Your search keyword '"Daucus carota drug effects"' showing total 32 results

1. Seed priming with potassium nitrate alleviates the high temperature stress by modulating growth and antioxidant potential in carrot seeds and seedlings.

Author

Mahmood Ur Rehman M, Liu J, Nijabat A, Alsudays IM, Saleh MA, Alamer KH, Attia H, Ziaf K, Zaman QU, and Amjad M

Subjects

Hot Temperature, Antioxidants metabolism, Seedlings growth & development, Seedlings drug effects, Seedlings physiology, Nitrates metabolism, Nitrates pharmacology, Seeds drug effects, Seeds growth & development, Seeds physiology, Daucus carota growth & development, Daucus carota drug effects, Daucus carota physiology, Potassium Compounds pharmacology, Germination drug effects

Abstract

Early season carrot (Daucus carota) production is being practiced in Punjab, Pakistan to meet the market demand but high temperature hampers the seed germination and seedling establishment which cause marked yield reduction. Seed priming with potassium nitrate breaks the seed dormancy and improves the seed germination and seedling growth potential but effects vary among the species and ecological conditions. The mechanism of KNO 3 priming in high temperature stress tolerance is poorly understood yet. Thus, present study aimed to evaluate high temperature stress tolerance potential of carrot seeds primed with potassium nitrate and impacts on growth, physiological, and antioxidant defense systems. Carrot seeds of a local cultivar (T-29) were primed with various concentration of KNO 3 (T 0 : unprimed (negative control), T 1 : hydroprimed (positive control), T 2 : 50 mM, T 3 :100mM, T 4 : 150 mM, T 5 : 200 mM, T 6 : 250 mM and T 7 : 300 mM) for 12 h each in darkness at 20 ± 2℃. Seed priming with 50 mM of KNO 3 significantly enhanced the seed germination (36%), seedling growth (28%) with maximum seedling vigor (55%) and also exhibited 16.75% more carrot root biomass under high temperature stress as compared to respective control. Moreover, enzymatic activities including peroxidase, catalase, superoxidase dismutase, total phenolic contents, total antioxidants contents and physiological responses of plants were also improved in response to seed priming under high temperature stress. By increasing the level of KNO 3 , seed germination, growth and root biomass were reduced. These findings suggest that seed priming with 50 mM of KNO 3 can be an effective strategy to improve germination, growth and yield of carrot cultivar (T-29) under high temperature stress in early cropping. This study also proposes that KNO 3 may induces the stress memory by heritable modulations in chromosomal structure and methylation and acetylation of histones that may upregulate the hormonal and antioxidant activities to enhance the stress tolerance in plants., (© 2024. The Author(s).)

Published

2024

2. Physiological and genetic effects of cadmium and copper mixtures on carrot under greenhouse cultivation.

Author

An Q, He X, Zheng N, Hou S, Sun S, Wang S, Li P, Li X, and Song X

Subjects

Antioxidants metabolism, Cadmium analysis, Copper analysis, Daucus carota physiology, Malondialdehyde metabolism, Metals, Heavy analysis, Metals, Heavy toxicity, Oxidative Stress drug effects, Plant Development genetics, Cadmium toxicity, Copper toxicity, Daucus carota drug effects, Gene Expression Regulation, Plant drug effects

Abstract

The exposure to combinations of heavy metals can affect the genes of vegetables and heavy metals would accumulate in vegetables and thereby indirectly affecting human health. Exploring the links between genetic changes and phenotypic changes of carrot under the combined pollution of Cd and Cu is of great significance for studying the mechanism of heavy metal pollution. Therefore, this study examined the effects of mixtures of cadmium (Cd) and copper (Cu) on physiological measures (malondialdehyde (MDA), proline, and antioxidant enzyme) and expression of growth-related genes (gibberellin gene, carotene gene, and glycogene) in carrot under greenhouse cultivation. The results showed in the additions with mixtures of Cd and Cu at higher concentration, the MDA content increased significantly (p < 0.05), whereas the proline content was not significantly different from those in the control. In the mixed treatments with high Cd concentrations, the activity of superoxide dismutase (SOD) was significantly lower than that in the control (p < 0.05); whereas the activity of peroxidase (POD) increased to different degrees compared to the control. In the additions with mixtures of Cd and Cu, compared with the control, the expression of the gibberellin gene was downregulated from 1.97 to 20.35 times (not including the 0.2 mg kg -1 Cd and 20 mg kg -1 Cu mixture, the expression of gibberellin gene in this treatment was upregulated 1.29 times), which lead to decreases in the length and dry weight of carrots. The expression of the carotene gene in mixed treatments downregulated more than that in single treatments, which could reduce the ability of carrots to resist oxidative damage, as suggested by the significant increase in the MDA content. In the addition with mixtures of Cd and Cu, compared with the control, the expression of the glycogene was downregulated by 1.42-59.40 times, which can cause a significant reduction in the sugar content in carrots and possibly further reduce their ability to resist heavy metal damage. A cluster analysis showed that in the additions with mixtures of Cd and Cu, the plant phenotype was affected first, and then with increases in the added concentration, the expression of genes was also affected. In summary, in the additions with mixtures of Cd and Cu, plants were damaged as Cd and Cu concentrations increased., (Copyright © 2020 Elsevier Inc. All rights reserved.)

Published

2020

3. Ultrasonication assisted salt-spices impregnation in black carrots to attain anthocyanins stability, quality retention and antimicrobial efficacy on hot-air convective drying.

Author

Sucheta, Chaturvedi K, and Yadav SK

Subjects

Anthocyanins pharmacology, Anti-Infective Agents analysis, Anti-Infective Agents pharmacology, Color, Daucus carota drug effects, Food Quality, Hot Temperature, Solubility, Anthocyanins analysis, Daucus carota chemistry, Desiccation methods, Food Preservation methods, Sodium Chloride, Dietary pharmacology, Sonication, Spices

Abstract

The present study aims at optimisation of enhanced solute impregnation through ultrasonication (US) at 37 kHz using central composite design of response surface methodology (RSM). Black carrots were blanched at 98 °C/3 min followed by immersion in salt-spices based solutions for 8 h, treated with bath sonication at specific intervals (2, 4 & 6 h) for 5, 10 and 15 min. Responses for optimum water loss (WL), solute gain (SG), anthocyanins retention, texture and highest antioxidant activity were optimized in effect of NaCl%, spices mix% and US time. The suggested models were of good fit while lack of fit as non-significant (p < 0.0500). Best combination was compared for anthocyanins retention on pressure-cooking (120 °C/15 psi) with fresh, blanched, salt-spiced without US subjected to hot-air convective drying (55 °C/5 h). Ultrasonication-assisted salt-spiced convective dried (USPCD) carrots retained highest anthocyanin content (41%) post cooking which correlated with increased glass transition (T g ) and antimicrobial efficacy (as zone of inhibition) in comparison to fresh, blanched convective dried (BCD) and salt-spiced convective dried (SPCD) carrots. FTIR spectra suggested the correlation of textural effects with pectin degradation and solute impregnation. XRD spectra revealed changes in pectin (2θ = 22.06°) and NaCl crystallinity peaks at 2θ = 27.49, 31.86, 45.62, 56.68, 66.45 and 75.43°, owing to the processing of black carrots. The spectra also confirmed higher solute impregnation in USPCD than SPCD carrots. Scanning electron micrographs of USPCD also indicated higher impregnation through smallest pores visible in longitudinal section of carrot tissue structure, which also appeared to be polymeric network filled with higher solutes than SPCD. Taken together, US assisted solute impregnation might have provided protection to the anthocyanins degradation as well as retention of other quality parameters on processing., (Copyright © 2019 Elsevier B.V. All rights reserved.)

Published

2019

4. Effects of cadmium and copper mixtures to carrot and pakchoi under greenhouse cultivation condition.

Author

Hou S, Zheng N, Tang L, and Ji X

Subjects

Animals, Ascorbic Acid metabolism, Biomass, Brassica growth & development, Brassica metabolism, Daucus carota growth & development, Daucus carota metabolism, Plant Roots drug effects, Plant Roots growth & development, Plant Roots metabolism, Sugars metabolism, Vegetables drug effects, Vegetables growth & development, Vegetables metabolism, beta Carotene metabolism, Brassica drug effects, Cadmium toxicity, Copper toxicity, Daucus carota drug effects, Soil Pollutants toxicity

Abstract

A pot experiment was undertaken to investigate the effects of Cd and Cu mixtures to growth and nutrients (sugar, carotene or vitamin C) of carrot and pakchoi under greenhouse cultivation condition. The study included: (a) physical-chemical properties of soil and soil animals in response to Cd and Cu stress; (b) bioaccumulation of heavy metals, length, biomass, contents of sugar and carotene (vitamin C) of carrot and pakchoi; (c) estimation the effects of Cd and Cu mixtures by multivariate regression analysis. The results implied that heavy metals impacted negative influence on soil animals' abundance. The metals contents in plants increased obviously with Cd and Cu contamination in soil. The biomass production and nutrients declined with Cd and Cu contents increasing. Cd (20 mg kg -1 ) treatment caused maximum reduction of sugar content (45.29%) in carrot root; maximum reduction in carotene content (75.73%) in carrot, 75.1% sugar content reduction and 70.58% vitamin C content reduction in pakchoi shoots were observed with addition of Cd (20 mg kg -1 ) and Cu (400 mg kg -1 ) mixture. The results of multivariate regression analysis indicated that combination of Cd and Cu exerts negative effects to both carrot and pakchoi, and both growth and nutrients were negatively correlated with metals concentrations. It is concluded that the Cd and Cu mixtures caused toxic damage to vegetable plants as Cd and Cu gradient concentrations increased., (Copyright © 2018. Published by Elsevier Inc.)

Published

2018

5. Foliar-applied ethephon enhances the content of anthocyanin of black carrot roots (Daucus carota ssp. sativus var. atrorubens Alef.).

Author

Barba-Espín G, Glied S, Crocoll C, Dzhanfezova T, Joernsgaard B, Okkels F, Lütken H, and Müller R

Subjects

Daucus carota metabolism, Ethylenes metabolism, Plant Roots metabolism, Anthocyanins metabolism, Daucus carota drug effects, Organophosphorus Compounds pharmacology, Plant Roots drug effects

Abstract

Background: Black carrots (Daucus carota ssp. sativus var. atrorubens Alef.) constitute a valuable source of anthocyanins, which are used as natural red, blue and purple food colourants. Anthocyanins and phenolic compounds are specialised metabolites, accumulation of which often requires elicitors, which act as molecular signals in plant stress responses. In the present study, ethephon, an ethylene-generating compound was explored as enhancer of anthocyanin and phenolic contents during growth of 'Deep Purple' black carrots. The effects of ethephon on several parameters were investigated, and the expression of biosynthetic anthocyanin genes was studied during growth and anthocyanin accumulation., Results: Roots of ethephon-treated carrot plants exhibited an increase in anthocyanin content of approximately 25%, with values ranging from 2.25 to 3.10 mg g -1 fresh weight, compared with values ranging from 1.50 to 1.90 mg g -1 fresh weight in untreated roots. The most rapid accumulation rate for anthocyanins, phenolic compounds, soluble solids and dry matter was observed between 10 and 13 weeks after sowing in both untreated and ethephon-treated carrots. The differences in anthocyanin contents between untreated and treated carrots increased for several weeks after the ethephon treatment was terminated. Five cyanidin-based anthocyanin forms were identified, with variable relative abundance values detected during root growth. Overall, the expression of the anthocyanin biosynthetic genes analysed (PAL1, PAL3, F3H1, DFR1, LDOX2) increased in response to ethephon treatment, as did the expression of the MYB1 transcription factor, which is associated with activation of the phenylpropanoid pathway under stress conditions. In addition, a correlation was proposed between ethylene and sugar contents and the induction of anthocyanin synthesis., Conclusions: This study presents a novel method for enhancing anthocyanin content in black carrots. This finding is of economic importance as increased pigment concentration per unit of biomass implies improved profitability parameters in food colour production. We provide new insight into the accumulation patterns of the different cyanidin-based anthocyanins and phenolic compounds during root growth. Moreover, we show that enhanced anthocyanin content in ethephon-treated carrots is accompanied by increased expression of anthocyanin biosynthetic genes.

Published

2017

6. Phytotoxicity of veterinary antibiotics to seed germination and root elongation of crops.

Author

Pan M and Chu LM

Subjects

Animals, Chloramphenicol toxicity, Cucumis sativus drug effects, Daucus carota drug effects, Erythromycin toxicity, Lactuca drug effects, Solanum lycopersicum drug effects, Norfloxacin toxicity, Plant Roots drug effects, Plant Roots growth & development, Quantitative Structure-Activity Relationship, Seeds drug effects, Sulfamethazine toxicity, Tetracycline toxicity, Veterinary Drugs toxicity, Anti-Bacterial Agents toxicity, Crops, Agricultural drug effects, Germination drug effects, Soil Pollutants toxicity

Abstract

Large quantities of veterinary antibiotics (VAs) are being used worldwide in agricultural fields through wastewater irrigation and manure application. They cause damages to the ecosystem when discharged into the environment, but there is a lack of information on their toxicity to plants and animals. This study evaluated the phytotoxic effects of five major VAs, namely tetracycline (TC), sulfamethazine (SMZ), norfloxacin (NOR), erythromycin (ERY) and chloramphenicol (CAP), on seed germination and root elongation in lettuce, tomato, carrot and cucumber, and investigated the relationship between their physicochemical properties and phytotoxicities. Results show that these compounds significantly inhibited root elongation (p<0.05), the most sensitive endpoint for the phytotoxicity test. TC was associated with the highest level of toxicity, followed by NOR, ERY, SMZ and CAP. Regarding crop species, lettuce was found to be sensitive to most of the VAs. The median effect concentration (EC50) of TC, SMZ, NOR, ERY and CAP to lettuce was 14.4, 157, 49.4, 68.8 and 204 mg/L, respectively. A quantitative structure-activity relationship (QSAR) model has been established based on the measured data. It is evident that hydrophobicity was the most important factor governing the phytotoxicity of these compounds to seeds, which could be explained by the polar narcosis mechanism. Lettuce is considered a good biomarker for VAs in the environment. According to the derived equation, phytotoxicities of selected VA compounds on different crops can be calculated, which could be applicable to other VAs. Environmental risks of VAs were summarized based on the phytotoxicity results and other persistent factors., (Copyright © 2015 Elsevier Inc. All rights reserved.)

Published

2016

7. Selection of suitable reference genes for qPCR normalization under abiotic stresses and hormone stimuli in carrot leaves.

Author

Tian C, Jiang Q, Wang F, Wang GL, Xu ZS, and Xiong AS

Subjects

Abscisic Acid pharmacology, Acetates pharmacology, Cold Temperature, Cyclopentanes pharmacology, Daucus carota drug effects, Droughts, Gene Expression Regulation, Plant drug effects, Gene Expression Regulation, Plant physiology, Gibberellins pharmacology, Hot Temperature, Oxylipins pharmacology, Plant Growth Regulators pharmacology, Plant Leaves drug effects, Salicylic Acid pharmacology, Sodium Chloride pharmacology, Daucus carota genetics, Genes, Essential, Genes, Plant, Plant Leaves physiology, Real-Time Polymerase Chain Reaction standards, Stress, Physiological genetics

Abstract

Carrot, a biennial herb of the Apiaceae family, is among the most important vegetable crops in the world. In this study, nine candidate reference genes (GAPDH, ACTIN, eIF-4α, PP2A, SAND, TIP41, UBQ, EF-1α, and TUB) were cloned from carrot. Carrot plants were subjected to abiotic stresses (heat, cold, salt, and drought) and hormone stimuli (gibberellin, salicylic acid, methyl jasmonate, and abscisic acid). The expression profiles of the candidate reference genes were evaluated in three technical and biological replicates. Real-time qPCR data analyses were performed using three commonly used Excel-based applets namely, BestKeeper, geNorm, and NormFinder. ACTIN and TUB were the most stable genes identified among all sample groups, but individual analysis revealed changes in their expression profiles. GAPDH displayed the maximum stability for most of single stresses. To further validate the suitability of the reference genes identified in this study, the expression profile of DcDREB-A1 gene (homolog of AtDREB-A1 gene of Arabidophsis) was studied in carrot. The appropriate reference genes were selected that showed stable expression under the different experimental conditions.

Published

2015

8. Phytotoxicity and accumulation of chromium in carrot plants and the derivation of soil thresholds for Chinese soils.

Author

Ding C, Li X, Zhang T, Ma Y, and Wang X

Subjects

Biomass, China, Chromium metabolism, Daucus carota growth & development, Daucus carota metabolism, Food Safety, Linear Models, Soil, Soil Pollutants metabolism, Chromium toxicity, Daucus carota drug effects, Soil Pollutants toxicity

Abstract

Soil environmental quality standards in respect of heavy metals for farmlands should be established considering both their effects on crop yield and their accumulation in the edible part. A greenhouse experiment was conducted to investigate the effects of chromium (Cr) on biomass production and Cr accumulation in carrot plants grown in a wide range of soils. The results revealed that carrot yield significantly decreased in 18 of the total 20 soils with Cr addition being the soil environmental quality standard of China. The Cr content of carrot grown in the five soils with pH>8.0 exceeded the maximum allowable level (0.5mgkg(-1)) according to the Chinese General Standard for Contaminants in Foods. The relationship between carrot Cr concentration and soil pH could be well fitted (R(2)=0.70, P<0.0001) by a linear-linear segmented regression model. The addition of Cr to soil influenced carrot yield firstly rather than the food quality. The major soil factors controlling Cr phytotoxicity and the prediction models were further identified and developed using path analysis and stepwise multiple linear regression analysis. Soil Cr thresholds for phytotoxicity meanwhile ensuring food safety were then derived on the condition of 10 percent yield reduction., (Copyright © 2014 Elsevier Inc. All rights reserved.)

Published

2014

9. Modulation of plant TPC channels by polyunsaturated fatty acids.

Author

Gutla PV, Boccaccio A, De Angeli A, Gambale F, and Carpaneto A

Subjects

Arabidopsis drug effects, Arabidopsis Proteins metabolism, Arachidonic Acid chemistry, Calcium metabolism, Calcium Channels metabolism, Daucus carota drug effects, Electrophysiology, Fatty Acids, Unsaturated chemistry, Ion Channel Gating, Kinetics, Linoleic Acid metabolism, Membrane Potentials, Mesophyll Cells physiology, Models, Biological, Oleic Acids metabolism, Patch-Clamp Techniques, Plant Proteins metabolism, Plant Roots drug effects, Plant Roots physiology, alpha-Linolenic Acid metabolism, Arabidopsis physiology, Arachidonic Acid pharmacology, Daucus carota physiology, Fatty Acids, Unsaturated pharmacology, Ion Channels metabolism, Vacuoles metabolism

Abstract

Polyunsaturated fatty acids (PUFAs) are powerful modulators of several animal ion channels. It is shown here that PUFAs strongly affect the activity of the Slow Vacuolar (SV) channel encoded by the plant TPC1 gene. The patch-clamp technique was applied to isolated vacuoles from carrot taproots and Arabidopsis thaliana mesophyll cells and arachidonic acid (AA) was chosen as a model molecule for PUFAs. Our study was extended to different PUFAs including the endogenous alpha-linolenic acid (ALA). The addition of micromolar concentrations of AA reversibly inhibited the SV channel decreasing the maximum open probability and shifting the half activation voltage to positive values. Comparing the effects of different PUFAs, it was found that the length of the lipophilic acyl chain, the number of double bonds and the polar head were critical for channel modulation.The experimental data can be reproduced by a simple three-state model, in which PUFAs do not interact directly with the voltage sensors but affect the voltage-independent transition that leads the channel from the open state to the closed configuration. The results indicate that lipids play an important role in co-ordinating ion channel activities similar to what is known from animal cells.

Published

2012

10. CorA, the magnesium/nickel/cobalt transporter, affects virulence and extracellular enzyme production in the soft rot pathogen Pectobacterium carotovorum.

Author

Kersey CM, Agyemang PA, and Dumenyo CK

Subjects

Amino Acid Sequence, Apium drug effects, Apium microbiology, Bacterial Proteins chemistry, Bacterial Proteins genetics, Cobalt toxicity, Daucus carota drug effects, Daucus carota microbiology, Enzymes chemistry, Enzymes genetics, Extracellular Space drug effects, Extrachromosomal Inheritance genetics, Gene Expression Regulation, Bacterial drug effects, Genetic Complementation Test, Membrane Transport Proteins chemistry, Membrane Transport Proteins genetics, Molecular Sequence Data, Mutant Proteins chemistry, Mutant Proteins isolation & purification, Mutant Proteins metabolism, Mutation genetics, Pectobacterium carotovorum genetics, Pectobacterium carotovorum growth & development, Peptide Hydrolases genetics, Peptide Hydrolases metabolism, Phenotype, Plant Diseases genetics, Plant Diseases microbiology, Polysaccharide-Lyases genetics, Polysaccharide-Lyases metabolism, Sequence Alignment, Virulence drug effects, Bacterial Proteins metabolism, Enzymes biosynthesis, Extracellular Space enzymology, Membrane Transport Proteins metabolism, Pectobacterium carotovorum enzymology, Pectobacterium carotovorum pathogenicity

Abstract

Pectobacterium carotovorum (formerly Erwinia carotovora ssp. carotovora) is a phytopathogenic bacterium that causes soft rot disease, characterized by water-soaked soft decay, resulting from the action of cell wall-degrading exoenzymes secreted by the pathogen. Virulence in soft rot bacteria is regulated by environmental factors, host and bacterial chemical signals, and a network of global and gene-specific bacterial regulators. We isolated a mini-Tn5 mutant of P. carotovorum that is reduced in the production of extracellular pectate lyase, protease, polygalacturonase and cellulase. The mutant is also decreased in virulence as it macerates less host tissues than its parent and is severely impaired in multiplication in planta. The inactivated gene responsible for the reduced virulent phenotype was identified as corA. CorA, a magnesium/nickel/cobalt membrane transporter, is the primary magnesium transporter for many bacteria. Compared with the parent, the CorA(-) mutant is cobalt resistant. The mutant phenotype was confirmed in parental strain P. carotovorum by marker exchange inactivation of corA. A functional corA(+) DNA from P. carotovorum restored exoenzyme production and pathogenicity to the mutants. The P. carotovorum corA(+) clone also restored motility and cobalt sensitivity to a CorA(-) mutant of Salmonella enterica. These data indicate that CorA is required for exoenzyme production and virulence in P. carotovorum., (© 2011 THE AUTHORS. MOLECULAR PLANT PATHOLOGY © 2011 BSPP AND BLACKWELL PUBLISHING LTD.)

Published

2012

11. Effectiveness of different EDU concentrations in ameliorating ozone stress in carrot plants.

Author

Tiwari S and Agrawal M

Subjects

Daucus carota physiology, Dose-Response Relationship, Drug, Environmental Monitoring, Lipid Peroxidation drug effects, Nitrogen Dioxide analysis, Photosynthesis drug effects, Sulfur Dioxide analysis, Air Pollutants toxicity, Daucus carota drug effects, Oxidative Stress drug effects, Ozone toxicity, Phenylurea Compounds pharmacology

Abstract

Ethylenediurea (EDU) is suggested for use to evaluate plant response under ambient ozone (O(3)) concentrations. Four EDU treatments, viz. 0 (non-EDU), 150, 300 and 450 mg L(-1), applied as soil drench at 10 days interval to carrot (Daucus carota L. var. Pusa Kesar), grown at a tropical suburban site of Varanasi experiencing mean O(3) concentration of 36.1 ppb during the experimental period. EDU treated plants showed significantly higher antioxidative defense, assimilation capability and reduced membrane lipid peroxidation, which led to better growth and significant yield increments compared to non-EDU treated ones. The magnitude of positive responses was highest at 150 mg L(-1) EDU treatment at 60 DAG, representing the metabolically most active phase of root filling in carrot. This study suggests that the lowest EDU concentration was sufficient to provide protection against negative effects of O(3)., (Copyright (c) 2010 Elsevier Inc. All rights reserved.)

Published

2010

12. The zinc binding site of the Shaker channel KDC1 from Daucus carota.

Author

Picco C, Naso A, Soliani P, and Gambale F

Subjects

Action Potentials drug effects, Animals, Binding Sites, Daucus carota drug effects, Female, Glutamic Acid, Ion Channel Gating drug effects, Kinetics, Lanthanum pharmacology, Mutant Proteins metabolism, Oocytes drug effects, Oocytes metabolism, Xenopus laevis, Daucus carota metabolism, Plant Proteins metabolism, Potassium Channels metabolism, Zinc metabolism

Abstract

KDC1 is a voltage-dependent Shaker-like potassium channel subunit cloned from Daucus carota which produces conductive channels in Xenopus oocytes only when coexpressed with other plant Shaker potassium subunits, such as KAT1 from Arabidopsis thaliana. External Zn(2+) determines a potentiation of the current mediated by the dimeric construct KDC1-KAT1, which has been ascribed to zinc binding at a site comprising three histidines located at the S3-S4 (H161, H162) and S5-S6 (H224) linkers of KDC1. Here we demonstrate that also glutamate 164, located in close proximity of the KDC1 S4 segment, is an essential component of the zinc-binding site. On the contrary, glutamate 159, located in symmetrical position with respect to E164 in the sequence E(159)XHHXE(164) but more distant from the voltage sensor, does not play any role in zinc binding. The effects of Zn(2+) can be expressed as a "shift" of the gating parameters along the voltage axis. Kinetic modeling shows that Zn(2+) slows the closing kinetics of KDC1-KAT1 without affecting the opening kinetics. Possibly, zinc affects the movement of the voltage sensor in and out of the membrane phase through electrostatic modification of a site close to the voltage sensor.

Published

2008

13. Differential effects of hexaconazole and paclobutrazol on biomass, electrolyte leakage, lipid peroxidation and antioxidant potential of Daucus carota L.

Author

Gopi R, Jaleel CA, Sairam R, Lakshmanan GM, Gomathinayagam M, and Panneerselvam R

Subjects

Agriculture, Amino Acids chemistry, Amino Acids metabolism, Antioxidants chemistry, Ascorbate Peroxidases, Biomass, Carbohydrates chemistry, Daucus carota chemistry, Daucus carota physiology, Electrolytes chemistry, Enzyme Activation drug effects, Fungicides, Industrial pharmacology, Glutathione chemistry, Glutathione metabolism, Peroxidases chemistry, Peroxidases drug effects, Peroxidases metabolism, Proline chemistry, Proline metabolism, Starch chemistry, Starch metabolism, Antioxidants metabolism, Daucus carota drug effects, Electrolytes metabolism, Lipid Peroxidation drug effects, Triazoles pharmacology

Abstract

The application of triazole fungicides is a common practice in the cultivation of carrot (Daucus carota L.) plants. It is there for seems important to test the changes that are occurring in this food crop under triazoles, the non-traditional plant growth regulators, treatments in order to identify the extent to which it tolerate the fungicide application and thereby make it an economical food crop. A field experiment was conducted to find out the effects of two triazole fungicides (hexaconazole (HEX) and paclobutrazol (PBZ) at 20mg l(-1) plant(-1)) on the biomass, yield, electrolyte leakage, lipid peroxidation and antioxidant potential of carrot. The treatments were given to plants on 15, 30 and 45 days after sowing (DAS). The plants were uprooted for analyses of growth and biochemical parameters on 60 DAS. It was found that both HEX and PBZ have significant effects on the growth and biochemical parameters of this plant. Among the triazoles used, PBZ performed best in terms of anthocyanin, protein, amino acid, proline, starch and sugar, contents whereas HEX enhanced carotenoids, fresh weight, dry weight and biomass. There was no significant variation in chlorophyll ('a' and 'b') contents between the two triazole treated plants, but HEX and PBZ proved best when compared to untreated control plants. HEX and PBZ increased alpha- and beta-amylases enzymes activities to a significant level. Out of these two triazoles, PBZ performed best in increasing the starch hydrolyzing enzymes activities. The non-enzymatic antioxidant, reduced glutathione (GSH) and antioxidant enzyme ascorbate peroxidase (APX) were increased under fungicide applications. The data suggests that, the application of triazole fungicides may be a useful tool to increase the tuber quality as well as quantity in carrot plants, apart from their fungicidal properties.

Published

2007

14. Evaluation of ambient air pollution impact on carrot plants at a suburban site using open top chambers.

Author

Tiwari S, Agrawal M, and Marshall FM

Subjects

Biomass, Daucus carota metabolism, Daucus carota physiology, India, Lipid Peroxidation drug effects, Nitrogen Dioxide toxicity, Ozone toxicity, Photosynthesis drug effects, Plant Proteins metabolism, Reproducibility of Results, Sulfur Dioxide toxicity, Air Pollutants toxicity, Air Pollution analysis, Daucus carota drug effects, Environmental Monitoring methods

Abstract

The present experiment was done to evaluate the impact of ambient air pollution on carrot (Dacus carota var. Pusa Kesar) plants using open top chambers (OTCs) ventilated with ambient (NFCs) or charcoal filtered air (FCs) at a suburban site of Varanasi, India. Various morphological, physiological and biochemical characteristics of the plants were studied at different growth stages. Air monitoring data clearly showed high concentrations of SO2, NO2 and O3 in the ambient air of study site. SO2 and NO2 concentrations were higher during early growth stages of carrot, whereas O3 concentration was highest during later growth stages. Filtration of air has caused significant reductions in all the three pollutant concentrations in FCs as compared to NFCs. Plants growing in FCs showed significantly higher photosynthetic rate, stomatal conductance, water use efficiency and variable fluorescence as compared to plants growing in NFCs. Protein content also showed a similar pattern, however, lipid peroxidation, ascorbic acid content and peroxidase activity were higher in plants growing in NFCs as compared to FCs. Shoot length, number of leaves per plant, leaf area and root and shoot weight increased significantly upon filtration of ambient air. Total nitrogen decreased significantly in root, but increased significantly in shoot of plants grown in NFCs. Total P, Mg, Ca and K contents decreased significantly in plants grown in NFCs as compared to FCs. The individual pollutant concentrations were below threshold for plant injury, but the combined effect of all the three seems to act synergistically in causing greater adverse impact on dry weight and physiology of carrot plants. The study clearly indicates that air pollutants are high enough in the ambient air to cause significant unfavorable impact on carrot plants. The work further supports the usefulness of OTCs for assessing air pollution damage under field conditions in developing countries.

Published

2006

15. Uptake and transformation of phenol and chlorophenols by hairy root cultures of Daucus carota, Ipomoea batatas and Solanum aviculare.

Author

de Araujo BS, Dec J, Bollag JM, and Pletsch M

Subjects

Chlorophenols toxicity, Culture Techniques, Daucus carota drug effects, Dose-Response Relationship, Drug, Ipomoea batatas drug effects, Peroxidase metabolism, Phenol toxicity, Plant Roots drug effects, Plant Roots metabolism, Soil Pollutants metabolism, Soil Pollutants toxicity, Solanum drug effects, Chlorophenols metabolism, Daucus carota metabolism, Ipomoea batatas metabolism, Phenol metabolism, Solanum metabolism

Abstract

Hairy root cultures of Daucus carota L., Ipomoea batatas L. and Solanum aviculare Forst were investigated for their susceptibility to the highly toxic pollutants phenol and chlorophenols and for the involvement of inherent peroxidases in the removal of phenols from liquid media. Roots of D. carota grew normally in medium containing 1000 micromol l(-1) of phenol, whilst normal growth of roots of I. batatas and S. aviculare was only possible at levels up to 500 micromol l(-1). In the presence of chlorophenols, normal root growth was possible only in concentrations not exceeding 50 micromol l(-1), except for I. batatas which was severely affected at all concentrations. Despite the reduction in biomass, the growth of S. aviculare cultures was sustained in medium containing up to 2000 micromol l(-1) of phenol or 2-chlorophenol, and up to 500 micromol l(-1) of 2,6-dichlorophenol. The amounts of phenol removed by the roots within 72 h of treatment were 72.7%, 90.7% and 98.6% of the initial concentration for D. carota, I. batatas and S. aviculare, respectively. For the removal of 2,6-dichlorophenol the values were, respectively, 83.0%, 57.7% and 73.1%. Phenols labelled with 14C were absorbed by the root tissues and condensed with highly polar cellular substances as well as being incorporated into the cell walls or membranes. The results suggest that S. aviculare, an ornamental plant, would be best suited for remediation trials under field conditions.

Published

2006

16. Abscisic acid and stress treatment are essential for the acquisition of embryogenic competence by carrot somatic cells.

Author

Kikuchi A, Sanuki N, Higashi K, Koshiba T, and Kamada H

Subjects

Abscisic Acid metabolism, Daucus carota drug effects, Gene Expression Regulation, Developmental, Gene Expression Regulation, Plant, Plant Growth Regulators pharmacology, Plant Proteins genetics, Plant Proteins metabolism, Pyridones, Abscisic Acid pharmacology, Daucus carota cytology, Daucus carota embryology, Oxidative Stress drug effects, Tissue Culture Techniques methods

Abstract

Studies of carrot embryogenesis have suggested that abscisic acid (ABA) is involved in somatic embryogenesis. A relationship between endogenous ABA and the induction of somatic embryogenesis was demonstrated using stress-induced system of somatic embryos. The embryonic-specific genes C-ABI3 and embryogenic cell proteins (ECPs) were expressed during stress treatment prior to the formation of somatic embryos. The stress-induction system for embryogenesis was clearly distinguished by two phases: the acquisition of embryogenic competence and the formation of a somatic embryo. Somatic embryo formation was inhibited by the application of fluridone (especially at 10(-4) M), a potent inhibitor of ABA biosynthesis, during stress treatment. The inhibitory effect of fluridone was nullified by the simultaneous application of fluridone and ABA. The level of endogenous ABA increased transiently during stress. However, somatic embryogenesis was not significantly induced by the application of only ABA to the endogenous level, in the absence of stress. These results suggest that the induction of somatic embryogenesis, in particular the acquisition of embryogenic competence, is caused not only by the presence of ABA but also by physiological responses that are directly controlled by stresses.

Published

2006

17. Possible involvement of abscisic acid in the induction of secondary somatic embryogenesis on seed-coat-derived carrot somatic embryos.

Author

Ogata Y, Iizuka M, Nakayama D, Ikeda M, Kamada H, and Koshiba T

Subjects

Culture Media, Daucus carota drug effects, Hypocotyl cytology, Hypocotyl drug effects, Pyridones pharmacology, Seeds cytology, Seeds drug effects, Abscisic Acid pharmacology, Daucus carota embryology, Hypocotyl embryology, Seeds embryology

Abstract

When seed coats (pericarps) were picked from 14-day-old carrot (Daucus carota) seedlings and cultured on agar plates, embryogenic cell clusters were produced very rapidly at a high frequency on the open side edge. Embryo induction progressed without auxin treatment; indeed treatment caused the formation of non-embryogenic callus. The embryogenic tissues (primary embryos) developed normally until the torpedo stage; however, after this a number of secondary somatic embryos were produced in the hypocotyl and root regions. "Tertiary" embryos were formed on some of the secondary embryos, but many developed into normal plantlets. The primary embryos contained significantly higher levels of abscisic acid (ABA) than the hypocotyl-derived normal and seed-coat-derived secondary embryos. Fluridone inhibited the induction of secondary embryogenesis, while exogenously supplied ABA induced not only "tertiary" embryogenesis on the seed-coat-derived secondary embryos, but also secondary embryos on the hypocotyl-derived normal somatic embryos. These results indicate that ABA is one of the important endogenous factors for the induction of secondary embryogenesis on carrot somatic embryos. Higher levels of indole-3-acetic acid (IAA) in primary embryos also suggest the presence of some concerted effect of ABA and IAA on the induction of secondary embryogenesis in primary embryos.

Published

2005

18. Effects of compost and phosphate on plant arsenic accumulation from soils near pressure-treated wood.

Author

Cao X and Ma LQ

Subjects

Arsenates toxicity, Arsenic pharmacokinetics, Biomass, Daucus carota chemistry, Daucus carota drug effects, Daucus carota metabolism, Environmental Exposure adverse effects, Humans, Lactuca chemistry, Lactuca drug effects, Lactuca metabolism, Phosphates pharmacokinetics, Pressure, Soil Pollutants pharmacokinetics, Solubility, Vegetables drug effects, Vegetables metabolism, Water, Arsenic analysis, Fertilizers, Phosphates pharmacology, Soil analysis, Soil Pollutants analysis, Vegetables chemistry, Wood

Abstract

Leaching of arsenic (As) from chromated copper arsenate (CCA)-treated wood may elevate soil arsenic levels. Thus, an environmental concern arises regarding accumulation of As in vegetables grown in these soils. In this study, a greenhouse experiment was conducted to evaluate As accumulation by vegetables from the soils adjacent to the CCA-treated utility poles and fences and examine the effects of soil amendments on plant As accumulation. Carrot (Daucus carota L.) and lettuce (Lactuca sativa L.) were grown for ten weeks in the soil with or without compost and phosphate amendments. As expected, elevated As concentrations were observed in the pole soil (43 mg kg(-1)) and in the fence soil (27 mg kg(-1)), resulting in enhanced As accumulation of 44 mg kg(-1) in carrot and 32 mg kg(-1) in lettuce. Addition of phosphate to soils increased As accumulation by 4.56-9.3 times for carrot and 2.45-10.1 for lettuce due to increased soil water-soluble As via replacement of arsenate by phosphate in soil. However, biosolid compost application significantly reduced plant As uptake by 79-86%, relative to the untreated soils. This suppression is possibly because of As adsorbed by biosolid organic mater, which reduced As phytoavailability. Fractionation analysis showed that biosolid decreased As in soil water-soluble, exchangeable, and carbonate fraction by 45%, whereas phosphate increased it up to 2.61 times, compared to the untreated soils. Our results indicate that growing vegetables in soils near CCA-treated wood may pose a risk of As exposure for humans. Compost amendment can reduce such a risk by reducing As accumulation by vegetables and can be an important strategy for remediating CCA-contaminated soils. Caution should be taken for phosphate application since it enhances As accumulation.

Published

2004

19. Plastid-expressed betaine aldehyde dehydrogenase gene in carrot cultured cells, roots, and leaves confers enhanced salt tolerance.

Author

Kumar S, Dhingra A, and Daniell H

Subjects

Base Sequence, Betaine metabolism, Betaine-Aldehyde Dehydrogenase, Cells, Cultured, DNA, Plant genetics, Daucus carota drug effects, Gene Expression, Genes, Plant, Genetic Vectors, Plant Leaves enzymology, Plant Roots enzymology, Plants, Genetically Modified, Plastids genetics, Sodium Chloride pharmacology, Transformation, Genetic, Aldehyde Oxidoreductases genetics, Daucus carota enzymology, Daucus carota genetics

Abstract

Salinity is one of the major factors that limits geographical distribution of plants and adversely affects crop productivity and quality. We report here high-level expression of betaine aldehyde dehydrogenase (BADH) in cultured cells, roots, and leaves of carrot (Daucus carota) via plastid genetic engineering. Homoplasmic transgenic plants exhibiting high levels of salt tolerance were regenerated from bombarded cell cultures via somatic embryogenesis. Transformation efficiency of carrot somatic embryos was very high, with one transgenic event per approximately seven bombarded plates under optimal conditions. In vitro transgenic carrot cells transformed with the badh transgene were visually green in color when compared to untransformed carrot cells, and this offered a visual selection for transgenic lines. BADH enzyme activity was enhanced 8-fold in transgenic carrot cell cultures, grew 7-fold more, and accumulated 50- to 54-fold more betaine (93-101 micromol g(-1) dry weight of beta-Ala betaine and Gly betaine) than untransformed cells grown in liquid medium containing 100 mm NaCl. Transgenic carrot plants expressing BADH grew in the presence of high concentrations of NaCl (up to 400 mm), the highest level of salt tolerance reported so far among genetically modified crop plants. BADH expression was 74.8% in non-green edible parts (carrots) containing chromoplasts, and 53% in proplastids of cultured cells when compared to chloroplasts (100%) in leaves. Demonstration of plastid transformation via somatic embryogenesis utilizing non-green tissues as recipients of foreign DNA for the first time overcomes two of the major obstacles in extending this technology to important crop plants.

Published

2004

20. Length of time in tissue culture can affect the selected glyphosate resistance mechanism.

Author

Papanikou E, Brotherton JE, and Widholm JM

Subjects

3-Phosphoshikimate 1-Carboxyvinyltransferase, Cell Line, Culture Techniques methods, Datura drug effects, Datura enzymology, Datura genetics, Daucus carota drug effects, Daucus carota enzymology, Drug Resistance, RNA, Messenger genetics, Time Factors, Nicotiana enzymology, Nicotiana physiology, Glyphosate, Alkyl and Aryl Transferases genetics, Datura growth & development, Daucus carota genetics, Glycine analogs & derivatives, Glycine pharmacology, Herbicides pharmacology

Abstract

Usually, stepwise selection of plant suspension cultures with gradually increasing concentrations of the herbicide glyphosate results in the amplification of the target enzyme 5-enolpyruvylshikimate-3-phosphate synthase (EPSPS; EC 2.5.1.19) gene that leads to resistance by increasing EPSPS mRNA and enzyme activity. We show that glyphosate selection with newly initiated suspension cultures can produce resistant lines with resistance mechanisms other than gene amplification and that usually as the cultures age gene amplification becomes the predominant mechanism. Gene amplification did not occur in 3 lines selected from 5-month-old Datura innoxia Mill. cultures but did occur in all 10 lines selected after 52 months. Selection with Nicotiana tabacum L. (tobacco) less than 5 months old produced 2 lines out of 24 with no EPSPS amplification while all 17 lines selected from older cultures contained amplified genes. Lines selected from the oldest culture (35 years) also exhibited amplification of several different genes, indicating the expression of different EPSPS genes or an enhanced gene amplification incidence. None of the 15 lines selected from 2 different 5-month-old Daucus carota L. (carrot) lines exhibited amplification while amplification led to the resistance of all 7 lines selected from one of the original carrot lines (DHL) after 3 years. However, the other line (Car4) was exceptional and produced only non-amplified lines (9 of 9) after 8 years in culture. These results show that plant tissue cultures change with time in culture and that several different new mechanisms can result in glyphosate resistance.

Published

2004

21. Root growth-promoting activity of unsaturated oligomeric uronates from alginate on carrot and rice plants.

Author

Xu X, Iwamoto Y, Kitamura Y, Oda T, and Muramatsu T

Subjects

Alginates metabolism, Biopolymers biosynthesis, Biopolymers chemistry, Biopolymers pharmacology, Culture Media, Daucus carota drug effects, Dose-Response Relationship, Drug, Glucuronic Acid metabolism, Hexuronic Acids metabolism, Oryza drug effects, Polysaccharide-Lyases metabolism, Pseudoalteromonas enzymology, Seeds drug effects, Seeds growth & development, Time Factors, Uronic Acids chemistry, Uronic Acids metabolism, Alginates chemistry, Daucus carota growth & development, Glucuronic Acid chemistry, Hexuronic Acids chemistry, Oryza growth & development, Plant Roots drug effects, Plant Roots growth & development, Uronic Acids pharmacology

Abstract

The root elongation activity of unsaturated oligomeric uronates from alginate on carrot and rice plants was investigated. Unsaturated oligomeric uronates were prepared by digesting polymannuronate (PM) and polyguluronate (PG) with an alginate lyase purified from Pseudoalteromonas sp. strain No. 272. The root elongation activity was measured by elongation in length of carrot- and rice-excised root incubated in the B5-medium containing 0.8% agar in the dark. PM and PG showed no activity, but the enzymatic digestion mixtures of PG had promoting activity on roots of both plants at a final concentration of 0.5 mg/ml. The maximum activity was obtained at 0.75 mg/ml. The dependence of activity on degree of polymerization of the uronates was tested and the pentamer was most active, but the mechanism of the action of unsaturated uronates on the cells remains to be solved.

Published

2003

22. Physiological mechanism of plant roots exposed to cadmium.

Author

Chen YX, He YF, Luo YM, Yu YL, Lin Q, and Wong MH

Subjects

Biomass, Catalase metabolism, Catechol Oxidase metabolism, Daucus carota drug effects, Daucus carota growth & development, Daucus carota metabolism, Germination drug effects, Malondialdehyde metabolism, Peroxidase metabolism, Plant Roots growth & development, Plant Roots metabolism, Proline metabolism, Raphanus drug effects, Raphanus growth & development, Raphanus metabolism, Seeds drug effects, Seeds growth & development, Soil analysis, Superoxide Dismutase metabolism, Cadmium pharmacology, Plant Roots drug effects

Abstract

Physiological experiments on plant roots exposed to cadmium were conducted on carrot and radish using a liquid culture and a pot experiment with a series of cadmium applications. Activities of four enzymes (catalase, peroxidase, polyphenol oxidase, superoxide dismutase), and concentrations of free proline and malonaldehyde in the roots of both plants were investigated. Results showed that the germination rate and growth of roots of both plants were inhibited at the concentration of 20 mg Cd/l, and the inhibition was increased with the increasing concentrations of cadmium, both in the liquid culture and in the pot experiment; activities of the four enzymes declined similarly in both species. The concentration of proline in roots reached the maximum when the application of cadmium was at the level of 20 mg/l in the liquid culture (or 20 mg/kg in soil), and then it declined slowly with the increasing concentration of cadmium. However, the reverse trend was observed for the concentration of malonaldehyde. All of bio-indicators measured here was quite sensitive to the addition of cadmium.

Published

2003

23. Cytokinins: new apoptotic inducers in plants.

Author

Carimi F, Zottini M, Formentin E, Terzi M, and Lo Schiavo F

Subjects

2,4-Dichlorophenoxyacetic Acid pharmacology, Abscisic Acid pharmacology, Adenine pharmacology, Apoptosis physiology, Arabidopsis physiology, Benzyl Compounds, Cells, Cultured, Chromatin metabolism, Cytochrome c Group metabolism, Cytosol drug effects, DNA Fragmentation drug effects, Daucus carota physiology, Kinetin, Mitochondria drug effects, Purines, Adenine analogs & derivatives, Apoptosis drug effects, Arabidopsis drug effects, Cytokinins pharmacology, Daucus carota drug effects, Plant Growth Regulators pharmacology

Abstract

High concentrations of cytokinins block cell proliferation and induce programmed cell death (PCD) in both carrot ( Daucus carota L.) and Arabidopsis thaliana (L.) Heynh. cell cultures [13 and 27 micro M N(6)-benzylaminopurine (BAP), respectively]. In the present work, cell death was scored by Evan's blue staining and was also demonstrated to be programmed by various parameters, including chromatin condensation, oligonucleosomal DNA degradation (laddering), and release of cytochrome c from mitochondria. In carrot cells, this induction takes approximately 24 h, with proliferating cells being more sensitive than quiescent ones. Two hormones, namely abscisic acid and 2,4-dichlorophenoxyacetic acid (2,4-D), protect cells against the cytokinin-induced death. PCD is not merely a consequence of the inability of the culture to proliferate, since high levels of 2,4-D block carrot cell proliferation without promoting PCD. Increased ethylene production was also observed in BAP-treated cultures, although this increase was not responsible for PCD because inhibitors of ethylene synthesis and action did not block PCD in BAP-treated cultures. Programmed cell death in the form of DNA laddering was also seen in plants treated with cytokinins. This process was accompanied by accelerated senescence in the form of leaf yellowing.

Published

2003

24. Influence of saline irrigation on growth, ion accumulation and partitioning, and leaf gas exchange of carrot (Daucus carota L.).

Author

Gibberd MR, Turner NC, and Storey R

Subjects

Biological Transport physiology, Calcium Chloride pharmacology, Carbon Isotopes, Chlorides metabolism, Daucus carota drug effects, Daucus carota growth & development, Models, Biological, Photosynthesis drug effects, Plant Leaves drug effects, Plant Leaves growth & development, Plant Roots drug effects, Plant Roots metabolism, Potassium metabolism, Sodium metabolism, Carbon Dioxide metabolism, Daucus carota metabolism, Plant Leaves metabolism, Sodium Chloride pharmacology, Water pharmacology

Abstract

Like those of many horticultural crop species, the growth and leaf gas exchange responses of carrot (Daucus carota L.) to salinity are poorly understood. In this study ion accumulation in root tissues (periderm, xylem and phloem tissues) and in leaves of different ages was assessed for carrot plants grown in the field with a low level of salinity (5.8 mM Na(+) and 7.5 mM Cl(-)) and in a glasshouse with salinity ranging from 1-80 mM. At low levels of salinity (1-7.5 mM), in both the field and glasshouse, carrot leaves accumulated high concentrations of Cl(-) (140-200 mM); these appear to be the result of a high affinity for Cl(-) uptake and a low retention of Cl(-) in the root system. However, Cl(-) uptake is under tight control, with an 80-fold increase in external salinity resulting in only a 1.5-fold change in the Cl(-) concentration of the shoot and no increase in the Cl(-) concentration of the root xylem tissue. In contrast to Cl(-), shoot Na(+) concentrations were comparatively low (30-40 mM) but increased by seven-fold when salinity was increased by 80-fold. Growth over the 56-d treatment period in the glasshouse was insensitive to salinity less than 20 mM, but at higher concentrations the yield of carrot tap roots declined by 7 % for each 10 mM increase in salinity. At low levels of salinity the accumulation of high concentrations of Cl(-) (150 mM) in carrot laminae did not appear to limit leaf gas exchange. However, photosynthesis and stomatal conductance were reduced by 38 and 53 %, respectively, for plants grown at a salinity of 80 mM compared with those grown at 1 mM. Salinity-induced reductions in both p(i) and carbon isotope discrimination (delta) were small (2.5 Pa and 1.4 per thousand, respectively, at 80 mM) indicating that the reduction in photosynthesis was only marginally influenced by CO(2) supply. At a salinity of 80 mM the photosynthetic capacity was reduced, with a 30 % reduction in the CO(2)-saturated rate of photosynthesis (A(max)) and a 40 % reduction in both the apparent rate of RuBP-carboxylase-limited CO(2) fixation (V(cmax)) and the electron transport rate limiting RuBP regeneration (J(max)). This study has shown that carrot growth and leaf gas exchange are insensitive to the high leaf Cl(-) concentrations that occur at low levels (1-7 mM) of salinity. However, growth is limited at salinity levels above 20 mM and leaf gas exchange is limited at salinity levels above 8 mM., (Copyright 2002 Annals of Botany Company)

Published

2002

25. Nitric oxide affects plant mitochondrial functionality in vivo.

Author

Zottini M, Formentin E, Scattolin M, Carimi F, Lo Schiavo F, and Terzi M

Subjects

Cell Death drug effects, Cell Respiration drug effects, Cell Survival drug effects, Cytochrome c Group metabolism, Daucus carota cytology, Daucus carota metabolism, Drug Synergism, Fluorescent Dyes, Hydrogen Peroxide pharmacology, Intracellular Membranes drug effects, Membrane Potentials drug effects, Mitochondria metabolism, Nitric Oxide metabolism, Nitric Oxide Donors pharmacology, Nitroprusside pharmacology, Oxidants pharmacology, Oxygen Consumption drug effects, Rhodamines, Signal Transduction drug effects, Signal Transduction physiology, Daucus carota drug effects, Mitochondria drug effects, Nitric Oxide pharmacology

Abstract

In this report, we show that nitric oxide affects mitochondrial functionality in plant cells and reduces total cell respiration due to strong inhibition of the cytochrome pathway. The residual respiration depends on the alternative pathway and novel synthesis of alternative oxidase occurs. These modifications are associated with depolarisation of the mitochondrial membrane potential and release of cytochrome c from mitochondria, suggesting a conserved signalling pathway in plants and animals. This signal cascade is triggered at the mitochondrial level and induces about 20% of cell death. In order to achieve a higher level of cell death, the addition of H(2)O(2) is necessary.

Published

2002

26. Somatic embryogenesis induced by the simple application of abscisic acid to carrot (Daucus carota L.) seedlings in culture.

Author

Nishiwaki M, Fujino K, Koda Y, Masuda K, and Kikuta Y

Subjects

Cell Differentiation drug effects, Daucus carota cytology, Daucus carota drug effects, Hypocotyl cytology, Hypocotyl drug effects, Hypocotyl physiology, Plant Shoots physiology, Seeds cytology, Seeds drug effects, Seeds physiology, Abscisic Acid pharmacology, Daucus carota growth & development

Abstract

Seedlings of carrot (Daucus carota L. cv. Red Cored Chantenay) formed somatic embryos when cultured on medium containing abscisic acid (ABA) as the sole source of growth regulator. The number of embryos per number of seedlings changed depending on the concentration of ABA added to the medium, with a maximum embryo number at 1 x 10(-4) M ABA. Seedling age was critical for response to exogenous ABA; no seedling with a hypocotyl longer than 3.0 cm was able to form an embryo. Removal of shoot apices from seedlings completely inhibited the embryogenesis induced by application of exogenous ABA, suggesting that the action of ABA requires some substance(s) that is translocated basipetally from shoot apices through hypocotyls. Histologically, somatic embryos shared common epidermal cells and differentiated not through the formation of embryogenic cell clumps, but directly from epidermal cells. These morphological traits are distinct from those of embryogenesis via formation of embryogenic cell clumps, which has been found in embryogenic carrot cultures established using 2,4-dichlorophenoxyacetic acid or other auxins. These results suggest that ABA acts as a signal substance in stress-induced carrot seedling somatic embryogenesis.

Published

2000

27. Inositol(1,4,5)trisphosphate production in plant cells: an early response to salinity and hyperosmotic stress.

Author

Drobak BK and Watkins PA

Subjects

Adaptation, Physiological drug effects, Adaptation, Physiological physiology, Calcium physiology, Cell Fractionation, Cell Membrane drug effects, Cell Membrane enzymology, Cell Membrane physiology, Daucus carota drug effects, Daucus carota enzymology, Daucus carota physiology, Enzyme Activation drug effects, Hydrogen-Ion Concentration, Inositol 1,4,5-Trisphosphate physiology, Osmolar Concentration, Osmotic Pressure drug effects, Type C Phospholipases metabolism, Daucus carota metabolism, Inositol 1,4,5-Trisphosphate biosynthesis, Sodium Chloride pharmacology

Abstract

Salinity and hyperosmotic stress are environmental factors that severely affect the growth and development of plants. Adaptation to these stresses is known to be a complex multistep process, but a rise in cytoplasmic Ca(2+) and increased polyphosphoinositide turnover have now been identified as being amongst the early events leading to the development of tolerance. To determine whether a causal link exists between these two events we have investigated the effects of several salts and osmotic agents on levels of inositol(1, 4,5)trisphosphate (Ins(1,4,5)P(3)) in plant cells. Our data show that salts as well as osmotic agents induce a rapid and up to 15-fold increase in cellular Ins(1,4,5)P(3) levels. The increase in Ins(1,4,5)P(3) occurs in a dose-dependent manner and levels remain elevated for at least 10 min. These data indicate that increased Ins(1,4,5)P(3) production is a common response to salt and hyperosmotic stresses in plants and that it may play an important role in the processes leading to stress tolerance.

Published

2000

28. Calcium-regulated proteolysis of eEF1A.

Author

Ransom-Hodgkins WD, Brglez I, Wang X, and Boss WF

Subjects

Benzamidines pharmacology, Calcium pharmacology, Daucus carota drug effects, Daucus carota metabolism, Egtazic Acid pharmacology, Endopeptidases metabolism, Ethanolamine metabolism, Hydrogen-Ion Concentration, Microsomes drug effects, Microsomes metabolism, Phospholipase D pharmacology, Protein Processing, Post-Translational, Recombinant Proteins metabolism, Type C Phospholipases pharmacology, Calcium metabolism, Peptide Elongation Factor 1 metabolism

Abstract

Eukaryotic elongation factor 1alpha (eEF1A) can be post-translationally modified by the addition of phosphorylglycerylethanolamine (PGE). [(14)C]Ethanolamine was incorporated into the PGE modification, and with carrot (Daucus carota L.) suspension culture cells, eEF1A was the only protein that incorporated detectable quantities of [(14)C]ethanolamine (Ransom et al., 1998). When 1 mM CaCl(2) was added to microsomes containing [(14)C]ethanolamine-labeled eEF1A ([(14)C]et-eEF1A), there was a 60% decrease in the amount of [(14)C]et-eEF1A recovered after 10 min. The loss of endogenous [(14)C]et-eEF1A was prevented by adding EGTA. Recombinant eEF1A, which did not contain the PGE modification, also was degraded by microsomes in a Ca(2+)-regulated manner, indicating that PGE modification was not necessary for proteolysis; however, it enabled us to quantify enodgenous eEF1A. By monitoring [(14)C]et-eEF1A, we found that treatment with phospholipase D or C, but not phospholipase A(2), resulted in a decrease in [(14)C]et-eEF1A from carrot microsomes. The fact that there was no loss of [(14)C]et-eEF1A with phospholipase A(2) treatment even in the presence of 1 mM Ca(2+) suggested that the loss of membrane lipids was not essential for eEF1A proteolysis and that lysolipids or fatty acids decreased proteolysis. At micromolar Ca(2+) concentrations, proteolysis of eEF1A was pH sensitive. When 1 microM CaCl(2) was added at pH 7.2, 35% of [(14)C]et-eEF1A was lost; while at pH 6.8, 10 microM CaCl(2) was required to give a similar loss of protein. These data suggest that eEF1A may be an important downstream target for Ca(2+) and lipid-mediated signal transduction cascades.

Published

2000

29. A secreted peptide growth factor, phytosulfokine, acting as a stimulatory factor of carrot somatic embryo formation.

Author

Hanai H, Matsuno T, Yamamoto M, Matsubayashi Y, Kobayashi T, Kamada H, and Sakagami Y

Subjects

2,4-Dichlorophenoxyacetic Acid pharmacology, Biological Assay methods, Chromatography, High Pressure Liquid, Culture Media, Conditioned chemistry, Culture Techniques, Daucus carota embryology, Daucus carota metabolism, Dose-Response Relationship, Drug, Mass Spectrometry, Peptide Hormones, Plant Growth Regulators analysis, Plant Growth Regulators metabolism, Plant Proteins analysis, Plant Proteins metabolism, Daucus carota drug effects, Plant Growth Regulators pharmacology, Plant Proteins pharmacology

Abstract

Somatic embryogenesis of the carrot (Daucus carota L.) depends on a set of factors, some of which accumulate in culture medium (conditioned medium, CM). When embryogenic cell clusters were transferred to an embryo-inducing medium, addition of CM derived from somatic embryo culture markedly stimulated somatic embryo formation. The active principles were purified using a simple bioassay system and identified to be phytosulfokines (PSKs), sulfated oligopeptide growth factors originally isolated from a CM derived from asparagus (Asparagus officinalis L.) mesophyll culture. Quantification studies using a competition ELISA system employing an anti-PSK-alpha polyclonal antibody showed that PSK production might be related to growth of cells, rather than development of somatic embryos. Thus the stimulatory effect of PSK on somatic embryo formation might be due to promotion of cell proliferation.

Published

2000

30. A role for arabinogalactan-proteins in plant cell expansion: evidence from studies on the interaction of beta-glucosyl Yariv reagent with seedlings of Arabidopsis thaliana.

Author

Willats WG and Knox JP

Subjects

Arabidopsis cytology, Arabidopsis drug effects, Biological Transport, Cell Division drug effects, Cells, Cultured, Daucus carota drug effects, Daucus carota physiology, Glycosides pharmacokinetics, Plant Proteins, Plant Roots, Arabidopsis physiology, Glycosides pharmacology, Mucoproteins metabolism

Abstract

Seedlings of Arabidopsis thaliana were germinated and grown in medium containing beta-glucosyl Yariv reagent (beta GlcY), a synthetic phenyl glycoside that interacts specifically with arabinogalactan-proteins (AGPs), a class of plant cell surface proteoglycans. The effect of beta GlcY on the seedlings was to reduce the overall growth of both the root and the shoot. beta GlcY only accumulated in the root tissues and the reduced growth of the shoot appeared to be an indirect effect of impaired root growth. Reduced root growth was a consequence of a reduction in cell elongation during the postproliferation phase of elongation at the root apex and this was associated with extensive radial expansion of root epidermal cells. beta GlcY penetrated roots as far as the endodermis and it is suggested that the interaction of beta GlcY with AGPs in the load-bearing cell layers inhibited root elongation. When beta GlcY was added to carrot suspension-cultured cells that had been induced to elongate rather than proliferate, cell elongation was inhibited. The AGP-unreactive alpha-galactosyl Yariv reagent (alpha GalY) had no biological activity in either of these systems.

Published

1996

31. The effects of mastoparan on the carrot cell plasma membrane polyphosphoinositide phospholipase C.

Author

Cho MH, Tan Z, Erneux C, Shears SB, and Boss WF

Subjects

Amino Acid Sequence, Calcium Channel Blockers pharmacology, Cell Membrane drug effects, Cell Membrane enzymology, Cells, Cultured, Daucus carota cytology, Daucus carota drug effects, Enzyme Activation, Guanosine 5'-O-(3-Thiotriphosphate) pharmacology, Inositol Phosphates metabolism, Intercellular Signaling Peptides and Proteins, Lanthanum pharmacology, Molecular Sequence Data, Neomycin pharmacology, Peptides, Phosphoinositide Phospholipase C, Daucus carota enzymology, Phosphoric Diester Hydrolases drug effects, Wasp Venoms pharmacology

Abstract

When [3H]inositol-labeled carrot (Daucus carota L.) cells were treated with 10 or 25 microM wasp venom peptide mastoparan or the active analog Mas-7 there was a rapid loss of more than 70% of [3H]phosphatidylinositol-4-monophosphate (PIP) and [3H]phosphatidylinositol-4,5-bisphosphate (PIP2) and a 3- and 4-fold increase in [3H]inositol-1,4-P2 and [3H]inositol-1,4,5-P3, respectively. The identity of [3H]inositol-1,4,5-P3 was confirmed by phosphorylation with inositol-1,4,5-P3 3-kinase and co-migration with inositol-1,3,4,5-P4. The changes in phosphoinositides were evident within 1 min. The loss of [3H]PIP was evident only when cells were treated with the higher concentrations (10 and 25 microM) of mastoparan or Mas-7. At 1 microM Mas-7, [3H]PIP increased. The inactive mastoparan analog Mas-17 had little or no effect on [3H]PIP or [3H]PIP2 hydrolysis in vivo. Neomycin (100 microM) inhibited the uptake of Mas-7 and thereby inhibited the Mas-7-stimulated hydrolysis of [3H]PIP and [3H]PIP2. Plasma membranes isolated from mastoparan-treated cells had increased PIP-phospholipase C (PLC) activity. However, when Mas-7 was added to isolated plasma membranes from control cells, it had no effect on PIP-PLC activity at low concentrations and inhibited PIP-PLC at concentrations greater than 10 microM. In addition, guanosine-5'-O-(3-thiotriphosphate) had no effect on the PIP-PLC activity when added to plasma membranes isolated from either the Mas-7-treated or control cells. The fact that Mas-7 did not stimulate PIP-PLC activity in vitro indicated that the Mas-7-induced increase in PIP-PLC in vivo required a factor that was lost from the membrane during isolation.

Published

1995

32. Somatic embryogenesis of carrot in hormone-free medium: external pH control over morphogenesis.

Author

Smith DL and Krikorian AD

Subjects

Cells, Cultured, Daucus carota embryology, Hydrogen-Ion Concentration, Nitrates pharmacology, Quaternary Ammonium Compounds pharmacology, Culture Media pharmacology, Daucus carota drug effects, Daucus carota growth & development, Morphogenesis drug effects

Abstract

Cultures of preglobular stage proembryos (PGSPs) were initiated from mechanically wounded mature zygotic embryos of carrot, Daucus carota, on a hormone-free, semisolid medium. These PGSPs have been maintained and multiplied for extended periods without their progression into later embryo stages on the same hormone-free medium containing 1 mM NH4+ as the sole nitrogen source. Sustained maintenance of cultures comprised exclusively of PGSPs was dependent on medium pH throughout the culture period. Best growth and multiplication of PGSP cultures occurred when the pH of unbuffered, hormone-free medium fell from 4.5 to 4 over a 2-week period or when buffered medium was titrated to pH 4. If the hormone-free medium was buffered to sustain a pH at or above 4.5, PGSPs developed into later embryo stages. Maintenance with continuous multiplication of PGSPs occurred equally well on medium containing NH4+ or NH4+ and NO3-, but growth was poor with NO3- alone. Additional observations on the effects of medium components such as various nitrogen sources and levels, sucrose concentration, semisolid supports, type of buffer, borate concentration, activated charcoal, and initial pH that permit optimum maintenance of the PGSPs or foster their continued developmental progression into mature embryos and plantlets are reported. The influence of the pH of the hormone-free medium as a determinant in maintaining cultures as PGSPs or allowing their continued embryonic development are unequivocally demonstrated by gross morphology, scanning electron microscopy, and histological preparations.

Published

1990