王玉成

 王玉成 2024-01-13 林木遗传育种教研室 浏览量
 

王玉成,1974年10月生,汉族,博士,教授,博士生导师;PG电子官方网站院长,林学博士学位授权一级学科带头人;全国百篇优秀博士论文作者、辽宁省攀登学者、辽宁省“百千万人才工程”百人层人才,入选中国科学院BR计划、教育部新世纪优秀人才支持计划,先后获得黑龙江省杰出青年基金,新疆维吾尔自治区杰出青年基金。

教育简历:      

2008.2~2009.2 在瑞典皇家理工大学 生物技术系 博士后研究    

2000.9~2005.7 东北林业大学 森林培育学科 获博士学位    

1998.9~2000.7 东北林业大学 林木遗传育种学科 获硕士学位    

1994.9~1998.7 东北林业大学 林学专业 获学士学位      

研究方向:  

林木逆境生理与分子生物学  

授课内容:

遗传学,基因组学

学术荣誉:      

(1) 2019年 辽宁省“百千万人才工程”百层次

(2) 2019年 辽宁省科技创新**人才(攀登学者)

(3) 2017年 中科院优秀百人    

(4)2015年 黑龙江省林木遗传育种**人才梯队后备带头人    

(5)2013年 新疆维吾尔自治区杰出青年基金    

(6)  2012年 入选中国科学院BR计划    

(7)  2011年 获得黑龙江省杰出青年基金    

(8) 2009年 黑龙江省新长征突击手    

(9)2009年 教育部新世纪优秀人才支持计划    

(10)2008年 全国百篇优秀博士论文,名称:柽柳抗逆分子机理研究与相关基因的克隆    

成果获奖:  

(1)2017年,第八届梁希林业科学技术二等奖,名称:柽柳耐镉胁迫分子机制解析及耐镉基因鉴定,排名3;  

(2)2017年,黑龙江省科学技术二等奖,名称:柽柳抗旱、耐盐的分子机制解析,排名2;  

(3)2017年,黑龙江省科学技术一等奖,名称:二色补血草耐盐机制及抗性相关基因功能分析,排名5;  

(4)2008年;黑龙江省科学技术二等奖;名称:星星草耐盐基因克隆及分子机理研究;排名2;  

(5)2007年;第九届林业青年科技奖,获奖人:王玉成;  

(6)2006年;黑龙江省科学技术奖;名称:柽柳耐盐、抗旱基因的分离和功能鉴定;排名3。  

主持课题:    

1. 国家自然科学基金面上项目, 31770704, 白桦BplPCF5转录因子调控高盐胁迫的分子机制,2018.01-2021.12,60万元,在研,主持  

2. 国家自然基金委新疆维吾尔自治区联合基金, U1703233, 荒漠地被耐干藓类植物-水分关系研究:齿肋赤藓干燥-复水过程中重要       录因子分子调控机制,分配经费65万,在研,2018.01-2021.12,子课题主持    

3. 科技部国家重点研发计划项目子课题:2016YFC0501505,子课题:野苹果抗病、虫害相关基因挖掘与利用(项目:天山北坡退化野果林生态保育与健康调控技术;课题:野果林特殊、抗逆遗传资源挖掘与开发利用),2016.06-2020.12,80万元,在研,主持    

4. 国家自然科学基金面上项目,31470663,逆境下ERF转录因子调控基因表达所结合的关键顺式元件及抗逆调控机理研究,2015.01-2018.12,90万元,结题,主持    

5. 新疆维吾尔自治区杰出青年科技人才培养项目,2013711001,柽柳锌指蛋白基因调控高盐胁迫响应的机理,2013.07-2016.07,50万,结题,主持    

6. 国家自然科学基金面上项目,31270703,NAC 基因调控柽柳耐盐分子机理研究,2013.01-2016.12,83万元,结题,主持    

7. 中科院BR计划项目,(无编号),柽柳NAC、MYB等转录因子响应高盐、干旱机理研究,2013/01-2016/12,150万元,结题,主持    

8. 黑龙江省杰出青年基金, JC201102, 柽柳bHLH基因响应高盐胁迫的分子机理, 2012.01-2013.12,20万元,结题,主持    

9. 国家高技术研究发展计划(863计划)项目,2011AA100202,白桦、桉树等分子育种与品质创制,2011.01-2015.12,973万元,结题,主持    

10. 国家自然科学基金,30972387,柽柳ERF基因应答高盐胁迫的分子调控机理,2010.       01-2012.12,30万元,结题,主持    

11. 全国优秀博士学位论文作者专项资金,200973,柽柳响应高盐、干旱胁迫的分子调控机理,2009.01-2013.12,70万元,结题,主持    

12. 教育部新世纪优秀人才计划,NCET-08-0751,柽柳WRKY转录因子的抗逆功能研究,2009.01-2011.12,50万元,结题,主持  

发表论文:(通讯或第一作者SCI论文)      

1. Xu Hongyun, Shi Xinxin, He Lin, Guo Yong, Zang Dandan, Li Hongyan, Zhang Wenhui, Wang Yucheng* (唯一通讯作者). Arabidopsis thaliana Trihelix Transcription factor AST1 mediates salt and osmotic stress tolerance by binding to a novel AGAG-box and some GT motifs. Plant Cell Physiology. 2018. doi: 10.1093/pcp/pcy032.    

2. He L, Xu J, Wang Y, Yang K.Transcription Factor ANAC074 Binds to NRS1, NRS2, or MybSt1 Element in Addition to the NACRS to Regulate Gene Expression. Int J Mol Sci. 2018 Oct 21;19(10). pii: E3271. doi: 10.3390/ijms19103271.  

3. Zang D, Wang L, Zhang Y, Zhao H, Wang Y* (唯一通讯作者). ThDof1.4 and ThZFP1 constitute a transcriptional regulatory cascade involved in salt or osmotic stress in Tamarix hispida. Plant Mol Biol. 2017 Jul;94(4-5):495-507.  

4. Xu H, Shi X, Wang Z, Gao C, Wang C, Wang Y* (唯一通讯作者). Transcription factor ThWRKY4 binds to a novel WLS motif and a RAV1A element in addition to the W-box to regulate gene expression. Plant Sci. 2017;261:38-49.  

5. He L, Shi XX, Wang YM, Guo Y, Yang KJ, Wang YC* (唯一通讯作者). Arabidopsis ANAC069 binds to C[A/G]CG[T/G] sequences to negatively regulate salt and osmotic stress tolerance. Plant Mol Biol. 2017;93(4-5):369-387.  

6. Wang L, Li Z, Lu M, Wang Y* (唯一通讯作者). ThNAC13, a NAC Transcription Factor from Tamarix hispida, Confers Salt and Osmotic Stress Tolerance to Transgenic Tamarix and Arabidopsis. Front Plant Sci. 2017;8:635.  

7. Zang D, Li H, Xu H, Zhang W, Zhang Y, Shi X, Wang Y* (唯一通讯作者). An Arabidopsis Zinc Finger Protein Increases Abiotic Stress Tolerance by Regulating Sodium and Potassium Homeostasis, Reactive Oxygen Species Scavenging and Osmotic Potential.  Front Plant Sci. 2016;7:1272.  

8. Zhang W, Yang G, Mu D, Li H, Zang D, Xu H, Zou X, Wang Y* (唯一通讯作者). An Ethylene-responsive Factor BpERF11 Negatively Modulates Salt and Osmotic Tolerance in Betula platyphylla. Sci Rep. 2016;6:23085.  

9. Meiheriguli Mijiti, Yiming Zhang, Chunrui Zhang, Yucheng Wang* (唯一通讯作者). Physiological and molecular esponses of Betula platyphylla Suk to salt stress. Trees, 2017, 31(5):1653–1665  

10. 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, 13:81  

11. Ji XY, Nie XG, Liu YJ, Zheng L, Zhao HM, Zhang B, Huo L, Wang YC* (唯一通讯作者). A bHLH gene from Tamarix hispida improves abiotic stress tolerance by enhancing osmotic potential and decreasing reactive oxygen species accumulation. Tree Physiol. 2016,36(2):193-207.  

12. Liu YJ, Ji XY, Nie XG, Qu M, Zheng L, Tan ZL, Zhao HM, Huo L, Liu SN, Zhang B, Wang YC* (唯一通讯作者). Arabidopsis AtbHLH112 regulates the expression of genes involved in abiotic stress tolerance by binding to their E-box and GCG-box motifs. New Phytol. 2015;207(3):692-709.  

13. Ji XY, Liu GF, Liu YJ, Nie XG, Zheng L, Wang YC* (唯一通讯作者). The regulatory network of ThbZIP1 in response to abscisic acid treatment. Front Plant Sci. 2015,6:25.  

14. Zang DD, Wang C, Ji XY, Wang YC* (唯一通讯作者). Tamarix hispida zinc finger protein ThZFP1 participates in salt and osmotic stress tolerance by increasing proline content and SOD and POD activities. Plant Sci. 2015,235:111-21.  

15. Wang LQ, Wang C, Qin LP, Liu WJ, Wang YC* (唯一通讯作者). ThERF1 regulates its target genes via binding to a novel cis-acting element in response to salt stress. J Integr Plant Biol. 2015,57(10):838-47.  

16. Lin He,Chang Su,Yucheng Wang*,Zhigang Wei* (共同通讯作者). ATDOF5.8 protein is the upstream regulator of ANAC069and is responsive to abiotic stress. Biochimie, 2015;110,17-24  

17. Wang C, Gao CQ, Wang LQ, Zheng L, Yang CP*, Wang YC* (共同通讯作者). Comprehensive transcriptional profiling of NaHCO3-stressed Tamarix hispida roots reveals networks of responsive genes. Plant Mol Biol. 2014,84:145-157  

18. Ji XY, Wang LQ, Nie XG, He L, Zang DD, Liu YJ, Zhang B, Wang YC* (唯一通讯作者). A novel method to identify the DNA motifs recognized by a defined transcription factor. Plant Mol Biol. 2014,86:367-80  

19. XY Ji, L Zheng, Yj Liu, XG Nie, SN Liu, YC Wang* (唯一通讯作者). A Transient Transformation System for the Functional Characterization of Genes Involved in Stress Response. Plant Mol Biol Rep. 2014,32:732-739  

20. Wang LQ, Qin LP, Liu WJ, Zhang DD, Wang YC* (唯一通讯作者). 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. Physiol Plant. 2014,152(1):84-97  

21. LQ Wang, C Wang, DY Wang, YC Wang* (唯一通讯作者). Molecular characterization and transcript profiling of NAC genes in response to abiotic stress in Tamarix hispida. Tree Genetics & Genomes. 2014,10:157-171  

22. Su C, Wang C, He L, Yang CP*, Wang YC* (共同通讯作者). Shotgun Bisulfite Sequencing of the Betula platyphylla Genome Reveals the Tree''''s DNA Methylation Patterning. Int J Mol Sci. 2014;15(12):22874-86.  

23. Nie XG, Ji XY, Liu YJ, Zheng L, Wang YC* (唯一通讯作者). Elucidation of the specific formation of homo- and heterodimeric forms of ThbZIP1 and its role in stress. Int J Mol Sci. 2014,15(6):10005-17.  

24. Zheng L, Liu GF, Meng XN, Liu YJ, Ji XY, Li YB, Nie XG , Wang YC* (唯一通讯作者). A WRKY gene from Tamarix hispida, ThWRKY4, mediates abiotic stress responses by modulating reactive oxygen species and expression of stress-responsive genes. Plant Mol Biol. 2013,82(4-5):303-320  

25. LiuYJ, Ji XY, Zheng L, Nie XG, Wang YC* (唯一通讯作者). Microarray Analysis of Transcriptional Responses to Abscisic Acid and Salt Stress in Arabidopsis thaliana. Int J Mol Sci. 2013,14(5):9979-9998.  

26. Xiaoyu Ji, Guifeng Liu, Yujia Liu, Lei Zheng, Xianguang Nie and Yucheng Wang* (唯一通讯作者). The bZIP protein from Tamarix hispida, ThbZIP1, is ACGT elements binding factor that enhances abiotic stress signaling in transgenic Arabidopsis. BMC Plant Biology, 2013,13:151  

27. Wang LQ, Xu CX, Wang C, Wang YC* (唯一通讯作者). Characterization of a eukaryotic translation initiation factor 5A homolog from Tamarix androssowii involved in plant abiotic stress tolerance. BMC plant biol, 2012,12:118  

28. Yucheng Wang, Caiqiu Gao , Lei Zheng, Guifeng Liu &Jing Jiang , Chuanping Yang*.(并列第一作者) Building an mRNA transcriptome from the shoots of Betula platyphylla by using Solexa technology. Tree Genetics & Genomes, 2012,8:1031-1040  

29. Lei Zheng, Guifeng Liu, Xiangnan Meng, Yanbang Li and Yucheng Wang* (唯一通讯作者). A versatile Agrobacterium-mediated transient gene expression system for herbaceous plants and trees. Biochemical Genetics, 2012;50(9-10):761-9.  

30. Ban Qiaoying, Liu Guifeng, Wang Yucheng* (唯一通讯作者). A DREB gene from Limonium bicolor mediates molecular and physiological responses to copper stress in transgenic tobacco. J Plant Physiol. 2011;168(5):449-58.  

31. Gao CQ, Wang C, Zheng L, Wang LQ, Wang Yucheng* (唯一通讯作者). A LEA Gene Regulates Cadmium Tolerance by Mediating Physiological Responses. Int. J. Mol. Sci 2012, 13(5), 5468-5481  

32. Gao CQ, Zhang KM, Yang GY, Wang YC* (唯一通讯作者). Expression analysis of four peroxiredoxin genes from Tamarix hispida in response to different abiotic stresses and exogenous ABA. Int. J. Mol. Sci. 2012, 13, 3751-3764  

33. Xu CX, Zheng L, Gao CQ, Wang C, Liu GF, Jiang J, Wang YC* (唯一通讯作者). Ovexpression of a Vacuolar H+-ATPase c Subunit Gene Mediates Physiological Changes Leading to Enhanced Salt Tolerance in Transgenic Tobacco. Plant Mol Biol Rep. 2011, 2, 424-430  

34. Zhang Rongshu, Yang Chuanping, Wang Chao, Wei Zhigang, Xia Dean, Wang Yuefen, Liu Guifeng, Wang Yucheng* (唯一通讯作者). Time-course analyses of abscisic acid level and the expression of genes involved in abscisic acid biosynthesis in the leaves of Betula platyphylla. Mol Biol Rep. 2012;39(3):2505-13  

36. Xu CX, Zheng L, Gao CQ, Wang C, Liu GF, Jiang J, Wang YC* (唯一通讯作者). Ovexpression of a Vacuolar H+-ATPase c Subunit Gene Mediates Physiological Changes Leading to Enhanced Salt Tolerance in Transgenic Tobacco. Plant Mol Biol Rep. 2011, 2, 424-430  

37. Zhang RS, Wang YC*, Wang C, Wei ZG, Xia DA, Wang YF, Liu GF, Yang CP* (共同通讯作者). Time-course Analysis of Levels of Indole-3-acetic Acid and Expression of Auxin-responsive GH3 Genes in Betula platyphylla. Plant Mol Biol Rep.2011, 29:898-905,  

38. Li X, Pan Y, Chang B, Wang Y*, Tang Z*(共同通讯作者). NO Promotes Seed Germination and Seedling Growth Under High Salt May Depend on EIN3 Protein in Arabidopsis. Front Plant Sci. 2016 Jan 7;6:1203.  

39. Wang YC., Yang CP, Liu G.F, Jiang J, Wu JH(通讯作者、第一作者). Generation and analysis of expressed sequence tags from a cDNA library of Tamarix androssowii. Plant Sci, 2006, 170(1): 28-36  

40. Wang YC, Jiang J, Zhao X, Liu Gf, Yang CP , Zhan LP(第一作者). A novel LEA gene from Tamarix androssowii confers drought tolerance in transgenic tobacco. Plant Sci, 2006, 170(6): 655-62  

41. Wang YC, Chu YG, Liu GF, Wang MH, Jiang J, Hou YJ, Qu GZ, Yang CP. (第一作者)Identification of expressed sequence tags in an alkali grass (Puccinellia tenuiflora) cDNA library. J Plant Physiol 2007, 164(1):78-89  

42. Wang YC;Yang CP;Liu GF;Zhang GD;Ban QY. (第一作者) Microarray and suppression subtractive hybridization analyses of gene expression in Puccinellia tenuiflora after exposure to NaHCO3. Plant Sci, 2007, 173(3): 309-20  

43. Wang YC; Yang CP; Liu GF; Jiang J. (第一作者) Development of a cDNA microarray to identify gene expression of Puccinellia tenuiflora under saline–alkali stress. Plant Physiol Biochem, 2007, 45(8): 567-76  

44. Wang YC, Ma H, Liu GF, Zhang DW, Ban QY, Zhang GD, Xu CX, Yang CP. (第一作者) Generation and analysis of expressed sequence tags from a NaHCO3-treated Limonium bicolor cDNA library. Plant Physiol Biochem, 2008, 46(11): 977-86  

45. Wang YC, Ma H , Liu GF , Xu CX , Zhang DW , Ban QY . (第一作者) Analysis of gene expression profile of Limonium bicolor under NaHCO3 stress using cDNA Microarray. Plant molecular biology reporter, 2008, 26(3):241-54  

46. Wang C, Yang CP, Gao CQ, Wang YC* (唯一通讯作者). Cloning and expression analysis of 14 lipid transfer protein genes from Tamarix hispida responding to different abiotic stress. Tree Physiology. 2009, 29(12):1607-19.  

47. Li HY*, Wang YC*, Jiang J, Liu GF, Gao CQ, Yang CP. (并列第一作者) Identification of genes responsive to salt stress on Tamarix hispida roots. Gene 2009, 433:65-71  

48. Wang YC, Qu GZ, Li HY, Wu YJ, Wang C, Liu GF, Yang CP. (第一作者) Enhanced salt tolerance of transgenic poplar plants expressing a manganese superoxide dismutase from Tamarix androssowii. Mol Biol Rep. 2010,37:1119–1124  

49. Wang YC, Gao CQ, Liang YN, Wang C, Yang CP, Liu GF* (第一作者) A novel bZIP gene from Tamarix hispida mediates physiological responses to salt stress in tobacco plants. J Plant Physiol. 2010, (167) 222–230  

50. ZH Liu, CP Yang, XT Qi, LL Xiu, YC Wang* (唯一通讯作者). Cloning, Heterologous Expression, and Functional Characterization of a Chitinase Gene, Lbchi32, from Limonium bicolor. Biochem Genet. 2010;48(7-8):669-79.  

51. Zhang RP, Wang YC*, Liu GF, Li HY. * (唯一通讯作者) Cloning and characterizing of a Pathogenesis-related gene (ThPR10) from Tamrix hispida. Acta Biol Cracov Bot. 2010, 52/2: 17–25  

53. Wang, Chao,Zhang, Nan,Gao, Caiqiu,Cui, Zhiyuan,Sun, Dan,Yang, Chuanping(*),Wang, Yucheng (*)(共同通讯作者),Comprehensive Transcriptome Analysis of Developing Xylem Responding to Artificial Bending and Gravitational Stimuli in Betula platyphylla,PLoS One,2014,9(2)  

54. Qin L, Wang L, Guo Y, Li Y, ümüt H, Wang Y* (唯一通讯作者). An ERF transcription factor from Tamarix hispida, ThCRF1, can adjust osmotic potential and reactive oxygen species scavenging capability to improve salt tolerance. Plant Sci. 2017;265:154-166.