王留强

主持科研项目（课题）

（1）科技创新2030—重大项目子课题“杨树抗逆境胁迫的动态表型基因组选择”（2023ZD040750103），2023/12-2025/12，主持

（2）科技创新2030—重大项目课题“西部地区抗旱杨树新品种设计与培育”（2023ZD0405602），2023/09-2025/12，主持

（3）中央级公益性科研院所基本科研业务费专项资金青年拔尖人才培养项目院杰出青年配套“树木根系可塑性与逆境适应的分子调控机制”（CAFYBB2023QB002），2023/12-2027/11，主持

（4）中央级公益性科研院所基本科研业务费专项资金青年拔尖人才培养项目青年协同创新研究组“杨树根木质化应答离子胁迫的分子机制”（CAFYBB2022QC001），2022/07-2025/06，主持

（5）国家自然科学基金面上项目“基于精细取样和时空转录组等分析杨树维管形成层周期性活动规律和调控机制”（31971620），2020/01-2023/12，主持

（6）中央级公益性科研院所基本科研业务费专项资金院优秀青年创新人才项目“柽柳ThHSF2基因抗旱、耐高温调控机理研究”（CAFYBB2018QB002），2018/01-2020/12，主持

（7）国家重点研发计划专项子课题“人工林杨树和楸树木材典型品质性状相关基因挖掘和功能分析研究”（2017YFD060020102），2017/01-2020/12，主持

（8）国家自然科学基金青年科学基金项目“PtrFBL7基因在杨树次生生长中的功能研究”（31600539），2017/01-2019/12，主持 

 所获奖励

（1）王留强，2021年度林业所青年优秀论文一等奖， 2021.12

（2）王留强，2019年度林业所青年优秀论文三等奖，2019.12

（3）王留强，2018年度林业所青年优秀论文一等奖，2018.12

（4）王留强，中国林科院杰出青年，中国林业科学研究院，第六届“中国林科院杰出青年”，2018.11

（5）王留强，中国林科院第二批优青创新人才，2017.12

（6）王留强，中国林学会、梁希科技教育基金委员会，第七届梁希青年论文奖二等奖，2018.06

（7）王留强，中国林学会、梁希科技教育基金委员会，第六届梁希青年论文奖三等奖，2016.09

（8）王留强，国家林业局科学技术委员会、中国林学会，第五届梁希青年论文奖三等奖，2014.08

 专利

（1）王留强, 朱航勇, 王超, 孙婷婷. 一种基于离子置换与耐盐植物经营改良盐碱地的治理方法. 授权公告日: 2024.10.18; 授权公告号: CN 116195396 B

 论文专著

（1）孟佳慧, 刘宏超, 武志, 左雯腾, 王留强*. 小叶杨PsWOX11基因对侧根生长发育的影响. 林业科学研究, 2024，37(6): 54-61. 通讯作者

（2）Wen-Teng Zuo^#, Jia-Hui Meng^#, Hong-Chao Liu, Hang-Yong Zhu, Meng-Zhu Lu, Liu-Qiang Wang*. PagWOX11/12a from hybrid poplar enhances drought tolerance by modulating reactive oxygen species. Plant Physiology and Biochemistry, 2024, 211: 108662. 通讯作者

（3）左雯腾, 孟佳慧, 卢孟柱, 王留强*. 银腺杨生长素受体基因PagFBL3对茎生长发育的影响. 林业科学, 2023, 59(11): 59-67. 通讯作者

（4）Rui Liu^#, Shuang-Shuang Wen^#, Ting-Ting Sun^#, Rui Wang, Wen-Teng Zuo, Tao Yang, Chao Wang, Jian-Jun Hu, Meng-Zhu Lu, Liu-Qiang Wang*. PagWOX11/12a positively regulates PagSAUR36 gene that enhances adventitious root development in poplar. Journal of Experimental Botany, 2022, 73(22): 7298-7311. 通讯作者

（5）Shuang-Shuang Wen^#, Xiao-Lan Ge, Rui Wang, Hai-Feng Yang, Yu-E Bai, Ying-Hua Guo, Jin Zhang, Meng-Zhu Lu, Shu-Tang Zhao^#, Liu-Qiang Wang*. An efficient agrobacterium-mediated transformation method for hybrid poplar 84K (Populus alba × P. glandulosa) using calli as explants. International Journal of Molecular Sciences, 2022, 23(4): 2216. 通讯作者

（6）Ting-Ting Sun, Zhi-Hao Su, Rui Wang, Rui Liu, Tao Yang, Wen-Teng Zuo, Shuang-Shuang Wen, Liu-Qiang Wang*. Transcriptome and metabolome analysis reveals the molecular mechanisms of Tamarix taklamakanensis under progressive drought and rehydration treatments. Environmental and Experimental Botany, 2022, 195: 104766. 通讯作者

（7）Yan-Min Wang, Yi-Ming Zhang, Xin Zhang, Xin Zhao, Yu Zhang, Chao Wang, Yu-Cheng Wang*, Liu-Qiang Wang*. Poplar PsnICE1 enhances cold tolerance by binding to different cis-acting elements to improve reactive oxygen species-scavenging capability. Tree Physiology, 2021, 41(12): 2424-2437. 共同通讯

（8）Ting-Ting Sun^#, Chao Wang^#, Rui Liu, Yu Zhang, Yu-Cheng Wang, Liu-Qiang Wang*. ThHSFA1 confers salt stress tolerance through modulation of reactive oxygen species scavenging by directly regulating ThWRKY4. International Journal of Molecular Sciences, 2021, 22(9): 5048. 通讯作者

（9）Rui Wang, Yu Zhang, Chao Wang, Yu-Cheng Wang, Liu-Qiang Wang*. ThNAC12 from Tamarix hispida directly regulates ThPIP2;5 to enhance salt tolerance by modulating reactive oxygen species. Plant Physiology and Biochemistry, 2021, 163: 27-35. 通讯作者

（10）Liu-Qiang Wang, Shuang-Shuang Wen, Rui Wang, Chao Wang, Bei Gao, Meng-Zhu Lu*. PagWOX11/12a activates PagCYP736A12 gene that facilitates salt tolerance in poplar. Plant Biotechnology Journal, 2021, 19(11): 2249-2260. 第1作者

（11）Rui Liu, Rui Wang, Meng-Zhu Lu, Liu-Qiang Wang*. WUSCHEL-related homeobox gene PagWOX11/12a is involved in drought tolerance through modulating reactive oxygen species scavenging in poplar. Plant Signaling & Behavior, 2021, 16(3): 1866312. 通讯作者

（12）Liu-Qiang Wang^#, Zhen Li^#, Shuang-Shuang Wen, Jin-Nan Wang, Shu-Tang Zhao, Meng-Zhu Lu*. WUSCHEL-related homeobox gene PagWOX11/12a responds to drought stress by enhancing root elongation and biomass growth in poplar. Journal of Experimental Botany, 2020, 71(4): 1503-1513. 共同一作

（13）Peilong Wang^#, Liuqiang Wang^#,*, Zhongyuan Liu, Tengqian Zhang, Yuanyuan Wang, Yabo Li, Caiqiu Gao*. Molecular characterization and expression profiles of GRAS genes in response to abiotic stress and hormone treatment in Tamarix hispida. Trees, 2019, 33(1): 213-225. 共同通讯

（14）Huiyan Guo^#, Liuqiang Wang^#, Chuanping Yang, Yiming Zhang, Chunrui Zhang, Chao Wang*. Identification of novel cis-elements bound by BplMYB46 involved in abiotic stress responses and secondary wall deposition. Journal of Integrative Plant Biology, 2018, 60(10): 1000-1014. 共同一作

（15）Liuqiang Wang^#, Xiaoling Zhang^#, Jin Zhang, Wei Fan, Mengzhu Lu, Jianjun Hu*. Proteomic analysis and identification of possible allergenic proteins in mature pollen of Populus tomentosa. International Journal of Molecular Sciences, 2018, 19(1): 250. 共同一作

（16）Liuqiang Wang, Chunrui Zhang, Yanmin Wang, Yucheng Wang, Chuanping Yang, Mengzhu Lu*, Chao Wang*. Tamarix hispida aquaporin ThPIP2;5 confers salt and osmotic stress tolerance to transgenic Tamarix and Arabidopsis. Environmental and Experimental Botany, 2018, 152: 158-166. 第1作者

（17）Liuqiang Wang^#, Zhen Li^#, Chao Wang, Deyin Wang, Yucheng Wang*, Mengzhu Lu*. Overexpression of a peroxiredoxin gene from Tamarix hispida, ThPrx1, confers tolerance to oxidative stress in yeast and Arabidopsis. Journal of Plant Biology, 2017, 60(6): 548-557. 共同一作

（18）Chao Wang^#, Liuqiang Wang^#, Chuanping Yang, Yucheng Wang*. Identification, phylogeny, and transcript profiling of aquaporin genes in response to abiotic stress in Tamarix hispida. Tree Genetics & Genomes, 2017, 13(4): 81. 共同一作

（19）Liuqiang Wang^#, Zhen Li^#, Mengzhu Lu*, Yucheng Wang*. ThNAC13, a NAC transcription factor from Tamarix hispida, confers salt and osmotic stress tolerance to transgenic Tamarix and Arabidopsis. Frontiers in Plant Science, 2017, 8: 635. 共同一作

（20）Liuqiang Wang, Chao Wang, Liping Qin, Ping Hu, Yucheng Wang*. ThERF1 from Tamarix hispida confers decreased tolerance to oxidative and drought stresses and is regulated by a WRKY protein. Journal of Forestry Research, 2016, 27(4): 767-772. 第1作者

（21）Liuqiang Wang^#, Lei Zheng^#, Chunrui Zhang, Yucheng Wang, Mengzhu Lu*, Caiqiu Gao*. ThWRKY4 from Tamarix hispida can form homodimers and heterodimers and is involved in abiotic stress responses. International Journal of Molecular Sciences, 2015, 16(11): 27097-27106. 共同一作

（21）Liuqiang Wang, Chao Wang, Liping Qin, Wenjin Liu, Yucheng Wang*. ThERF1 regulates its target genes via binding to a novel cis-acting element in response to salt stress. Journal of Integrative Plant Biology, 2015, 57(10): 838-847. 第1作者

（22）Xiaoyu Ji^#, Liuqiang Wang^#, Xianguang Nie, Lin He, Dandan Zang, Yujia Liu, Bing Zhang, Yucheng Wang*. A novel method to identify the DNA motifs recognized by a defined transcription factor. Plant Molecular Biology, 2014, 86(4): 367-380. 共同一作

（23）Liuqiang Wang, Liping Qin, Wenjin Liu, Daoyuan Zhang, Yucheng Wang*. A novel ethylene-responsive factor from Tamarix hispida, ThERF1, is a GCC-box- and DRE- motif binding protein that negatively modulates abiotic stress tolerance in Arabidopsis. Physiologia Plantarum, 2014, 152(1): 84-97. 第1作者

（24）Liuqiang Wang, Chao Wang, Deyin Wang, Yucheng Wang*. Molecular characterization and transcript profiling of NAC genes in response to abiotic stress in Tamarix hispida. Tree Genetics & Genomes, 2014, 10(1): 157-171. 第1作者

（25）Liuqiang Wang, Chenxi Xu, Chao Wang, Yucheng Wang*. A eukaryotic translation initiation factor 5A from Tamarix androssowii, TaeIF5A1, can form a homodimer and interact with other proteins. Plant Omics, 2014, 7(6): 468-473. 第1作者

（26）Liuqiang Wang^#, Chenxi Xu^#, Chao Wang, Yucheng Wang*. Characterization of a eukaryotic translation initiation factor 5A homolog from Tamarix androssowii involved in plant abiotic stress tolerance. BMC Plant Biology, 2012, 12: 118. 共同一作

（27）王留强, 班巧英, 贺琳, 王玉成*. 二色补血草LbDREB基因在酵母中的抗逆能力分析. 植物生理学报, 2011, 47(4): 347-350. 第1作者