Fei C, Yu J, Xu Z, Xu Q. 2019. Erect panicle architecture contributes to increased rice production through the improvement of canopy structure. Molecular Breeding, 39, 128.
Fujisawa Y, Kato T, Ohki S, Ishikawa A, Kitano H, Sasaki T, Asahi T, Iwasaki Y. 1999. Suppression of the heterotrimeric G protein causes abnormal morphology, including dwarfism, in rice. Proceedings of the National Academy of Sciences of the United States of America, 96, 7575–7580.
Gao X, Zhang X, Lan H, Huang J, Wang J, Zhang H. 2015. The additive effects of GS3 and qGL3 on rice grain length regulation revealed by genetic and transcriptome comparisons. BMC Plant Biology, 15, 156.
Harberd N P. 2015. Shaping taste: The molecular discovery of rice genes improving grain size, shape and quality. Journal of Genetics and Genomics, 42, 597–599.
Huang X, Qian Q, Liu Z, Sun H, He S, Luo D, Xia G, Chu C, Li J, Fu X. 2009. Natural variation at the DEP1 locus enhances grain yield in rice. Nature Genetics, 41, 494–497.
Li F, Liu W, Tang J, Chen J, Tong H, Hu B, Li C, Fang J, Chen M, Chu C. 2010. Rice DENSE AND ERECT PANICLE 2 is essential for determining panicle outgrowth and elongation. Cell Research, 20, 838–849.
Li N, Xu R, Li Y. 2019. Molecular networks of seed size control in plants. Annual Review of Plant Biology, 70, 435–463.
Li Y, Fan C, Xing Y, Yun P, Luo L, Yan B, Peng B, Xie W, Wang G, Li X, Xiao J, Xu C, He Y. 2014. Chalk5 encodes a vacuolar H(+)-translocating pyrophosphatase influencing grain chalkiness in rice. Nature Genetics, 46, 398–404.
Livak K J, Schmittgen T D. 2001. Analysis of relative gene expression data using realtime quantitative PCR and the 2(–Delta Delta C(T)) method. Methods, 25, 402–408.
Ma F, Du J, Wang D, Wang H, Zhao B, He G, Yang Z, Zhang T, Wu R, Zhao F. 2020. Identification of long-grain chromosome segment substitution line Z744 and QTL analysis for agronomic traits in rice. Journal of Integrative Agriculture, 19, 1163–1169.
Mao H, Sun S, Yao J, Wang C, Yu S, Xu C, Li X, Zhang Q. 2010. Linking differential domain functions of the GS3 protein to natural variation of grain size in rice. Proceedings of the National Academy of Sciences of the United States of America, 107, 19579–19584.
Miao J, Yang Z, Zhang D, Wang Y, Xu M, Zhou L, Wang J, Wu S, Yao Y, Du X, Gu F, Gong Z, Gu M, Liang G, Zhou Y. 2019. Mutation of RGG2, which encodes a type B heterotrimeric G protein γ subunit, increases grain size and yield production in rice. Plant Biotechnology Journal, 17, 650–664.
Piao R, Jiang W, Ham T H, Choi M S, Qiao Y, Chu S H, Park J H, Woo M O, Jin Z, An G, Lee J, Koh H J. 2009. Map-based cloning of the ERECT PANICLE 3 gene in rice. Theoretical and Applied Genetics, 119, 1497–1506.
Qiao Y, Piao R, Shi J, Lee S I, Jiang W, Kim B K, Lee J, Han L, Ma W, Koh H J. 2011. Fine mapping and candidate gene analysis of dense and erect panicle 3, DEP3, which confers high grain yield in rice (Oryza sativa L.). Theoretical and Applied Genetics, 122, 1439–1449.
Si L, Chen J, Huang X, Gong H, Luo J, Hou Q, Zhou T, Lu T, Zhu J, Shangguan Y, Chen E, Gong C, Zhao Q, Jing Y, Zhao Y, Li Y, Cui L, Fan D, Lu Y, Weng Q, et al. 2016. OsSPL13 controls grain size in cultivated rice. Nature Genetics, 48, 447–456.
Sun H, Qian Q, Wu K, Luo J, Wang S, Zhang C, Ma Y, Liu Q, Huang X, Yuan Q, Han R, Zhao M, Dong G, Guo L, Zhu X, Gou Z, Wang W, Wu Y, Lin H, Fu X. 2014. Heterotrimeric G proteins regulate nitrogen-use efficiency in rice. Nature Genetics, 46, 652–656.
Sun S, Wang L, Mao H, Shao L, Li X, Xiao J, Ouyang Y, Zhang Q. 2018. A G-protein pathway determines grain size in rice. Nature Communications, 9, 851.
Swain D M, Sahoo R K, Srivastava V K, Tripathy B C, Tuteja R, Tuteja N. 2017. Function of heterotrimeric G-protein γ subunit RGG1 in providing salinity stress tolerance in rice by elevating detoxification of ROS. Planta, 245, 367–383.
Tian Z, Qian Q, Liu Q, Yan M, Liu X, Yan C, Liu G, Gao Z, Tang S, Zeng D, Wang Y, Yu J, Gu M, Li J. 2009. Allelic diversity in rice starch biosynthesis pathway leads to a diverse array of rice eating and cooking qualities. Proceedings of the National Academy of Sciences of the United States of America, 106, 21760–21765.
Utsunomiya Y, Samejima C, Takayanagi Y, Izawa Y, Yoshida T, Sawada Y, Fujisawa Y, Kato H, Iwasaki Y. 2011. Suppression of the rice heterotrimeric G protein β-subunit gene, RGB1, causes dwarfism and browning of internodes and lamina joint regions. The Plant Journal, 67, 907–916.
Wang S, Cui G, Wang H, Ma F, Xia S, Li Y, Yang Z, Ling Y, Zhang C, He G, Zhao F. 2019. Identification and QTL mapping of Z550, a rice backcrossed inbred line with increased grains per panicle. Journal of Integrative Agriculture, 18, 526–531.
Wang S, Li S, Liu Q, Wu K, Zhang J, Wang S, Wang Y, Chen X, Zhang Y, Gao C, Wang F, Huang H, Fu X. 2015. The OsSPL16-GW7 regulatory module determines grain shape and simultaneously improves rice yield and grain quality. Nature Genetics, 47, 949–954.
Wang S, Wu K, Yuan Q, Liu X, Liu Z, Lin X, Zeng R, Zhu H, Dong G, Qian Q, Zhang G, Fu X. 2012. Control of grain size, shape and quality by OsSPL16 in rice. Nature Genetics, 44, 950–954.
Wang Y, Xiong G, Hu J, Jiang L, Yu H, Xu J, Fang Y, Zeng L, Xu E, Xu J, Ye W, Meng X, Liu R, Chen H, Jing Y, Wang Y, Zhu X, Li J, Qian Q. 2015. Copy number variation at the GL7 locus contributes to grain size diversity in rice. Nature Genetics, 47, 944–948.
Wang Y Z, Zhang N, Chen H, Wang F, Huang Y C, Jia B Y, Wang S, Wang Y, Xu Z J. 2019. Effects of DEP1 on grain yield and grain quality in the background of two japonica rice (Oryza sativa) cultivars. Plant Breeding, 139, 608–617.
Xu D, Fang Z, Hu S, Wang X, Xu M, Pan Q. 2004. Analysis of main quality characters and agronomical characters of erect panicle japonica varieties in Jiangsu Province. Journal of Plant Genetics and Resource, 5, 47–51. (in Chinese)
Xu H, Zhao M, Zhang Q, Xu Z, Xu Q. 2016. The DENSE AND ERECT PANICLE 1 (DEP1) gene offering the potential in the breeding of high-yielding rice. Breeding Science, 66, 659–667.
Xu Z, Chen W, Zhang S, Zhang W, Ma D, Liu L, Zhou S. 2005. Differences of panicle trait index among varieties and its relationship with yield and quality of rice in Liaoning. Scientia Agricultura Sinica, 38, 1926–1930. (in Chinese)
Xue P, Zhang Y, Lou X, Zhu A, Chen Y, Sun B, Yu P, Cheng S, Cao L, Zhan X. 2019. Mapping and genetic validation of a grain size QTL qGS7.1 in rice (Oryza sativa L.). Journal of Integrative Agriculture, 18, 1838–1850.
Yi X, Zhang Z, Zeng S, Tian C, Peng J, Li M, Lu Y, Meng Q, Gu M, Yan C. 2011. Introgression of qPE9-1 allele, conferring the panicle erectness, leads to the decrease of grain yield per plant in japonica rice (Oryza sativa L.). Journal of Genetics and Genomics, 38, 217–223.
Yadav D, Islam S, Tuteja N. 2012. Rice heterotrimeric G-protein gamma subunits (RGG1 and RGG2) are differentially regulated under abiotic stress. Plant Signaling & Behavior, 7, 733–740.
Yan S, Zou G, Li S, Wang H, Liu H, Zhai G, Guo P, Song H, Yan C, Tao Y. 2011. Seed size is determined by the combinations of the genes controlling different seed characteristics in rice. Theoretical and Applied Genetics, 123, 1173–1181.
Ying J Z, Gao J, Shan J, Zhu M, Shi M, Lin H. 2012. Dissecting the genetic basis of extremely large grain shape in rice cultivar ‘JZ1560’. Journal of Genetics and Genomics, 39, 325–333.
Zeng D, Tian Z, Rao Y, Dong G, Yang Y, Huang L, Leng Y, Xu J, Sun C, Zhang G, Hu J, Zhu L, Gao Z, Hu X, Guo L, Xiong G, Wang Y, Li J, Qian Q. 2017. Rational design of high-yield and superior-quality rice. Nature Plants, 3, 17031.
Zhang C, Zhu J, Chen S, Fan X, Li Q, Lu Y, Wang M, Yu H, Yi C, Tang S, Gu M, Liu Q. 2019. Wxlv, the ancestral allele of rice Waxy gene. Molecular Plant, 12, 1157–1166.
Zhao D, Li Q, Zhang C, Zhang C, Yang Q, Pan L, Ren X, Lu J, Gu M, Liu Q. 2018. GS9 acts as a transcriptional activator to regulate rice grain shape and appearance quality. Nature Communications, 9, 1240.
Zhou H, Xia D, He Y. 2020. Rice grain quality - traditional traits for high quality rice and health-plus substances. Molecular Breeding, 40, doi: 10.1007/s11032-019-1080-6.
Zhou Y, Zhu J, Li Z, Yi C, Liu J, Zhang H, Tang S, Gu M, Liang G. 2009. Deletion in a quantitative trait gene qPE9-1 associated with panicle erectness improves plant architecture during rice domestication. Genetics, 183, 315–324.
Zhu K, Tang D, Yan C, Chi Z, Yu H, Chen J, Liang J, Gu M, Cheng Z. 2010. ERECT PANICLE2 encodes a novel protein that regulates panicle erectness in indica rice. Genetics, 184, 343–350. |