RICE SCIENCE ›› 2010, Vol. 17 ›› Issue (3): 199-205 .DOI: 10.1016/S1672-6308(09)60018-4
• Research Paper • Previous Articles Next Articles
WANG Yan-rong, QIU Fu-lin, HUA Ze-tian, DAI Gui-jin
Received:
2009-12-22
Revised:
1900-01-01
Online:
2010-09-28
Published:
2010-09-28
Contact:
WANG Yan-rong
Supported by:
the National Key Technology R & D Program of China (Grant No. 2006BA01A01-7).
WANG Yan-rong, QIU Fu-lin, HUA Ze-tian, DAI Gui-jin . Relationship of Parental Indica-Japonica Indexes with Yield and Grain Quality Traits of Japonica Hybrid Rice in Northern China[J]. RICE SCIENCE, 2010, 17(3): 199-205 .
Add to citation manager EndNote|Ris|BibTeX
URL: http://www.ricesci.org/EN/10.1016/S1672-6308(09)60018-4
Cai J, Lan W. 2005. AFLP marker and forecasting of hybrid yield and yield heterosis. Chin Agric Sci Bull, 21(4): 39–43. (in Chinese with English abstract)Chen Y J, Zhang G Q, Lu Y G. 2007. Study on affinity of rice by the method of microsatellite markers. J Hunan Agric Univ: Science, 33(3): 258–261. (in Chinese with English abstract)He D G, Qu W D. 2000. The relationship of genetic difference between parents to heterosis in early hybrid rice. Hybrid Rice, 15(5): 34–36. (in Chinese with English abstract)Hua Z T, Yuan X F, Sui G M. 2006. Genetic Improvement and Physiological Basis of Northern Japonica Hybrid Rice. Shenyang: Science and Technology Press of Liaoning Province. (in Chinese)Jin Z X, Jiang W Z, Gao X Z. 2005. Analysis on correlation of genetic distance in RAPD markers with hybrid rice flavor degree and RVA spectral characteristics. Chin J Rice Sci, 19(1): 29–35. (in Chinese with English abstract)Li R G, Wang Y Z. 1993. The relationship of genetic distance to heterosis and hybrid yield in rice. J Hebei Agric Univ, 16(1): 13–19. (in Chinese with English abstract)Li R H, Xu C G, He Y Q. 1998. The relationship of parent genetic differentiation degree to heterosis between indica and japonica subspecies. Acta Agron Sin, 24(5): 564–576. (in Chinese with English abstract)Lu Q S, Hua Z T, Zou J C. 2001. Heterosis of Crops. Beijing: China Agricultural Press. (in Chinese)Luo X J, He H H, Peng X S, Yu Q Y. 2006. Analysis on correlation between genetic distance of rice parents to heterosis with SSR marker. J Plant Genet Res, 7(2): 209–214. (in Chinese with English abstract)Ma H W, Yin Y B, Wang X S, Liu W. 1998. Genetic distance in quantitative traits of japonica rice and its application in heterosis utilization. J Ningxia Agric Coll, 19(3): 45–49. (in Chinese with English abstract)Qiu F L, Zhuang J Y, Hua Z T, Cheng S H. 2005. Detection of genetic diversity of the main parents of northern japonica hybrid rice by the method of SSR. Chin J Rice Sci, 19(2): 101–104. (in Chinese with English abstract)Shi Y L, Wang J, Li Z C. 2008. The relationship of genetic differentiation in molecular markers to heterosis in japonica rice. Acta Agric Bor-Occid Sin, 17(5): 166–170. (in Chinese with English abstract)Sun C Q, Jiang T B, Wu C M. 2000. Study on the relationship of heterosis to genetic differentiation in rice. Acta Agron Sin, 26(6): 641–649. (in Chinese with English abstract)Wang Y R, Hua Z T, Chen W F, Dai G J. 2003. The relationship between senescence of root and leaf and its influence on grain-filling in japonica rice. Acta Agron Sin, 29(6): 892–898. (in Chinese with English abstract)Xiao J, Li L. 1996. Genetic diversity and its relationship to hybrid performance and heterosis in rice as revealed by PCR-based markers. Theor Appl Genet, 92: 637–643.Yang Z Y, Liu W Y. 1999. Study on indica and japonica subspecies classification of F1 and its relationship to heterosis. In: Japonica Hybrid Rice Breeding of Northern China. Beijing: China Agricultural Science and Technology Press, 146–151. (in Chinese)Yuan L P, Chen H X. 1998. Breeding and Cultivation of Hybrid Rice. Changsha: Science and Technology Press of Hunan Province. (in Chinese)Zou X Y, Fu J R, Peng X S. 2007. Study on the relationship of genetic difference between parents to heterosis in three-line hybrid rice. J Jiangxi Agric Univ, 29(5): 707–711. (in Chinese with English abstract)Zhang P J, Cai H W, Yuan P R, Zhan X C. 2001. The relationship of genetic distance in RFLP markers and heterosis. Hybrid Rice, 16(5): 50–53. (in Chinese with English abstract)Zhang P J, Yuan L. 1997. Heterosis and combining ability of hybrid rice and its relation to japonica-indica index of parents. Rice Genet Newsl, 14: 34–36.Zhang Q F, Zhou Z Q, Yang G P. 1996. Molecular marker heterozygosity and hybrid performance in indica and japonica rice. Theor Appl Genet, 93(8): 1218–1224.Zhang P J, Cai H W, Li H C, Yang L S. 2000. Rice genetic distance by RAPD markers and its relationship to heterosis. Anhui Agric Sci, 28(6): 697–700, 704. (in Chinese with English abstract)Zhang T, Han L, Xu J D, Jiang K F, Wu X J. 2006. Study on the relationship of genetic distance between parents to yield heterosis in hybrid fragrant rice. Sci Agric Sin, 39(4): 831–835. (in Chinese with English abstract)Zhang L X, Wang L Y, Zhang L H. 2007. Identification of hybrid rice and forecasting of heterosis by the super family fingerprint of Rim2. Acta Agron Sin, 33(1): 77–83. (in Chinese with English abstract)Zhao Q Y, Zhu Z, Zhang Y D, Zhao L, Chen T, Zhang Q F, Wang C L. 2009. Analysis on the correlation of genetic distance in SSR with heterosis of japonica rice. Chin J Rice Sci, 23(2): 141–147. (in Chinese with English abstract)Zhu Z F, Sun C Q, Jiang T B. 2001. A comparative study on the relationship of SSR and RFLP of rice varieties to heterosis. Acta Genet Sin, 28(8): 738–745. (in Chinese with English abstract) |
[1] | JI Dongling, XIAO Wenhui, SUN Zhiwei, LIU Lijun, GU Junfei, ZHANG Hao, Tom Matthew HARRISON, LIU Ke, WANG Zhiqin, WANG Weilu, YANG Jianchang. Translocation and Distribution of Carbon-Nitrogen in Relation to Rice Yield and Grain Quality as Affected by High Temperature at Early Panicle Initiation Stage [J]. Rice Science, 2023, 30(6): 12-. |
[2] | Lu Xuedan, Li Fan, Xiao Yunhua, Wang Feng, Zhang Guilian, Deng Huabing, Tang Wenbang. Grain Shape Genes: Shaping the Future of Rice Breeding [J]. Rice Science, 2023, 30(5): 379-404. |
[3] | Long Xinkang, Guan Chunmin, Wang Lin, Jia Liting, Fu Xiangjin, Lin Qinlu, Huang Zhengyu, Liu Chun. Rice Storage Proteins: Focus on Composition, Distribution, Genetic Improvement and Effects on Rice Quality [J]. Rice Science, 2023, 30(3): 207-221. |
[4] | Jiang Hongzhen, Wang Yamei, Lai Liuru, Liu Xintong, Miao Changjian, Liu Ruifang, Li Xiaoyun, Tan Jinfang, Gao Zhenyu, Chen Jingguang. OsAMT1.1 Expression by Nitrate-Inducible Promoter of OsNAR2.1 Increases Nitrogen Use Efficiency and Rice Yield [J]. Rice Science, 2023, 30(3): 222-234. |
[5] | Zhou Longfei, Meng Ran, Yu Xing, Liao Yigui, Huang Zehua, Lü Zhengang, Xu Binyuan, Yang Guodong, Peng Shaobing, Xu Le. Improved Yield Prediction of Ratoon Rice Using Unmanned Aerial Vehicle-Based Multi-Temporal Feature Method [J]. Rice Science, 2023, 30(3): 247-256. |
[6] | Ernieca Lyngdoh Nongbri, Sudip Das, Karma Landup Bhutia, Aleimo G. Momin, Mayank Rai, Wricha Tyagi. Differential Expression of Iron Deficiency Responsive Rice Genes under Low Phosphorus and Iron Toxicity Conditions and Association of OsIRO3 with Yield in Acidic Soils [J]. Rice Science, 2023, 30(1): 58-69. |
[7] | Liu Yantong, Li Ting, Jiang Zhishu, Zeng Chuihai, He Rong, Qiu Jiao, Lin Xiaoli, Peng Limei, Song Yongping, Zhou Dahu, Cai Yicong, Zhu Changlan, Fu Junru, He Haohua, Xu Jie. Characterization of a Novel Weak Allele of RGA1/D1 and Its Potential Application in Rice Breeding [J]. Rice Science, 2022, 29(6): 522-534. |
[8] | Yousef Alhaj Hamoud, Hiba Shaghaleh, Wang Ruke, Willy Franz Gouertoumbo, Amar Ali Adam hamad, Mohamed Salah Sheteiwy, Wang Zhenchang, Guo Xiangping. Wheat Straw Burial Improves Physiological Traits, Yield and Grain Quality of Rice by Regulating Antioxidant System and Nitrogen Assimilation Enzymes under Alternate Wetting and Drying Irrigation [J]. Rice Science, 2022, 29(5): 473-488. |
[9] | Luo Haowen, He Longxin, Du Bin, Pan Shenggang, Mo Zhaowen, Yang Shuying, Zou Yingbin, Tang Xiangru. Epoxiconazole Improved Photosynthesis, Yield Formation, Grain Quality and 2-Acetyl-1-Pyrroline Biosynthesis of Fragrant Rice [J]. Rice Science, 2022, 29(2): 189-196. |
[10] | Sibo Chen, Liang Tang, Jian Sun, Quan Xu, Zhengjin Xu, Wenfu Chen. Contribution and Prospect of Erect Panicle Type to japonica Super Rice [J]. Rice Science, 2021, 28(5): 431-441. |
[11] | Matsue Yuji, Takasaki Katsuya, Abe Jun. Water Management for Improvement of Rice Yield, Appearance Quality and Palatability with High Temperature During Ripening Period [J]. Rice Science, 2021, 28(4): 409-416. |
[12] | Panigrahy Madhusmita, Das Subhashree, Poli Yugandhar, Kumar Sahoo Pratap, Kumari Khushbu, C. S. Panigrahi Kishore. Carbon Nanoparticle Exerts Positive Growth Effects with Increase in Productivity by Down-Regulating Phytochrome B and Enhancing Internal Temperature in Rice [J]. Rice Science, 2021, 28(3): 289-300. |
[13] | Minghua Zhang, Zhaowen Mo, Juan Liao, Shenggang Pan, Xiongfei Chen, Le Zheng, Xiwen Luo, Zaiman Wang. Lodging Resistance Related to Root Traits for Mechanized Wet-Seeding of Two Super Rice Cultivars [J]. Rice Science, 2021, 28(2): 200-208. |
[14] | Jan Mehmood, Shah Gulmeena, Yuqing Huang, Xuejiao Liu, Peng Zheng, Hao Du, Hao Chen, Jumin Tu. Development of Heat Tolerant Two-Line Hybrid Rice Restorer Line Carrying Dominant Locus of OsHTAS [J]. Rice Science, 2021, 28(1): 99-108. |
[15] | Yuyu Chen, Aike Zhu, Pao Xue, Xiaoxia Wen, Yongrun Cao, Beifang Wang, Yue Zhang, Liaqat Shah, Shihua Cheng, Liyong Cao, Yingxin Zhang. Effects of GS3 and GL3.1 for Grain Size Editing by CRISPR/Cas9 in Rice [J]. Rice Science, 2020, 27(5): 405-413. |
Viewed | ||||||
Full text |
|
|||||
Abstract |
|
|||||