Assessment of maturity stage and stability of new Indonesian melon cultivar ‘Melona’ based on ISSR markers and morphological characteristics

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ADIB FAKHRUDDIN YUSUF
ADHESTYA ALFIANI
TANTRI AJENG SALMA SALSABILA
PRIMA SEKTI KUSNANDA
INA NUR HIDAYATI
BUDI SETIADI DARYONO

Abstract

Abstract. Yusuf AF, Alfiyani A, Salsabila TAS, Kusnanda PS, Hidayati IN, Daryono BS. 2023. Assessment of maturity stage and stability of new Indonesian melon cultivar ‘Melona’ based on ISSR markers and morphological characteristics. Biodiversitas 24: 308-316. Market preferences for horticultural products determine the product’s selling value and absorption. One market criterion often used for the quality of horticultural products is color and maturity level. Color differences can provide a representation of the metabolites contained in a product. This study provides a standard for assessing melons' maturity level, which will be helpful as a benchmark for Indonesian consumer acceptance. In addition, this study also provides information on the stability of the character of the new cultivar 'Melona' from several generations of crosses to obtain superior cultivars. Assessment of maturity level based on color development in 'Melona' is divided into five stages. In the first and second stage, fruit was dominated by green color with Increasing fruit volume. The color change begins in the third stage. in the third stage and the following phases, there is an increase in the accumulation of beta-carotene and characterized by the dominance of orange instead of green. Maximum ripe of ‘Melona’ is characterized by strong yellow lobes, creamy-white interlobes, and orange flesh color. A molecular analysis employing four ISSR primers (UBC-807, UBC-808, UBC-811, and UBC-824) resulted in high uniformity and low genetic variation in the hybrid and parent lines genotype. Analysis resulted a total of 42 DNA fragments with only one polymorphic DNA fragment. The polymorphic DNA fragment was 2,300 bp in size and was found in the female accession 'Melona' and the hybrid 'Melona' based on the UBC-808 primer. The numerical phenetic relationship between male, female and hybrid accession melon cultivars is very close (above 97.6%) and indicated that the melona cultivars were stable.

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References
Akash M, Awad N, and Kasrawi M. 2020. Genetic diversity among snake melon landraces (Cucumis melo var. flexuosus) using molecular descriptors. Plant Biosystems 154(2): 206–212.
Brumos J. 2021. Gene regulation in climacteric fruit ripening. Current Opinion in Plant Biology. 63: 102042.
Chayut N, Yuan H, Saar Y, Zheng Y, Sun T, Zhou X, Hermanns A, Oren E, Faigenboim A, Hui M, Fei Z, Mazourek M, Burger J, Tadmor Y, and Li L. 2021. Comparative transcriptome analyses shed light on carotenoid production and plastid development in melon fruit. Horticulture Research 8(1).
Chen T, Qin G, and Tian S. 2020. Regulatory network of fruit ripening: current understanding and future challenges. New Phytologist 228(4): 1219–1226.
Chen Y, Grimplet J, David K, Castellarin SD, Terol J, Wong DCJ, Luo Z, Schaffer R, Celton JM, Talon M, Gambetta GA, and Chervin C. 2018. Ethylene receptors and related proteins in climacteric and non-climacteric fruits. Plant Science 276: 63–72.
Daryono BS, and Maryanto SD. 2017. Keanekaragaman dan Potensi Sumber Daya Genetik Melon. Gadjah Mada University Press.
Daryono BS, Subiastuti AS, Fatmadanni A, and Sartika D. 2019. Phenotypic and genetic stability of new indonesian melon cultivar (Cucumis melo L. ‘Melonia’) based on ISSR markers. Biodiversitas 20(4): 1069–1075.
Fenn MA, and Giovannoni JJ. 2021. Phytohormones in fruit development and maturation. Plant Journal 105(2): 446–458.
Florio FE, Gattolin S, Toppino L, Bassolino L, Fibiani M, Lo Scalzo R, Rotino GL, Tar Y, Derg B, DK S, Tewari R, Kumar V, Irfan M, Ghosh S, Chakraborty N, Chakraborty S, Datta A, Osorio S, Scossa F, Sartika D. 2015. A SmelAAT Acyltransferase Variant Causes a Major Difference in Eggplant (Solanum melongena L.) Peel Anthocyanin Composition. Frontiers in Plant Science 11(2): 978.
Getahun BB, Tiruneh MA, Aliche E, Malossetti M, Visser RG, and van der Linden CG. 2022. Genotype-by-Environment Interaction for Quantitative Trait Loci Affecting Nitrogen Use Efficiency and Associated Traits in Potato. In Potato Research. Potato Research.
Gupta K, Wani SH, Razzaq A, Skalicky M, Samantara K, Gupta S, Pandita D, Goel S, Grewal S, Hejnak V, Shiv A, El-Sabrout AM, Elansary HO, Alaklabi A, and Brestic M. 2022. Abscisic Acid: Role in Fruit Development and Ripening. Frontiers in Plant Science 13.
Hasan N, Choudhary S, Naaz N, Sharma N, and Laskar RA. 2021. Recent advancements in molecular marker-assisted selection and applications in plant breeding programmes. Journal of Genetic Engineering and Biotechnology 19(1): 1–26.
Katsu Y, Kato K, Abe S, and Miyazawa K. 2021. Seed Source Effects on Germination, Growth, and Yield of Carrots under Natural Farming. Journal of Horticultural Research 29(2): 117–126.
Kim SJ, Park JS, Shin YH, and Park YD. 2021. Identification and Validation of Genetic Variations in Transgenic Chinese Cabbage Plants (Brassica rapa ssp. pekinensis) by Next-Generation Sequencing. Genes 12(621).
Kumar V, Irfan M, Ghosh S, Chakraborty N, Chakraborty S, and Datta A. 2016. Fruit ripening mutants reveal cell metabolism and redox state during ripening. Protoplasma 253(2): 581–594.
Latifah YW. 2016. Kestabilan Karakter Fenotip dan Molekular Melon (Cucumis melo L. ‘Melona’) Hasil Segregasi dan Seleksi Populasi. [Thesis]. Universitas Gadjah Mada, Yogyakarta. [Indonesian]
Li BJ, Grierson D, Shi Y, and Chen KS. 2022. Roles of abscisic acid in regulating ripening and quality of strawberry, a model non-climacteric fruit. Horticulture Research, 9.
Maleki M, Shojaeiyan A, and Monfared RS. 2018. Population structure, morphological and genetic diversity within and among melon (Cucumis melo L.) landraces in Iran. Journal of Genetic Engineering and Biotechnology 16(2): 599–606.
Mohammadabadi M, Oleshko V, Oleshko O, Heiko L, Starostenko I, Kunovskii J, Bazaeva A, and Roudbari Z. 2021. Using inter simple sequence repeat multi-loci markers for studying genetic diversity in guppy fish. Turkish Journal of Fisheries and Aquatic Sciences 21(12): 603–613.
Osorio S, Scossa F, and Fernie AR. 2013. Molecular regulation of fruit ripening. Frontiers in Plant Science 4: 1–8.
Pereira L, Domingo MS, Ruggieri V, Argyris J, Phillips MA, Zhao G, Lian Q, Xu Y, He Y, Huang S, Pujol M, and Garcia-Mas J. 2020. Genetic dissection of climacteric fruit ripening in a melon population segregating for ripening behavior. Horticulture Research 7:187.
Salgotra RK, and Stewart CN. 2020. Functional markers for precision plant breeding. International Journal of Molecular Sciences 21(13): 1–33.
Salonia F, Ciacciulli A, Poles L, Pappalardo HD, La Malfa S, and Licciardello C. 2020. New Plant Breeding Techniques in Citrus for the Improvement of Important Agronomic Traits. A Review. Frontiers in Plant Science 11: 1–15.
Shinozaki Y, Nicolas P, Fernandez-Pozo N, Ma Q, Evanich DJ, Shi Y, Xu Y, Zheng Y, Snyder SI, Martin LBB, Ruiz-May E, Thannhauser TW, Chen K, Domozych DS, Catalá C, Fei Z, Mueller LA, Giovannoni JJ, and Rose JKC. 2018. High-resolution spatiotemporal transcriptome mapping of tomato fruit development and ripening. Nature Communications 9 (1).
Stanley L, and Yuan Y. W. 2019. Transcriptional Regulation of Carotenoid Biosynthesis in Plants: So Many Regulators, So Little Consensus. Frontiers in Plant Science 10: 1–17.
Yusuf AF, and Daryono BS. 2021. Studies of Genetic and Morphological Characteristics of Indonesian Melon (Cucumis melo L. ‘Hikapel’) Germplasm. International Journal on Advanced Science, Engineering and Information Technology 11(5): 2023–2030.
Yusuf AF, Wibowo WA, and Daryono BS. 2022. Genetic stability of melon (Cucumis melo L. cv. Meloni) based on inter-simple sequence repeat and phenotypic characteristics. Biodiversitas 23(6): 3042–3049.
Zhao B, Sun M, Li J, Su Z, Cai Z, Shen Z, Ma R, Yan J, and Yu M. 2022. Carotenoid Profiling of Yellow-Flesh Peach Fruit. Foods 11(12).
Zuo J, Grierson D, Courtney LT, Wang Y, Gao L, Zhao X, Zhu B, Luo Y, Wang Q, and Giovannoni JJ. 2020. Relationships between genome methylation, levels of non-coding RNAs, mRNAs and metabolites in ripening tomato fruit. Plant Journal 103(3): 980–994.

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