test with 4 factors (photoperiod, temperature, gibberellin, and 6-benzyladenine), each with 3 levels was performed. Proteins were also extracted from the crowns with or without runners and separated by two-dimensional electrophoresis. The results of the orthogonal test showed that a long-day (LD) environment was the most influential factor for the runner formation, and 50 mg·L

Topics: Benzyl Compounds; Carbohydrate Metabolism; Chlorophyll; Electrophoresis, Gel, Two-Dimensional; Fragaria; Gene Expression Regulation, Plant; Gibberellins; Meristem; Photoperiod; Photosynthesis; Plant Leaves; Plant Proteins; Plant Stems; Proteome; Purines; Spectrometry, Mass, Matrix-Assisted Laser Desorption-Ionization; Starch; Sugars; Temperature; Up-Regulation

The mature pigmented spathe of Zantedeschia is characterized by a developmental process, wherein the spathe regreens after anthesis and prior to senescence of the inflorescence. Previous research has shown that spathe regreening involves redifferentiation of chloroplasts and re-accumulation of chlorophyll, but the detailed physiological changes associated with regreening are still largely unknown. Using Zantedeschia aethiopica and the Zantedeschia pentlandii variety 'Best Gold' as models, this study explores the physiological mechanism and possible roles of fructification, 6-benzylaminopurine (BAP) and gibberellin (GA3 ) in induction or progression of spathe regreening. Application of BAP stimulated regreening in spathe tissue of 'Best Gold' by enhancing accumulation of carotenoid and chlorophyll, and also increasing stacking of grana. In contrast, GA3 retarded formation of double-membrane lamella during chloroplast redifferentiation, thus delaying the onset of regreening. We suggest that these actions of BAP and GA3 have a synergistic effect in delaying the onset of regreening in 'Best Gold' so that when applied together retardation of chlorophyll accumulation, chloroplast redifferentiation and accumulation of carotenoids were enhanced. The elimination of fructification did not prevent the occurrence of regreening in either Zantedeschia model plants, indicating that fructification was not a prerequisite for the induction of regreening. It is still unclear how regreening in Zantedeschia is triggered. We propose that the onset of regreening in Zantedeschia is likely to be a genetically programmed event.

Topics: Benzyl Compounds; Carotenoids; Chlorophyll; Flowering Tops; Gibberellins; Kinetin; Purines; Zantedeschia

· Strigolactones (SLs) are a class of phytohormones controlling shoot branching. In potato (Solanum tuberosum), tubers develop from underground stolons, diageotropic stems which originate from basal stem nodes. As the degree of stolon branching influences the number and size distribution of tubers, it was considered timely to investigate the effects of SL production on potato development and tuber life cycle. · Transgenic potato plants were generated in which the CAROTENOID CLEAVAGE DIOXYGENASE8 (CCD8) gene, key in the SL biosynthetic pathway, was silenced by RNA interference (RNAi). · The resulting CCD8-RNAi potato plants showed significantly more lateral and main branches than control plants, reduced stolon formation, together with a dwarfing phenotype and a lack of flowering in the most severely affected lines. New tubers were formed from sessile buds of the mother tubers. The apical buds of newly formed transgenic tubers grew out as shoots when exposed to light. In addition, we found that CCD8 transcript levels were rapidly downregulated in tuber buds by the application of sprout-inducing treatments. · These results suggest that SLs could have an effect, solely or in combination with other phytohormones, in the morphology of potato plants and also in controlling stolon development and maintaining tuber dormancy.

Topics: Benzyl Compounds; Carotenoids; Chlorophyll; Dioxygenases; Down-Regulation; Gene Expression Regulation, Enzymologic; Gene Expression Regulation, Plant; Genes, Plant; Gibberellins; Lactones; Phenotype; Plant Dormancy; Plant Proteins; Plant Shoots; Plant Stems; Plant Tubers; Purines; RNA Interference; RNA, Messenger; Solanum tuberosum

Broccoli deteriorates very quickly after harvest at ambient temperature due to the loss of green colour and the consequent yellowing of florets. To search for an effective method to control quality deterioration, the effect of 1-methylcyclopropene (1-MCP) combined with 6-benzylaminopurine (6-BA) treatment on visual quality, antioxidant enzymes and bioactive compounds in broccoli florets were investigated.. A combined treatment of 2.5 µL L⁻¹ 1-MCP and 200 mg L⁻¹ 6-BA significantly reduced the increase of lightness (L*) value, and retained a high level for the hue value (H) and chlorophyll content. Superoxide dismutase, ascobate peroxidase and catalase activities increased while the activity of peroxidase decreased during storage in treated samples in comparison with the controls. The combined treatment enhanced the biosynthesis of glucosinolate and the formation of the anticarcinogen sulforaphane, which improved the health benefit of broccoli.. These results indicate that a combined treatment of 1-MCP and 6-BA could be a good candidate for maintaining the visual quality and enhancing the nutritional value in broccoli during storage at 15 °C.

Topics: Anticarcinogenic Agents; Antioxidants; Benzyl Compounds; Brassica; Chlorophyll; Cold Temperature; Cyclopropanes; Flowering Tops; Food Preservatives; Food Quality; Food Storage; Glucosinolates; Humans; Isothiocyanates; Kinetin; Nutritive Value; Oxidoreductases; Pigments, Biological; Plant Growth Regulators; Plant Proteins, Dietary; Plant Stems; Purines; Sulfoxides; Thiocyanates

6-Benzylaminopurine (6-BA) has a close relationship with the stress resistance of plants. Little research has been carried out on the effects of 6-BA on the cold resistance of postharvest fruits and vegetables. Therefore the aim of the present study was to evaluate the effects of 6-BA on chilling injury (CI), antioxidant system and energy status in cucumber during storage.. The results showed that 6-BA at 50 mmol L(-1) was most effective to restrain CI in cucumber fruit. Fruits treated with 50 mmol L(-1) 6-BA maintained higher levels of chlorophyll, ascorbic acid, total phenolics and total antioxidant capacity. Furthermore, this treatment reduced the increases in membrane permeability and lipid peroxidation, delayed the increases in both rate of O2•- production and H2O2 content and increased the activities of superoxide dismutase (SOD), catalase (CAT), ascorbate peroxidase (APX) and glutathione reductase (GR) under chilling stress. The treatment also increased the content of adenosine triphosphate (ATP) and resulted in a higher level of energy charge.. These results indicated that 6-BA alleviated CI in cucumber fruit through improving antioxidant enzyme activities and total antioxidant capacity and maintaining higher levels of ATP content and energy charge.

Topics: Adaptation, Physiological; Adenine Nucleotides; Antioxidants; Benzyl Compounds; Chlorophyll; Cold Temperature; Cucumis sativus; Eledoisin; Energy Metabolism; Food Preservation; Fruit; Hydrogen Peroxide; Kinetin; Malondialdehyde; Purines; Reactive Oxygen Species

This study tested whether an inducible isoform of heme oxygenase (HO, EC 1.14.99.3), HO-1, is involved in the cytokinin (CTK)-induced alleviation of senescence in detached wheat (Triticum aestivum L.) leaves during dark incubation. We discovered that exogenous supplement of 6-benzylaminopurine (6-BA) at 10 μM for 48 h not only delayed the dark-induced loss of chlorophyll and protein contents in detached wheat leaves, but also significantly increased HO activity in a time-dependent manner. This induction reached a maximum within 3h of 6-BA supply, which was further confirmed by using semi-quantitative RT-PCR and protein gel blot analysis. Furthermore, the decreases in intracellular thiobarbituric acid reactive substances (TBARS) content, and the increases in the transcript level, total and isozymatic activities of some important antioxidant enzymes, such as catalase (CAT, EC 1.11.1.6), peroxidase (POD, EC 1.11.1.7), superoxide dismutase (SOD, EC 1.15.1.1), and ascorbate peroxidase (APX, EC 1.11.1.11), were observed. Reversed responses of chlorophyll, protein and TBARS contents, HO activity, and the expression of above antioxidant enzymes were observed when zinc protoporphyrin-IX (ZnPPIX), a potent HO-1 inhibitor, was added together with 6-BA. In contrast, HO-1 inducer hemin could partially mimic the effects of 6-BA. Together, the results suggest that HO-1 might be involved in the CTK-induced alleviation of senescence and lipid peroxidation in detached wheat leaves.

Topics: Antioxidants; Ascorbate Peroxidases; Benzyl Compounds; Catalase; Cellular Senescence; Chlorophyll; Cytokinins; Darkness; Heme Oxygenase-1; Hemin; Lipid Peroxidation; Peroxidases; Plant Leaves; Plant Proteins; Protoporphyrins; Purines; Reverse Transcriptase Polymerase Chain Reaction; Thiobarbituric Acid Reactive Substances; Time Factors; Triticum

Chinese flowering cabbage is one of the main leafy vegetables produced in China. They have a rapid leaf yellowing due to chlorophyll degradation after harvest that limits their marketing. In the present study, leaf senescence of the cabbages was manipulated by ethylene and 6-benzyl aminopurine (6-BA) treatment to investigate the correlation of leaf senescence and chlorophyll degradation related to gene expression/activities in the darkness. The patterns of several senescence associated markers, including a typical marker, the expression of senescence-associated gene SAG(12), demonstrated that ethylene accelerated leaf senescence of the cabbages, while 6-BA retarded this progress. Similar to the trends of BrSAG(12) gene expression, strong activation in the expression of three chlorophyll degradation related genes, pheophytinase (BrPPH), pheophorbide a oxygenase (BrPAO) and red chlorophyll catabolite reductase (BrRCCR), was detected in ethylene treated and control leaves during the incubation, while no evident increase was recorded in 6-BA treated leaves. The overall dynamics of Mg-dechelatase activities in all treatments displayed increasing trends during the senescence process, and a delayed increase in the activities was observed for 6-BA treated leaves. However, chlorophyllase activity as well as the expression of BrChlase1 and BrChlase2 decreased with the incubation in all treatments. Taken together, the expression of BrPPH, BrPAO and BrRCCR, and the activity of Mg-dechelatase was closely associated with the chlorophyll degradation during the leaf senescence process in harvested Chinese flowering cabbages under dark conditions.

Topics: Benzyl Compounds; Biomarkers; Brassica rapa; Carboxylic Ester Hydrolases; Chlorophyll; Enzymes; Ethylenes; Gene Expression Regulation, Enzymologic; Gene Expression Regulation, Plant; Kinetin; Oxidoreductases; Oxygenases; Plant Growth Regulators; Plant Leaves; Purines

Piper betle L., a dioecious shade-loving perennial climber is one of the important Pan-Asiatic plants. More than hundred landraces having marked variation in leaf chlorophyll (Chl) content are in cultivation in India. In this study, role of chlorophyllase (Chlase) in Chl homeostasis and post-harvest breakdown was investigated in two contrasting P. betle landraces Kapoori Vellaikodi (KV) with light green and Khasi Shillong (KS) with dark green leaves. The two landraces showed negative correlation between Chl content and Chlase activity in fresh as well as stored leaves. Accumulation of chlorophyllide a (Chlid a) was correlated with the level of Chlase activity, which was higher in KV than KS. The overall response of abscisic acid (ABA) and benzylaminopurine (BAP) was similar in KV and KS, however, the time-course was different. ABA-induced Chl loss was accompanied by rise in Chlase activity in KV and KS and the delay in Chl loss by BAP was accompanied by reduction in Chlase activity. While there were significant differences in Chlase activity in KV and KS, only minor differences were observed in the enzyme properties like pH and temperature optima, Km and Vmax. No landrace-related differences were observed on the effect of metal ions and functional group reagents/amino acid effectors on Chlase activity. These results showed that despite significant differences in Chl content and Chlase activity between landraces KV and KS, the properties of Chlase were similar. The findings show that in P. betle Chlase is involved in Chl homeostasis and also in Chl degradation during post-harvest storage and responds to hormonal regulations. These findings might be useful in predicting the stability of Chl during post-harvest storage and also the shelf-life in other P. betle landraces.

Topics: Abscisic Acid; Aging; Benzyl Compounds; Carboxylic Ester Hydrolases; Chlorophyll; Chlorophyllides; Homeostasis; Hormones; India; Piper betle; Plant Leaves; Purines

Changes in primary metabolism of lettuce, Lactuca sativa L. (cv. Cobham Green), induced by compatible interaction with the biotrophic oomycete pathogen Bremia lactucae Regel (race BL 16), under two intensities of illumination in the presence and absence of exogenous cytokinins were studied by chlorophyll fluorescence imaging. Thirteen days post-inoculation leaf discs infected by B. lactucae exhibited impairments of photosynthesis associated with biotrophic infections, including: reductions in photosynthetic pigment contents and the maximum quantum yield of photosystem II photochemistry (F(V)/F(M)), inhibition of electron transport (Phi(PSII)) and increased non-photochemical chlorophyll fluorescence quenching (NPQ). Detected changes in photosynthetic parameters correlated with the leaf area colonized by the pathogen's intercellular hyphae. Applications of two cytokinins, benzylaminopurine and meta-topolin, previously shown to suppress B. lactucae sporulation if applied 24 h prior to inoculation at a concentration of 200 microM, retarded the pathogen's asexual reproduction with no apparent negative effects on the host's photosynthetic apparatus. However, long-lasting treatment of healthy tissues with this high concentration of exogenous cytokinin led to effects parallel to pathogenesis: reductions in photosynthetic pigment contents accompanied by inhibition of photosystem II photochemistry and electron transport. These effects of both prolonged exposure to cytokinins and the pathogenesis were weaker in discs exposed to the lower photosynthetic photon flux density. The role of cytokinins in plant-biotrophic pathogen interactions and their potential as disease control agents are discussed.

Topics: Benzyl Compounds; Chlorophyll; Chloroplasts; Cytokinins; Fluorescence; Host-Pathogen Interactions; Lactuca; Microscopy, Electron, Transmission; Oomycetes; Photosynthesis; Photosystem II Protein Complex; Plant Diseases; Plant Growth Regulators; Plant Leaves; Purines

Arabidopsis halleri is increasingly employed as a model plant for studying heavy metal hyperaccumulation. With the aim of providing valuable tools for studies on cellular physiology and molecular biology of metal tolerance and transport, this study reports the development of successful and highly efficient methods for the in vitro regeneration of A. halleri plants and production of stable cell suspension lines. Plants were regenerated from leaf explants of A. halleri via a three-step procedure: callus induction, somatic embryogenesis and shoot development. Efficiency of callus proliferation and regeneration depended on the initial callus induction media and was optimal in the presence of 1 mg L(-1) 2,4-dichlorophenoxyacetic acid, and 0.05 mg L(-1) benzylaminopurine. Subsequent shoot and root regeneration from callus initiated under these conditions reached levels of 100% efficiency. High friability of the callus supported the development of cell suspension cultures with minimal cellular aggregates. Characterization of regenerated plants and cell cultures determined that they maintained not only the zinc tolerance and requirement of the whole plant but also the ability to accumulate zinc; with plants accumulating up to 50.0 micromoles zinc g(-1) FW, and cell suspension cultures 30.9 micromoles zinc g(-1) DW. Together this work will provide the experimental basis for furthering our knowledge of A. halleri as a model heavy metal hyperaccumulating plant.

Topics: 2,4-Dichlorophenoxyacetic Acid; Benzyl Compounds; Brassicaceae; Cells, Cultured; Chlorophyll; Plant Growth Regulators; Plant Leaves; Purines; Regeneration; Time Factors; Tissue Culture Techniques; Zinc

Increased oxidative stress displayed during dark-senescence of wheat leaves (Triticum aestivum L.) is caused not only by the increased levels of radicals but also by a loss of antioxidant capacity. Mature leaves were incubated in 6-benzylaminopurine (BAP 10(-4)M) or water (control) during 6d in the dark. The senescence-delaying effect of BAP was associated with the retention of the chloroplast structure, 60% of the initial content of chlorophyll (Chl) and 77% of the initial content of protein. BAP reduced the degradation of the light-harvesting chlorophyll a/b binding protein (LHCP-2), and the large (LSU) and small subunits (SSU) of Rubisco. Our results indicated that the presence of the NADPH:protochlorophyllide oxidoreductase (POR, EC.1.6.99.1) was not promoted by the cytokinin, leading to the conclusion that BAP maintains the level of Chl, preventing its degradation, rather than inducing Chl biosynthesis. The internal structure of chloroplasts was maintained in BAP-treated leaves for up to 6d, with well-organized grana thylakoids and small plastoglobuli; in contrast, chloroplasts of control leaves deteriorated rapidly from day 4 with disorganized internal membranes, and more and larger plastoglobuli. BAP increased the activities of catalase (CAT, EC 1.11.1.6) and ascorbate peroxidase (APX, EC 1.11.1.11) and reduced the level of H(2)O(2) in the delayed-senescence tissue. The present research indicates that BAP reduces levels of reactive oxygen species (ROS), and enhances the activity of antioxidant enzymes (CAT, APX). Our results suggest that BAP protects the cell membranes and the photosynthetic machinery from oxidative damage during delay of senescence in the dark.

Topics: Antioxidants; Ascorbate Peroxidases; Benzyl Compounds; Carotenoids; Catalase; Cell Membrane; Cellular Senescence; Chlorophyll; Chloroplasts; Cytokinins; Darkness; Immunoblotting; Oxidation-Reduction; Peroxidases; Photosynthesis; Pigments, Biological; Plant Leaves; Plant Proteins; Purines; Triticum; Xanthophylls

Senescence is a phase of leaf ontogeny marked by declining photosynthetic activity that is paralleled by a decline in chloroplast function. The photosystem II in a plant is considered to be the primary site where delayed fluorescence (DF) is produced. We report here a simple, rapid, and non-invasive technique for detecting plants senescence based on quantitative measurements of DF. In the experimental study, various senescence symptoms induced by age or hormones were examined in the Catharanthus roseus L. G. Don plants. Detecting the DF emissions from leaves with a home-made DF biosensor enables DF parameters of C. roseus to be produced in a short time. Meanwhile, evaluations of leaves senescence were made from measurements of chlorophyll content, ion leakage, and net photosynthesis rate (Pn) based on the consumption of CO2 in the tested plants. The results of our investigation demonstrate that the changes in DF intensity of green plants can truly reflect the changes in photosynthetic capacity and chlorophyll content during age-dependent and hormone-modulated senescence. Moreover, the DF intensity negatively correlates with ion leakage in both types of senescence. With proper calibration, DF may provide an important approach for monitoring senescence process in vivo and quantitatively evaluating senescence extent. Therefore, a DF technique could be potentially useful for less time-consuming and automated screening of the interesting mutants with genetic modifications that change the plant senescence progress.

Topics: Acetates; Benzyl Compounds; Catharanthus; Cellular Senescence; Chlorophyll; Cyclopentanes; Fluorescence; Kinetin; Oxylipins; Photosynthesis; Photosystem II Protein Complex; Plant Growth Regulators; Plant Leaves; Purines; Spectrometry, Fluorescence

The chlorophyll a (Chl a) fluorescence technique was applied to investigate damage of PS II during senescence of excised half-fronds in Spirodela polyrrhiza P143. The green explants showed a typical Chl a fluorescence transient, OJIP. After cultivation of explants under long-day conditions for 8 days, all the J, I, and P steps disappeared, but a clear K band, an indication of senescence, was observed. JIP-test showed that at this time point, the photosynthetic performance index (PI) dropped to zero and the active reaction center (RC) per leaf cross-section (RC/CS) declined to 18%. As the oxygen-evolving complex (OEC) and the chlorophyll content all remained above 42%, it is proposed that the decline in RC contributes more to the appearance of the K band. Supplementation of 6-benzyladenine (6-BA) into the medium at the beginning of cultivation caused dramatic increase in PI, OEC, RC/CS, and chlorophyll content, and at any time before the 8th day reversed the senescence process of the explants. When 6-BA was added after 8 days of cultivation, the PI did not increase anymore, RC/CS and OEC were maintained at 22% and above 40%, respectively, and chlorophyll content decreased continuously further. These data support a view that the decline in RC is crucial for initiation of the irreversible senescence phase of explants cultivated under long-day conditions.

Topics: Benzyl Compounds; Chlorophyll; Chlorophyll A; Fluorescence; Kinetin; Magnoliopsida; Photosystem II Protein Complex; Purines

The protective effect of a cytokinin benzyladenine (BA), against toxicity of paraquat (PQ), a widely used herbicide and a well-known oxidative stress inducer, was investigated in the leaves of maize. Maize leaves have been pretreated with BA at concentrations of 1, 10 and 100 microM and afterwards treated with PQ. At all concentrations tested, BA retarded PQ-induced decreases in chlorophyll, carotenoid and ascorbic acid contents. Pretreatment with 10 and 100 microM of BA significantly increased superoxide dismutase (SOD) activity after 8 h of PQ treatment but there was no significant change in SOD activity in the leaves pretreated with BA at 12 and 24 h. However, peroxidase activity significantly increased in 100 microM of BA pretreated leaves. Results indicate that pretreatment with BA reduce PQ toxicity and BA-treated plants might become more tolerant against oxidative stress.

Topics: Adenine; Antioxidants; Ascorbic Acid; Benzyl Compounds; Carotenoids; Chlorophyll; Dose-Response Relationship, Drug; Drug Synergism; Herbicides; Kinetin; Oxidative Stress; Paraquat; Photosynthesis; Plant Growth Regulators; Plant Leaves; Purines; Superoxide Dismutase; Time Factors; Zea mays

A wheat ethylene receptor homologue (W-er1) was isolated from a wheat stem cDNA library using the Arabidopsis ETR1 cDNA as a probe. The predicted amino acid sequence of W-er1 is over 70% similar to ERS1 from Arabidopsis and exhibits homology to bacterial two-component response regulators within the histidine kinase domain. Northern hybridization demonstrated that W-er1 was expressed in stem, leaf and root tissues. Treatments known to induce senescence of detached leaves including jasmonate, abscisic acid and wounding, increased the accumulation of W-er1 mRNA, while benzyladenine treatment did not. These data suggest that W-er1 may play a role in the process of leaf senescence.

Topics: Abscisic Acid; Adenine; Amino Acid Sequence; Arabidopsis Proteins; Benzyl Compounds; Blotting, Northern; Chlorophyll; Cyclopentanes; DNA, Complementary; Gene Expression Regulation, Developmental; Gene Expression Regulation, Plant; Kinetin; Molecular Sequence Data; Oxylipins; Plant Leaves; Plant Proteins; Purines; Receptors, Cell Surface; RNA, Messenger; Sequence Analysis, DNA; Stress, Mechanical; Triticum