Skip to main navigation Skip to main content
  • KSBS
  • E-Submission

Plant Breed. Biotech. : Plant Breeding and Biotechnology

OPEN ACCESS
ABOUT
BROWSE ARTICLES
EDITORIAL POLICIES
FOR CONTRIBUTORS

Page Path

5
results for

"Xiang-Min Piao"

Article category

Keywords

Publication year

Authors

"Xiang-Min Piao"

Research Articles
Variation in Antioxidant Activity and Flavonoid Aglycones in Eggplant (Solanum melongena L.) Germplasm
Xiang-Min Piao, Jong-Wook Chung, Gi-An Lee, Jung-Ro Lee, Gyu-Taek Cho, Ho-Sun Lee, Kyung-Ho Ma, Jing Guo, Hong Sig Kim, Sok-Young Lee
Plant Breed. Biotech. 2014;2(4):396-403.   Published online December 31, 2014
DOI: https://doi.org/10.9787/PBB.2014.2.4.396

Eggplant (Solanum melongena L.) is an excellent source of vitamins A and C and of flavonoid compounds, which are important antioxidant components believed to reduce the risk of various diseases. We investigated the antioxidant activity and flavonoid content in eggplant leaves and fruits to identify genetic resources with high antioxidant capacity for use in food or as feed additives, and also determined the influence of days to flowering, leaf blade colors, and latitudes of origin on the antioxidant activity and flavonoid content in eggplant leaves. The accessions originating from 45°N showed the highest flavonoid contents (AVG. = 15.4 μg mg−1) followed by accessions from 30°~45°N (AVG. = 13.0 μg mg−1), 15°~30°N (AVG. = 11.0 μg mg−1), and 0°~15°N (AVG. = 9.5 μg mg−1). The same pattern was also found in 2,2′-azino-bis(3-ethylbenzothiazoline-6-sulfonic acid) (ABTS) and 1,1-diphenyl-2-picryl-hydrazil (DPPH) antioxidant activities. High ABTS and DPPH activity and flavonoid content were found in the early-flowering accessions. All flavonoids of the greenish violet leaves were significantly higher than those of green leaves. The flavonoid concentration in eggplant leaves was 10 to 20 fold greater, at an average of 15.6 μg mg−1, than that of the fruit (AVG. = 0.9 μg mg−1). Taken together, eggplant leaves represent a potential source of natural antioxidants due to their high flavonoid content.

Citations

Citations to this article as recorded by  
  • Valorization of Solanum melongena L. crop by-products: Phenolic composition and in vitro antioxidant, antidiabetic, anti-inflammatory, cytotoxic, and antimicrobial properties
    Mikel Añibarro-Ortega, Maria Inês Dias, Jovana Petrović, Sonia Núñez, Ricardo C. Calhelha, Eduardo M. Costa, M. Machado, Manuela Pintado, Marina Soković, Víctor López, Lillian Barros, José Pinela
    Process Biochemistry.2025; 153: 315.     CrossRef
  • Exploration of natural colourant of ( Solanum melongena L.) brinjal plant residues for fabric dyeing: a novel approach towards textile processing
    Fatima Batool, Naeem Iqbal, Shahid Adeel, Muhammad Azeem, Sahar Mumtaz, Muhammad Hussaan
    Natural Product Research.2025; 39(7): 1834.     CrossRef
  • Effect of Solanum melongena on Components and Kidney Damage of Fructose-Induced Metabolic Syndrome in Rats
    Elizabeth Guzmán Hernández, Maria del Rosario González Valle, José Carmelo Benítez Flores, Maria Eugenia Garian Aguilar, Rubén San Miguel Chávez, Maria Dolores Hernández Martínez, Leonardo del Valle Mondragón, David Segura Cobos, Gil Alfonso Magos Guerrer
    Iranian Journal of Pharmaceutical Research.2024;[Epub]     CrossRef
  • Characterization of Flavonoid, Free Amino Acid, Volatiles Components of ‘Minihyang’ Fruit, a New Cultivar Citrus reticulata
    Sang Suk Kim, YoSup Park, Seung-Gab Han
    Korean Journal of Breeding Science.2023; 55(3): 244.     CrossRef
  • Metabolomic Analysis of Phytochemical Compounds from Agricultural Residues of Eggplant (Solanum melongena L.)
    Laura Aracely Contreras-Angulo, Aldo Moreno-Ulloa, Rommel A. Carballo-Castañeda, Josefina León-Felix, José Geovanni Romero-Quintana, Maribel Aguilar-Medina, Rosalío Ramos-Payán, J. Basilio Heredia
    Molecules.2022; 27(20): 7013.     CrossRef
  • Assessing Physicochemical Parameters, Bioactive Profile and Antioxidant Status of Different Fruit Parts of Greek Eggplant Germplasm
    Kalliopi I. Kadoglidou, Konstantinos Krommydas, Parthenopi Ralli, Ifigeneia Mellidou, Apostolos Kalyvas, Maria Irakli
    Horticulturae.2022; 8(12): 1113.     CrossRef
  • Biochemical Composition of Eggplant Fruits: A Review
    Meenakshi Sharma, Prashant Kaushik
    Applied Sciences.2021; 11(15): 7078.     CrossRef
  • Bioactive compounds and enzymatic activity in minimally processed eggplant packedunderactive modified atmosphere
    Flávia Aparecida de Carvalho Mariano-Nasser, Cristine Vanz Borges, Juliana Arruda Ramos, Maurício Dominguez Nasser, Giovanna Alencar Lundgren, Karina Aparecida Furlaneto, Tânia Regina Kovalski, Rogério Lopes Vieites
    Semina: Ciências Agrárias.2019; 40(1): 139.     CrossRef
  • Health benefits and bioactive compounds of eggplant
    Nergiz Gürbüz, Selman Uluişik, Anne Frary, Amy Frary, Sami Doğanlar
    Food Chemistry.2018; 268: 602.     CrossRef
  • A Polyphenol Rich Extract from Solanum melongena L. DR2 Peel Exhibits Antioxidant Properties and Anti-Herpes Simplex Virus Type 1 Activity In Vitro
    Antonella Di Sotto, Silvia Di Giacomo, Donatella Amatore, Marcello Locatelli, Annabella Vitalone, Chiara Toniolo, Giuseppe Leonardo Rotino, Roberto Lo Scalzo, Anna Teresa Palamara, Maria Elena Marcocci, Lucia Nencioni
    Molecules.2018; 23(8): 2066.     CrossRef
  • 14 View
  • 0 Download
  • 10 Crossref
Application of Simple Sequence Repeat (SSR) Markers for the Discrimination of Korean and Chinese Sesame (Sesamum indicum L.) Accessions
Jong-Hyun Park, Sundan Suresh, Xiang-Min Piao, Gyu Taek Cho, Sok-Young Lee, Hyung Jin Baek, Chul-Won Lee, Jong-Wook Chung
Plant Breed. Biotech. 2014;2(1):80-87.   Published online March 31, 2014
DOI: https://doi.org/10.9787/PBB.2014.2.1.080

Sesame (Sesamum indicum L.) is an ancient oil seed crop that has been referred to as the ‘queen of oilseeds’ by virtue of its high quality oil. Fourteen simple sequence repeat (SSR) markers were used to differentiate 70 sesame (Sesame indicum L) accessions. Forty-three of the accessions were from Korea and 27 were from China. An initial round of analysis using two SSR markers (GBssr-sa-005 and GBssr-sa-182) identified 21 distinct accessions. A second round of analysis using one additional SSR marker (GBssr-sa-108) identified 25 more distinct accessions. Addition of a fourth SSR marker (GBssr-sa-184) for a third round of analysis identified an additional 20 accessions. This study demonstrates differentiation between 43 accessions from Korea and 23 accessions from China by four SSR markers.

Citations

Citations to this article as recorded by  
  • Marker–Trait Association for Protein Content among Maize Wild Accessions and Coix Using SSR Markers
    Shankarappa Varalakshmi, Smrutishree Sahoo, Narendra Kumar Singh, Navneet Pareek, Priya Garkoti, Velmurugan Senthilkumar, Shruti Kashyap, Jai Prakash Jaiswal, Sherry Rachel Jacob, Amol N. Nankar
    Agronomy.2023; 13(8): 2138.     CrossRef
  • Association mapping of cane weight and tillers per plant in sugarcane
    Muhammad Bilal, Muhammad Saeed, Idrees Ahmad Nasir, Bushra Tabassum, Mariam Zameer, Anwar Khan, Muhammad Tariq, Muhammad Aslam Javed, Tayyab Husnain
    Biotechnology & Biotechnological Equipment.2015; 29(4): 617.     CrossRef
  • 13 View
  • 0 Download
  • 2 Crossref
Effect of Genotype, Growing Year and Planting Date on Agronomic Traits and Chemical Composition in Sunflower (Helianthus annuus L.) Germplasm
Xiang-Min Piao, Seong Yel Choi, Young Seok Jang, Yoon-Sup So, Jong-Wook Chung, Sok-Young Lee, Jae-Hyun Jong, Hong Sig Kim
Plant Breed. Biotech. 2014;2(1):35-47.   Published online March 31, 2014
DOI: https://doi.org/10.9787/PBB.2014.2.1.035

Sunflower is one of the most widely cultivated oil crops. It produces seeds which have abundant health benefits. The
objective
of this research was to determine the effects of two growing years and five planting dates on agronomic traits and chemical compositions in sunflower accessions. In this study, genotype by year interaction was significant for days to flowering, weight of seeds per plant, oil, palmitic acid, stearic acid, oleic acid, linoleic acid, all tocopherol and phytosterol components. The major source of variation in most agronomic traits and chemical compositions in sunflower was attributed by variation among genotypes. Days to flowering, head length, and weight of seeds per plant decreased when planting date was delayed. Oil content, stearic acid, oleic acid, α-tocopherol, total tocopherol, β-sitosterol, and total sterol contents decreased but linoleic acid increased when planting date was delayed. From this study, valuable information will be provided for sunflower breeders and growers in developing and producing functional food resources and products.

Citations

Citations to this article as recorded by  
  • Sowing Dates and Cultivars Mediated Changes in Phenology and Yield Traits of Cotton-Sunflower Cropping System in the Arid Environment
    Muhammad Tariq, Zartash Fatima, Pakeeza Iqbal, Kamrun Nahar, Shakeel Ahmad, Mirza Hasanuzzaman
    International Journal of Plant Production.2021; 15(2): 291.     CrossRef
  • Breeding for sustainable oilseed crop yield and quality in a changing climate
    Ziv Attia, Cloe S. Pogoda, Stephan Reinert, Nolan C. Kane, Brent S. Hulke
    Theoretical and Applied Genetics.2021; 134(6): 1817.     CrossRef
  • Biochemical composition of seeds of transgenic spring rapeseed plants carrying the Mammalia cyp11a1 gene
    A.M. Shishlova-Sokolovskaya, S.G. Efimenko
    Fiziologia rastenij i genetika.2020; 52(6): 483.     CrossRef
  • Highlights to phytosterols accumulation and equilibrium in plants: Biosynthetic pathway and feedback regulation
    Xuan Zhang, Kangqi Lin, Yinxin Li
    Plant Physiology and Biochemistry.2020; 155: 637.     CrossRef
  • Environmental effect on sunflower oil quality
    Amadeu Regitano Neto, Ana Maria Rauen de Oliveira Miguel, Anna Lúcia Mourad, Ercília Aparecida Henriques, Rosa Maria Vercelino Alves
    Crop Breeding and Applied Biotechnology.2016; 16(3): 197.     CrossRef
  • 10 View
  • 0 Download
  • 5 Crossref
Evaluation of Genetic Diversity and Comparison of Biochemical Traits of Soybean (Glycine max L.) Germplasm Collections
Jae Young Song, Xiang-min Piao, Yu-Mi Choi, Gi-An Lee, Jong-Wook Chung, Jung-Ro Lee, Yeonju Jung, Hong-Jae Park, Myung Chul Lee
Plant Breed. Biotech. 2013;1(4):374-384.   Published online December 31, 2013
DOI: https://doi.org/10.9787/PBB.2013.1.4.374

Assessment of the genetic variation and biochemical traits among various germplasm collections are necessary for utilization of valuable genetic resource and effective strategies of germplasm conservation. The aims of this study were to analyze the genetic diversity using SSR markers and compare protein, oil content and fatty acid composition of about 185 soybean germplasm which is comprised of Korean landraces and collections from six different global regions. Seventy two SSR markers were selected based on their distribution on the 17 genetic linkage groups of soybean. A total of 784 alleles were detected from all accessions, with an average of 10.9 alleles per microsatellite locus. The genetic diversity observed was high wherein three distinct groups were formed containing several subgroups according to their geographic origins. Biochemical contents assay revealed significant differences in their protein and oil contents. Generally, the crude protein content was highest among India and Myanmar collections, while oil content was highest among accessions from USA and China. A negative correlation was observed between protein and oil contents, and between oleic and linolenic acids. The highest value observed for biochemical content among all germplam tested was 45.8% for crude protein, 26.7% for crude oil and 35.7% for oleic acid composition. Our study provided a better understanding of genetic relationships and geographical origin among various germplasm collections, and it could contribute to more efficient utilization of valuable genetic resources.

Citations

Citations to this article as recorded by  
  • Analyses of phytochemicals and nutritional compositions in Bambara groundnut (Vigna subterranea [L.] Verdc)
    Nomathemba Gloria Majola, Abe Shegro Gerrano, Hussein Shimelis, Jacob Mashilo
    Journal of Agriculture and Food Research.2025; 19: 101610.     CrossRef
  • An Efficient Protoplast Isolation Method Using Hypocotyl in Soybean (Glycine max)
    Jaehwan Kim, Yeong Yeop Jeong, Hyunwoo Park, Pil Joon Seo, Kyung Do Kim
    Korean Journal of Breeding Science.2025; 57(1): 1.     CrossRef
  • Genetic diversity in early maturity Chinese and European elite soybeans: A comparative analysis
    Xindong Yao, Jiang-yuan Xu, Zhang-xiong Liu, Martin Pachner, Eva Maria Molin, Leopold Rittler, Volker Hahn, Willmar Leiser, Yong-zhe Gu, Yu-qing Lu, Li-juan Qiu, Johann Vollmann
    Euphytica.2023;[Epub]     CrossRef
  • Natural Variation of Seed Tocopherol Composition in Diverse World Soybean Accessions from Maturity Group 0 to VI Grown in China
    Suprio Ghosh, Shengrui Zhang, Muhammad Azam, Berhane S. Gebregziabher, Ahmed M. Abdelghany, Abdulwahab S. Shaibu, Jie Qi, Yue Feng, Kwadwo Gyapong Agyenim-Boateng, Yitian Liu, Huoyi Feng, Yecheng Li, Jing Li, Bin Li, Junming Sun
    Plants.2022; 11(2): 206.     CrossRef
  • Physicochemical and Nutraceutical Profiles Assessment of Genotypes within Nigerian Active Breeding Cocoa Germplasm
    Daniel Adewale, Oluwayemisi Oluwatosin Adeigbe
    SSRN Electronic Journal .2022;[Epub]     CrossRef
  • Origin, Maturity Group and Seed Coat Color Influence Carotenoid and Chlorophyll Concentrations in Soybean Seeds
    Berhane Sibhatu Gebregziabher, Shengrui Zhang, Suprio Ghosh, Abdulwahab S. Shaibu, Muhammad Azam, Ahmed M. Abdelghany, Jie Qi, Kwadwo G. Agyenim-Boateng, Honey T. P. Htway, Yue Feng, Caiyou Ma, Yecheng Li, Jing Li, Bin Li, Lijuan Qiu, Junming Sun
    Plants.2022; 11(7): 848.     CrossRef
  • Evaluating nutritional content among Bambara groundnut lines
    Nokuthula Cherry Hlanga, Albert Thembinkosi Modi, Isack Mathew
    Journal of Food Composition and Analysis.2021; 102: 104053.     CrossRef
  • Profiling and associations of seed nutritional characteristics in Chinese and USA soybean cultivars
    Muhammad Azam, Shengrui Zhang, Jie Qi, Ahmed M. Abdelghany, Abdulwahab S. Shaibu, Suprio Ghosh, Yue Feng, Yuanyuan Huai, Berhane S. Gebregziabher, Jing Li, Bin Li, Junming Sun
    Journal of Food Composition and Analysis.2021; 98: 103803.     CrossRef
  • Genetic Diversity Patterns and Discrimination of 172 Korean Soybean (Glycine max (L.) Merrill) Varieties Based on SSR Analysis
    Tae-Young Hwang, Byeong Sam Gwak, Jwakyung Sung, Hong-Sig Kim
    Agriculture.2020; 10(3): 77.     CrossRef
  • Multiple-trait selection of soybean for biodiesel production in Brazil
    Leomar Guilherme Woyann, Daniela Meira, Andrei Daniel Zdziarski, Gilvani Matei, Anderson Simionato Milioli, Ana Claudia Rosa, Laura Alexandra Madella, Giovani Benin
    Industrial Crops and Products.2019; 140: 111721.     CrossRef
  • Natural Variation in Fatty Acid Composition of Diverse World Soybean Germplasms Grown in China
    Ahmed M. Abdelghany, Shengrui Zhang, Muhammad Azam, Abdulwahab S. Shaibu, Yue Feng, Jie Qi, Yanfei Li, Yu Tian, Huilong Hong, Bin Li, Junming Sun
    Agronomy.2019; 10(1): 24.     CrossRef
  • Endonuclease com incompatibilidade heteroduplex para detectar mutação e variações genéticas de inibidores da tripsina em soja
    Gordana Petrović, Zorica Nikolić, Vuk Đorđević, Vesna Župunski, Dušica Jovičić, Maja Ignjatov, Dragana Milošević
    Pesquisa Agropecuária Brasileira.2014; 49(2): 102.     CrossRef
  • Genetic Diversity and Population Structure of Korean Soybean Collection Using 75 Microsatellite Markers
    Gi-An Lee, Yu-Mi Choi, Jung-Yoon Yi, Jong-Wook Chung, Myung-Chul Lee, Kyung-Ho Ma, Sok-young Lee, Jin-Woong Cho, Jung-Ro Lee
    KOREAN JOURNAL OF CROP SCIENCE.2014; 59(4): 492.     CrossRef
  • 7 View
  • 0 Download
  • 13 Crossref
Variation in Antioxidant Activity and Polyphenol Content in Tomato Stems and Leaves
Xiang-Min Piao, Eun-Kyu Jang, Jong-Wook Chung, Gi-An Lee, Ho-Sun Lee, Jung-Sook Sung, Young-Ah Jeon, Jung-Ro Lee, Yeon-Gyu Kim, Sok-Young Lee
Plant Breed. Biotech. 2013;1(4):366-373.   Published online December 31, 2013
DOI: https://doi.org/10.9787/PBB.2013.1.4.366

Tomato was considered as one of the most widely cultivated vegetable crops in the world. Tomato plant has high antioxidant capacity which can be attributed to the high levels of carotenoids, phenols, vitamins C and E. However, most of tomato plants have been discarded as waste after fruit harvesting. In order to identify genetic resources with high antioxidant level for use in food or as feed additives, we investigated the ABTS, DPPH antioxidant activity and polyphenol content in tomato leaves and stems. A total of 112 tomato accessions were classified into three groups by latitude of their collected countries: 30°~60° North (50 accessions), 0°~30° North (40 accessions), and 0°~30° South (22 accessions). Stem and leaf extracts showed wide variation in ABTS antioxidant activity ranging from 1.6 ± 1.0 to 48.4 ± 6.1 μg Trolox mg−1 dw. The antioxidant activity of DPPH was in the range of 6.3 ± 0.2 to 40.0 ± 0.3 μg ASC mg−1 dw. Total polyphenol content ranged from 6.1 ± 0.2 to 38.9 ± 0.7 μg GAE mg−1 dw. ABTS, DPPH antioxidant activities and polyphenol content in accessions from 30°~60°N latitude were significantly higher (P<0.05) than those from 0°~30°N latitude. ABTS values showed a significant positive correlation (r = 0.700**) with DPPH activity. IT100506 (KOR) and 702959 (UKR) were recommended as potential sources of natural antioxidants due to their highest antioxidant activity among accessions. This study will provide valuable information for tomato breeders in developing and producing functional food or feed additives resources.

Citations

Citations to this article as recorded by  
  • Functional phenotyping of Agastache germplasm reveals antioxidant–neuroprotective linkages
    Eun-Gyeong Kim, Gyeongju Gim, Jehun Choi, Gi-An Lee, Sookyeong Lee, Jae-Eun Lee
    BMC Plant Biology.2026;[Epub]     CrossRef
  • Flower Color and Seed Coat Color as a Phenotypic Marker: Correlations with Fatty Acid Composition, Antioxidant Properties, and Metabolite Profiles in Safflower (Carthamus tinctorius L.)
    Weilan Li, Eun-Gyeong Kim, Dongho Lee, Young-Min Choi, Jae-Eun Lee, Sookyeong Lee, Gi-An Lee, Eunae Yoo
    International Journal of Molecular Sciences.2025; 26(7): 3105.     CrossRef
  • Effect of Trichoderma harzianum against Fusarium oxysporum in resistant and susceptible tomato cultivars
    Patcharaporn Suwor, Manthana Mueangkhong, Praphat Kawicha, Thanwanit Thanyasiriwat, Suchila Techawongstien, Sanjeet Kumar, Wen-Shi Tsai, Somsak Kramchote
    Horticultural Science.2025; 52(2): 173.     CrossRef
  • Protective Effects on Neuronal SH-SY5Y Cells and Antioxidant Activity of Enzymatic Hydrolyzate from Silkworms Fed the Leaves of Cudrania tricuspidata
    Gyu-Mi An, Tae-Hwan Jung, Kyoung-Sik Han
    Applied Sciences.2024; 14(5): 1733.     CrossRef
  • Distinct Effects of Seed Coat and Flower Colors on Metabolite Contents and Antioxidant Activities in Safflower Seeds
    Weilan Li, Eunae Yoo, Jungsook Sung, Sookyeong Lee, Sojeong Hwang, Gi-An Lee
    Antioxidants.2023; 12(4): 961.     CrossRef
  • Global Patterns of Antioxidant-Rich Food Crops Based on Geographical Origins
    Gregory J. Carlton, Paul A. Knapp, Tyler J. Mitchell
    The Professional Geographer.2023; 75(6): 947.     CrossRef
  • Impact of Seasonal Consumption of Local Tomatoes on the Metabolism and Absorption of (Poly)Phenols in Fischer Rats
    Álvaro Cruz-Carrión, Luca Calani, Ma. Josefina Ruiz de Azua, Pedro Mena, Daniele Del Rio, Anna Arola-Arnal, Manuel Suárez
    Nutrients.2022; 14(10): 2047.     CrossRef
  • Production of Defense Phenolics in Tomato Leaves of Different Age
    Kateřina Dadáková, Tereza Heinrichová, Jan Lochman, Tomáš Kašparovský
    Molecules.2020; 25(21): 4952.     CrossRef
  • Biological activities and phytochemical composition of organs from Loranthus europaeus
    Mohamed Ali Benabderrahim, Walid Elfalleh, Cengiz Sarikurkcu, Rabia Busra Sarikurkcu
    Industrial Crops and Products.2019; 141: 111772.     CrossRef
  • Variation in Fatty Acid Composition, Caffeic and Rosmarinic Acid Content, and Antioxidant Activity of Perilla Accessions
    Da Jeong Kim, Awraris Derbie Assefa, Yi Jin Jeong, Young Ah Jeon, Jae Eun Lee, Myeong Chul Lee, Ho Sun Lee, Ju Hee Rhee, Jung Sook Sung
    Korean Journal of Medicinal Crop Science.2019; 27(2): 96.     CrossRef
  • Assessing phenolic content and antioxidant potential diversity in Allium plants using multivariate data analysis
    Awraris Derbie Assefa, Yi-Jin Jeong, Da-Jeong Kim, Young-Ah Jeon, Jung-Ro Lee, Ho-Cheol Ko, Hyung-Jin Baek, Jung-Sook Sung
    Horticulture, Environment, and Biotechnology.2018; 59(5): 759.     CrossRef
  • Characterization, identification, and quantification of phenolic compounds using UPLC-Q-TOF-MS and evaluation of antioxidant activity of 73 Perilla frutescens accessions
    Awraris Derbie Assefa, Yi-Jin Jeong, Da-Jeong Kim, Young-Ah Jeon, Hyun-Choong Ok, Hyung-Jin Baek, Jung-Sook Sung
    Food Research International.2018; 111: 153.     CrossRef
  • Comparative analysis of total phenolic content and antioxidant activity of in vivo and in vitro grown plant parts of Carica papaya L.
    Neha Tiwari, Nidhi Srivastava, Vinay Sharma
    Indian Journal of Plant Physiology.2014; 19(4): 356.     CrossRef
  • 18 View
  • 0 Download
  • 13 Crossref