Phenolic compounds and antimicrobial properties of Begonia grandis Dryand. subsp. grandis leaves

Karpova, Evgeniya A.; Krasnikov, A. A.; Fershalova, T D; Baikova, Elena; Petruk, Anastasia; Yakimova, Yulia L.

doi:10.17581/bp.2019.08202

Cited by 5 publications

(6 citation statements)

References 46 publications

(66 reference statements)

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“…Under open field conditions, the adaptation is achieved by quercetin derivatives and phenolic acids, during in vitro proliferation, it realized by hydroxybenzoic acids and ellagic acid derivatives, and during in vitro rooting, it is implemented with hydroxycinnamic acids. Similar accumulation of quercetin glycosides in field-grown plants and their absence in greenhouse plants was noted previously [3]. The protective effect of hydroxycinnamic acids associated with changes in the activity of antioxidant system enzymes under stress has also been shown [9,10].…”

Section: Discussionsupporting

confidence: 68%

“…These in vitro factors interfere the successful acclimatization of plants under non-sterile conditions. In this regard, it is of interest to expand the spectrum of biochemical indicators of the adaptive status of strawberry plants with secondary metabolites, including phenolic compounds, which can often serve as indicators of stress and adaptation [3]. The сomposition of phenolic compounds of F. × ananassa leaves was studied fragmentarily.…”

Section: Introductionmentioning

confidence: 99%

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Phenolic compounds in strawberry (Fragaria x ananassa Duch.) microshoots

2020

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The HPLC method was used to study the composition and contents of phenolic compounds in the microshoots of Fragaria × ananassa Duch. plantlets during the multiplication and in vitro rooting stages in comparison with field-grown plants. Phenolic compounds of the microshoots are predominantly represented by ellagic acid and its derivatives, as well as hydroxycinnamic and hydroxybenzoic acids, in contrast to the leaves of field-grown plants with a high level of flavonoids. The increased contents of individual hydroxybenzoic and hydroxycinnamic acids in the microshoots compared with the leaves of field-grown strawberry plants indicates a possible role of phenolic acids in plant adaptation under in vitro conditions.

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Section: Discussionsupporting

confidence: 68%

Section: Introductionmentioning

confidence: 99%

Phenolic compounds in strawberry (Fragaria x ananassa Duch.) microshoots

2020

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“…The use of Begonia as a medicinal plant is due to the content of secondary metabolites (Suresh et al 2016). In this regard, Karpova et al (2019) noted that secondary metabolites in Begonia could be found in glandular trichomes and leaf epidermal cells such as those in B. grandis subsp. grandis.…”

Section: Introductionmentioning

confidence: 99%

Morphological diversity and phenetic relationship of wild and cultivated Begonia based on morphology and leaf venation

PERMATA

Susandarini

2022

Biodiversitas

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Abstract. Permata DA, Susandarini R. 2021. Morphological diversity and phenetic relationship of wild and cultivated Begonia based on morphology and leaf venation. Biodiversitas 23: 928-937. Begonia is an ornamental plant with intense cultivation and hybridization practices because of the uniqueness and beauty of its leaves. Begonia with a very large number of species is interesting to study, especially because Indonesia is one of the resource centers of this genus diversity as indicated by the increasing number of new species found every year. This study aimed to explore the morphological diversity of wild and cultivated Begonia and reveal the phenetic relationships of the species and hybrids based on morphology and leaf venation patterns. In this study, we used 19 Begonia samples belonging to five species collected from their natural habitat and 14 species and hybrids obtained from the nurseries. Morphological observations of living specimens and examination on microscopic slides of cleared leaf resulted in 28 characters which were used to determine phenetic relationships using cluster analysis. The high variability of leaf venation patterns described in this study disclosed the micromorphological diversity of Begonia which has not been widely exposed. The results of morphological observations showed high variabilities in leaf color, leaf shape, and petiole color. The results of cluster analysis and principal component analysis indicated that the grouping of species was mainly determined by the existence of trichomes on leaf surfaces and petiole, leaf venation pattern, leaf variegation, and leaf shape. The grouping of species resulting from cluster analysis can be used in the selection of potential parents to produce new Begonia hybrids through crossing experiments.

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“…At the same time, permanently high anthocyanin concentration improves adaptation to the environment, including in vitro conditions (Wang et al 2016). The chromatographic profile of B. grandis incorporates organic acids (oxalic, ascorbic and citric acids), phenolic acids, C-glycosyl flavones (including orientin and isovitexin), flavonol O-glycosides (mainly hyperoside, isoquercitrin and astragalin), and aglycones quercetin and luteolin (Karpova et al , 2019. Diversity of secondary metabolites of B. grandis is the basis of antioxidant, antimicrobial and anti-inflammatory effects (Laferriere 1992;Karpova et al 2019;Pendy et al 2020).…”

Section: Introductionmentioning

confidence: 99%

Leaf pigments and concentrations of phenolic compound in Begonia grandis plantlets obtained from the floral explants

Karpova

Nabieva

Fershalova

2021

Rend. Fis. Acc. Lincei

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The objective of this study was to design a protocol of the successful establishment of plants of Begonia grandis dry. in culture in vitro, and to evaluate the concentrations of chlorophyll a and b, carotenoids, anthocyanins and phenolic compounds, as well as the ratios of chlorophyll a/b, total chlorophyll/carotenoids and total chlorophyll/anthocyanins in the in vitro plantlets in comparison to the same parameters assessed in the leaves of greenhouse plants. A significant increase in the percentage of shoot formation (22.0 ± 1.5%) was recorded on the modified N6 medium supplemented with plant growth regulators in comparison with the standard breeding technology. Begonia grandis plantlets possessed the elevated contents of all photosynthetic pigments per unit mass of plant compared to the greenhouse plants. The increase in chlorophyll b was most substantial. The average anthocyanin concentrations in the plantlets and greenhouse plants were approximately equal, but the essential variation within B. grandis microclones was observed. Phenolic profiles of in vitro plantlets and greenhouse plants was rather similar. Concentrations per unit mass for the majority of components (especially organic and phenolic acids) in the plantlets increased in comparison to those in greenhouse plants (47.23 and 38.22 mg g −1 total phenolics, respectively). Overall data suggest that this protocol can be used for the production of a large number of plants of B. grandis in a good physiological state and with high phenolic content.

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Phenolic compounds and antimicrobial properties of Begonia grandis Dryand. subsp. grandis leaves

Cited by 5 publications

References 46 publications

Phenolic compounds in strawberry (Fragaria x ananassa Duch.) microshoots

Phenolic compounds in strawberry (Fragaria x ananassa Duch.) microshoots

Morphological diversity and phenetic relationship of wild and cultivated Begonia based on morphology and leaf venation

Leaf pigments and concentrations of phenolic compound in Begonia grandis plantlets obtained from the floral explants

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