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"Jung Hun Pak"

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"Jung Hun Pak"

Research Articles
Overexpression of AtSZF2 from Arabidopsis Showed Enhanced Tolerance to Salt Stress in Soybean
Mi-Jin Kim, Hye Jeong Kim, Jung Hun Pak, Hyun Suk Cho, Hong Kyu Choi, Ho Won Jung, Dong Hee Lee, Young-Soo Chung
Plant Breed. Biotech. 2017;5(1):1-15.   Published online March 1, 2017
DOI: https://doi.org/10.9787/PBB.2017.5.1.1

Plants have adapted to environmental challenges by expressing many plant genes in response to the stresses. Among those genes, CCCH zinc finger proteins are involved in abiotic and biotic stresses. Transgenic soybean plants overexpressing AtSZF2 were produced to investigate that its ectopic overexpression enhanced salt stress tolerance by Agrobacterium-mediated transformation using half-seed explants. Sixteen transgenic lines were chosen to analyze for T-DNA insertion and transcription levels, and most of them were confirmed as positive. In further analysis with Southern blot, stable transformation event and copy number were confirmed. Following high salinity stress on the detached leaf and whole plant of two transgenic lines (#4 and #6) revealed that the ectopic expression of AtSZF2 was correlated with stress tolerance in phenotype, ion leakage and chlorophyll content with statistical significance. In another test with 20% PEG treatment, similar tolerance of transgenic plants was observed with lower ion leakage and higher chlorophyll content, indicating that the damage of cell membrane was prevented in transgenic plants. Finally, expression of various abiotic stress-responding genes was detected by reverse transcriptase and quantitative real-time PCR analysis with the transgenic plants. It could be proposed that introduction of AtSZF2 resulted in the modulation of ABA/stress responsive gene expression in transgenic soybean plants and make them tolerant against salt stress. Considering soybean as a salt-sensitive crop and importance of salt stress tolerance in specific farming region, the introduction of AtSZF2 may provide an approach for crop improvement in soybean breeding.

Citations

Citations to this article as recorded by  
  • Resilient soybeans for a changing climate: analyzing traditional and emerging new plant breeding technologies to combat abiotic stresses
    Bareera Nasir, Saleem Ur Rahman, Abdaal Ali, Ehtisham Shafique, Nighat Zia, Niaz Ahmad, Ghulam Raza, Rubina Bukhari
    Acta Physiologiae Plantarum.2025;[Epub]     CrossRef
  • CRISPR/Cas9-mediated simultaneous targeting of GmP34 and its homologs produces T-DNA-free soybean mutants with reduced allergenic potential
    Dongwon Baek, Byung Jun Jin, Mi Suk Park, Ye Jin Cha, Tae Hee Han, Ye Na Jang, Su Bin Kim, Sang In Shim, Jong-Il Chung, Hyun Jin Chun, Min Chul Kim
    Frontiers in Plant Science.2025;[Epub]     CrossRef
  • Soybean Molecular Breeding Through Genome Editing Tools: Recent Advances and Future Perspectives
    Chan Yong Kim, Sivabalan Karthik, Hyeran Kim
    Agronomy.2025; 15(8): 1983.     CrossRef
  • Influence of arbuscular mycorrhizal fungi on morpho-biochemical characteristics, nutrient uptake, and transcriptomic profile of Solanum melongena L. plant
    Subhesh Saurabh Jha, L. S. Songachan
    3 Biotech.2025;[Epub]     CrossRef
  • A novel PGPR strain, Streptomyces lasalocidi JCM 3373T, alleviates salt stress and shapes root architecture in soybean by secreting indole‐3‐carboxaldehyde
    Liang Lu, Ning Liu, Zihui Fan, Minghao Liu, Xiaxia Zhang, Juan Tian, Yanjun Yu, Honghui Lin, Ying Huang, Zhaosheng Kong
    Plant, Cell & Environment.2024; 47(6): 1941.     CrossRef
  • RL-WG26 mediated salt stress tolerance in rice seedlings: A new insight into molecular mechanisms
    Lei Ren, Yi Zhang, John L. Zhou, Guan Wang, Yujian Mo, Yu Ling, Yongxiang Huang, Yueqing Zhang, Hanqiao Hu, Yanyan Wang
    Plant Stress.2024; 11: 100306.     CrossRef
  • Halotolerant endophytes promote grapevine regrowth after salt-induced defoliation
    Salvadora Navarro-Torre, Sara Ferrario, Ana D. Caperta, Gonçalo Victorino, Marion Bailly, Vicelina Sousa, Wanda Viegas, Amaia Nogales
    Journal of Plant Interactions.2023;[Epub]     CrossRef
  • Environmental Risk Assessment of Herbicide Resistant Transgenic Rapeseed (Brassica napus L.) : Responses to Cyprinus carpio fed on herbicide resistant transgenic rapeseed
    Sung-Dug Oh, Kyunglyung Baek, Seok-Ki Min, Joon Ki Hong, Doh-Won Yun, Seong-Kon Lee, Ancheol Chang
    Journal of the Korean Society of International Agriculture.2023; 35(4): 278.     CrossRef
  • Mutation of GmIPK1 Gene Using CRISPR/Cas9 Reduced Phytic Acid Content in Soybean Seeds
    Ji Hyeon Song, Gilok Shin, Hye Jeong Kim, Saet Buyl Lee, Ju Yeon Moon, Jae Cheol Jeong, Hong-Kyu Choi, In Ah Kim, Hyeon Jin Song, Cha Young Kim, Young-Soo Chung
    International Journal of Molecular Sciences.2022; 23(18): 10583.     CrossRef
  • A Review of Recent Advances and Future Directions in the Management of Salinity Stress in Finger Millet
    Wilton Mbinda, Asunta Mukami
    Frontiers in Plant Science.2021;[Epub]     CrossRef
  • Overexpression of Arabidopsis thaliana blue-light inhibitor of cryptochromes 1 gene alters plant architecture in soybean
    Hyun Suk Cho, Yoon Jeong Lee, Hye Jeong Kim, Moon-Young Park, Wan Woo Yeom, Ji Hyeon Song, In Ah Kim, Seong-Hyeon Kim, Jeong-Il Kim, Young-Soo Chung
    Plant Biotechnology Reports.2021; 15(4): 459.     CrossRef
  • Improved salt tolerance of Chenopodium quinoa Willd. contributed by Pseudomonas sp. strain M30-35
    Deyu Cai, Ying Xu, Fei Zhao, Yan Zhang, Huirong Duan, Xiaonong Guo
    PeerJ.2021; 9: e10702.     CrossRef
  • Morphological, physiological, and biochemical responses of Tunisian Urtica pilulifera L. under salt constraint
    Ghazouani Soumaya, Hannachi Hédia, Ben Nasri- Ayachi Mouhiba
    South African Journal of Botany.2021; 142: 124.     CrossRef
  • Serratia marcescens BM1 Enhances Cadmium Stress Tolerance and Phytoremediation Potential of Soybean Through Modulation of Osmolytes, Leaf Gas Exchange, Antioxidant Machinery, and Stress-Responsive Genes Expression
    Mohamed A. El-Esawi, Amr Elkelish, Mona Soliman, Hosam O. Elansary, Abbu Zaid, Shabir H. Wani
    Antioxidants.2020; 9(1): 43.     CrossRef
  • Overexpression of AtYUCCA6 in soybean crop results in reduced ROS production and increased drought tolerance
    Jin Sol Park, Hye Jeong Kim, Hyun Suk Cho, Ho Won Jung, Joon-Young Cha, Dae-Jin Yun, Seon-Woo Oh, Young-Soo Chung
    Plant Biotechnology Reports.2019; 13(2): 161.     CrossRef
  • Co‐expression of Arabidopsis AtAVP1 and AtNHX1 to Improve Salt Tolerance in Soybean
    Nga T. Nguyen, Hop T. Vu, Trang T. Nguyen, Lan-Anh T. Nguyen, Minh-Chanh D. Nguyen, Khang L. Hoang, Khanh T. Nguyen, Truyen N. Quach
    Crop Science.2019; 59(3): 1133.     CrossRef
  • Salinity stress response and ‘omics’ approaches for improving salinity stress tolerance in major grain legumes
    Uday Chand Jha, Abhishek Bohra, Rintu Jha, Swarup Kumar Parida
    Plant Cell Reports.2019; 38(3): 255.     CrossRef
  • Serratia liquefaciens KM4 Improves Salt Stress Tolerance in Maize by Regulating Redox Potential, Ion Homeostasis, Leaf Gas Exchange and Stress-Related Gene Expression
    Mohamed A. El-Esawi, Ibrahim A. Alaraidh, Abdulaziz A. Alsahli, Saud M. Alzahrani, Hayssam M. Ali, Aisha A. Alayafi, Margaret Ahmad
    International Journal of Molecular Sciences.2018; 19(11): 3310.     CrossRef
  • Bacillus firmus (SW5) augments salt tolerance in soybean (Glycine max L.) by modulating root system architecture, antioxidant defense systems and stress-responsive genes expression
    Mohamed A. El-Esawi, Ibrahim A. Alaraidh, Abdulaziz A. Alsahli, Saud A. Alamri, Hayssam M. Ali, Aisha A. Alayafi
    Plant Physiology and Biochemistry.2018; 132: 375.     CrossRef
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Development of Near-isogenic Transgenic Rice Lines Harboring Wild Rice (Oryza grandiglumis)-Derived Fungal Resistance Gene (OgPR1)
Jung Hun Pak, Ju Sung Oh, Hye Jeong Kim, Mi Jin Kim, Hong Kyu Choi, Ho Won Jung, Kyung Ho Kang, Ji Ung Jeong, Young Soo Chung
Plant Breed. Biotech. 2013;1(2):122-130.   Published online June 30, 2013
DOI: https://doi.org/10.9787/PBB.2013.1.2.122

A total of 34 T1 transgenic rice lines overexpressing OgPR1 from wild rice (Oryza grandiglumis) were produced in the previous study. Selection of transgenic plants using hygromycin selection medium was continuously done until T4 generation to find ten homozygous lines. These ten T4 lines were established in the Genetically Modified Organism (GMO) field of NICS (National Institute of Crop Science) in the year of 2007. Phenotypic uniformity and performance was evaluated and compared to the control Dongjin. Two lines were selected for Preliminary Yield Trial (PYT) and Replicated Yield Trial (RYT). Based on morpho-agronomic trait performance, the transgenic plants tended to head later than the control. Culm length was similar to the wild-type Dongjin but the panicle length was relatively reduced. In case of panicle number, transgenic lines showed a little increment compared to wild-type. The shape of grain was nearly the same to wild-type. Yield among lines showed a little difference but was statistically not significant. In terms of physiochemical property of the grain, the transgenic lines showed higher amylose content than the wild-type. When OgPR1-expressing transgenic rice plants were tested against rice blast disease, an enhanced resistance against the disease was observed in the transgenic plants.

Citations

Citations to this article as recorded by  
  • Crop wild relatives of major cereals and millets: an overview
    Jayita Hore, Poulomi Sen, Avishek Chatterjee, Soham Hazra, Sahely Kanthal, Aniket Baishya, Bipradeep Mondal, Ankur Mukhopadhyay
    Journal of Crop Science and Biotechnology.2026; 29(1): 13.     CrossRef
  • Distribution, genetic diversity and potential spatiotemporal scale of alien gene flow in crop wild relatives of rice (Oryza spp.) in Colombia
    Evert Thomas, Eduardo Tovar, Carolina Villafañe, José Leonardo Bocanegra, Rodrigo Moreno
    Rice.2017;[Epub]     CrossRef
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