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"Jun-Hyeon Cho"

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"Jun-Hyeon Cho"

Research Articles
Screening and Breeding for Biofortification of Rice with Protein and High Lysine Contents
Ji-Yun Lee, Ju-Won Kang, Su-Min Jo, Young-Ho Kwon, So-Myeong Lee, Sais-Beul Lee, Dong-Jin Shin, Dong-Soo Park, Jong-Hee Lee, Jong-Min Ko, Jun-Hyeon Cho
Plant Breed. Biotech. 2021;9(3):199-212.   Published online September 1, 2021
DOI: https://doi.org/10.9787/PBB.2021.9.3.199

A total of 134 domestic and foreign genetic resources were analyzed for their protein and amino acids contents in order to identify breeding lines with high lysine content to improve nutritional components of rice. The protein contents ranged between 6.7% and 14.8%, with an average of 8.7%. The Dharial mutant-derived lines had relatively high protein content with the highest amino acids content of 130.16 mg/g and the highest lysine content of 3.86 mg/g which is about 5 times higher than that of the parent. In the case of mutant-derived lines with high floury endosperm such as Goami2, Dodamssal, Milyang320 and LA1, the total amino acids content was as low as 72.61-82.0 mg/g; however, lysine content ranged high between 2.64-3.35 mg/g with lysine ratio to the total amino acids was 3.6%-4.1% which is higher than the average lysine content ratio of 3.0%. Furthermore, correlation analysis revealed a very strong positive correlation between the total amino acids and total protein contents. In contrast, lysine content showed no significant correlation neither with total amino acids nor with protein contents. The lysine content of Milyang320, which was grown in 5 regions across Korea was 0.33%, showing an increase of about 22% compared to that recorded in Nampyeong (0.27%). Therefore, these data suggest that lysine content of Milyang320 is controlled genetically and could be serve as a source in high lysine rice breeding program.

Citations

Citations to this article as recorded by  
  • Lysine Matters: Genetic and Biotechnological Innovations to Combat Protein Malnutrition
    Varinder Singh, Manjari Mishra, Sneh Lata Singla‐Pareek, Joy K. Roy, Ashwani Pareek
    Plant, Cell & Environment.2026; 49(3): 1509.     CrossRef
  • Assessing two decades of breeding for biofortified rice with zinc, iron or protein
    Gogineni S.V. Prasad, Chilukuri S. Rao, Kalambur Muralidharan, Ranganathan Sridhar, Ebrahim A. Siddiq
    Journal of Agriculture and Food Research.2025; 24: 102317.     CrossRef
  • Biofortification as a solution for addressing nutrient deficiencies and malnutrition
    Bindu Naik, Vijay Kumar, Sheikh Rizwanuddin, Sadhna Mishra, Vivek Kumar, Per Erik Joakim Saris, Naresh Khanduri, Akhilesh Kumar, Piyush Pandey, Arun Kumar Gupta, Javed Masood Khan, Sarvesh Rustagi
    Heliyon.2024; 10(9): e30595.     CrossRef
  • Analysis of volatile compounds of several rice varieties according to endosperm type using an electronic nose
    Chae-Min Han, Jong-Hee Shin, Sang-Kuk Kim, Jung-Gi Ryu
    Journal of Crop Science and Biotechnology.2023; 26(3): 359.     CrossRef
  • Rice Storage Proteins: Focus on Composition, Distribution, Genetic Improvement and Effects on Rice Quality
    Long Xinkang, Guan Chunmin, Wang Lin, Jia Liting, Fu Xiangjin, Lin Qinlu, Huang Zhengyu, Liu Chun
    Rice Science.2023; 30(3): 207.     CrossRef
  • Comparative Proteome-wide Characterization of Three Different Tissues of High-Protein Mutant and Wild Type Unravels Protein Accumulation Mechanisms in Rice Seeds
    Cheol Woo Min, Ravi Gupta, Ju-Young Jung, Randeep Rakwal, Ju-Won Kang, Jun-Hyeon Cho, Jong-Seong Jeon, Sun Tae Kim
    Journal of Agricultural and Food Chemistry.2023; 71(32): 12357.     CrossRef
  • GWAS to spot candidate genes associated with grain quality traits in diverse rice accessions of North East India
    Rahul K. Verma, S. K. Chetia, Vinay Sharma, Samindra Baishya, Himanshu Sharma, M. K. Modi
    Molecular Biology Reports.2022; 49(6): 5365.     CrossRef
  • Comparison of physicochemical properties of pollen substitute diet for honey bee (Apis mellifera)
    Hyun Jee Kim, Jinseok Hwang, Zakir Ullah, Bilal Mustafa, Hyung Wook Kwon
    Journal of Asia-Pacific Entomology.2022; 25(4): 101967.     CrossRef
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A New Approach for Glutinous Rice Breeding through Dull Genes Pyramiding
Ji-Yoon Lee, Ju-Won Kang, Su-Min Jo, Youngho Kwon, So-Myeong Lee, Dong Jin Shin, You-Chun Song, Dong Soo Park, Jong-Hee Lee, Jong-Min Ko, Jun-Hyeon Cho
Plant Breed. Biotech. 2020;8(4):405-412.   Published online December 1, 2020
DOI: https://doi.org/10.9787/PBB.2020.8.4.405

Glutinous rice is a key grain quality trait occupying an important part during rice processing in most rice growing areas. In this study, a gene pyramiding approach was used to introduce two dull genes, responsible for low amylose content, for glutinous rice breeding using marker assisted selection (MAS). The genotyping results revealed that rice cultivar Milyang319 carries both dull genes on chromosome 6, derived from cv. Milky-queen (Wx-mq) and cv. LGS-soft (du12(t)), respectively. Milyang319 had a significantly low amylose content (9.0%) compared to those observed in donor parents Milky-queen (15.7%) and LGS-soft (14.5%). In addition, the amylogram analysis of Milyang319 showed a similar pattern of glutinous rice. Originally, Milyang319 had a low hardness and more stickiness compared to those recorded in cooked rice of both dull parental lines. Therefore, Milyang319 is proposed as a promising candidate rice cultivar that could be used as a new source of waxy germplasms with same physicochemical features of glutinous rice in further breeding programs.

Citations

Citations to this article as recorded by  
  • Improved Processing Quality in a tongil-type Waxy Rice Cultivar Associated with a Rare granule-bound starch synthase I Allele
    Seong-Gyu Jang, Ji-Min Kim, Ji-Yoon Lee, Jun-Hyeon Cho, Youngho Kwon, So-Myeong Lee, Jisu Choi, Ju-Won Kang, Jong-Min Jeong, Jong-Hee Lee, Dong-Soo Park, Soon-Wook Kwon, Sumin Jo
    Korean Journal of Breeding Science.2026; 58(2): 123.     CrossRef
  • Molecular insights on the origin and development of waxy genotypes in major crop plants
    Vikram S Gaur, Salej Sood, Carlos Guzmán, Kenneth M Olsen
    Briefings in Functional Genomics.2024; 23(3): 193.     CrossRef
  • Genetic control of grain appearance quality in rice
    Dongsheng Zhao, Changquan Zhang, Qianfeng Li, Qiaoquan Liu
    Biotechnology Advances.2022; 60: 108014.     CrossRef
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Two Complementary Genes, SBE3 and GBSS1 Contribute to High Amylose Content in Japonica Cultivar Dodamssal
Cheryl C. Adeva, Hyun-Sook Lee, Sun-Ha Kim, Yun-A Jeon, Kyu-Chan Shim, Ngoc Ha Luong, Ju-Won Kang, Chang-Soo Kim, Jun-Hyeon Cho, Sang-Nag Ahn
Plant Breed. Biotech. 2020;8(4):354-367.   Published online December 1, 2020
DOI: https://doi.org/10.9787/PBB.2020.8.4.354

Quantitative trait loci (QTLs) for the starch-related traits amylose content (AC) and resistant starch (RS) content have received much attention due to the potential benefits of grains high in these starch levels. In this study, QTLs associated with AC and RS content were identified using 92 recombinant inbred lines (RILs) developed from a cross between two closely related japonica cultivars ‘Dodamssal’ and ‘Hwayeong’. One QTL on chromosome 2 for RS content and 2 QTLs for AC on chromosomes 2 and 6 were detected. The F2 population derived from a cross between Hwayeong and two selected RILs were used to analyze the interaction between starch branching enzyme 3 (SBE3) and granule-bound starch synthase 1 (GBSS1). The combined effect of SBE3 and GBSS1 in the F2 population suggested that these two genes behaved in an additive manner in increasing AC. Haplotype analysis based on two SNPs in GBSS1 classified 117 rice accessions into three groups. At the first SNP site, all indica, Korean landrace, and weedy rice accessions had the Wxa allele at the 5ʹ splice site of intron 1, whereas japonica accessions had the mutated Wxb allele. This suggests that this splice-donor mutation is prevalent in japonica cultivars, but rare or absent in landrace and weedy rice cultivars. Landrace or weedy rice accessions harboring the Wxa allele could be employed in breeding programs to manipulate AC in cultivated japonica rice considering the difficulty and time to introduce desirable indica traits into japonica due to reproductive barriers.

Citations

Citations to this article as recorded by  
  • Improved Processing Quality in a tongil-type Waxy Rice Cultivar Associated with a Rare granule-bound starch synthase I Allele
    Seong-Gyu Jang, Ji-Min Kim, Ji-Yoon Lee, Jun-Hyeon Cho, Youngho Kwon, So-Myeong Lee, Jisu Choi, Ju-Won Kang, Jong-Min Jeong, Jong-Hee Lee, Dong-Soo Park, Soon-Wook Kwon, Sumin Jo
    Korean Journal of Breeding Science.2026; 58(2): 123.     CrossRef
  • Evaluation of glycemic response and starch digestibility in Korean rice toward the development of low GI rice
    Chang-Min Lee, O-Young Jeong, Hyun-Su Park, Jeonghwan Seo, Songhee Park, Keon-Mi Lee, Mina Jin, Il-Ryong Choi, Jae-Hyuk Han
    Frontiers in Plant Science.2025;[Epub]     CrossRef
  • Evolution and association analysis of SSIIIa in rice landraces of Yunnan Province
    Xia Li, Xiaomeng Yang, Li’e Yang, Hafiz Ghulam Muhu-Din Ahmed, Chunlian Yao, Jiazhen Yang, Luxiang Wang, Tao Yang, Xiaoying Pu, Yawen Zeng
    Biologia.2024; 79(7): 2203.     CrossRef
  • Allelic Diversity at Protein Disulfide Isomerase Like 1-1 (PDIL1-1) Gene is Associated with Amylose Content in Japonica Rice
    Cheryl Adeva, Ju-Won Kang, Kyu-Chan Shim, Ngoc Ha Luong, Hyun-Sook Lee, Jong-Hee Lee, Sang-Nag Ahn
    Plant Breeding and Biotechnology.2023; 11(1): 56.     CrossRef
  • Quality Characteristics of Rice-Based Ice Creams with Different Amylose Contents
    Gi-Un Seong, Ji-Yoon Kim, Jung-Soo Kim, Sae-Ul Jeong, Jun-Hyeon Cho, Ji-Yoon Lee, Sais-Beul Lee, Nkulu-Rolly Kabange, Dong-Soo Park, Kwang-Deog Moon, Ju-Won Kang
    Foods.2023; 12(7): 1518.     CrossRef
  • Molecular Breeding of Zheyou810, an Indica–Japonica Hybrid Rice Variety with Superior Quality and High Yield
    Jian Song, Yongtao Cui, Honghuan Fan, Liqun Tang, Jianjun Wang
    Agriculture.2023; 13(9): 1807.     CrossRef
  • Interaction of starch branching enzyme 3 and granule-bound starch synthase 1 alleles increases amylose content and alters physico-chemical properties in japonica rice (Oryza sativa L.)
    Kyu-Chan Shim, Cheryl Adeva, Ju-Won Kang, Ngoc Ha Luong, Hyun-Sook Lee, Jun-Hyeon Cho, HyunJung Kim, Thomas H. Tai, Sang-Nag Ahn
    Frontiers in Plant Science.2022;[Epub]     CrossRef
  • QTL Mapping of Mineral Element Contents in Rice Using Introgression Lines Derived from an Interspecific Cross
    Cheryl Adeva, Yeo-Tae Yun, Kyu-Chan Shim, Ngoc Ha Luong, Hyun-Sook Lee, Ju-Won Kang, Hyun-Jung Kim, Sang-Nag Ahn
    Agronomy.2022; 13(1): 76.     CrossRef
  • Evaluation of Hardness and Retrogradation of Cooked Rice Based on Its Pasting Properties Using a Novel RVA Testing
    Sumiko Nakamura, Junji Katsura, Yasuhiro Maruyama, Ken’ichi Ohtsubo
    Foods.2021; 10(5): 987.     CrossRef
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QTL Analysis for Fe and Zn Concentrations in Rice Grains Using a Doubled Haploid Population Derived from a Cross Between Rice (Oryza sativa) Cultivar 93-11 and Milyang 352
So-Myeong Lee, Ju-Won Kang, Ji-Yoon Lee, Jeonghwan Seo, Dongjin Shin, Jun-Hyeon Cho, Sumin Jo, You-Chun Song, Dong-Soo Park, Jong-Min Ko, Hee-Jong Koh, Jong-Hee Lee
Plant Breed. Biotech. 2020;8(1):69-76.   Published online March 1, 2020
DOI: https://doi.org/10.9787/PBB.2020.8.1.69

Biofortification is a cost-effective method for increasing the availability of micronutrients. Rice breeding for high levels of micronutrients is one of the best approaches to solve the problem of malnutrition. In this study, we developed a doubled haploid (DH) population derived from a cross between the rice cultivars 93-11 and Milyang 352 and evaluated QTLs for grain micronutrients and grain shape. Two co-localized QTLs, qFe3-1 and qZn3-1, were identified in the interval between ah03002520 and cmb0336.5 on chromosome 3, which explained 17.6% and 10.5% of the phenotypic variation, respectively. Correlation analysis between agronomic and micronutrient traits showed positive correlations between grain Fe and Zn contents but a negative correlation between grain Fe content and length-to-width ratio. This indicated the possibility of simultaneously increasing both Fe and Zn content in rice grains for improving the micronutrient profile of rice. We selected some promising lines by recombinant selection using linked markers on chromosome 3. The co-localized QTLs qFe3-1 and qZn3-1 might be useful for the improvement of biofortified rice breeding by marker-assisted selection and gene pyramiding.

Citations

Citations to this article as recorded by  
  • Precision breeding strategy to enrich iron and zinc in rice
    Rajvir Kaur, Rupinder Kaur, Renu Khanna, Gurjeet Singh, Dinesh Kumar Saini, Amandeep, Kumari Neelam, Navjot Sidhu, Ranvir Singh Gill
    Cereal Research Communications.2026; 54(1): 657.     CrossRef
  • Genomic Insights into the Genetic Control of Iron and Zinc Content in Rice: A Meta-analysis of Key Hotspots
    Om Prakash Raigar, Gaurav Augustine, Rupinder Kaur, Nitika Sandhu
    Journal of Plant Growth Regulation.2025;[Epub]     CrossRef
  • Analysis of quantitative trait loci and candidate gene exploration associated with cold tolerance in rice (Oryza sativa L.) during the seedling stage
    Sumin Jo, Seong-Gyu Jang, Sais-Beul Lee, Ji-Yoon Lee, Jun-Hyeon Cho, Ju-Won Kang, Yeongho Kwon, So-Myeong Lee, Dong-Soo Park, Soon-Wook Kwon, Jong-Hee Lee
    Frontiers in Plant Science.2025;[Epub]     CrossRef
  • Deciphering the genetic basis of agronomic, yield, and nutritional traits in rice (Oryza sativa L.) using a saturated GBS-based SNP linkage map
    Mark Ian C. Calayugan, Tapas Kumer Hore, Alvin D. Palanog, Amery Amparado, Mary Ann Inabangan-Asilo, Gaurav Joshi, Balachiranjeevi Chintavaram, B. P. Mallikarjuna Swamy
    Scientific Reports.2024;[Epub]     CrossRef
  • Rice biofortification: breeding and genomic approaches for genetic enhancement of grain zinc and iron contents
    P. Senguttuvel, Padmavathi G, Jasmine C, Sanjeeva Rao D, Neeraja CN, Jaldhani V, Beulah P, Gobinath R, Aravind Kumar J, Sai Prasad SV, Subba Rao LV, Hariprasad AS, Sruthi K, Shivani D, Sundaram RM, Mahalingam Govindaraj
    Frontiers in Plant Science.2023;[Epub]     CrossRef
  • Genome-wide association study (GWAS) with high-throughput SNP chip DNA markers identified novel genetic factors for mesocotyl elongation and seedling emergence in rice (Oryza sativa L.) using multiple GAPIT models
    Nkulu Rolly Kabange, Simon Alibu, Youngho Kwon, So-Myeong Lee, Ki-Won Oh, Jong-Hee Lee
    Frontiers in Genetics.2023;[Epub]     CrossRef
  • Genetic variability, G × E interaction and stability for iron and zinc content in sorghum grains in advanced breeding lines
    R. Madhusudhana, K. Hariprasanna, C. Aruna, Gowri M. Sajjanar, N.G. Hanamaratti, S. Sameera, Vilas A. Tonapi
    Journal of Cereal Science.2023; 110: 103653.     CrossRef
  • Improvement of Selection Efficiency of Haploid Maize Seeds Using Fluorescence Imaging
    Younguk Kim, Jeong Heon Han, Jaeyoung Kim, Yeongtae Kim, Nyunhee Kim, Chaewon Lee, Seoyeoun Lee, Song Lim Kim, Moon Jong Kim, Si Hwan Ryu, Hongro Lee, Hyeonso Ji, Kyung-Hwan Kim, Jeongho Baek
    Korean Journal of Breeding Science.2022; 54(4): 276.     CrossRef
  • QTL Analysis of Rice Grain Size Using Segregating Populations Derived from the Large Grain Line
    Ja-Hong Lee, Jeonghwan Seo, San Mar Lar, Seong-Gyu Jang, Hongjia Zhang, Ah-Rim Lee, Fang-Yuan Cao, Na-Eun Kim, Joohyun Lee, Soon-Wook Kwon
    Agriculture.2021; 11(6): 565.     CrossRef
  • Transcriptional Changes in the Developing Rice Seeds Under Salt Stress Suggest Targets for Manipulating Seed Quality
    Choonseok Lee, Chong-Tae Chung, Woo-Jong Hong, Yang-Seok Lee, Jong-Hee Lee, Hee-Jong Koh, Ki-Hong Jung
    Frontiers in Plant Science.2021;[Epub]     CrossRef
  • Iron Biofortification in Rice: An Update on Quantitative Trait Loci and Candidate Genes
    B. P. Mallikarjuna Swamy, Balram Marathi, Ana I. F. Ribeiro-Barros, Mark Ian C. Calayugan, Felipe Klein Ricachenevsky
    Frontiers in Plant Science.2021;[Epub]     CrossRef
  • Combined Linkage Mapping and Genome-Wide Association Study Identified QTLs Associated with Grain Shape and Weight in Rice (Oryza sativa L.)
    Ju-Won Kang, Nkulu Rolly Kabange, Zarchi Phyo, So-Yeon Park, So-Myeong Lee, Ji-Yun Lee, Dongjin Shin, Jun Hyeon Cho, Dong-Soo Park, Jong-Min Ko, Jong-Hee Lee
    Agronomy.2020; 10(10): 1532.     CrossRef
  • Identification of a Novel QTL for Chlorate Resistance in Rice (Oryza sativa L.)
    Nkulu Rolly Kabange, So-Yeon Park, Dongjin Shin, So-Myeong Lee, Su-Min Jo, Youngho Kwon, Jin-Kyung Cha, You-Chun Song, Jong-Min Ko, Jong-Hee Lee
    Agriculture.2020; 10(8): 360.     CrossRef
  • Genetic Manipulation for Improved Nutritional Quality in Rice
    Priyanka Das, Sanghamitra Adak, Arun Lahiri Majumder
    Frontiers in Genetics.2020;[Epub]     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
  • QTL Analysis of Heading Date Using 93-11×Milyang352 Doubled Haploid Lines in Rice
    So-Myeong Lee, Ju-Won Kang, Jun-Hyeon Cho, Ji-Yoon Lee, Dongjin Shin, Young-Ho Kwon, Jin-Kyung Cha, Sais-Beul Lee, Jong-Min Ko, Jong-Hee Lee
    Korean Journal of Breeding Science.2020; 52(4): 332.     CrossRef
  • Genetic Analysis Reveals a Major Effect QTL Associated with High Grain Zinc Content in Rice (Oryza sativaL.)
    Shaikh J. Mohiuddin, Md. Ashraful Haque, Md. Manjurul Haque, Md. Tofazzal Islam, Partha S. Biswas
    Plant Breeding and Biotechnology.2020; 8(4): 327.     CrossRef
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Enhancement of Panicle Blast Resistance in Korean Rice Cultivar ‘Saeilmi’ by Marker Assisted Backcross Breeding
Jong-Hee Lee, Ji-Yoon Lee, Young-Nam Yoon, Sang-Yeol Kim, Yeon-Jae Hur, Un-Sang Yeo, Young-Bo Sohn, You-Chun Song, Dong-Soo Park, Min-Hee Nam, Jun-Hyeon Cho
Plant Breed. Biotech. 2015;3(1):1-10.   Published online March 31, 2015
DOI: https://doi.org/10.9787/PBB.2015.3.1.001

Panicle blast is a serious disease in rice production in Korea. To develop rice cultivar resistant to panicle blast, the Pb1 gene, originating in the indica cultivar ‘Modan’, was incorporated into an elite japonica cultivar ‘Ilmi’, which is highly susceptible to panicle blast, by marker assisted backcross breeding. ‘Hwayeong’ was selected as the donor parent for the Pb1 gene based on 10 years of panicle blast data. The inheritance of panicle blast resistance in ‘Hwayeong’ is controlled by a single dominant gene. This panicle blast resistance gene, Pb1, from ‘Hwayeong’ was incorporated into the susceptible variety, ‘Ilmi’, by marker assisted backcross approach using DNA marker RM206. As a result, ‘Saeilmi’ containing the Pb1 gene showed resistance to panicle blast. The agronomical and grain quality traits of ‘Saeilmi’ were similar to those of the recurrent parent ‘Ilmi’. Molecular background analysis revealed that ‘Saeilmi’ had the least donor segment introgression in the locus of the Pb1 gene on chromosome 11.

Citations

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  • Morphological and molecular characterization of rice blast resistant advanced lines
    Sanjida Sabrin Anna, Md. Omar Kayess, Fahmina Mahmud, Julfikar Ali, Rakibul Hasan, A. K. M. Mohiuddin, Mohammad Abdul Latif
    Euphytica.2026;[Epub]     CrossRef
  • Genetic diversity and identification of blast resistance genes through SSR markers in Bangladeshi aromatic rice (Oryza sativa L.) landraces
    Sumi Saha, Md Mamunur Rashid, Rabeya Khatun, Md Sams-Al Safin, Sohana Jui, Mst Tanjina Shahanaj Turin, Md Mamunur Rashid, Md Arifuzzaman
    Ecological Genetics and Genomics.2026; 39: 100481.     CrossRef
  • The current state of the use of DNA markers for improving the efficiency of rice breeding in Japan
    Akitoshi Goto, Kei Matsushita, Utako Yamanouchi
    Breeding Science.2026; 76(1): 3.     CrossRef
  • Introgression of multiple resistance genes against blast and bacterial blight diseases in the background of mega variety BRRI dhan28
    Mohammad Abdul Latif, Lutfur Rahman, Sheikh Arafat Islam Nihad, Md. Omar Kayess, Nazmul Islam, Mohammad Ashik Iqbal Khan
    Australasian Plant Pathology.2025; 54(6): 519.     CrossRef
  • Gene pyramiding for enhancing resistance to blast and bacterial blight disease in rice through maker assisted selection
    Mohammad Abdul Latif, Omar Kayess, Rakibul Hasan
    Biotechnology Letters.2025;[Epub]     CrossRef
  • Pyramiding of Multiple Resistance Genes for Bacterial Leaf Blight and Blast Diseases in Premium Quality Rice BRRI dhan81 Through Marker‐Assisted Selection
    Mohammad Abdul Latif, Md. Hasibur Rahaman Hera, Lutfur Rahman, Md. Rejwan Bhuiyan, Md. Omar Kayess, Md. Mamunur Rashid, Md. Al‐Imran Hasan, Mohammad Ashik Iqbal Khan, Hiroki Saito
    Plant Pathology.2025; 74(6): 1641.     CrossRef
  • Molecular marker assisted gene stacking for multiple diseases resistance in an elite rice cultivar, BRRI dhan48
    Mohammad Abdul Latif, Omar Kayess, Rakibul Hasan, Lutfur Rahman
    Plant Gene.2025; 42: 100505.     CrossRef
  • Introgression of Multiple Disease Resistant Genes in the Genetic Background of High‐Yielding Rice Variety Through Marker‐Assisted Backcross Breeding
    Mohammad Abdul Latif, Md. Omar Kayess, Lutfur Rahman, Rakibul Hasan, Mohammad Ashik Iqbal Khan
    Journal of Phytopathology.2025;[Epub]     CrossRef
  • Pyramiding of blast and bacterial blight resistance genes in premium quality rice variety, BRRI dhan63 through marker-assisted breeding approach
    Sheikh Arafat Islam Nihad, Md. Al-Imran Hasan, Touhidur Rahman Anik, Md. Mamunur Rashid, Mohammad Ashik Iqbal Khan, Md. Rashidul Islam, Mohammad Abdul Latif
    Euphytica.2024;[Epub]     CrossRef
  • GWAS analysis reveals the genetic basis of blast resistance associated with heading date in rice
    Seung Young Lee, Gileung Lee, Jiheon Han, Su-Kyung Ha, Chang-Min Lee, Kyeongmin Kang, Mina Jin, Jung-Pil Suh, Ji-Ung Jeung, Youngjun Mo, Hyun-Sook Lee
    Frontiers in Plant Science.2024;[Epub]     CrossRef
  • Investigating the Mechanisms Underlying the Durability and Sustainable Use of Pb1 Gene-Mediated High Field Resistance to Rice Panicle Blast
    Kiyoshi Fujii, Taro Suzuki, Mitsuru Nakamura, Tomofumi Yoshida, Yoshinori Uchikawa, Haruka Suwazono, Nagao Hayashi, Yasukazu Kanda, Haruhiko Inoue
    Agronomy.2023; 13(7): 1751.     CrossRef
  • Linkage of SSR markers with rice blast resistance and development of partial resistant advanced lines of rice (Oryza sativa) through marker-assisted selection
    Sheikh Arafat Islam Nihad, Mohammad Kamrul Hasan, Amirul Kabir, Md. Al-Imran Hasan, Md. Rejwan Bhuiyan, Mohd Rafii Yusop, Mohammad Abdul Latif
    Physiology and Molecular Biology of Plants.2022; 28(1): 153.     CrossRef
  • Identification of Stable Resistance Genes Based on Resistance Evaluation to Blast for Monogenic Lines and Leading Japonica Varieties in Rice
    Man-Kee Baek, Hyun-Su Park, Chang-Min Lee, Hyo-Jeong Lee, Jong-Min Jeong, Eok-Keun Ahn, Wong-Jo Hyun, Ji-Yoon Lee, O-Young Jeong, Ji-Ung Jeung, Jeom-Ho Lee, Young-Chan Cho
    Korean Journal of Breeding Science.2021; 53(3): 217.     CrossRef
  • History and Results of Rice Breeding in Korea
    Young-Chan Cho, Man-Kee Baek, Hyun-Su Park, Jun-Hyun Cho, Eok-Keun Ahn, Jung-Pil Suh, Ji-Ung Jeung, Jong-Hee Lee, Yong-Jae Won, Yoo-Chun Song, Eung-Gi Jeong, Bo-Kyeong Kim, Jeom-Ho Lee
    Korean Journal of Breeding Science.2020; 52(S): 58.     CrossRef
  • Accelerated development of rice stripe virus-resistant, near-isogenic rice lines through marker-assisted backcrossing
    Ju-Won Kang, Dongjin Shin, Jun-Hyeon Cho, Ji-Yoon Lee, Youngho Kwon, Dong-Soo Park, Jong-Min Ko, Jong-Hee Lee, Rosalyn B. Angeles-Shim
    PLOS ONE.2019; 14(12): e0225974.     CrossRef
  • Molecular Mapping of the Blast Resistance Loci in the Durable Resistance Japonica Rice Cultivar, Palgong
    Man-Kee Baek, Young-Chan Cho, Hyun-Su Park, Jong-Min Jeong, Woo-Jae Kim, Jeong-Kwon Nam, Choon-Song Kim, Soon-Wook Kwon, Bo-Kyeong Kim
    Korean Journal of Breeding Science.2019; 51(4): 395.     CrossRef
  • ‘Hyowon6’, a Mid-Late Maturing Rice Variety with High Quality
    Da-Eun Im, Mar Lar San, Seong-Gyu Jang, So-Yeon Park, Sang-Hyeon Jin, Yong Chul Kim, Tae-Ho Ham, Soon-Wook Kwon
    Korean Journal of Breeding Science.2018; 50(4): 529.     CrossRef
  • Panicle blast 1 (Pb1) resistance is dependent on at least four QTLs in the rice genome
    Haruhiko Inoue, Mitsuru Nakamura, Tatsumi Mizubayashi, Akira Takahashi, Shoji Sugano, Shuuichi Fukuoka, Nagao Hayashi
    Rice.2017;[Epub]     CrossRef
  • Plant growth promoting rhizobacteria suppress blast disease caused by Pyricularia oryzae and increase grain yield of rice
    Afroz Rais, Muhammad Shakeel, Fauzia Yusuf Hafeez, Muhammad Nadeem Hassan
    BioControl.2016; 61(6): 769.     CrossRef
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