[1]Cheng F M, Zhong L J. 2001. Variation of rice quality traitsunder different climate conditions and its main affectedfactors. Chinese Journal of Rice Science, 15, 187-191[2](in Chinese)Jin J, Sun S Y, ZhuMZ, Lin H X. 2006. Constructionof chromosome segment substitution lines carryingoverlapping chromosome segments of the whole wildrice genome and identification of quantitative trait locifor rice quality. Journal of Plant Physiology andMolecular Biology, 32, 354-362[3](in Chinese)Hao W, Zhu M Z, Gao J P, Sun S Y, Lin H X. 2009.Identification of quantitative trait loci for rice quality ina population of chromosome segment substitution lines.Journal of Integrative Plant Biology, 51, 500-512[4]He P, Li S G, Qian Q, Ma Y Q, Li J Z, Wang W M, Chen Y,Zhu L H. 1999. Genetic analysis of rice grain quality.Theoretical and Applied Genetics, 98, 502-508[5]Gao Z, Zeng D, Cheng F, Tian Z, Guo L, SuY, Yan M, JiangH, Dong G, Huang Y, et al. 2011. ALK, the key gene forgelatinization temperature is a modifier gene for gelconsistency in rice. Journal of Integrative PlantBiology, 53, 756-765[6]Guo T, Liu X,Wan X,Weng J, Liu S, Liu X, ChenM, Li J, SuN, Wu F, et al. 2011. Identification of a stablequantitative trait locus for percentage grains with whitechalkiness in rice (Oryza sativa). Journal of IntegrativePlant Biology, 53, 598-607[7]Kobayashi A, Bao G, Ye S, Tomita K T. 2007. Detection ofquantitative trait loci for white-back and basal-whitekernels under high temperature stress in japonica ricevarieties. Breeding Science, 57, 107-116[8]Lander E, Green P, Abrahamson J, Barlow A, Daley M,Lincoln S, Newburg L. 1987. MAPMAKER: aninteractive computer package for constructing primarygenetic maps of experimental and natural populations.Genomics, 1, 174-181[9]Lei D Y, Xie F M, Chen L Y. 2007. QTL mapping for grainappearance quality traits of advanced backcrossingintrogression lines in rice. Journal of HunanAgricultural University (Natural Sciences), 35, 1-4 (inChinese)[10]Li J, Xiao J, Grandillo S, Jiang L, Wan Y, Deng Q, Yuan L,McCouch S R. 2004. QTL detection for rice grain qualitytraits using an interspecific backcross populationderived from cultivated Asian (O. sativa L.) and African(O. glaberrima S.) rice. Genome, 47, 697-704[11]Li Z F, Wan J M, Xia J F, Zhai H Q. 2003. Mappingquantitative trait loci underlying appearance quality ofrice grains (Oryza sativa L.). Acta Genetica Sinica, 30,251-259[12]Liu J F, Kui LM, Zhu Z F, Tan L B, Wang G J, Li Q Q, ShuJ H, Sun C Q. 2007. Identification of QTLs associatedwith processing quality and appearance quality ofcommon wild rice (Oryza rufipogon Griff.). Journal ofAgricultural Biotechnology, 15, 90-96 (in Chinese)[13]McCouch S R, CGSNL (Committee on Gene Symbolization,Nomenclature and Linkage, Rice Genetics Cooperative).2008. Gene nomenclature system for rice. Rice, 1, 72-84[14]Mu P, Guo YM, Liu J F, Lu Y X, Li Z C. 2007. QTLmappingand QTL×environments interactions of grain milling andappearance quality traits in rice under upland andlowland environments. Journal of AgriculturalBiotechnology, 15, 654-660. (in Chinese)[15]NSPRC (The National Standard of the People’s Republicof China). 2009. High Quality Paddy. CB/T17891-1999 (in Chinese)[16]Song X J, HuangW, DhiM, Zhu MZ, Lin H X. 2007. AQTLfor rice grain wifth and weight encodes a previouslyknown RING-type E3 ubiquitin ligase. Nature Genetics,39, 623-630[17]Tabata M, Hirabayashi H, Takeuchi Y, Ando I, Lida Y,Ohsawa. 2007. Mapping of quantitative trait loci for theoccurrence of white-back kernals associated with hightemperature during the ripening period of rice (Oryzasativa L.). Breeding Science, 57, 47-52[18]Tan Y F, Xing Y Z, Li J X, Yu S B, Xu C G, Zhang Q. 2000.Genetic bases of appearance quality of rice grains inShanyou 63, an elite rice hybrid. Theoretical andApplied Genetics, 101, 823-829[19]Wan X Y, Wan J M, Weng J F, Jiang L, Bi J C, Wang C M,Zhai HQ. 2005. Stability of QTLs for rice grain dimensionand endosperm chalkiness characteristics across eightenvironments. Theoretical and Applied Genetics, 110,1334-1346[20]Wang D Y, Zhang X F, Zhu Z W, Chen N, Min J, Yao Q, YanJ L, Liao X Y. 2005. Correlation analysis of rice grainquality characteristics. Acta Agronomica Sinica, 31,1086-1091[21](in Chinese)Weng J, Gu S, Wan X, Gao H, Guo T, Su N, Lei C, Zhang X,Cheng Z, Guo X, et al. 2008. Isolation and initialcharacterization of GW5, a major QTL associated withrice grain width and weight. Cell Research, 18, 1199-1209[22]Yang J, Hu C, Hu H, Yu R, Xia Z, Ye X, Zhu J. 2008.QTLNetwork: mapping and visualizing geneticarchitecture of complex traits in experimentalpopulations. Bioinformatics, 24, 721-723[23]Yang S H, Cheng B Y, Wu J L, Shen W F, Cheng S H. 2006.Review and prospects on rice breeding and extensionin China. Rice Science, 13, 1-8[24]Yoshida S, Ikegami M, Kuze J, Sawada K, Hashimoto Z,Ishii T, Nakamura C, Kamijima O. 2002. QTL analysisfor plant and grain characters of sake-brewing rice usinga doubled haploid population. Breeding Science, 52,309-317[25]Yu Y H, Li G, Fan YY, Zhang K Q, Min J, Zhu Z W, ZhuangJ Y. 2009. Genetic relationship between grain yield andthe contents of protein and fat in a recombinant inbredpopulation of rice. Journal of Cereal Science, 50, 121-125[26]Zeng D L, Qian Q, Ruan LQ, Teng S, Yasufumi K, Hiroshi F,Zhu L H. 2002. QTL analysis of chalkiness size in threedimensions. Chinese Journal of Rice Science, 16, 11-14 (in Chinese)[27]Zhang Z H, Guo L, Zhu Y J, Fan Y Y, Zhuang J Y. 2011.Mapping of quantitative trait loci for heading date andplant height in two populations of indica rice. ScientiaAgricultura Sinica, 44, 3069-3077 (in Chinese)[28]Zhou L, Chen L, Jiang L, Zhang W, Liu L, Liu X, Zhao Z,Liu S, Zhang L, Wang J, et al. 2009. Fine mapping of thegrain chalkiness QTL qPGWC-7 in rice (Oryza sativaL.). Theoretical and Applied Genetics, 118, 581-590[29]Zhou P H, Tan Y F, He Y Q, Xu C G, Zhang Q. 2003.Simultaneous improvement for four quality traits ofZhenshan 97, an elite parent of hybrid rice, by molecularmarker-assisted selection. Theoretical and AppliedGenetics, 106, 326-331[30]Zhu Y J, Tu G Q, Ying J Z, Fan Y Y, Zhuang J Y. 2010. F1performance and heterosis of late-season indica hybridrice as revealed in testcrosses between Zhong 9A andrecombinant inbred restorer lines. Hybrid Rice, 25(Special issue), 131-133 (in Chinese)[31]Zhuang J Y, Zhu Y J, Tu G Q, Ying J Z, Fan Y Y. 2010. Genepyramiding assisted breeding of hybrid ricecombination Zhongyou 161 with high yield and highgrain quality. Hybrid Rice, 25, 12-14. (in Chinese) |