Comparative Analysis of Polyphenolic Compounds in Different Amaranthus Species: Influence of Genotypes and Harvesting Year.
Jun-Hyoung BangIck-Hyun JoRaveendar SebastinWon Tea JeongSangtaek OhTae-Young HeoJeehye SungTae Kyung HyunYoon-Sup SoJu-Kyung YuAmal Mohamed AlGarawiAshraf Atef HatamlehGi-Ho SungJong-Wook ChungPublished in: Antioxidants (Basel, Switzerland) (2024)
Amaranth is a nutritionally valuable crop, as it contains phenolic acids and flavonoids, yielding diverse plant secondary metabolites (PSMs) like phytosterol, tocopherols, and carotenoids. This study explored the variations in the contents of seventeen polyphenolic compounds within the leaves of one hundred twenty Amaranthus accessions representing nine Amaranthus species. The investigation entailed the analysis of phenolic content across nine Amaranthus species, specifically A. hypochondriacus , A. cruentus , A. caudatus , A. tricolor , A. dubius , A. blitum , A. crispus , A. hybridus , and A. viridis , utilizing ultra performance liquid chromatography with photodiode array detection (UPLC-PDA). The results revealed significant differences in polyphenolic compounds among accessions in which rutin content was predominant in all Amaranthus species in both 2018 and 2019. Among the nine Amaranthus species, the rutin content ranged from 95.72 ± 199.17 μg g -1 ( A. dubius ) to 1485.09 ± 679.51 μg g -1 ( A. viridis ) in 2018 and from 821.59 ± 709.95 μg g -1 ( A. tricolor ) to 3166.52 ± 1317.38 μg g -1 ( A. hypochondriacus ) in 2019. Correlation analysis revealed, significant positive correlations between rutin and kaempferol-3-O-β-rutinoside (r = 0.93), benzoic acid and ferulic acid (r = 0.76), and benzoic acid and kaempferol-3-O-β-rutinoside (r = 0.76), whereas gallic acid showed consistently negative correlations with each of the 16 phenolic compounds. Wide variations were identified among accessions and between plants grown in the two years. The nine species and one hundred twenty Amaranthus accessions were clustered into six groups based on their seventeen phenolic compounds in each year. These findings contribute to expanding our understanding of the phytochemical traits of accessions within nine Amaranthus species, which serve as valuable resources for Amaranthus component breeding and functional material development.