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Research Article

Development of Near-isogenic Transgenic Rice Lines Harboring Wild Rice (Oryza grandiglumis)-Derived Fungal Resistance Gene (OgPR1)

Plant Breeding and Biotechnology 2013;1(2):122-130.
Published online: June 30, 2013

1Dept. of Genetic Engineering, Dong-A University, College of Natural Resources and Life Science, Dong-A University, 37 Nakdong-Daero 550beon-gil, Saha-gu, Busan 604-714, Korea

2National Crop Experiment Station, Rural Development Administration, Suwon 441-100, Korea

*Corresponding author: Ji Ung Jeong, jrnj@korea.ac.kr, Tel: +82-31-290-6728, Fax: +82-31-6730
*Corresponding author: Young Soo Chung, chungys@dau.ac.kr, Tel: +82-51-200-7510, Fax: +82-51-200-6535
• Received: June 14, 2013   • Revised: June 27, 2013   • Accepted: June 28, 2013

Copyright © 2013 The Korean Society of Breeding Science

This is an Open-Access article distributed under the terms of the Creative Commons Attribution Non-Commercial License (http://creativecommons.org/licenses/by-nc/3.0) which permits unrestricted non-commercial use, distribution, and reproduction in any medium, provided the original work is properly cited.

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  • 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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Development of Near-isogenic Transgenic Rice Lines Harboring Wild Rice (Oryza grandiglumis)-Derived Fungal Resistance Gene (OgPR1)
Plant Breed. Biotech.. 2013;1(2):122-130.   Published online June 30, 2013
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Development of Near-isogenic Transgenic Rice Lines Harboring Wild Rice (Oryza grandiglumis)-Derived Fungal Resistance Gene (OgPR1)
Plant Breed. Biotech.. 2013;1(2):122-130.   Published online June 30, 2013
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Development of Near-isogenic Transgenic Rice Lines Harboring Wild Rice (Oryza grandiglumis)-Derived Fungal Resistance Gene (OgPR1)
Image Image Image
Fig. 1 The selected promising transgenic lines (●) revealed similar agronomic characteristics to their respective recurrent parent(○).
Fig. 2 Phenotypic analyses of the rice transgenic lines. A. Dongjin (1) and transgenic plant lines (2–6: Dongjin (OgPR1)-T6(2), 7–9: Dongjin(OgPR1)-T6(3)) at 30 days after transplanting. B. Dongjin (1) and transgenic plant lines (2–3) compared in mature panicles. C. Dongjin (1) and transgenic plant lines (2–3) compared in shape of rough rice (top), brown rice (middle) and milled rice (bottom) grains.
Fig. 3 Blast disease resistance of the OgPR1 transgenic rice plant. Disease severity of rice blast on susceptible control (Dongjin) and resistant transgenic plants (1–2:T6 generation). Conidial suspensions (5×105 conidia/ml) of Magnaporthe grisea (race KJ-105a) were spray-inoculated onto rice seedlings between the 5th and 6th leaf stages.
Development of Near-isogenic Transgenic Rice Lines Harboring Wild Rice (Oryza grandiglumis)-Derived Fungal Resistance Gene (OgPR1)

Basic agronomic characters of the transgenic T4 plant in 2008.

Line Heading date Growth duration from seeding to heading (days) Culm length (cm) Panicle length (cm) No. of panicles/hill Ratio of ripened grains (%)
Dongjin 8.24 119 89 21 6 95.7
Dongjin(OgPR1)-T4(1) 8.24 118 93 20 7 91.2
Dongjin(OgPR1)-T4(2)*** 8.24 118 92 19 8 95.5
Dongjin(OgPR1)-T4(3)*** 8.24 118 88 19 10 93.4
Dongjin(OgPR1)-T4(4) 8.24 118 86 20 6 90.6
Dongjin(OgPR1)-T4(5) 8.24 118 83 19 8 87.7
Dongjin(OgPR1)-T4(6) 8.24 118 87 21 7 89.4
Dongjin(OgPR1)-T4(7) 8.24 118 94 19 6 88.9
Dongjin(OgPR1)-T4(8) 8.24 118 86 20 7 82
Dongjin(OgPR1)-T4(9) 8.24 118 88 20 6 93
Dongjin(OgPR1)-T4(10) 8.24 118 88 20 5 92.7

Major agronomic characters of the transgenic T6 lines of replicated yield trial (RYT) test in 2010

Line Heading date Growth duration from seeding to heading (days) Culm length (cm) Panicle length (cm) No. of Panicles/hill Panicle exertion(cm) Flag leaf length (cm)
Dongjin 8.16 113.0±0.8 94.0±0.7 19.6±0.7 12.3±1.1 5.8±0.3 25.6±3.5
Dongjin(OgPR1)-T6(2) 8.25 121.0±0.4 95.0±2.1 18.4±0.1 13.0±2.1 5.1±0.7 25.1±2.7
Dongjin(OgPR1)-T6(3) 8.23 120.0±0.8 93.0±1.8 18.1±0.5 12.7±1.0 4.4±1.1 21.8±1.2

Yield components of transgenic T6 lines of the replicated yield trial (RYT) test in 2010

Line No. of spikelet/p anicle Percent of fertile grain (%) Ratio of ripened grains (%) Brown rice recovery (%) 1000-grain weight (g) Yield in rice (kg/10a)

Rough rice Brown rice Milled rice
Dongjin 91.0±7.6 47.9 86.3±1.4 82.2±0.3 22.3±0.3 545.0±1.8 448.0±1.6 408.0±1.6
Dongjin(OgPR1)-T6(2) 89.0±4.5 51.9 87.9±5.1 81.0±0.7 22.5±0.1 543.0±17.3 440.0±11.2 400.0±10.1
Dongjin(OgPR1)-T6(3) 85.0±2.1 49.7 87.0±2.6 81.2±0.5 22.0±0.2 553.0±8.9 450.0±10.1 409.0±9.0

Physiochemical property of transgenic T6 lines of the replicated yield trial (RYT) test in 2010

Line Grain Brown/rough rice ratio (%) Amylose content(%) Protein content (%) Toyo-taste value

Length (mm) Width (mm) length/width ratio
Dongjin 4.97±0.026 2.78±0.014 1.79±0.004 85.4±2.1 19.3±0.5 6.2±0.1 76.3±0.4
Dongjin(OgPR1)-T6(2) 5.04±0.004 2.78±0.018 1.81±0.010 90.2±3.8 20.9±0.7 5.8±0.1 79.6±1.7
Dongjin(OgPR1)-T6(3) 5.06±0.018 2.75±0.024 1.84±0.012 88.2±3.1 20.7±0.7 5.7±0.1 77.5±0.5
Table 1 Basic agronomic characters of the transgenic T4 plant in 2008.
Table 2 Major agronomic characters of the transgenic T6 lines of replicated yield trial (RYT) test in 2010
Table 3 Yield components of transgenic T6 lines of the replicated yield trial (RYT) test in 2010
Table 4 Physiochemical property of transgenic T6 lines of the replicated yield trial (RYT) test in 2010