Luo W#, Huan Q#, Xu YY, Qian WF, Chong K*, Zhang JY*. 2021. Integrated global analysis reveals a vitamin E-vitamin K1 sub-network, downstream of COLD1, underlying rice chilling tolerance divergence.Cell Reports,36: 109397
Zhang JY, Li XM, Lin HX, Zhang JY, Mao ZW, Chong K*. 2013. A global profiling of uncapped mRNAs under cold stress reveals specific decay patterns and endonucleolytic cleavages in Brachypodium distachyon. Genome Biology, 14: R92*. 2019. Crop improvement through temperature resilience. Annual Review of Plant Biology, 70: 753-780
Huan Q, MaoZW, Chong K*, Zhang JY*. 2018. Global analysis of H3K4me3/H3K27me3 in Brachypodium distachyon reveals VRN3 as critical epigenetic regulation point in vernalization and provides insights into epigenetic memory. New Phytologist, 219: 1373-1387
Chen LP, Zhao Y, Xu SJ, Zhang ZY, Xu YY, Zhang JY, Chong K*. 2018. OsMADS57 together with OsTB1 coordinates transcription of its targetOsWRKY94 and D14 to switch its organogenesis to defense for cold adaptation in rice. New Phytologist, 218: 219-231
Zhang JY, Luo W, Zhao Y, Xu YY, Song SH, Chong K*. 2016. Comparative metabolomic analysis reveals a reactive oxygen species-dominated dynamic model underlying chilling environment adaptation and tolerance in rice. New Phytologist, 211: 1295-1310
Zhang JY, Mao ZW, Chong K*. 2013. A global profiling of uncapped mRNAs under cold stress reveals specific decay patterns and endonucleolytic cleavages in Brachypodium distachyon. Genome Biology, 14: R92