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"Faba bean"

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"Faba bean"

Research Articles
Phytochemical Compounds and Antioxidant Activity in the Grain of Selected Faba Bean (Vicia faba) Genotypes
Soon-Jae Kwon, Dong-Gun Kim, Jung Min Kim, Kyung-Yun Kang, Min-Kyu Lee, Min Jeong Hong, Jin-Baek Kim, Seok Hyun Eom, Si-Yong Kang, Bo-Keun Ha, Jaihyunk Ryu
Plant Breed. Biotech. 2018;6(1):65-73.   Published online March 1, 2018
DOI: https://doi.org/10.9787/PBB.2018.6.1.65

The faba bean produces medicinally useful phenolic compounds naturally, and is also a good source of food and animal feed. This study quantified the functional compounds and antioxidant activities of five faba bean genotypes selected on the basis of their seed yield and L-dopa content. The highest total tannin content (TTC) and total proanthocyanidin content (TPAC) were observed in the PI252004 genotype and the lowest content in the PI366039 genotype. The total phenolics content (TPC) and total flavonoid content (TFC) of the PI430715 genotype were higher than those of the other genotypes. LC-MS analyses identified 22 different phenolic compounds in the faba bean genotypes. The most abundant proanthocyanidin compounds were prodelphinidin and catechin and the predominant flavonols and flavones were myricetin, quercetin, apigenin, kaempferol, and luteolin-free aglycones or glycosides. The TFC was correlated with ferric-reducing antioxidant power activity (FRAP) (P ≤ 0.05), Trolox equivalent antioxidant capacity (TEAC) (P ≤ 0.01), and DPPH radical scavenging activity (P ≤ 0.01). The results indicated that the PI430715 genotype contained the highest TPC and TFC and exhibited the highest FRAP, TEAC and DPPH radical scavenging activities. These results may help determine the optimal genotypes for breeding new cultivars of faba bean with potentially greater health benefits.

Citations

Citations to this article as recorded by  
  • Chemometric Approach to Fatty Acid Composition in Green and Mature Seeds of Selected Faba Bean ( Vicia faba L.) Populations from Serbia
    Violeta Mitic, Jelena Nikolic, Vesna Stankov Jovanovic, Jasmina Milenkovic, Ivana Zlatanovic, Biljana Arsic, Gordana Stojanovic
    Analytical Letters.2026; 59(6): 960.     CrossRef
  • Significant impact of Bacillus licheniformis DW4, Salinicoccus sesuvii DW5 and Paenalcaligenes suwonensis DW7, in mitigation of seawater stress on the growth and productivity of Vicia Faba cultivated in Qalabshu semi-field soil
    Dalia Wael, Yasser El-Amier, WesamEldin I. A. Saber, Ashraf Elsayed
    BMC Plant Biology.2026;[Epub]     CrossRef
  • Structural and phylogenetic insights from complete chloroplast genomes of seven Vicia species
    Mohammad Mehdi Golchini, Aboozar Soorni, Md. Mahmudul Hasan
    PLOS One.2026; 21(3): e0340630.     CrossRef
  • Effects of transglutaminase and thyme oil addition on the properties of faba bean protein-based active films
    Melissa Kocatepe, Kubra Ertan, Serpil Sahin, Gulum Sumnu
    International Journal of Biological Macromolecules.2025; 312: 144178.     CrossRef
  • Unraveling the functional potential of microbial resources and pulse-based matrices for sourdough breadmaking
    Chiara Viretto, Ali Zein Alabiden Tlais, Kashika Arora, Hana Ameur, Fabio Tuccillo, Andrea Polo, Vimac Nolla Ardèvol, Fabienne Verté, Kati Katina, Raffaella Di Cagno, Marco Gobbetti
    Future Foods.2025; 11: 100643.     CrossRef
  • Phytochemical Profiling, Antioxidant Capacity, and α-Amylase/α-Glucosidase Inhibitory Effects of 29 Faba Bean (Vicia faba L.) Varieties from China
    Ying Li, Zhihua Wang, Chengkai Mei, Wenqi Sun, Xingxing Yuan, Jing Wang, Wuyang Huang
    Biology.2025; 14(8): 982.     CrossRef
  • Ethnoknowledge About Vinagreira (roselle) (hibiscus sabdariffa l.) Among residents of Rural Communities in Maranhão, Northeast Brazil
    Osiel César Da Trindade Junior, Edna Maria Ferreira Chaves, Roseli Farias Melo De Barros
    Revista de Gestão Social e Ambiental.2024; 18(3): e04725.     CrossRef
  • Metabolites profiling, in-vitro and molecular docking studies of five legume seeds for Alzheimer’s disease
    Rana M. Ibrahim, Passent M. Abdel-Baki, Osama G. Mohamed, Ahmed A. Al-Karmalawy, Ashootosh Tripathi, Riham A. El-Shiekh
    Scientific Reports.2024;[Epub]     CrossRef
  • Underutilized legumes of India: a potential food resource for the future
    Sani Das, Antara Bose, Muktadhar Reang, Badal Kumar Datta
    Discover Plants.2024;[Epub]     CrossRef
  • Bioaccessibility and potential bioactivity of fresh and mature fava bean flavonoids
    D. Sosa De León, L.F. Méndez-López, B.E. González-Martínez, M. López-Cabanillas Lomelí, A.A. López-Hernández, D.A. Luna-Vital, D. Néder-Suárez, J.A. Vázquez-Rodríguez
    Applied Food Research.2024; 4(2): 100523.     CrossRef
  • Antioxidant Activities, Total Phenols, and Proanthocyanidin Changes during Storage of Fourteen Faba Bean ( Vicia faba L.) Populations from Serbia – A Chemometric Approach
    Violeta Mitic, Jelena Nikolic, Snezana Andjelkovic, Mirjana Petrovic, Vesna Stankov Jovanovic, Jasmina Milenkovic
    Analytical Letters.2024; 57(4): 607.     CrossRef
  • Prediction of antioxidant capacity in faba bean from individual phenolic constituents
    Joel B. Johnson, Anatoliy Kazak, Nadezhda Gallini, Marina Rudenko, Mani Naiker
    Chemical Papers.2024; 78(7): 4285.     CrossRef
  • Effects of Different Processing Methods on Pulses Phytochemicals: An Overview
    Jiajing Zhou, Minhao Li, Qian Bai, Thaiza S. P. de Souza, Colin Barrow, Frank Dunshea, Hafiz A. R. Suleria
    Food Reviews International.2024; 40(4): 1138.     CrossRef
  • Heating effect on nutritional value from two morphotypes (palmate and semi-palmate leaves) of Hibiscus sabdariffa
    Antoine Sambou, Nicolas Ayessou, Aly Diallo
    International Journal of Gastronomy and Food Science.2023; 32: 100698.     CrossRef
  • Nutrient Levels, Bioactive Metabolite Contents, and Antioxidant Capacities of Faba Beans as Affected by Dehulling
    Yu-Mi Choi, Hyemyeong Yoon, Myoung-Jae Shin, Sukyeung Lee, Jungyoon Yi, Young-ah Jeon, Xiaohan Wang, Kebede Taye Desta
    Foods.2023; 12(22): 4063.     CrossRef
  • Atmospheric CO2 concentration affects the life cycle, yield, and fruit quality of early maturing edible legume cultivars
    Idoia Garmendia, Sakineh Rashidi, Marilyn RA Quezada‐Salirrosas, Nieves Goicoechea
    Journal of the Science of Food and Agriculture.2022; 102(10): 3964.     CrossRef
  • Vicia plants—A comprehensive review on chemical composition and phytopharmacology
    Bahare Salehi, Ibrahim M. Abu‐Reidah, Farukh Sharopov, Natallia Karazhan, Javad Sharifi‐Rad, Muhammad Akram, Muhammad Daniyal, Fahad Said Khan, Wafa Abbaass, Rida Zainab, Katya Carbone, Nouran M. Fahmy, Eman Al‐Sayed, Mohamed El‐Shazly, Massimo Lucarini,
    Phytotherapy Research.2021; 35(2): 790.     CrossRef
  • L-3,4-dihydroxyphenylalanine Accumulation in Faba Bean (Vicia faba L.) Tissues during Different Growth Stages
    Shucheng Duan, Soon Jae Kwon, You Jin Lim, Chan Saem Gil, Chengwu Jin, Seok Hyun Eom
    Agronomy.2021; 11(3): 502.     CrossRef
  • Impact of gamma radiation on antioxidant activity in faba bean (Vicia faba L.) and the potential of meatballs formulation with inclusion of the powder of irradiated beans
    Aly H. Rady, Abbas O. Toliba, Hesham M. Badr, Amr Kh. Ali
    Journal of Food Science and Technology.2020; 57(8): 2975.     CrossRef
  • Phenolic Compound Content of Leaf Extracts from Different Roselle (Hibiscus sabdariffa) Accessions
    Jae Il Lyu, Jung Min Kim, Dong-Gun Kim, Jin-Baek Kim, Sang Hoon Kim, Joon-Woo Ahn, Si-Yong Kang, Jaihyunk Ryu, Soon-Jae Kwon
    Plant Breeding and Biotechnology.2020; 8(1): 1.     CrossRef
  • In vitro investigation of hypoglycemic and oxidative stress properties of fava bean (Vicia faba L.) seed extract in Saccharomyces cerevisiae 2376
    Dhiraj Kumar Choudhary, Abha Mishra
    Preparative Biochemistry & Biotechnology.2018; 48(10): 920.     CrossRef
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Selection of the Elite Lines with High Adaptability to Autumn Sowing of South Korea in Faba Bean
Min-Kyu Lee, Dong-Gun Kim, Jung Min Kim, Jaihyunk Ryu, Seok Hyun Eom, Min Jeong Hong, Young Eun Jang, Bo-Keun Ha, Soon-Jae Kwon
Plant Breed. Biotech. 2018;6(1):57-64.   Published online March 1, 2018
DOI: https://doi.org/10.9787/PBB.2018.6.1.57

This study involved an evaluation of agronomic characteristics to identify elite faba bean (Vicia faba L.) lines adapted to the environmental conditions in Korea. A total of 371 accessions were sown in February 2015, and 256 lines among 1,006 individuals were selected based on seed size and color as well as seed yield per plant. Thirty seeds of each line were sown in October 2015 to analyze the winter survival rates and agronomic characteristics. The 129 lines that survived until March were examined based on nine traits, including flowering date, plant height, number of stems, pot length, pot width, seeds per pot, 100-seed weight, seed size and seed color. Finally, ten elite lines were selected according to the winter survival rate, seed size and color, as well as seed yield per plant. Green seeds were observed for four of the selected lines, brown seeds were observed for two lines, and black, purple, and beige seeds were detected in one line each. The average winter survival rate was 74.8%. Moreover, the average plant height and 100-seed weight were 83.5 cm and 10.8 g, respectively. The plants produced an average of 150 seeds. These results will be very useful for autumn-sown of faba bean in South Korea, and ten elite lines will provide great opportunity for faba bean breeding.

Citations

Citations to this article as recorded by  
  • L-3,4-dihydroxyphenylalanine Accumulation in Faba Bean (Vicia faba L.) Tissues during Different Growth Stages
    Shucheng Duan, Soon Jae Kwon, You Jin Lim, Chan Saem Gil, Chengwu Jin, Seok Hyun Eom
    Agronomy.2021; 11(3): 502.     CrossRef
  • Unraveling the complexity of faba bean (Vicia faba L.) transcriptome to reveal cold-stress-responsive genes using long-read isoform sequencing technology
    Jae Il Lyu, Rahul Ramekar, Jung Min Kim, Nguyen Ngoc Hung, Ji Su Seo, Jin-Baek Kim, Ik-Young Choi, Kyong-Cheul Park, Soon-Jae Kwon
    Scientific Reports.2021;[Epub]     CrossRef
  • Utility of TRAP markers to determine indel mutation frequencies induced by gamma-ray irradiation of faba bean (Vicia fabaL.) seeds
    Min-Kyu Lee, Jae Il Lyu, Min Jeong Hong, Dong-Gun Kim, Jung Min Kim, Jin-Baek Kim, Seok Hyun Eom, Bo-Keun Ha, Soon-Jae Kwon
    International Journal of Radiation Biology.2019; 95(8): 1160.     CrossRef
  • Agronomy, Nutritional Value, and Medicinal Application of Faba Bean (Vicia faba L.)
    Fatemeh Etemadi, Masoud Hashemi, Allen V. Barker, Omid Reza Zandvakili, Xiaobing Liu
    Horticultural Plant Journal.2019; 5(4): 170.     CrossRef
  • G6PD deficiency
    Susan J. Harcke, Denise Rizzolo, H. Theodore Harcke
    JAAPA.2019; 32(11): 21.     CrossRef
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Fatty Acid Composition, Isoflavone and L-3,4-dihydroxyphenylalanine (L-dopa) Contents in Different Parts of Faba Bean (Vicia faba) Genotypes
Jaihyunk Ryu, Dong-Gun Kim, Min-Kyu Lee, Jung Min Kim, Min Jeong Hong, Kyung-Yun Kang, Seok Hyun Eom, Si-Yong Kang, Jin-Baek Kim, Soon-Jae Kwon
Plant Breed. Biotech. 2017;5(4):314-324.   Published online December 1, 2017
DOI: https://doi.org/10.9787/PBB.2017.5.4.314

The faba bean, one of the few crops that produces L-3,4-dihydroxy-phenylalanine (L-dopa) naturally, is also a good source of fatty acids and isoflavones. This study analyzed fatty acids, L-dopa and isoflavones in the leaves, immature pods and seeds of selected high-yielding faba bean genotypes spring-sown in Korea. The most abundant fatty acids in the leaves, immature pods and seeds were linolenic acid (58.6–63.7%), linoleic acid (46.9–58.9%), and linoleic acid (45.7–63.6%), respectively. The L-dopa content was highest in the leaf for all the faba bean genotypes except PI430715 and PI614810 where it was highest in the immature pods. The α-linolenic acid and L-dopa contents of the seed and immature pod of the PI430715 and PI614810 genotypes were the highest of all the genotypes. Four isoflavones (daidzin, genistin, daidzein and genistein) were detected with levels of daidzin and genistin generally higher than those of daidzein and genistein in each part of the faba bean. The L-dopa content was correlated (P ≤ 0.05) with those of five fatty acids (oleic, gondoic, phytanic, α-linolenic, and behenic acid). Overall, the PI430715 and PI614810 faba bean genotypes with their higher L-dopa and α-linolenic acid contents were the most functional. This study may help identify optimal genotypes for breeding new cultivars which provide functional compounds to treat Parkinson’s disease or use in foods.

Citations

Citations to this article as recorded by  
  • Comparison on the nutritional and functional components, and antioxidant activities of different Faba bean varieties
    Kaige Wang, Xu Lu, Yunfeng Xu, Guowei Man, Lei Luo, Jinle Xiang
    European Food Research and Technology.2026;[Epub]     CrossRef
  • Chemometric Approach to Fatty Acid Composition in Green and Mature Seeds of Selected Faba Bean ( Vicia faba L.) Populations from Serbia
    Violeta Mitic, Jelena Nikolic, Vesna Stankov Jovanovic, Jasmina Milenkovic, Ivana Zlatanovic, Biljana Arsic, Gordana Stojanovic
    Analytical Letters.2026; 59(6): 960.     CrossRef
  • Phytochemical Profiling, Antioxidant Capacity, and α-Amylase/α-Glucosidase Inhibitory Effects of 29 Faba Bean (Vicia faba L.) Varieties from China
    Ying Li, Zhihua Wang, Chengkai Mei, Wenqi Sun, Xingxing Yuan, Jing Wang, Wuyang Huang
    Biology.2025; 14(8): 982.     CrossRef
  • Thermal dependent effects of roasting on the volatiles, phenolics, and sensory properties of faba leaves (Vicia faba)
    Shucheng Duan, Soon-Jae Kwon, Ji Hye Kim, Jae-Hee Kim, Jung Min Kim, Juyoung Kim, Seok Hyun Eom
    LWT.2025; 215: 117257.     CrossRef
  • Can Isoflavone-Rich Legume Plants Be Useful in the Chemoprevention of Hormone-Dependent Cancers?—A Systematic Review
    Wojciech Paździora, Paweł Paśko, Karolina Grabowska, Agnieszka Galanty
    International Journal of Molecular Sciences.2024; 25(13): 7389.     CrossRef
  • Anti-nutrient factors, nutritional components, and antioxidant activities of faba beans (Vicia faba L.) as affected by genotype, seed traits, and their interactions
    Yu-Mi Choi, Myoung-Jae Shin, Sukyeung Lee, Hyemyeong Yoon, Jungyoon Yi, Xiaohan Wang, Heon-Woong Kim, Kebede Taye Desta
    Food Chemistry: X.2024; 23: 101780.     CrossRef
  • Unveiling Fatty Acid Profiles of the Parasitic Plants Orobanche foetida Poiret. and Orobanche crenata Forsk. and Modulation of Faba Bean (Vicia faba L.) Fatty Acid Composition in Response to Orobanche Infestation
    Amal Bouallegue, Siwar Thebti, Faouzi Horchani, Taoufik Hosni, Issam Nouairi, Haythem Mhadhbi, Najla Trabelsi, Moez Amri, Mohamed Kharrat, Zouhaier Abbes
    Plants.2023; 12(20): 3578.     CrossRef
  • Validated approach for vicine, convicine and levodopa quantification from faba bean seeds by flow injection analysis high-field asymmetric waveform ion mobility mass spectrometry
    Haixia Zhang, Randy W. Purves, Thomas D. Warkentin, Albert Vandenberg
    Food Chemistry.2023; 405: 134857.     CrossRef
  • Nutrient Levels, Bioactive Metabolite Contents, and Antioxidant Capacities of Faba Beans as Affected by Dehulling
    Yu-Mi Choi, Hyemyeong Yoon, Myoung-Jae Shin, Sukyeung Lee, Jungyoon Yi, Young-ah Jeon, Xiaohan Wang, Kebede Taye Desta
    Foods.2023; 12(22): 4063.     CrossRef
  • Faba beans with enhanced antioxidant activity ameliorate acetic acid-induced colitis in experimental rats
    Salwa M. El-sayed, Mona I. Nossier, Ahmed Ibrahim Nossier
    Food & Function.2022; 13(22): 11865.     CrossRef
  • Effect of Thermal Processing on Color, Phenolic Compounds, and Antioxidant Activity of Faba Bean (Vicia faba L.) Leaves and Seeds
    Shu-Cheng Duan, Soon-Jae Kwon, Seok-Hyun Eom
    Antioxidants.2021; 10(8): 1207.     CrossRef
  • L-3,4-dihydroxyphenylalanine Accumulation in Faba Bean (Vicia faba L.) Tissues during Different Growth Stages
    Shucheng Duan, Soon Jae Kwon, You Jin Lim, Chan Saem Gil, Chengwu Jin, Seok Hyun Eom
    Agronomy.2021; 11(3): 502.     CrossRef
  • Investigation of some biochemical mechanisms involved in the resistance of faba bean (Vicia faba L.) varieties to Orobanche spp.
    Zouhaier Abbes, Amal Bouallegue, Imen Trabelsi, Najla Trabelsi, Amani Taamalli, Moez Amri, Haythem Mhadhbi, Mohamed Kharrat
    Plant Protection Science.2020; 56(4): 317.     CrossRef
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  • 13 Crossref