-
Center for Molecular Agrobiology
Institute of Genetics and Developmental Biology, Beijing 100101, China
E-mail: jxiao@genetics.ac.cn
http://genetics.cas.cn/sourcedb/zw/zjrc/201805/t20180522_5015314.html
Area of expertise: wheat functional genomics, nutrient use efficiency
Selected Publications:
Wang, D., Zhang, X., Cao, Y., Batool, A., Xu, Y., Qiao, Y., Li, Y., Wang, H., Lin, X., Bie, X., Zhang, X., Jing, R., Dong, B., Tong, Y., Teng, W., Liu, X., and Xiao, J. (2024). TabHLH27 orchestrates root growth and drought tolerance to enhance water use efficiency in wheat. J. Integr. Plant Biol. doi: 10.1111/jipb.13670.
Lin, X., Xu, Y., Wang, D., Yang, Y., Zhang, X., Bie, X., Gui, L., Chen, Z., Ding, Y., Mao, L., Zhang, X., Lu, F., Zhang, X., Uauy, C., Fu, X., and Xiao, J. (2024). Systematic identification of wheat spike developmental regulators by integrated multi-omics, transcriptional network, GWAS, and genetic analyses. Mol. Plant 17: 438–459.
Lyu, J., Wang, D., Sun, N., Yang, F., Li, X., Mu, J., Zhou, R., Zheng, G., Yang, X., Zhang, C., Han, C., Xia, G.M., Li, G., Fan, M., Xiao, J., and Bai, M.Y. (2024). The TaSnRK1-TabHLH489 module integrates brassinosteroid and sugar signalling to regulate the grain length in bread wheat. Plant Biotechnol. J. 22: 1989–2006.
Liu, X., Bie, X.M., Lin, X., Li, M., Wang, H., Zhang X., Yang, Y., Zhang, C., Zhang, X.S., and Xiao, J. (2023). Uncovering the transcriptional regulatory network involved in boosting wheat regeneration and transformation. Nat. Plants 9: 908–925.
Zhang, H., Jin, Z., Cui, F., Zhao, L., Zhang, X., Chen, J., Zhang, J., Li, Y., Li, Y., Niu, Y., Zhang, W., Gao, C., Fu, X., Tong, Y., Wang, L., Ling, H.Q., Li, J., and Xiao, J. (2023). Epigenetic modifications mediate cultivar-specific root development and metabolic adaptation to nitrogen availability in wheat. Nat. Commun. 14: 8238.
Zhao, L., Yang, Y., Chen, J., Lin, X., Zhang, H., Wang, H., Wang, H., Bie, X., Jiang, J., Feng, X., Fu, X., Zhang, X., Du, Z., and Xiao, J. (2023). Dynamic chromatin regulatory programs during embryogenesis of hexaploid wheat. Genome Biol. 24: 7.
Wang, D., Li, Y., Wang, H., Xu, Y., Yang, Y., Zhou, Y., Chen, Z., Zhou, Y., Gui, L., Guo, Y., Zhou, C., Tang, W., Zheng, S., Wang, L., Guo, X., Zhang, Y., Cui, F., Lin, X., Jiao, Y., He, Y., Li, J., He, F., Liu, X., and Xiao, J. (2023). Boosting wheat functional genomics via indexed EMS mutant library of KN9204. Plant Commun. 4: 100593.
Li, S., Lin, D., Zhang, Y., Deng, M., Chen, Y., Lv, B., Li, B., Lei, Y., Wang, Y., Zhao, L., Liang, Y., Liu, J., Chen, K., Liu, Z., Xiao, J., Qiu, J.L., and Gao, C. (2022). Genome edited powdery mildew resistance in wheat without growth penalties. Nature 602: 455–460.
Xiao, J., Liu, B., Yao, Y., Guo, Z., Jia, H., Kong, L., Zhang, A., Ma, W., Ni, Z., Xu, S., Lu, F., Jiao, Y., Yang, W., Lin, X., Sun, S., Lu, Z., Gao, L., Zhao, G., Cao, S., Chen, Q., Zhang, K., Wang, M., Wang, M., Hu, Z., Guo, W., Li, G., Ma, X., Li, J., Han, F., Fu, X., Ma, Z., Wang, D., Zhang, X., Ling, H.Q., Xia, G., Tong, Y., Liu, Z., He, Z., Jia, J., and Chong, K. (2022). Wheat genomic study for genetic improvement of traits in China. Sci. China Life Sci. 65: 1718–1775.
Shi, X., Cui, F., Han, X., He, Y., Zhao, L., Zhang, N., Zhang, H., Zhu, H., Liu, Z., Ma, B., Zheng, S., Zhang, W., Liu, J., Fan, X., Si, Y., Tian, S., Niu, J., Wu, H., Liu, X., Chen, Z., Meng, D., Wang, X., Song, L., Sun, L., Han, J., Zhao, H., Ji, J., Wang, Z., He, X., Li, R., Chi, X., Liang, C., Niu, B., Xiao, J., Li, J., and Ling, H.Q. (2022). Comparative genomic and transcriptomic analyses uncover the molecular basis of high nitrogen use efficiency in the wheat cultivar Kenong 9204. Mol. Plant. 15:1440–1456.
Bieluszewski, T., Xiao, J., Yang, Y., and Wagner, D. (2021). PRC2 activity, recruitment, and silencing: a comparative perspective. Trends Plant Sci. 26: 1186–1198.
Xiao, J., Jin, R., Yu, X., Shen, M., Wagner, J.D., Pai, A., Song, C., Zhuang, M., Klasfeld, S., He, C., Santos, A.M., Helliwell, C., Pruneda-Paz, J.L., Kay, S.A., Lin, X., Cui, S., Garcia, M.F., Clarenz, O., Goodrich, J., Zhang, X., Austin, R.S., Bonasio, R., and Wagner, D. (2017). Cis- and trans-determinants of Polycomb Repressive Complex 2 recruitment in Arabidopsis. Nat. Genet. 49: 1546–1552.
Xiao, J., Jin, R., and Wagner, D. (2017). Developmental transitions: integrating environmental cues with hormonal signaling in the chromatin landscape. Genome Biol.18: 88.
Xiao, J., Lee, U.S., and Wagner, D. (2016). Tug of war: adding and removing histone lysine methylation in Arabidopsis. Curr. Opin. Plant Biol. 34: 41–53.
Xiao, J., and Wagner, D. (2015). Polycomb repression in the regulation of growth and development in Arabidopsis. Curr. Opin. Plant Biol. 23:15–24.
Xiao, J., Li, C., Xu, S., Xing, L., Xu, Y. and Chong, K. (2015). AtJAC1 Regulates Nuclear Accumulation of GRP7, influencing RNA processing of FLC antisense transcripts and flowering time in Arabidopsis. Plant Physiol. 169: 2102–2117.
Xiao, J., Xu, S., Li, C., Xu, Y., Xing, L., Niu, Y., Huan, Q., Tang, Y., Zhao, C., Wagner, D., Gao, C., and Chong K. (2014). O-GlcNAc-mediated interaction between VER2 and TaGRP2 elicits TaVRN1 mRNA accumulation during vernalization in winter wheat. Nature Commun. 5:4572.
Selected Registered Patents
Jun Xiao, Hao Wang, Dongzhi Wang, Long Zhao, Qi Zheng, Zhixi Tian, Fei Lu, Xuelei Lin. Transcription factor TaMYB7A-CS for enhancing wheat spike germination resistance and drought tolerance and its application. Patent No. ZL202410405964.8 (2024. 06. 11), China
Jun Xiao, Hao Wang, Xuelei Lin, Dongzhi Wang, Yuxin Zhou. Wheat-specific transposon H2A.1 and its application. Patent No. ZL202410392770.9 (2024. 06. 07), China
Institute of Genetics and Developmental Biology (CAS), Yujing Lin, Jun Xiao, Xuelei Lin, Xuemei Liu. TAC-HiC Capture Open Loop software V1.0. Software copyright No. 2024SR0775045 (2024. 06. 06), China
For Upcoming Special lssue:
Scan the QR code to view JIPB on WeChat
