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"Heejin Kim"

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"Heejin Kim"

Research Article
Development of a Mutant Population of Micro-Tom Tomato Using Gamma-Irradiation
Jae-In Chun, Heejin Kim, Yeong Deuk Jo, Jin-Baek Kim, Jin-Ho Kang
Plant Breed. Biotech. 2020;8(4):307-315.   Published online December 1, 2020
DOI: https://doi.org/10.9787/PBB.2020.8.4.307

Knowledge of genetic resources is essential for breeders to create new crop varieties with improved characteristics. In this respect, mutant populations may conveniently provide a powerful tool for identifying new functional genes. Therefore, we used the Micro-Tom tomato variety, which has a reduced size and a relatively short life-cycle compared to other commercial tomato cultivars, to construct a mutant population using gamma-ray radiation as a mutagen. To determine the optimal mutagenic intensity of gamma rays for tomato, dry seeds of Micro-Tom were irradiated with gamma-ray intensities from 0 to 1000 gray (Gy) with increments of 100 Gy. The germination rate of mutagenized seeds (M1 seeds) on MS media was not affected by the tested gamma-ray intensity range. However, seedling growth was severely reduced with increasing irradiation. Seedling growth rate at eight days after germination showed that the median gamma-ray doses for hypocotyl and root elongation were 600 and 300-400 Gy, respectively. The survival test for 300, 400, and 500 Gy-treated M1 seeds showed that survival rates significantly decreased with increasing irradiation. The survival rate of 400 Gy-radiated seeds was 48%, while that of 500 Gy-radiated seeds was only 25%, compared with the control treatment. Therefore, we concluded that gamma-ray irradiation at 300-400 Gy is best for tomato mutagenesis. To find new mutants, M2 seeds produced by M1 plants were grown. We found several mutants, including plants with varying cotyledon number, variegated or red leaves, and green hypocotyls.

Citations

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  • Gamma rays and sodium azide induced variations in bio-physiological and agronomical traits in linseed (Linum usitatissimum L.)
    Roshan Jahan, Aamir Raina, Saima Malik, Samiullah Khan
    Heliyon.2024; 10(11): e31329.     CrossRef
  • Mutation mapping of a variegated EMS tomato reveals an FtsH-like protein precursor potentially causing patches of four phenotype classes in the leaves with distinctive internal morphology
    Punyavee Dechkrong, Sornsawan Srima, Siriphan Sukkhaeng, Winai Utkhao, Piyanan Thanomchat, Hans de Jong, Pumipat Tongyoo
    BMC Plant Biology.2024;[Epub]     CrossRef
  • Effect of Gamma Irradiation on Survival, Fruit Characteristic, and Thorn Length in Different Varieties of Citrus
    Cheol-Woo Choi, Min-Ju Kim, Seong-beom Jin, Suk-Man Park, Su-Hyun Yun
    Korean Journal of Breeding Science.2023; 55(4): 296.     CrossRef
  • Radiosensitivity of seedling traits to varying gamma doses, optimum dose determination and variation in determined doses due to different time of sowings after irradiation and methods of irradiation in faba bean genotypes
    Rajdeep Guha Mallick, Subhradeep Pramanik, Manas Kumar Pandit, Akhilesh Kumar Gupta, Subhrajit Roy, Sanjay Jambhulkar, Ashutosh Sarker, Rajib Nath, Somnath Bhattacharyya
    International Journal of Radiation Biology.2023; 99(3): 534.     CrossRef
  • Mutagenesis-based plant breeding approaches and genome engineering: A review focused on tomato
    Durre Shahwar, Namju Ahn, Donghyun Kim, Wooseong Ahn, Younghoon Park
    Mutation Research - Reviews in Mutation Research.2023; 792: 108473.     CrossRef
  • Radiation treatment to turfgrass cultivar to improve drought tolerance cultivar breeding
    Gyung Deok Han, Ji Hyeon Jung, Hyeon-Jin Sun, Yong Suk Chung
    Plant Biotechnology Reports.2022; 16(4): 493.     CrossRef
  • Chronic Gamma Irradiation Changes Phenotype and Gene Expression Partially Transmitted to Next-Generation Tomato Seedlings
    Seong-Min Kim, Yeong Deuk Jo, Jae-In Chun, Jin-Baek Kim, Jin-Ho Kang
    Agronomy.2021; 11(8): 1638.     CrossRef
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