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"Gynheung An"

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"Gynheung An"

Research Articles

OsGRAS19 and OsGRAS32 Control Tiller Development in Rice
Jinwon Lee, Jinmi Yoon, Seulbi Lee, Gynheung An, Soon Ki Park
Plant Breed. Biotech. 2021;9(3):239-249.   Published online September 1, 2021
DOI: https://doi.org/10.9787/PBB.2021.9.3.239

Tiller development is an important agronomic trait in plant architecture and grain yield. Many plant hormones regulate axillary meristem formation, including bud outgrowth for shoot branching. However, the molecular mechanism underlying the brassinosteroid (BR) in tiller development is not yet well known. Therefore, in this study, we identified and characterized two novel T-DNA insertion mutants, osgras19 and osgras32, which showed the typical BR-deficient phenotype, such as fewer tiller numbers, dark-green leaves, and semi-dwarf phenotypes. Double knockout mutants, osgras19 osgras32, were then generated by crossing, and they showed similar phenotypic traits of each single mutant. Both OsGRAS19 and OsGRAS32 encoded the GRAS family proteins and were localized in the nucleus. We also confirmed that OsGRAS19 and OsGRAS32 did not directly interact with each other; however, OsGRAS19 interacted with MOC1 and SMALL ORGAN SIZE1 (SMOS1), an auxin-regulated APETALA2-type transcription factor, in yeast. Thus, we proposed OsGRAS19 as a component of the complex on the auxin-BR signaling pathway and plays role in the tiller development in rice.

Citations

Citations to this article as recorded by  
  • SlGRAS17 negatively regulates chlorophyll biosynthesis in tomato
    Jianyong Wang, Qingfang Lin, Huizhu Yang, Zizi Meng, Yuting Jin, Lei Zhang, Zhiliang Zhang, Jing Sun, Hongyong Zhang, Yinlei Wang, Tongmin Zhao, Lei Kai, Shilian Qi
    Plant Physiology.2026;[Epub]     CrossRef
  • Identification of QTL for rice panicle length and grain weight using a doubled haploid population derived from 93–11 and Milyang352
    Jiheon Han, Seung Young Lee, Yeeun Jun, So-Myeong Lee, Gyu-Hyeon Eom, Jong-Hee Lee, Youngjun Mo
    Plant Biotechnology Reports.2025; 19(2): 123.     CrossRef
  • QTL Analysis for Yield-Related Traits Using the Recombinant Inbred Lines Derived From a Cross Between ‘Chamdongjin’ and ‘Younghojinmi’
    Hyun-Su Park, Jeonghwan Seo, Songhee Park, Jae-Ryoung Park, Chang-Min Lee, Mina Jin, O-Young Jeong
    Korean Journal of Breeding Science.2024; 56(1): 31.     CrossRef
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Mutation of Plastid Ribosomal Protein L13 Results in an Albino Seedling-Lethal Phenotype in Rice
Jinwon Lee, Seonghoe Jang, Sanghoon Ryu, Seulbi Lee, Joonheum Park, Sichul Lee, Gynheung An, Soon Ki Park
Plant Breed. Biotech. 2019;7(4):395-404.   Published online December 1, 2019
DOI: https://doi.org/10.9787/PBB.2019.7.4.395

Chloroplasts are essential plant organelles that play important roles in photosynthesis and are involved in many fundamental metabolic pathways. Plastid ribosomal proteins are essential components of protein synthesis machinery and have diverse roles in plant growth and development during chloroplast differentiation. In this study, we isolated and characterized T-DNA-tagged rice mutant (prpl13), which exhibited albino seedling lethality. PRPL13 is a nuclear gene encoding the 50S ribosomal protein L13, which is localized in chloroplasts. Transmission electronic microscopy analysis showed abnormal plastid development in the thylakoids of the chloroplasts of the prpl13 mutant seedlings. Chlorophyll and carotenoid contents were also significantly reduced in the leaves of the mutants. Quantitative reverse transcription-PCR analysis revealed that the prpl13 mutations altered the expression levels of genes involved in photosynthesis and chloroplast development. Thus, our data indicate that nuclear-encoded PRPL13 plays an important role in chloroplast development in rice.

Citations

Citations to this article as recorded by  
  • Characterization and Transcriptomic Analysis of Antarctic Planococcus sp. Mutant with Enhanced Carotenoid Content
    Hee-Sun Park, Jong-il Choi
    Journal of Microbiology and Biotechnology.2026;[Epub]     CrossRef
  • A mutation in BrPRPL1 causes leaf yellowing by influencing chloroplast protein translation in Chinese cabbage
    Xiaowei Ren, Xing Li, Jie Li, Jindi Fan, Mengyao Yuan, Yan Li, Daling Feng, Yin Lu, Hao Liang, Xiaofei Fan, Lei Sun, Kehui Ren, Mengyang Liu, Wei Ma, Jianjun Zhao
    Journal of Integrative Agriculture.2026; 25(7): 2836.     CrossRef
  • Advances in molecular mechanisms of genetic mutations underlying chlorophyll deficiency in plants
    Zhaoqing Li, Jiawei Liu, Irfan Ali Sabir, Yonghua Qin
    Plant Science.2026; 362: 112751.     CrossRef
  • Decoding Plant Ribosomal Proteins: Multitasking Players in Cellular Games
    Dariusz Stępiński
    Cells.2025; 14(7): 473.     CrossRef
  • Exploring the Potential Role of Ribosomal Proteins to Enhance Potato Resilience in the Face of Changing Climatic Conditions
    Eliana Valencia-Lozano, Lisset Herrera-Isidrón, Jorge Abraham Flores-López, Osiel Salvador Recoder-Meléndez, Braulio Uribe-López, Aarón Barraza, José Luis Cabrera-Ponce
    Genes.2023; 14(7): 1463.     CrossRef
  • Solanum tuberosum Microtuber Development under Darkness Unveiled through RNAseq Transcriptomic Analysis
    Eliana Valencia-Lozano, Lisset Herrera-Isidrón, Jorge Abraham Flores-López, Osiel Salvador Recoder-Meléndez, Aarón Barraza, José Luis Cabrera-Ponce
    International Journal of Molecular Sciences.2022; 23(22): 13835.     CrossRef
  • OsbHLH073 Negatively Regulates Internode Elongation and Plant Height by Modulating GA Homeostasis in Rice
    Jinwon Lee, Sunok Moon, Seonghoe Jang, Sichul Lee, Gynheung An, Ki-Hong Jung, Soon Ki Park
    Plants.2020; 9(4): 547.     CrossRef
  • Systematic Review of Plant Ribosome Heterogeneity and Specialization
    Federico Martinez-Seidel, Olga Beine-Golovchuk, Yin-Chen Hsieh, Joachim Kopka
    Frontiers in Plant Science.2020;[Epub]     CrossRef
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Method and Technology
A Simple DNA Preparation Method for High Quality Polymerase Chain Reaction in Rice
Sung-Ryul Kim, Jungil Yang, Gynheung An, Kshirod K. Jena
Plant Breed. Biotech. 2016;4(1):99-106.   Published online February 28, 2016
DOI: https://doi.org/10.9787/PBB.2016.4.1.99

Preparation of DNA is cumbersome especially in the case of large numbers of plant samples. Several simple plant DNA preparation methods have been developed for use in conjunction with polymerase chain reaction (PCR) analysis. However, those methods have not been adopted widely for rice molecular analysis. We present a new, simple, and inexpensive method using tris-phosphate (TPE) ethylenediaminetetraacetic acid (EDTA) buffer (100 mM tris-HCl pH9.5, 1 M KCl, 10 mM EDTA pH 8.0) without phenol-chloroform extraction and DNA precipitation steps. The method consists of five steps: leaf tissue grinding, incubating in TPE buffer at 65°C for 20 to 90 minutes, diluting extracts with water, centrifuging to sediment tissue debris, and transferring the supernatant for direct use in PCR or storage. Agarose gel analysis of the crude extracts indicated that the method produced intact genomic DNA (gDNA) from young and old leaves of both young seedlings and mature plants. Leaf sample size (0.5 to 8.0 cm long) for DNA preparation was less sensitive to PCR than the previous methods. DNA quality was tested through PCR amplification of various GC content regions and product sizes, and we obtained bands from all samples, indicating that the method produced suitable DNA quality for PCR. gDNAs were stable for longer than eight months at 4°C. This protocol enabled one person to handle several hundred samples in a day and was tested through various PCR-gel analyses such as genotyping of rice T-DNA mutant lines, positional cloning of rice mutant, and high throughput marker-assisted breeding using allele-specific SNP/Indel markers.

Citations

Citations to this article as recorded by  
  • Development and validation of genome-wide polymorphic InDel marker set for harnessing the CC-genome wild rice species in the genus Oryza
    Patricia Izabelle M. Lopez, Sherry Lou Hechanova, Charng-Pei Li, Sam Cohrs, Il-Ryong Choi, Pompe C. Sta. Cruz, Jose E. Hernandez, Tonette P. Laude, Sung-Ryul Kim
    Frontiers in Plant Science.2026;[Epub]     CrossRef
  • TP-ARMS: A Cost-Effective PCR-Based Genotyping System for Precision Breeding of Small InDels in Crops
    Yuan Wang, Jiahong Chen, Yi Liu
    International Journal of Molecular Sciences.2026; 27(3): 1406.     CrossRef
  • In planta genome editing in citrus facilitated by co‐expression of CRISPR/Cas and developmental regulators
    Gilor Kelly, Elena Plesser, Eyal Bdolach, Maria Arroyave, Eduard Belausov, Adi Doron‐Faigenboim, Ada Rozen, Hanita Zemach, Yair Yehoshua Zach, Livnat Goldenberg, Tal Arad, Yossi Yaniv, Nir Sade, Amir Sherman, Yoram Eyal, Nir Carmi
    The Plant Journal.2025;[Epub]     CrossRef
  • Augmenting carotenoid accumulation by multiplex genome editing of the redundant CCD family in rice
    Heebak Choi, Tae Gyu Yi, Yun-Shil Gho, Ji Hye Kim, Sangyun Kim, Yong Jin Choi, Sooyeon Lim, Seok Hyun Eom, Ki-Hong Jung, Sun-Hwa Ha
    Plant Physiology and Biochemistry.2025; 225: 110008.     CrossRef
  • Cost-effective and reliable genomic DNA extraction from plant seedlings for high-throughput genotyping in seed industries
    Shyamkumar S. Wanere, Archana P. Phad, Rameshwar K. Jagtap, Shuban K. Rawal, Prashant S. Pyati, Purushottam R. Lomate
    Analytical Biochemistry.2023; 676: 115245.     CrossRef
  • Development and validation of a genome-wide InDel marker set discriminating the alleles between the BB-genome Oryza species and rice (O. sativa)
    Katrina B. Malabanan-Bauan, Sherry Lou Hechanova, Eok-Keun Ahn, Charng-Pei Li, Il-Ryong Choi, Jose E. Hernandez, Kshirod K. Jena, Sung-Ryul Kim
    Current Plant Biology.2023; 34: 100285.     CrossRef
  • Marker‐assisted forward breeding to develop a drought‐, bacterial‐leaf‐blight‐, and blast‐resistant rice cultivar
    Uma Maheshwar Singh, Shilpi Dixit, Shamshad Alam, Shailesh Yadav, Vinukonda Vishnu Prasanth, Arun Kumar Singh, Challa Venkateshwarlu, Ragavendran Abbai, Abhilash Kumar Vipparla, Jyothi Badri, Tilatoo Ram, Madamshetty Srinivas Prasad, Gouri Sankar Laha, Vi
    The Plant Genome.2022;[Epub]     CrossRef
  • Cultivar-specific markers, mutations, and chimerisim of Cavendish banana somaclonal variants resistant to Fusarium oxysporum f. sp. cubense tropical race 4
    Bo-Han Hou, Yi-Heng Tsai, Ming-Hau Chiang, Shu-Ming Tsao, Shih-Hung Huang, Chih-Ping Chao, Ho-Ming Chen
    BMC Genomics.2022;[Epub]     CrossRef
  • Identification of Genetic Factors Affecting Fruit Weight in the Tomato (Solanum lycopersicum L.) Cultivar ‘Micro-Tom’
    Rihito Takisawa, Atsushi Nishida, Eri Maai, Kazusa Nishimura, Ryohei Nakano, Tetsuya Nakazaki
    The Horticulture Journal.2021; 90(2): 209.     CrossRef
  • Marker-assisted forward and backcross breeding for improvement of elite Indian rice variety Naveen for multiple biotic and abiotic stress tolerance
    Perumalla Janaki Ramayya, Vishnu Prasanth Vinukonda, Uma Maheshwar Singh, Shamshad Alam, Challa Venkateshwarlu, Abhilash Kumar Vipparla, Shilpi Dixit, Shailesh Yadav, Ragavendran Abbai, Jyothi Badri, Ram T., Ayyagari Phani Padmakumari, Vikas Kumar Singh,
    PLOS ONE.2021; 16(9): e0256721.     CrossRef
  • Development of a genome-wide InDel marker set for allele discrimination between rice (Oryza sativa) and the other seven AA-genome Oryza species
    Sherry Lou Hechanova, Kamal Bhattarai, Eliza Vie Simon, Graciana Clave, Pathmasiri Karunarathne, Eok-Keun Ahn, Charng-Pei Li, Jeom-Sig Lee, Ajay Kohli, N. Ruaraidh Sackville Hamilton, Jose E. Hernandez, Glenn B. Gregorio, Kshirod K. Jena, Gynheung An, Sun
    Scientific Reports.2021;[Epub]     CrossRef
  • CTP synthase is essential for early endosperm development by regulating nuclei spacing
    Jinmi Yoon, Lae‐Hyeon Cho, Sung‐Ryul Kim, Win Tun, Xin Peng, Richa Pasriga, Sunok Moon, Woo‐Jong Hong, Hyeonso Ji, Ki‐Hong Jung, Jong‐Seong Jeon, Gynheung An
    Plant Biotechnology Journal.2021; 19(11): 2177.     CrossRef
  • STUDY OF ALLELIC VARIATION AT GENOME WIDE SSR LOCI IN PARENTS OF MAPPING POPULATION FOR HIGH GRAIN ZINC IN RICE (Oryza sativa L.)
    Sonali Habde, S. K. Singh, Korada Mounika, Amrutlal Khaire, D. K. Singh, Prasanta Kumar Majhi
    Journal of Experimental Biology and Agricultural Sciences.2020; 8(5): 558.     CrossRef
  • Marker Assisted Forward Breeding to Combine Multiple Biotic-Abiotic Stress Resistance/Tolerance in Rice
    Shilpi Dixit, Uma Maheshwar Singh, Arun Kumar Singh, Shamshad Alam, Challa Venkateshwarlu, Vishnu Varthini Nachimuthu, Shailesh Yadav, Ragavendran Abbai, Ramchander Selvaraj, M. Nagamallika Devi, Perumalla Janaki Ramayya, Jyothi Badri, T. Ram, Jhansi Laks
    Rice.2020;[Epub]     CrossRef
  • Molecular identification of some wild Nigerian mushrooms using internal transcribed spacer: polymerase chain reaction
    Mobolaji Adeniyi, Yinka Titilawo, Anthonia Oluduro, Olu Odeyemi, Motebang Nakin, Anthony Ifeanyi Okoh
    AMB Express.2018;[Epub]     CrossRef
  • Monosomic alien addition lines (MAALs) of Oryza rhizomatis in Oryza sativa: production, cytology, alien trait introgression, molecular analysis and breeding application
    Sherry Lou Hechanova, Manas R. Prusty, Sung-Ryul Kim, LaRue Ballesfin, Joie Ramos, G. D. Prahalada, Kshirod K. Jena
    Theoretical and Applied Genetics.2018; 131(10): 2197.     CrossRef
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