Your search keyword '"Gegechkori, Vladimir"' showing total 4 results

1. HPTLC and FTIR Fingerprinting of Olive Leaves Extracts and ATR-FTIR Characterisation of Major Flavonoids and Polyphenolics.

Author

Agatonovic-Kustrin, Snezana, Gegechkori, Vladimir, Petrovich, Dementyev Sergey, Ilinichna, Kobakhidze Tamara, and Morton, David William

Subjects

*OLIVE leaves, *CHEMICAL fingerprinting, *FLAVONOIDS, *ETHYL acetate, *GALLIC acid, *PHENOLS, *ETHANOL

Abstract

The aim of this study was to analyse the effect of spontaneous microbial maceration on the release and extraction of the flavonoids and phenolics from olive leaves. Bioprofiling based on thin-layer chromatography effect-directed detection followed by ATR-FTIR spectroscopy proved to be a reliable and convenient method for simultaneous comparison of the extracts. Results show that fermentation significantly enhances the extraction of phenolic compounds and flavonoids. The polyphenolic content was increased from 6.7 µg GAE (gallic acid equivalents) to 25.5 µg GAE, antioxidants from 10.3 µg GAE to 25.3 µg GAE, and flavonoid content from 42 µg RE (rutin equivalents) to 238 µg RE per 20 µL of extract. Increased antioxidant activity of fermented ethyl acetate extracts was attributed to the higher concentration of extracted flavonoids and phenolic terpenoids, while increased antioxidant activity in fermented ethanol extract was due to increased extraction of flavonoids as extraction of phenolic compounds was not improved. Lactic acid that is released during fermentation and glycine present in the olive leaves form a natural deep eutectic solvent (NADES) with significantly increased solubility for flavonoids. [ABSTRACT FROM AUTHOR]

Published

2021

2. The effect of extractive lacto-fermentation on the bioactivity and natural products content of Pittosporum angustifolium (gumbi gumbi) extracts.

Author

Agatonovic-Kustrin, Snezana, Gegechkori, Vladimir, and Morton, David W.

Subjects

*LACTIC acid fermentation, *AMYLASES, *NATURAL products, *FATTY acid esters, *SATURATED fatty acids, *OLIGOMERS, *PLANT phenols, *UNSATURATED fatty acids

Abstract

• HPTLC via bioassays and chemical derivatization allows fast bioprofiling of plant extracts. • Gumbi gumbi extracts show enzyme inhibitory, antioxidant and anti-inflammatory activity. • Esters of saturated fatty acids are responsible for the α-amylase inhibition in unfermented extracts. • Unsaturated fatty acid esters are responsible for enzyme inhibition in fermented extracts. • Soluble lignin fragments are released during acid fermentation process. • Acid lacto fermentation increases phenolics content of extract by few folds. Pittosporum angustifolium, known as gumbi gumbi, is a native Australian plant, which has traditionally been used as an Aboriginal medicine. This study investigates the effect of different solvents and extractive fermentation on the content and natural products composition of Pittosporum angustifolium extracts, and compares their antioxidant activity, in vitro α-amylase inhibition, and anti-inflammatory properties. Anti-inflammatory activity of the extracts was determined by measuring the inhibition of nitric oxide (NO) production. Extracts were characterised with FTIR-ATR spectroscopy, and screened for antioxidant activities and α-amylase inhibitory activity via High-performance thin-layer chromatography (HPTLC)-Effect-directed analysis (EDA) with direct bioautography. HPTLC combined with chemical derivatization and bioassays was used for EDA screening. The results show that lactic acid fermentation of gumbi gumbi leaves boosts the antioxidant activity in extracts by increasing the total phenolic content, but does not affect (increase or decrease) α-amylase inhibitory activity or nitrogen scavenging/anti-inflammatory activity. Analysis of the ATR-FTIR spectra from the band at R F = 0.85 that inhibits α-amylase, suggests that fatty acid esters are responsible for the enzyme inhibition; both saturated fatty acid esters in unfermented extracts and unsaturated fatty acid esters in fermented extracts. The ATR-FTIR spectra of the polyphenolics in fermented extracts (R F = 0.15-0.20) suggests the presence of soluble lignin fragments (i.e. lignins depolymerized into monomers and oligomers during the fermentation process). [ABSTRACT FROM AUTHOR]

Published

2021

3. High-Performance Thin-Layer Chromatography Hyphenated with Microchemical and Biochemical Derivatizations in Bioactivity Profiling of Marine Species.

Author

Agatonovic-Kustrin, Snezana, Kustrin, Ella, Gegechkori, Vladimir, and Morton, David W.

Abstract

Marine organisms produce an array of biologically active natural products, many of which have unique structures that have not been found in terrestrial organisms. Hence, marine algae provide a unique source of bioactive compounds. The present study investigated 19 marine algae and one seagrass collected from Torquay beach, Victoria, Australia. High-performance thin-layer chromatography (HPTLC) hyphenated with microchemical (DPPH•, p-anisaldehyde, and Fast Blue B) and biochemical (α-amylase and acetylcholine esterase (AChE) enzymatic) derivatizations was used to evaluate antioxidant activity, presence of phytosterols and phenolic lipids, α-amylase and AChE inhibitory activities of extract components. Significant α-amylase and AChE inhibitory activities were observed in samples 2, 6, 8 and 10. Antioxidant activities in the samples were found to be correlated to phytosterol content (R2 = 0.78), but was not found to be related to either α-amylase or AChE inhibitory activities. α-Amylase inhibitory activities were correlated to AChE inhibition (R2 = 0.77) and attributed to the phytosterol content, based on the similar peak position in the chromatograms with the β-sitosterol chromatogram. Samples 1, 8, and especially sample 20, were found to contain phenolic lipids (alkyl resorcinol derivatives) with significant antioxidant activities. The results suggest that these marine species have a significant number of bioactive compounds that warrant further investigation. [ABSTRACT FROM AUTHOR]

Published

2019

4. HPTLC-guided flash chromatographic isolation and spectroscopic identification of bioactive compounds from olive flowers.

Author

Agatonovic-Kustrin, Snezana, Wong, Sheryn, Dolzhenko, Anton V., Gegechkori, Vladimir, and Morton, David W.

Subjects

*NUCLEAR magnetic resonance, *CHROMATOGRAPHIC analysis, *BIOACTIVE compounds, *OLIVE, *FLOWERS

Abstract

• HPTLC guided flash chromatography can separate compounds from olive flower extract. • Chromatographic resolution of flash chromatography was similar to that of HPTLC. • Pure oleanolic and maslinic acids are isolated from fractions. • Flash chromatography enabled detection of eicosane and eicosene. The goal of preparative chromatography is to isolate suitable amounts of compound(s) at the required purity in the most cost-effective way. This study analyses the power of High-performance thin-layer chromatography (HPTLC) guided preparative flash chromatography to separate and isolate bioactive compounds from an olive flower extract for their further characterisation via spectroscopy. The structure and purity of isolated bioactive compounds were assessed using Fourier-transform infrared (FTIR) and nuclear magnetic resonance (NMR) spectroscopy. Flash chromatography of the olive flower extract successfully isolated pure oleanolic and maslinic acids. Moreover, the flash chromatography of the extract allowed isolation and phytochemical analysis of the most lipophilic fraction of the extract, which was found to contain n -eicosane and n -(Z)-eicos-5-ene, that has not been isolated previously with preparative TLC. [ABSTRACT FROM AUTHOR]

Published

2024