Daniel Vrábl scite author profile

Mesophyll conductance (g(m)) and stomatal conductance (g(s)) are two crucial components of the diffusive limitation of photosynthesis. Variation of g(m) in response to CO(2) concentration was evaluated by using two independent methods based on measurements of variable electron transport rate (J) and instantaneous carbon isotope discrimination, respectively. Both methods of g(m) estimation showed a very similar shape of the g(m)/C(i) relationship, with an initial increase at low substomatal CO(2) concentrations (C(i)), a peak at 180-200 micromol mol(-1) C(i), and a subsequent decrease at higher C(i). A good correlation was observed between values of g(m) estimated from the two methods, except when C(i) <200 micromol mol(-1), suggesting that the initial increase of g(m) at low C(i) was probably due to unreliable estimates over that range of C(i). Plants were also treated with abscisic acid (ABA), which induced a reduction in g(s) without significantly affecting the rate of photosynthesis, g(m) or the photosynthetic capacity. The present results confirm, using two independent methods, that g(m) is strongly sensitive to C(i), and that the relationship between g(s) and g(m) is not conservative, differing between control and ABA-treated plants.

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Monochromatic green light induces an aberrant accumulation of geranylgeranyled chlorophylls in plants

Materová

Sobotka

Zdvihalová

et al. 2017

Plant Physiology and Biochemistry

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Protective effect of UV-A radiation during acclimation of the photosynthetic apparatus to UV-B treatment

Štroch

Materová

Vrábl

et al. 2015

Plant Physiology and Biochemistry

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Stomatal function, density and pattern, and CO₂ assimilation in Arabidopsis thaliana tmm1 and sdd1‐1 mutants

et al. 2017

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Stomata modulate the exchange of water and CO between plant and atmosphere. Although stomatal density is known to affect CO diffusion into the leaf and thus photosynthetic rate, the effect of stomatal density and patterning on CO assimilation is not fully understood. We used wild types Col-0 and C24 and stomatal mutants sdd1-1 and tmm1 of Arabidopsis thaliana, differing in stomatal density and pattern, to study the effects of these variations on both stomatal and mesophyll conductance and CO assimilation rate. Anatomical parameters of stomata, leaf temperature and carbon isotope discrimination were also assessed. Our results indicate that increased stomatal density enhanced stomatal conductance in sdd1-1 plants, with no effect on photosynthesis, due to both unchanged photosynthetic capacity and decreased mesophyll conductance. Clustering (abnormal patterning formed by clusters of two or more stomata) and a highly unequal distribution of stomata between the adaxial and abaxial leaf sides in tmm1 mutants also had no effect on photosynthesis. Except at very high stomatal densities, stomatal conductance and water loss were proportional to stomatal density. Stomatal formation in clusters reduced stomatal dynamics and their operational range as well as the efficiency of CO transport.

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A modified method for enzymatic isolation of and subsequent wax extraction from Arabidopsis thaliana leaf cuticle

et al. 2020

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Background The plant cuticle represents one of the major adaptations of vascular plants to terrestrial life. Cuticular permeability and chemical composition differ among species. Arabidopsis thaliana is a widely used model for biochemical and molecular genetic studies in plants. However, attempts to isolate the intact cuticle from fresh leaves of Arabidopsis have failed so far. The goal of this study was to optimise an enzymatic method for cuticle isolation of species with a thin cuticle and to test it on several A. thaliana wild types and mutants. Results We developed a method for isolation of thin cuticles that allows reducing the isolation time, the separation of abaxial and adaxial cuticles, and avoids formation of wrinkles. Optical microscopy was used for studying cuticle intactness and scanning electron microscopy for visualisation of external and internal cuticle structures after isolation. Wax extracts were analysed by GC–MS. Isolation of intact cuticle was successful for all tested plants. The wax compositions (very-long-chained fatty acids, alcohols and alkanes) of intact leaves and isolated cuticles of wild type Col-0 were compared. Conclusions We conclude that the optimised enzymatic method is suitable for the isolation of A. thaliana adaxial and abaxial cuticles. The isolated cuticles are suitable for microscopic observation. Analysis of wax composition revealed some discrepancies between isolated cuticles and intact leaves with a higher yield of wax in isolated cuticles.

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Daniel Vrábl

Mesophyll conductance to CO2 transport estimated by two independent methods: effect of variable CO2 concentration and abscisic acid

Monochromatic green light induces an aberrant accumulation of geranylgeranyled chlorophylls in plants

Protective effect of UV-A radiation during acclimation of the photosynthetic apparatus to UV-B treatment

Stomatal function, density and pattern, and CO₂ assimilation in Arabidopsis thaliana tmm1 and sdd1‐1 mutants

A modified method for enzymatic isolation of and subsequent wax extraction from Arabidopsis thaliana leaf cuticle

Contact Info

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Daniel Vrábl

Mesophyll conductance to CO2 transport estimated by two independent methods: effect of variable CO2 concentration and abscisic acid

Monochromatic green light induces an aberrant accumulation of geranylgeranyled chlorophylls in plants

Protective effect of UV-A radiation during acclimation of the photosynthetic apparatus to UV-B treatment

Stomatal function, density and pattern, and CO2 assimilation in Arabidopsis thaliana tmm1 and sdd1‐1 mutants

A modified method for enzymatic isolation of and subsequent wax extraction from Arabidopsis thaliana leaf cuticle

Contact Info

Product

Resources

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Stomatal function, density and pattern, and CO₂ assimilation in Arabidopsis thaliana tmm1 and sdd1‐1 mutants