-
State Key Lab. of Rice Biology
China National Rice Research Institute
No.359, Tiyuchang Road Hangzhou 310006,China
Tel: +86-571-6337-1418; Fax: +86-571-633-70389
E-mail: qianqian188@hotmail.com
https://cnrri.caas.cn/en/aboutus/ourscientists/108550.htm
Area of expertise: Fine mapping; gene clone; gene mapping; QTL mapping; rice genetics; rice germplasm
Selected Publications:
Ren, D., Rao, Y., Yu, H., Xu, Q., Cui, Y., Xia, S., Yu, X., Liu, H., Hu, H., Xue, D., Zeng, D., Hu, J., Zhang, G., Gao, Z., Zhu, L., Zhang, Q., Shen, L., Guo, L., and Qian, Q. (2020). MORE FLORET1 encodes a MYB transcription factor that regulates spikelet development in rice. Plant Physiol. 184:251–265.
Wang, Y., Shang, L., Yu, H., Zeng, L., Hu, J., Ni, S., Rao, Y., Li, S., Chu, J., Meng, X., Wang, L., Hu, P., Yan, J., Kang, S., Qu, M., Lin, H., Wang, T., Wang, Q., Hu, X., Chen, H., Wang, B., Gao, Z., Guo, L., Zeng, D., Zhu, X., Xiong, G., Li, J., and Qian, Q. (2020). A strigolactone biosynthesis gene contributed to the green revolution in rice. Mol. Plant 13:923–932.
Cui, Y., Hu, X., Liang, G., Feng, A., Wang, F., Ruan, S., Dong, G., Shen, L., Zhang, B., Chen, D., Zhu, L., Hu, J., Lin, Y., Guo, L., Matsuoka, M., and Qian, Q. (2020). Production of novel beneficial alleles of a rice yield-related QTL by CRISPR/Cas9. Plant Biotechnol. J. 18:1987–9.
Ren, D., Li, Y., He, G., and Qian, Q. (2020). Multifloret spikelet improves rice yield. New Phytol. 225:2301–2306.
Gao, Z., Wang, Y., Chen, G., Zhang, A., Yang, S., Shang, L., Wang, D., Ruan, B., Liu, C., Jiang, H., Dong, G., Zhu, L., Hu, J., Zhang, G., Zeng, D., Guo, L., Xu, G., Teng, S., Harberd, N., and Qian, Q. (2019). The indica nitrate reductase gene OsNR2 allele enhances rice yield potential and nitrogen use efficiency. Nat. Commun. 10:5207.
Yu, Y., and Qian, Q. (2019). Rice Breeding: A long noncoding locus with great potential. Mol. Plant 12:1431–1433.
Ren, D., Xu, Q., Qiu, Z., Cui, Y., Zhou, T., Zeng, D., Guo, L., and Qian, Q. (2019). FON4 prevents the multi-floret spikelet in rice. Plant Biotechnol. J. 17:1007–1009.
Qiu, Z., Zhu, L., He, L., Chen, D., Zeng, D., Chen, G., Hu, J., Zhang, G., Ren, D., Dong, G., Gao, Z., Shen, L., Zhang, Q., Guo, L., and Qian, Q. (2019). DNA damage and reactive oxygen species cause cell death in the rice local lesions 1 mutant under high light and high temperature. New Phytol. 222:349–365.
Hu, S., Hu, X., Hu, J., Shang, L., Dong, G., Zeng, D., Guo, L., and Qian, Q. (2018). Xiaowei., a new rice germplasm for large-scale indoor research. Mol. Plant 11:1418–1420.
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., and Qian, Q. (2017). Rational design of high-yield and superior-quality rice. Nat. Plants 3:17031.
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., and Qian, Q. (2015). Copy number variation at the GL7 locus contributes to grain size diversity in rice. Nat. Genet. 47:944–8.
Gao, Z., Zhao, S., He, W., Guo, L., Peng, Y., Wang, J., Guo, X., Zhang, X., Rao, Y., Zhang, C., Dong, G., Zheng, F., Lu, C., Hu, J., Zhou, Q., Liu, H., Wu, H., Xu, J., Ni, P., Zeng, D., Liu, D., Tian, P., Gong, L., Ye, C., Zhang, G., Wang, J., Tian, F., Xue, D., Liu, Y., Zhu, L., Chen, M., Li, J., Cheng S., Zhang, G., Wang, J., and Qian, Q. (2013). Dissecting yield-associated loci in super hybrid rice by resequencing recombinant inbred lines and improving parental genome sequences. Proc. Natl. Acad. Sci. USA 110:14492–14497.
Jiang, L., Liu X., Xiong, G., Liu, H., Chen, F., Wang, L., Meng, X., Liu, G., Yu, H., Yuan, Y., Yi, W., Zhao, L., Ma, H., He, Y., Wu, Z., Melcher, K., Qian, Q., Xu, H., Wang, Y., and Li, J. (2013). DWARF 53 acts as a repressor of strigolactone signaling in rice. Nature 504:401–405.
Hu, X., Qian, Q., Xu, T., Zhang, Y., Dong, G., Gao, T., Xie, Q., and Xue, Y. (2013). The U-box E3 ubiquitin ligase TUD1 functions with a heterotrimeric G α subunit to regulate Brassinosteroid-mediated growth in rice. PLoS Genet. 9: 1–13.
Li, J., Jiang, J., Qian, Q., Xu, Y., Zhang, C., Xiao, J., Du, C., Luo, W., Zou, G., Chen, M., Huang, Y., Feng, Y., Cheng, Z., Yuan, M., and Chong, K. (2011). Mutation of rice BC12/GDD1, which encodes a kinesin-like protein that binds to a GA biosynthesis gene promoter, leads to dwarfism with impaired cell elongation. Plant Cell 23: 628–640.
For Upcoming Special lssue: