张照亮


性别：
男
专业名称：
茶学

研究方向：
茶叶安神及鲜爽味呈味物质代谢

技术职务：
教授

行政职务：


办公电话：


办公传真：


E-mail：
zhlzhangahau.edu.cn

实验室主页：


通讯地址：


邮政编码：

张照亮，男，博士，教授，博士生导师。入选国家高层次人才引进计划青年项目、安徽省高层次人才引进计划、安徽省****。《茶业通报》编委，《南京林业大学》青年编辑委员会委员。2010年获中科院遗传与发育生物学研究所博士学位。2010年到2011年，在美国明尼苏达大学植物生物学系从事博士后研究，2011年到2016年，在美国加州大学戴维斯分校植物生物学系从事博士后研究。2016年到安徽农业大学工作。在NatureGenetics、NaturePlants、PlantCell、PlantJournal、EMBOJournal等国际主流学术期刊上发表论文多篇。目前主持国家自然科学基金面上项目、安徽省重大科技专项、国家海外高层次人才引进计划项目、安徽高校领军骨干人才团队项目、安徽省平台引进高层次人才奖补项目及安徽农业大学高层次人才引进计划项目等。目前的研究方向是茶叶安神及鲜爽味呈味物质代谢调控、以及环境因素影响茶叶品质形成的遗传机理。

　主讲课程：

1. 研究生课程《英文科技论文写作》
2. 研究生课程《高级植物生理学》
3. 研究生课程《茶树生物技术》

　科研情况：

1.主要研究方向
（1）茶叶安神及鲜爽味呈味物质代谢调控
（2）夏秋茶品质调控的表观遗传理论基础
（3）茶树养分吸收转运以及高效利用机理
2.主持科研项目
（1）国家自然科学基金面上项目，茶树CsTHS1介导的茶氨酸胞内运输动态调控新梢中茶氨酸积累的机制研究，2021/01-2024/12；
（2）国家高层次人才引进计划青年项目，2018；
（3）国家自然科学基金面上项目，氨基酸转运蛋白CsLAT5介导茶树体内茶氨酸长距离运输的分子机制研究，
2018/01-2021/12；
（4）安徽省重大科技专项，安徽茶园肥力提升与化肥减施增效关键技术研发与示范，2017/12-2019/12；
（5）安徽省普通高校领军骨干人才团队项目（“知名专家”****），2017；
（6）安徽农业大学高层次人才引进项目， 茶树维管束系统调控茶氨酸合成和转运机制研究，2016/07-
2021/07。

　论文论著：

Yang T,Lu X,Wang Y,Xie Y,Ma J,Cheng X,Xia E,Wan X,Zhang Z. (2020). HAK/KUP/KT family potassium transporter genes are involved in potassium deficiency and stress responses in tea plants (Camellia sinensis L.): expression and functional analysis. BMC Genomics, 21(1):556.
Xia E, Tong W, Hou Y, An Y, Chen L, Wu Q, Liu Y, Yu J, Li F, Li R, Li P, Zhao H, Ge R, Huang J, Mallano AI,Zhang Y, Liu S, Deng W, Song C,Zhang Z, Zhao J, Wei S,Zhang Z, Xia T, Wei C, Wan X. (2020) The Reference Genome of Tea Plant and Resequencing of 81 Diverse Accessions Provide Insights into Its Genome Evolution and Adaptation. Mol Plant. 2020 Apr 27:S1674-2052(20)30134-9.
Yang T, Li H, Tai Y, Dong C, Cheng X, Xia E, Chen Z, Li F, Wan X, Zhang Z (2020). Transcriptional regulation of amino acid metabolism in response to nitrogen deficiency and nitrogen forms in tea plant root (Camellia sinensis L.). Sci Rep 10(1):6868
Dong C, Li F, Yang T, Feng L, Zhang S, Li F, Li W, Xu G, Bao S, Wan X, Zhang, Z (2020). Theanine transporters identified in tea plants (Camellia sinensis L.). Plant J 101(1):57-70.
Li F, Dong C, Yang T, Ma J, Zhang S, Wei C, Wan X, Zhang Z (2019). Seasonal theanine accumulation and related gene expression in the roots and leaf buds of tea plants (Camellia sinensis L.). Front Plant Sci 10:1397.
Li F, Li H, Dong C, Yang T, Zhang S, Bao S, Wan X, Zhang Z (2020). Theanine transporters are involved in nitrogen deficiency response in tea plant (Camellia sinensis L.). Plant Signal Behav **.
Zhang S, Chen Y, He X, Du J, Zhang R, Ma Y, Hu X, Zhang Z, Chen Q, Wan X (2020) . Identification ofMYBtranscription factors regulating theanine biosynthesis in tea plant using Omics-based gene coexpression analysis. J Agric Food Chem 68(3):918-926.
Sun J,Chang M,Li H,Zhang Z,Chen Q,Chen Y,Yao Y,Pan A,Shi C,Wang C,Zhao J,Wan X (2019). Endophytic bacteria as contributors to theanine production inCamellia sinensis.J Agric Food Chem67(38):10685-10693.
Feng L, Yang, T,Zhang Z, Li F, Chen Q, Sun J, Shi C, Deng W, Tao M, Tai Y, Yang H, Cao Q, Wan X (2018). Identification and characterization of cationic amino acid transporters (cats) in tea plant (Camellia sinensis).Plant Growth Regul84:57-69.
Zhang Z,Zheng Y,Ham BK,Zhang S,Fei Z,Lucas WJ (2019). Plant lncRNAs are enriched in and move systemically through the phloem in response to phosphate deficiency.J Integr Plant Biol 61:492-508.
LiuG, Han Z,Feng L,Gao, L,Gao M,GruberMY,Zhang Z, Xia T, Wan, X, Wei S (2017). Metabolic flux redirection and transcriptomic reprogramming in the albino tea cultivar ‘Yu-Jin-Xiang’ with an emphasis on catechin production.Sci Rep 7:45062.
Zhaoliang Zhang, Yi Zheng, Byung Kool Ham, Jieyu Chen, Akiko Yoshida, Leon V. Kochian, Zhangjun Fei and William J. Lucas. Plant vasculature-mediated signaling involved in early phosphate stress response.Nature Plants,2016, 2: 16033.
Zhaoliang Zhang, Byung Kook Ham and William J. Lucas. Systemic Silencing: Mobile sRNA stabilizes genomes.Nature Plants，2016,2, 16020.
Zhaoliang Zhang,Shupei Zhang, Ya Zhang, Xin Wang, Dan Li, Qiuling Li, Minghui Yue, Qun Li, Yu’e Zhang, Yunyuan Xu, Yongbiao Xue, Kang Chong and Shilai Bao.Arabidopsisfloral initiator SKB1 confers high salt tolerance by regulating transcription and pre-mRNA splicing through altering histone H4R3 and small nuclear ribonucleoprotein LSM4 methylation.Plant Cell,2011, 23(1): 396-411.
Huajie Fan#,Zhaoliang Zhang#, Ning Wang, Yan Cui, Hua Sun, Yi Liu, Huilan Wu, Shusong Zheng, Shilai Bao, and Hong-Qing Ling. SKB1/PRMT5‐mediated histone H4R3 dimethylation of Ib subgroupbHLHgenes negatively regulates iron homeostasis inArabidopsis thaliana.Plant Journal,2014, 77(2): 209–221. (#共同第一作者)
Zhaoliang Zhang, Hong Liao and William J. Lucas. Molecular mechanisms underlying phosphate sensing, signaling, and adaptation in plants.Journal of Integrative Plant Biology, 2014, 56(3): 192–220.
Ziv Spiegelman, Byung-Kook Ham,Zhaoliang Zhang, Ted W. Toal, Siobhan M. Brady, Yi Zheng, Zhangjun Fei, William J. Lucas and Shmuel Wolf. A tomato phloem-mobile protein regulates the shoot-to-root ratio by mediating the auxin response in distant organs.Plant Journal,2015, 83(5): 853–863.
Minghui Yue, Qiuling Li, Ya Zhang, Yan Zhao,Zhaoliang Zhangand Shilai Bao. Histone H4R3 methylation catalyzed by SKB1/PRMT5 is required for maintaining shoot apical meristem.PLoS ONE, 2013,8, e83258.
Shaogui Guo, Jianguo Zhang, Honghe Sun, Jerome Salse, William J Lucas, Haiying Zhang, Yi Zheng, Linyong Mao, Yi Ren, Zhiwen Wang, Jiumeng Min, Xiaosen Guo, Florent Murat, Byung-Kook Ham,Zhaoliang Zhang, Shan Gao,et al.The draft genome of watermelon (Citrullus lanatus) and resequencing of 20 diverse accessions.Nature Genetics, 2013,45(1): 51-58.
Xin Wang, Ya Zhang, Qibing Ma,Zhaoliang Zhang, Yongbiao Xue, Shilai Bao and Kang Chong. SKB1-mediated symmetric dimethylation of histone H4R3 controls flowering time inArabidopsis.EMBO Journal, 2007, 26(7): 1934-1941.