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Lycopene Content and Fruit Morphology of Red, Pink, Orange, and Yellow Fleshed Watermelon (Citrullus lanatus) Germplasm Collections KCI 등재

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한국자원식물학회지 (Korean journal of plant resources)
한국자원식물학회 (The Plant Resources Society Of Korea)
초록

High-quality and high-phytonutrient watermelon fruits have strong market opportunities besides their health related benefits. Hence, investigating quality and nutritional related traits of watermelon genetic resources could provide important baseline data in breeding for increased lycopene content thereby increasing the marketability of watermelon. To this end, we have examined some fruit morphological traits and lycopene content of 105 genetic resources. Seeds, originally obtained from 22+ countries, were obtained from the National Agrobiodiversity Center, Jeonju, South Korea, grown in an experimental field and harvested at a fully mature stage. The size of pistil scar (SPS), the width of stripes (WS), weight of fruit (WF), length of fruit (LF), width of fruit (WIF), the thickness of pericarp (TP), soluble solids content (SSC), fruit shape in longitudinal section, ground color of skin, the intensity of the green color of skin, fruit shape at the apical part, grooving distribution, conspicuousness of stripes, and main color of the flesh were recorded on the field and inside laboratory and the lycopene was measured using spectrophotometric and HPLC methods. Watermelon fruits have shown a diverse morphological characters. Red and pink fleshed fruits dominated in the entire collections. Fruits with higher thickness of rind were found to exhibit less soluble solid content (SSC). Korean origin fruits were characterized by intermediate SSC while the United States of America (USA), Russia (RUS), Tajikistan (TJK), Turkmenistan (TKM), Taiwan (TWN), and Uruguay (URY) originated fruits had the highest SSC. The lycopene content varied between 41.37 and 182.82 ㎍/g, 2.81 and 163.72 ㎍/g, and 3.54 and 255.47 ㎍/g using HPLC, UV-Vis spectrophotometer, and microplate reader spectrophotometer, respectively. Red- and pink-fleshed fruits had the highest levels of lycopene content compared to the yellow- and orange-fleshed. Lycopene content had a significant positive correlation with SSC, however, no correlations were detected between lycopene and other quantitative fruit morphological characters. Our study demonstrated high diversity exists in fruit morphological traits and lycopene content of the germplasm collections which provide beneficial baseline data for a future breeding program and utilization of watermelon germplasm collections in gene banks for the maintenance and improvement of the current levels of production, marketability, and health-related benefit of watermelon fruits.

목차
Abstract
Introduction
Materials and Methods
    Reagents and chemicals
    Plant materials and extraction of lycopene
    Extraction and analysis of lycopene
    Statistical analysis
Results and Discussion
    Fruit morphology analysis
    Analysis of lycopene using spectrophotometric and HPLCmethods Method validation
    Lycopene levels in watermelon fruit flesh sample
References
저자
  • Jae-Jong Noh(Jeonbuk Agricultural Research and Extension Services)
  • On-Sook Hur(National Agrobiodiversity Center, National Institute of Agricultural Sciences, RDA)
  • Na-Young Ro(National Agrobiodiversity Center, National Institute of Agricultural Sciences, RDA)
  • Jae-Eun Lee(National Agrobiodiversity Center, National Institute of Agricultural Sciences, RDA)
  • Ae-Jin Hwang(National Agrobiodiversity Center, National Institute of Agricultural Sciences, RDA)
  • Bit-Sam Kim(National Agrobiodiversity Center, National Institute of Agricultural Sciences, RDA)
  • Ju-hee Rhee(National Agrobiodiversity Center, National Institute of Agricultural Sciences, RDA)
  • Jung Yoon Yi(National Agrobiodiversity Center, National Institute of Agricultural Sciences, RDA)
  • Ji Hyun Kim(National Agrobiodiversity Center, National Institute of Agricultural Sciences, RDA)
  • Ho-Sun Lee(International Technology Cooperation Center, RDA)
  • Jung-Sook Sung(Upland Crop Breeding Division, Department of Southern Area Crop Science, National Institute of Crop Science, RDA)
  • Myung-Kon Kim(Department of Food Science and Technology, Jeonbuk National University)
  • Awraris Derbie Assefa(National Agrobiodiversity Center, National Institute of Agricultural Sciences, RDA) Corresponding author