Réka Molnár’s research while affiliated with University of Pecs and other places

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Publications (3)


Fig. 1 Chemical structure of determined compounds  
Table 1 Origin of investigated Bergenia samples accession number Botanical identity Place of origin 
Fig. 2 a HPlC chromatogram of standard solution (c = 1.0 mg ml −1 for each compound) and (b) HPlC chromatogram of Bergenia sample (#15)  
Validated HPLC Method for Simultaneous Quantitation of Bergenin, Arbutin, and Gallic Acid in Leaves of Different Bergenia Species
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September 2014

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1,147 Reads

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17 Citations

Chromatographia

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Tamás Madarász

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Bergenia species (Saxifragaceae) are important sources of herbal medicines in Asia, mainly in Russia. Various plant parts are valued for their antibacterial, anti-inflammatory, antioxidant sand adaptogenic effect, and used for the dissolution of kidney and bladder stones. In this study a rapid reversed phase liquid chromatography (RP-HPLC) method has been developed for rapid screening and identifying of the main active components in leaf samples of Bergenia accessions. The main goal of this study was to develop an efficient method for the simultaneous identification and detection of arbutin, bergenin and gallic acid from Bergenia leaf samples, which were extracted with a methanolic solvent mixture [methanol:water = 1:1 (v/v)]. Chromatographic separations were performed on a reversed phase Luna C18(2)-HST HPLC column. This chromatographic system provided increased speed and efficiency for separations, without the need for ultra-high pressures. Reversed phase HPLC coupled with diode array detector method was used for the analysis. The method was validated using ICH guidelines. The level of gallic acid was significantly higher in Bergenia crassifolia samples compared to Bergenia cordifolia. However, the samples of the two Bergenia species did not differ substantially regarding the concentrations of arbutin and bergenin. The novel method proved to be fast and allowed sufficient separation and quantification of arbutin, bergenin and gallic acid, the most important bioactive compounds of Bergenia leaves; thus facilitating rapid screening and quality assessment of Bergenia samples of various botanical and geographical origins.

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Table 2 : Sampling dates and sites, with bloom stage. C: covered flowers; UC: uncovered flowers.
Table 3 : The effect of flower isolation on nectar volume at site 3.
Table 5 : The effect of habitat on nectar volume.
Nectar volume (mean and standard deviation) in covered ramson flowers at site 3, on five consecutive days of full bloom in April 2007.
Nectar concentration (mean and standard deviation) in covered ramson flowers at site 3, on five consecutive days of full bloom in April 2007.
Variation in Nectar Volume and Sugar Concentration of Allium ursinum L. ssp. ucrainicum in Three Habitats

April 2012

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428 Reads

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40 Citations

Floral nectar volume and concentration of ramson (Allium ursinum L. ssp. ucrainicum) were investigated in three different habitats, including two types of sessile oak-hornbeam association on brown forest soil with clay illuviation and a silver lime-flowering ash rock forest association on rendzina. Daily nectar production ranged from 0.1 to 3.8 μL per flower with sugar concentrations of 25 to 50%. Mean nectar volumes and concentrations showed significant differences between freely exposed flowers and covered flowers, which had been isolated from flower visitors 24 h prior to nectar studies. Both the amount and quality of nectar were affected by microclimatic conditions and soil properties and varied between populations at different habitats. In the silver lime-flowering ash rock-forest association mean nectar volumes and concentrations were lower than in a typical sessile oak-hornbeam association on three occasions, the difference being significant in two cases. During full bloom, the date of sampling did not have a profound effect on either nectar volume or concentration.


Citations (2)


... Boros B. et al. [31] have published a validated HPLC technique for simultaneously quantifying bergenin, gallic acid, and arbutin in leaves from various Bergenia species. Develop a mobile phase with a methanol: water ratio of 1:1 (v/v). ...

Reference:

Review on Pharmacological Activities, Extraction and Analytical Techniques of Bergenin
Validated HPLC Method for Simultaneous Quantitation of Bergenin, Arbutin, and Gallic Acid in Leaves of Different Bergenia Species

Chromatographia

... The other revealed that there was great variability in nectar production, and it is evident that higher nectar production occurred at high humidity and low temperature [17]. Differences in microclimate can also lead to variation observed between populations at different habitats [18]. The accumulation of sugar in and near the flower under the influence of low temperatures and increasing permeability of the plasma membrane under the influence of high temperature [19]. ...

Variation in Nectar Volume and Sugar Concentration of Allium ursinum L. ssp. ucrainicum in Three Habitats