代表性研究论文 [1]Meng, F., Zeng, G., Deng, Z. , Qin X., Shen X.*, Hu Y.* 2025. Histone Readers in Sorghum: Identification, Evolution, and Characterization. Plant Mol. Biol. Rep. 43: 2100-2118. [2]Yuan F., He C., Gong X., Zeng G., Qin X., Deng Z., Shen X.*, Hu Y.* 2025. H3K36me3 regulates subsets of photosynthesis genes in Sorghum bicolor potentially by counteracting H3K27me3 or H2A.Z. Plant Physiol Biochem. 223:109831. [3]Hu Y.* , He C., Gong X., Xu H., Chen X., Shen Y., Zeng G., Qin X., Deng Z., He Z., Shen X.* 2025. Epigenomic studies in sorghum reveal differential enrichment of multiple histone marks at clade A PP2C genes in response to drought. New crops. [4]Chen X., He C., Xu H., Zeng G., Huang Q., Deng Z., Qin X., Shen X.*, Hu Y.* 2024. Characterization of the SWI/SNF complex and nucleosome organization in sorghum. Front Plant Sci. 15:1430467. [5]Xu H., Chen X., Zeng G., Qin X., Deng Z., Cheng W., Shen X.*, Hu Y.* 2024. Unveiling common and specific features of the COMPASS-like complex in sorghum. Plant Physiol Biochem. 211:108709. [6]Zhang M., Li S., Zeng G., Shen X.*, Hu Y.* 2023. Exploring the Composition and Catalytic Specificity of Sorghum Histone Acetyltransferase Complexes. Plant Mol. Biol. Rep. 42: 326-340. [7]Xu Y., Miao Y., Cai B., Yi Q., Tian X., Wang Q., Ma D., Luo Q.*, Tan F.*, Hu Y.* A histone deacetylase inhibitor enhances rice immunity by derepressing the expression of defense-related genes. 2022. Front Plant Sci. 13:1041095. [8]Xu Y., Miao Y., Tian X., Wang Q., Hu Y.*, Luo Q.* 2022. Transcriptomic and Epigenomic Assessment Reveals Epigenetic Regulation of WRKY Genes in Response to Magnaporthe oryzae Infection in Rice. Curr Genomics. 23(3):182-194. [9]Hu Y.*, Chen X., Shen X.* 2022. Regulatory network established by transcription factors transmits drought stress signals in plant. Stress Biol. 2(1):26. [10]Hu Y.*, Chen X., Zhou C., He Z., Shen X.* 2022. Genome-wide identification of chromatin regulators in Sorghum bicolor. 3 Biotech. 12(5):117. [11]Lu Y., Tan F., Zhao Y., Chen X., Zhou S., Hu Y.*, Zhou D.X.*.2020. A Chromodomain -Helicase-DNA-like Binding Factor Functions in Chromatin Modification and Gene Regulation. Plant Physiol. 183(3):1035-1046.(*Co-Senior author.) [12]Hu Y.*, Lai Y., Chen X., Zhou D.X., Zhao Y. 2020. Distribution pattern of histone marks potentially determines their roles in transcription and RNA processing in rice. J Plant Physiol. 249:153167. [13]Hu Y., Lu Y., Zhao Y., Zhou D.X.* 2019. Histone acetylation dynamics integrates metabolic activity to regulate plant response to stress. Front Plant Sci. 10:1236. [14]Hu Y.*, Lai Y., Fan S., Liu B. 2018. Regulation of Phytohormone Biosynthesis Genes by Polycomb-Mediated Histone H3 Lysine 27 Trimethylation in Arabidopsis. Journal of Plant Sciences. 6: 117-133. [15]Hu Y.*, Lai Y. 2015. Identification and expression analysis of rice histone genes. Plant Physiol Biochem. 86:55-65. [16]Hu Y.*, Lai Y., Zhu D. 2014. Transcription regulation by CHD proteins to control plant development. Front Plant Sci. 5: 223. [17]Hu Y.*, Zhu N., Wang X., Yi Q., Zhu D., Lai Y., Zhao Y. *2013. Analysis of rice Snf2 family proteins and their potential roles in epigenetic regulation. Plant Physiol Biochem.70:33-42. [18]Hu Y., Liu D., Zhong X., Zhang C., Zhang Q*, Zhou D.X.* 2012. CHD3 protein recognizes and regulates methylated histone H3 lysines 4 and 27 over a subset of targets in the rice genome. Proc Natl Acad Sci U S A. 109(15):5773-8. [19]Hu Y., Shen Y., Conde e Silva N, Zhou D.X*. 2011. The Role of Histone Methylation and H2A.Z Occupancy during Rapid Activation of Ethylene Responsive Genes. PLoS ONE 6(11): e28224. [20]Hu Y., Qin F., Huang L., Sun Q., Li C., Zhao Y., Zhou D.X.* 2009. Rice histone deacetylase genes display specific expression patterns and developmental functions. Biochem Biophys Res Commun. 388: 266-271. |
