1. Secondary metabolite contents and antimicrobial activity of leaf extracts reveal genetic variability of Vernonia amygdalina and Vernonia calvoana morphotypes
- Author
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Nguimkeng Gaintse Eric Dumas, Ntsomboh-Ntsefong Godswill, Gianina Cristina Crisan, Mohammad Ali Shariati, Zhaiyk Tokhtarov, Paltinean Ramona, Vlase Laurian, Ngandjui Tchangoue Yvan Anderson, Gheldiu Ana-Maria, Youmbi Emmanuel, and Muthu Thiruvengadam
- Subjects
food.ingredient ,Biomedical Engineering ,Secondary Metabolism ,Bioengineering ,Secondary metabolite ,Applied Microbiology and Biotechnology ,food ,Anti-Infective Agents ,Species Specificity ,Drug Discovery ,medicine ,Agar ,Genetic variability ,Genetic diversity ,biology ,Traditional medicine ,Plant Extracts ,Process Chemistry and Technology ,Vernonia amygdalina ,Genetic Variation ,General Medicine ,Asteraceae ,biology.organism_classification ,Antimicrobial ,Plant Leaves ,Phytochemical ,Molecular Medicine ,Vernonia ,Biotechnology ,medicine.drug - Abstract
Vernonia species (Asteraceae) are indigenous medicinal and food leaf vegetables commonly consumed in some African countries like Cameroon where they constitute a staple dish called "ndolé." Previous studies have demonstrated the nutritional importance of Vernonia, but there is little knowledge of their agronomic value and genetic potentials. Wide genetic variability in the genus has been established earlier through the study of its pollen. However, to the best of our understanding, no such study has been undertaken on the genetic variability of Vernonia with respect to its secondary metabolites. This study was therefore aimed at evaluating the genetic variability of Vernonia amygdalina (VAA and VALF) and V. calvoana (VCAB, VCAV, VCSB, and VCSV) morphotypes in 2016 based on secondary metabolite content and antimicrobial properties. This involved phytochemical analysis by HPLC/MS for the detection of alkaloids, flavonoids, phenols, and tannins in leaves from each of the six genotypes. Results showed that all tested genotypes are rich in phenols (18 analyzed), flavonoids, and tannins with, VAA richer in phenols (206.1 ± 3.12 µg/g of dry extract), followed by VCAV (197.9 ± 18.03 µg/g). The lowest level of flavonoid was found in VCSV (81.6 ± 7.21 µg/g), while the highest was from VCAB (132.8 ± 31.5 µg/g). VCSV (56.3 ± 4.08 µg/g) had the lowest level of tannins, while VCAB (97.8 ± 23.8 µg/g) had the highest levels. Assessment of antimicrobial activity of leaf extracts from the six genotypes was done by culture on Mueller Hinton (MH) agar and MH broth agar for bacteria and in Sabouraud dextrose agar and Sabouraud dextrose broth media for fungi, respectively. All morphotypes exhibited inhibitory activity on bacteria except VAA, with isoquercetin characteristic of VCSV. Chemotaxonomic analyses of Vernonia morphotypes highlighted the genetic diversity within species and variability of antimicrobial properties of ethanolic leaf extracts among morphotypes. These results provide baseline data in the valuation of genetic resources and the establishment of improvement programs.
- Published
- 2020
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