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"Moe Moe Oo"

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"Moe Moe Oo"

Review Article

Bioengineering of Male Sterility in Rice (Oryza sativa L.)
Dung Nguyen Tien, Moe Moe Oo, Moon-Soo Soh, Soon Ki Park
Plant Breed. Biotech. 2013;1(3):218-235.   Published online September 30, 2013
DOI: https://doi.org/10.9787/PBB.2013.1.3.218

Male sterility is an important trait for crop breeding program based on heterosis. Recent advances in molecular researches have led to the identification of genes involved in plant reproductive development and understanding the molecular functions of rice male gametophyte including roles of phytohormones in reproduction process. Here, we review the genes required for key aspects of anther/pollen development and conventional methods for the production of hybrid seeds in rice. Finally, we discuss the molecular approaches for the generation of male-sterile lines through the regulation of phytohormonal biosynthesis in reproductive organs.

Citations

Citations to this article as recorded by  
  • Integration of iaa9-3 parthenocarpy and stigma exsertion for hybrid seedless tomato breeding
    Long Thien Tran, Koichi Sugimoto, Nguyen Van Quan, Tran Dang Xuan, Hiroshi Ezura
    Molecular Breeding.2026;[Epub]     CrossRef
  • Changes in Endogenous Phytohormones of Gerbera jamesonii Axillary Shoots Multiplied under Different Light Emitting Diodes Light Quality
    Monika Cioć, Michał Dziurka, Bożena Pawłowska
    Molecules.2022; 27(6): 1804.     CrossRef
  • Potential roles of stigma exsertion on spikelet fertility in rice (Oryza sativa L.) under heat stress
    Beibei Qi, Chao Wu
    Frontiers in Plant Science.2022;[Epub]     CrossRef
  • Genomic analyses of the crosstalk between gibberellins and brassinosteroids metabolisms in tea plant (Camellia sinensis (L.) O. Kuntze)
    Hui Li, Yu Wang, Hao Liu, Shi-Jia Lin, Miao-Hua Han, Jing Zhuang
    Scientia Horticulturae.2020; 268: 109368.     CrossRef
  • Molecular Mapping and Candidate Gene Analysis for GA3 Responsive Short Internode in Watermelon (Citrullus lanatus)
    Haileslassie Gebremeskel, Junling Dou, Bingbing Li, Shengjie Zhao, Umer Muhammad, Xuqiang Lu, Nan He, Wenge Liu
    International Journal of Molecular Sciences.2019; 21(1): 290.     CrossRef
  • Evolvement of transgenic male-sterility and fertility-restoration system in rice for production of hybrid varieties
    Gundra Sivakrishna Rao, Priyanka Deveshwar, Malini Sharma, Sanjay Kapoor, Khareedu Venkateswara Rao
    Plant Molecular Biology.2018; 96(1-2): 35.     CrossRef
  • Development of an inducible male-sterility system in rice through pollen-specific expression of l-ornithinase (argE) gene of E. coli
    Gundra Sivakrishna Rao, Akhilesh Kumar Tyagi, Khareedu Venkateswara Rao
    Plant Science.2017; 256: 139.     CrossRef
  • Expression analysis of two rice pollen-specific promoters using homologous and heterologous systems
    Tien Dung Nguyen, Moe Moe Oo, Sunok Moon, Hyun-Kyung Bae, Sung Aeong Oh, Moon-Soo Soh, Jong Tae Song, Jeong Hoe Kim, Ki Hong Jung, Soon Ki Park
    Plant Biotechnology Reports.2015; 9(5): 297.     CrossRef
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Research Article
Evaluation of Gene Flow from GM to Non-GM Rice
Hyun-Kyung Bae, Moe Moe Oo, Ji Eun Jeon, Dung Nguyen Tien, Sung Aeong Oh, Sung-Dug Oh, Soon-Jong Kweon, Moo-Young Eun, Soon Ki Park
Plant Breed. Biotech. 2013;1(2):162-170.   Published online June 30, 2013
DOI: https://doi.org/10.9787/PBB.2013.1.2.162

Gene flow events from genetically modified (GM) rice to adjacent non-GM rice lines naturally happen in the field. GM rice lines containing desirable agronomic traits such as tolerance to abiotic stresses and resistance to biotic stresses can be used to cross with non-GM cultivated rice and also to wild species of rice. This event can eventually lead to offspring which possess traits that allows a better chance of survival in the field. However this phenomenon has the possibility to produce undesirable effect in the environment surrounding the rice field. The
objective
of this study was to determine the out-crossing rate of GM rice to cultivated rice. Transgenic rice, Hwangkembyeo (containing beta-carotene enhancing gene and bar gene) and cultivated rice, Nakdongbyeo (mother plant of Hwangkembyeo) were used in this study. Results showed that most gene flow events occurred within 1 m range. In particular, gene flow events mostly happened within 30 cm, while it was rarely observed beyond 90 cm range. The maximum distance for gene flow event was observed at 6 m range however the sharp cut point distance was observed at 60–90 cm range. The prevailing gene flow direction was Northwest (NW) which coincided with the prevailing wind of Southeastern (SE) direction. Wind direction and distance were found to be the most important factors for determining rice out-crossing rate. But for more accurate prevention of GM gene flow, many factors should be considered like the local weather condition, wind direction, wind speed and flowering time.

Citations

Citations to this article as recorded by  
  • Rice ( Oryza sativa L.) is predominantly cross-pollinated
    Debal Deb
    Botany Letters.2026; 173(2): 156.     CrossRef
  • Assessment of potential gene flow from resveratrol-enriched genetically modified rice to non-genetically modified rice and weedy rice
    Sang Dae Yun, Sung Dug Oh, Yang Qin, Myung-Ho Lim, Hye Lin Kim, Je Yeon Choi, Eun Young Kim, Sung Aeong Oh, Seong-Kon Lee, Doh-Won Yun, Tae-Hun Ryu, Jae Kwang Kim, Soon Ki Park
    Journal of Plant Biotechnology.2025;[Epub]     CrossRef
  • Pollen Quantitative and Genetic Competitiveness of Rice (Oryza sativa L.) and Their Effects on Gene Flow
    Ning Hu, Dantong Wang, Qianhua Yuan, Yang Liu, Huizi Jiang, Xinwu Pei
    Plants.2025; 14(13): 1980.     CrossRef
  • Influence of heading date difference on gene flow from GM to non-GM rices
    Sung-Dug Oh, Ancheol Chang, Boeun Kim, Soo-In Sohn, Doh-Won Yun
    Journal of the Korean Society of International Agricultue.2018; 30(4): 347.     CrossRef
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  • 4 Crossref