刘树伟 教授

电子邮箱：liushuwei@126.com; lshuwei@sdu.edu.cn

个人简介

刘树伟，男，1981.02出生，山东大学生命科学学院教授，博士生导师。国家优青，山东省杰青，山大杰青。中国生物化学与分子生物学会农业分会理事，山东植物生理学会理事。研究领域为小麦遗传育种的基础研究，主要从事小麦与长穗偃麦草体细胞杂交渐渗导致的遗传与表观遗传变异以及小麦耐盐碱、优质、高产等相关性状的功能基因发掘及分子机制研究。发表第一或通讯作者SCI论文近30篇，其中包括Molecular Plant、Plant Cell、Plant Biotechnology Journal、Plant Journal、Journal of Experimental Botany、Science of the Total Environment、Genetics及Plant & Cell Physiology等著名国际学术期刊。先后主持国家自然科学基金项目5项，国家重点研发计划、山东省自然科学基金重大基础研究项目、山东省自然科学基金杰出青年基金项目、山东省农业良种工程项目2项、山东省高等学校“青创科技计划”创新团队项目等。

教育背景

(1) 2002-9至2007-6, 山东大学, 细胞生物学, 博士

(2) 1998-9至2002-7, 山东大学, 生物科学, 学士

科研与学术工作经历

(1) 2017-8至现在, 山东大学, 生命科学学院, 教授

(2) 2011-1至2017-7, 山东大学, 生命科学学院, 副教授

(3) 2010-3至2010-12, 山东大学, 生命科学学院, 讲师

(4) 2009-2至2010-2，普渡大学，农学院，博士后

(5) 2007-10至2009-2, 山东大学，化学与化工学院, 博士后

研究方向

1.小麦遗传与表观遗传变异研究

2.小麦耐逆功能基因发掘及分子机制研究

主持项目

1. 作物耐盐碱高效高产基因资源挖掘与利用 (2022YFD1201700) 70万元 国家重点研发计划 2023.1-2027.12

2.小麦全基因组育种专用芯片研发与应用 (2022LZGC002) 70万元 山东省农业良种工程项目 2022.11-2025.12

3.TaSRO1调控盐胁迫下小麦种子萌发机制研究（32171935）58万元 国家自然科学基金面上项目 2022.1-2025.12

4.小麦遗传育种基础研究（ZR2020JQ14）100万元 山东省自然科学基金杰出青年基金项目 2021.1-2023.12

5.重要农作物耐盐碱关键基因及调控机制研究 （2020KJE002）20万元 山东省高等学校“青创科技计划”创新团队 2020.6-2023.6

6.小麦高产、耐逆关键基因发掘及作用机制研究 （ZR2019ZD16）260万元 山东省自然科学基金重大基础研究项目 2019.12-2024.12

7.小麦重要功能基因的作用机理与网络解析（2019LZGC016）70万元 山东省农业良种工程项目 2019.08-2022.08

8.小麦碱胁迫应答基因TaIAA10耐碱机制研究（31872864）60万元 国家自然科学基金面上项目 2019.01-2022.12

9.小麦遗传育种的基础研究（31722038）130万元 国家自然科学基金优秀青年基金项目 2018.01-2020.12

10.小麦渐渗系SR4耐碱分子机制研究（2016WLJH39）50万 山东大学青年学者未来计划2015.07-2020.06

11.小麦体细胞杂种渐渗系的遗传分析及外源DNA渐渗引起的遗传和表观遗传变异研究（31271707）83万 国家自然科学基金面上项目  2013.1-2016.12

12.小麦渐渗系cDNA序列的遗传及表观遗传变异与抗逆新基因形成的研究（31000568）18万 国家自然科学基金青年基金项目2011.1-2013.12

发表论文

1. Cui MH，Li YP, Li JH, Yin FX, Chen XY, Qin LM, Wei L, Xia GM, Liu SW*. 2023. Ca²⁺-dependent TaCCD1 cooperates with TaSAUR215 to enhance plasma membrane H⁺-ATPase activity and alkali stress tolerance by inhibiting PP2C-mediated dephosphorylation of TaHA2 in wheat. Molecular Plant doi: https://doi.org/10.1016/j.molp.2023.01.010

2. Wang M, Wang M, Zhao M, Wang MC, Liu SP, Tian YC, Moon B, Liang CC, Li CL, Shi WM, Bai MY, Liu SW, Zhang W, Hwang I, Xia GM*. 2022. TaSRO1 plays a dual role in suppressing TaSIP1 to fine tune mitochondrial retrograde signaling and enhance salinity stress tolerance. New Phytologist 236(2):495-511.

2. Wei L, Zhang R, Zhang M, Xia GM, Liu SW*. 2022. Functional analysis of long non-coding RNAs involved in alkaline stress responses in wheat. Journal of Experimental Botany 73(16):5698-5714.

3. Cui MH, Chen XY, Yin FX, Xia GM, Yi Y, Zhang YB, Liu SW*, Li F*. 2022. Hybridization affects the structure and function of root microbiome by altering gene expression in roots of wheat introgression line under saline-alkali stress. Science of the Total Environment 835:155467 DOI: 10.1016/j.scitotenv.2022.155467.

4. Qin LM, Sun L, Wei L, Yuan JR, Kong FF, Zhang Y, Miao X, Xia GM, Liu SW*. 2021. Maize SRO1e represses anthocyanin synthesis via regulating MBW complex in response to abiotic stress. The Plant Journal 105(4):1010-1025.

5. Wang M, Yuan JR, Qin LM, Shi WM^*, Xia GM, Liu SW^*. 2020. TaCYP81D5, one member in a wheat cytochrome P450 gene cluster, confers salinity tolerance via reactive oxygen species scavenging. Plant Biotechnology Journal 18:791-804.

6. Wang SB, Xu S, Chao S, Sun Q, Liu SW*, Xia GM*. 2019. A genome-wide association study of highly heritable agronomic traits in durum wheat. Frontiers in Plant Science 10:919.

7. Han HN, Wang Q, Wei L, Liang Y, Dai JL, Xia GM*, Liu SW*. 2018. Small RNA and degradome sequencing used to elucidate the basis of tolerance to salinity and alkalinity in wheat. BMC Plant Biology 18:195.

8. Meng C, Quan TY, Li ZY, Cui KL, Yan L, Liang Y, Dai JL, Xia GM, Liu SW*. 2017. Transcriptome profiling reveals the genetic basis of alkalinity tolerance in wheat. BMC Genomics 18:24.

9. Liu SW, Li F, Kong LN, Sun Y, Qin LM, Chen SY, Cui HF, Huang YH, Xia GM*. 2015. Genetic and epigenetic changes in somatic hybrid introgression lines between wheat and tall wheatgrass. Genetics 199(4):1035-1045.

10. Liu N, Liu SW, Gan YD, Zhang QH, Wang XW, Liu SY, Dai JL*. 2017. Evaluation of mercury resistance and accumulation characteristics in wheat using a modified membership function. Ecological Indicators 78:292-300

11. Liu SW, Li F, Kong LN, Sun Y, Qin LM, Chen SY, Cui HF, Huang YH, Xia GM*. 2015. Genetic and epigenetic changes in somatic hybrid introgression lines between wheat and tall wheatgrass. Genetics 199(4):1035-1045.

12. Qin LM, Liang Y, Yang DZ, Sun L, Xia GM, Liu SW*. 2015. Novel LMW glutenin subunit genes from wild emmer wheat (Triticum turgidum ssp. dicoccoides) in relation to Glu-3 evolution. Dev Genes Evol 225(1):31-37.

13. Qin LM, Liang Y, Yang DZ, Xia GM, Liu SW*. 2015. Characterization of low molecular weight glutenin subunit genes from Pseudoroegneria spicata and Pd. strigosa. J Appl Genet 56(1):27-35.

14. Liu ST, Liu SW (co-first author), Wang M (co-first author), Wei TD, Meng C, Wang M, Xia GM*. 2014. A wheat SIMILAR TO RCD-ONE gene enhances seedling growth and abiotic stress resistance by modulating redox homeostasis and maintaining genomic integrity. Plant Cell 26(1):164-180.

15. Wang M, Qin LM, Xie C, Li W, Yuan JR, Kong LN, Yu WL, Xia GM, Liu SW*. 2014. Induced and constitutive DNA methylation in a salinity tolerant wheat introgression line. Plant Cell Physiol 55(7): 1354-1365.

16. Liu SW, Xia GM*. 2014. The place of asymmetric somatic hybridization in wheat breeding. Plant Cell Rep 33(4):595-603.

17. Wang SB, Han HN, Liang Y, Sun L, Xia GM, Liu SW*. 2014. Isolation and characterization of novel Glu-St1 alleles from Pseudoroegneria spicata and Pd. strigosa. Genetica 142(5): 433-440.

18. Kong LN, Liang Y, Qin LM, Sun L, Xia GM, Liu SW*. 2014. Characterization of high molecular weight glutenin subunit genes from the Ns genome of Psathyrostachys juncea. Dev Genes Evol 224(4):189-196.

19. Zhu XL, Liu SW (co-first author), Meng C (co-first author), Qin LM, Kong LN, Xia GM*. 2013. WRKY transcription factors in wheat and their induction by biotic and abiotic stress. Plant Mol Biol Rep 31(5):1053-1067.

20. Yu XQ, Bai GH, Liu SW, Luo N, Wang Y, Richmond DS, Pijut PM, Jackson SA, Yu JM, Jiang YW*. 2013. Association of candidate genes with drought tolerance traits in diverse perennial ryegrass accessions. J Exp Bot 64(6):1537-1551.

21. Dong W, Ai XH, Xu F, Quan TY, Liu SW*, Xia GM*. 2012. Isolation and characterization of a bread wheat salinity responsive ERF transcription factor. Gene 511(1):38-45.

21. Yan L, Liu SW (co-first author), Zhao SY, Kang YL, Wang DX, Gu TW, Xin ZG, Xia GM*, Huang YH*. 2012. The Identification of differentially expressed genes in sorghum (Sorghum bicolor L.) brown midrib mutants. Physiol Plantarum 146(4):375-387.

22. Li F, Jiang XL, Wei YF, Xia GM, Liu SW*. 2012. Characterization of a novel type of HMW subunit of glutenin from Australopyrum retrofractum. Gene 492(1):67-70.

23. Liu ST, Zhu XL, Tan Y, Liu SW*. 2012. Isolation and characterization of Glu-1 genes from the St genome of Pseudoroegneria libanotica. Gene 499(1):154-159.

24. Yu XQ, Luo N, Yan JP, Tang JC, Liu SW, Jiang YW*. 2012. Differential growth response and carbohydrate metabolism of global collection of perennial ryegrass accessions to submergence and recovery following de-submergence. J Plant Physiol 169(11):1040-1049.

25. Liu SW, Xia GM*. 2011. Genetic variation of high molecular weight glutenin subunits associated with processing quality improvements in wheat. Plant Physiol J 47(6):531-539. (Invited Review)

26. Yu XQ, Bai GH, Luo N, Chen ZB, Liu SW, Liu JX，Warnke SE, Jiang YW*. 2011. Association of simple sequence repeat (SSR) markers with submergence tolerance in diverse populations of perennial ryegrass. Plant Sci 180(2):391-398.

27. Liu SW, Zhao F, Gao X, Chen FG, Xia GM*. 2010. A novel high molecular weight glutenin subunit from Australopyrum retrofractum. Amino Acids 39(2):385-392.

28. Liu SW, Jiang YW*. 2010. Identification of differentially expressed genes under drought stress in perennial ryegrass. Physiol Plantarum 139(4):375-387.

29. Gao X, Liu SW (co-first author), Sun Q, Xia GM*. 2010. High frequency of HMW-GS sequence variation through somatic hybridization between Agropyron elongatum and common wheat. Planta 231(2):245-250.

30. Chen FG, Liu SW (co-first author), Zhao F (co-first author), Xu CH, Xia GM*. 2010. Molecular characterisation of the low-molecular weight glutenin subunit genes of tall wheatgrass and functional properties of one clone Ee34. Amino Acids 38(4):991-999.

31. Liu H, Liu SW (co-first author), Xia GM*. 2009. Generation of high frequency of novel alleles of the high molecular weight glutenin in somatic hybridization between bread wheat and tall wheatgrass. Theor Appl Genet 118(6):1193-1198.

32. Chen FG, Zhao F, Liu SW, Xia GM*. 2009. The γ-gliadin gene content of a derivative from a somatic hybrid between bread wheat and tall wheatgrass. Mol Breeding 24(2):117-126.

33. Liu SW, Gao X, Xia GM*. 2008. Characterizing HMW-GS alleles of decaploid Agropyron elongatum in relation to evolution and wheat breeding. Theor Appl Genet 116(3):325-334.

34. Liu SW, Gao X, Xia GM*. 2008. Characterization of the genes coding for the high molecular weight glutenin subunits in Lophopyrum elongatum. Hereditas 145(1):48-57.

35. Liu SW, Zhao SY, Chen FG, Xia GM*. 2007. Generation of novel high quality HMW-GS genes in two introgression lines of Triticum aestivum/Agropyron elongatum. BMC Evol Biol 7:76.

36. Chen SY, Liu SW, Xu CH, Chen YZ, Xia GM*. 2004. Heredity of chloroplast and nuclear genomes of asymmetric somatic hybrid lines between wheat and couch grass. Acta Botanica Sinica 46 (1): 110-115.