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周春江

发布时间:2017-04-18



周春江

博士

教授

博士研究生导师

河北省教学名师


联系电话:0311-80789671,80787527

电子邮件:cjzhou@hebtu.edu.cn

所属专业:生物化学与分子生物学/遗传学


学习经历:

2013.07-2013.12,美国康奈尔大学农业与金沙6165总站线路检测,国家留学基金委公派访问学者

2005.09-2008.09,美国康奈尔大学农业与金沙6165总站线路检测,博士后

2002.09-2005.08,中国科学院遗传与发育生物学研究所植物基因组学国家重点实验室,遗传学专业,博士研究生毕业,获得理学博士学位

1996.09-1999.07,河北农业大学园艺系,果树学专业,硕士研究生毕业,获得农学硕士学位

1992.09-1996.06,6165金沙官方入口生物系,生物教育专业,本科毕业,获得理学学士学位


参加学术团体或学术任职:

教育部高等学校生物技术、生物工程类专业教学指导委员会委员

中国遗传学会理事

中国植物生理与分子生物学学会植物成熟衰老专业委员会委员

河北省高等学校生物类教学指导委员会秘书长

河北省遗传学会理事长

河北省农作物品种审定委员会小麦专业委员会委员


主要教学、科研、管理服务工作:

教学方面,周春江教授主讲本科生《分子生物学》(双语)、《基因工程》、《生命科学导论》等课程;承担研究生《现代生物学技术进展》和《专业外语》部分教学任务;主持参与多项省级、校级精品课程项目、MOOC项目、双语示范课程项目及教学改革项目等,获国家教学成果二等奖1项,河北省教学成果二等奖1项、三等奖1项;2019年被评为河北省教学名师。

科研方面,周春江教授主要从事植物衰老生物学研究。叶片是光合作用的主要器官,小麦、水稻等主要农作物籽粒产量大约70% 以上来源于生长后期叶片的同化产物。衰老是叶片发育的最后阶段,叶片衰老与籽粒形成和灌浆成熟同步进行,叶片早衰严重影响作物产量和品质,而适度延缓叶片衰老进程是提高作物产量、改善品质的重要手段。周春江教授研究组以拟南芥、小麦、谷子等为研究对象,通过遗传学、生物化学、分子生物学、细胞生物学等研究手段发掘鉴定影响植物衰老的重要功能基因,探究植物衰老的调控机理和分子机制;试图通过植物衰老进程的调控来改善农作物的产量和品质,延长花卉果蔬的保鲜期。

管理服务方面,周春江教授自2009年12月至2018年11月先后担任版权所有 :金沙(6165-VIP百度认证)总站线路检测-官方入口副院长、院长、书记,生物学博士学位授权一级学科负责人等。现任6165金沙官方入口研究生院常务副院长、学位办主任。


主持的主要科研项目:

1. 河北省自然科学基金基础研究重大项目:小麦耐盐碱遗传基础解析与分子设计育种(C2023205050)

2. 中央引导地方科技发展基金项目(基础研究项目):河北省小麦品质产量互作机制研究(216Z2901G)

3. 国家自然科学基金面上项目:小麦NF-Y复合体调控叶片衰老的分子机制(31871616)

4. 国家重点研发计划“杂粮作物抗逆和品种形成与调控”子课题:谷子节律调控与衰老关键基因克隆解析(2018YFD1000706-8)

5. 河北省自然科学基金重点基础研究专项:基于叶片衰老调控的小麦产量品质改良(18966337D)

6. 河北省高校百名优秀创新人才支持计划项目(SLRC2017043)

7. 国家自然科学基金面上项目:WRKY转录因子调控小麦叶片衰老的分子机制研究(31671694)

8. 烟草行业烟草基因资源利用重点实验室开放课题:烟草叶片衰老相关转录因子的鉴定与分析(H16010)

9. 河北省杰出青年科学基金项目:叶片衰老与小麦产量和品质形成关系(C2014205165)  

10. 教育部博士点基金博导类项目:TaSAG16基因调控小麦叶片衰老的分子机理(20131303110002)

11. 河北省教育厅重点项目:NAC类衰老相关基因调控小麦叶片衰老的分子机理(ZD20131006)

12. 河北省自然科学基金面上项目:小麦旗叶衰老相关基因的克隆及在延缓叶片早衰中的功能研究和应用(C2010000386)

13. 国家自然科学基金面上项目:小麦旗叶衰老相关基因的克隆及功能分析(30971767)

14. 教育部博士点基金新教师类项目:有丝分裂原激活蛋白激酶(MAPK)在植物叶片衰老过程中的功能研究(20091303120004)

15. 河北省教育厅重点项目:小麦叶片衰老相关NAC和WRKY基因的研究及应用(ZD200905)

发表的部分研究成果:

1. Tan Q, Zhao M, Gao J, Li K, Zhang M, Li Y, Liu Z, Song Y, Lu X, Zhu Z, Lin R, Yin P, Zhou C*, Wang G*.AtVQ25 promotes SA-related leaf senescence by fine tuning the self-repression of AtWRKY53. Journal of Integrative Plant Biology, 2024, https://doi.org/10.1111/jipb.13659

2. Lu M, Fu B, Meng X, Jia T, Lu X, Yang C, Li K, Yin P, Guo Y, Li W, Chi J, Wang G*, Zhou C*. NtNAC028 and NtNAC080 form heterodimers to regulate jasmonic acid biosynthesis during leaf senescence in Nicotiana tabacum. Journal of Experimental Botany, 2024, 75(8):2351-2371.

3. Li J, Qiao H, Yin P, Liu M, Yang Y, Li K, Yang L, Yang C, Zhao L, Zhou S, Liu Y*, Zhou C*, Wang G*. Increasingly amplified stimulation mediated by TaNAC69-B is crucial for the leaf senescence in wheat. Plant Journal. 2023, 114(3):570-590.

4. Meng X, Lu M, Xia Z, Li H, Liu D, Li K, Yin P, Wang G*, Zhou C*. Wheat VQ motif-containing protein VQ25-A facilitates leaf senescence via the abscisic acid pathway. International Journal of Molecular Sciences. 2023, 24:13839.

5. Wang D, Li Y, Wang H, Xu Y, Yang Y, Zhou Y, Chen Z, Zhou Y, Gui L, Guo Y, Zhou C, Tang W, Zheng S, Wang L, Guo X, Zhang Y, Cui F, Lin X, Jiao Y, He Y, Li J*, He F*, Liu X*, Xiao J*. Boosting wheat functional genomics via an indexed EMS mutant library of KN9204. Plant Communications. 2023, 21:100593.

6. Qiao H, Liu Y, Cheng L, Gu X, Yin P, Li K, Zhou S, Wang G*, Zhou C*. TaWRKY13-A serves as a mediator of JA-related leaf senescence by modulating JA biosynthesis. Frontiers in Plant Science. 2021, 12: 717233.

7. Zhao M, Zhang X, Liu Y, Li K, Tan Q, Zhou S, Wang G*, Zhou C*. A WRKY transcription factor, TaWRKY42-B, facilitates initiation of leaf senescence by promoting jasmonic acid biosynthesis. BMC Plant Biology. 2020, 20(1):444.

8. Zhao L, Zhang W, Song Q, Xuan Y, Li K, Cheng L, Qiao H, Wang G*, Zhou C*. A WRKY transcription factor, TaWRKY40-D, promotes leaf senescence associated with jasmonic acid and abscisic acid pathways in wheat. Plant Biology. 2020, 22(6):1072-1085.

9. Ren T, Wang J, Zhao M, Gong X, Wang S, Wang G*, Zhou C*. Involvement of NAC transcription factor SiNAC1 in a positive feedback loop via ABA biosynthesis and leaf senescence in foxtail millet. Planta. 2018, 247: 53-68.

10. Wang G, Li K, Zhou C*. Identification and functional analysis of senescence-associated genes in wheat. Methods in Molecular Biology. 2018, 1744: 237-246.

11. Zhou C, Liu B, Lakso AN, Robinson TL, Gan S*. Identification of genes associated with BA-induced apple fruitlet abscission. Acta Horticulturae. 2017, 1177: 249-258.

12. Zhang H, Zhao M, Song Q, Zhao L, Wang G, Zhou C*. Identification and function analyses of senescence-associated WRKYs in wheat. Biochemical and Biophysical Research Communications. 2016, 474:761-767.

13. Zhang H, Zhou C*. Signal transduction in leaf senescence. Plant Molecular Biology. 2013, 82:539-545.

14. Zhao L, Zhang H, Zhang B, Bai X, Zhou C*. Physiological and molecular changes of detached wheat leaves in responding to various treatments. Journal of Integrative Plant Biology. 2012, 54(8), 567-576.

15. Gao Z, He X, Zhao B, Zhou C, Liang Y, Ge R, Shen Y, and Huang Z*. Overexpressing a putative aquaporin gene from wheat, TaNIP, enhances salt tolerance in transgenic Arabidopsis. Plant and Cell Physiology. 2010, 51:767-775.

16. Zhou C, Cai Z, Guo Y, Gan S*. An Arabidopsis mitogen-activated protein kinase cascade, MKK9-MPK6, regulates leaf senescence. Plant Physiology. 2009, 150:167-177.

17. Cao P , Song J, Zhou C, Weng M, Liu J, Wang F, Zhao F, Feng D, Wang B*. Characterization of multiple cold induced genes from Ammopiptanthus mongolicus and functional analyses of gene AmEBP1. Plant Molecular Biology. 2009, 69: 529-539.

18. Zhou C, Lakso AN, Robinson TL, Gan S*. Isolation and characterization of genes associated with shade-induced apple thinning by suppression subtractive hybridization. Molecular Genetics and Genomics.2008, 280: 83-92.

19. Zhou C, Chen C, Cao P , Wu S Sun J, Jin D, Wang B*. Characterization and fine mapping of RppQ , a resistance gene to southern corn rust in maize. Molecular Genetics and Genomics. 2007, 278:723-728.

20. Zhou C*, Li J*, Zou J, Liang F, Ye C, Jin D, Weng M, Wang B*. Cloning and characterization of a second form of the rice adenine phosphoribosyl transferase gene (OsAPT2) and its association with TGMS. Plant Molecular Biology. 2006, 60:365-376.

21. Zhou C, Song H, Li J, Sun J, Yang Q, Jin D, Zhang Q, Wang B*. Genetic diversity evaluation and germplasm identification of 44 species, clones and cultivars from five sections of the genus Populus based on AFLP analysis. Plant Molecular Biology Reporter. 2005, 23: 39-51.

22. Liang F, Zhang K, Zhou C, Kong F, Li J, Wang B*. Cloning, characterization and expression of the gene encoding polygalacturonase-inhibiting proteins (PGIPs) of peach [Prunus persica (L.) Batch]. Plant Science.2005, 168: 481-486.

23. Sun J, Jin D, Zhou C, Yang Q, Weng M, Duan D, Xu P, Ma J, Wang B*. Identification of Porphyra lines (Rhodophyta) by AFLP DNA fingerprinting and molecular markers. Plant Molecular Biology Reporter. 2005, 23: 251-262.

24. Liang F, Kong F, Zhou C, Cao P , Ye C, Wang B*. Cloning and characterization of a non-TIR-NBS-LRR type disease resistance gene analogue from peach. DNA Sequence. 2005,16:103-110.

25. Xing Q, Ru Z, Zhou C, Xue X, Liang C, Yang D, Jin D, Wang B*. Genetic analysis, molecular tagging and mapping of the thermo-sensitive genic male-sterile gene (wtms1) in wheat. Theoretical and Applied Genetics. 2003, 107:1500-1504.

主编和参编的专著、教材:

1. 周春江、刘敬泽主编,《生命科学导论》,科学出版社,2011年

2. 蒋继志、王金胜主编,《分子生物学》,科学出版社,2011年

3. 朱正歌主编,《分子生物学考研精解》,科学出版社,2010年

4. Pua E C、Davey M 主编,《Plant Developmental Biology-Biotechnology Perspectives》, Springer出版社,2009年

5. 沈银柱、黄占景主编,《进化生物学》,高等教育出版社,2002年(第一版),2007年(第二版),2013年(第三版)


CURRICULUM VITAE

Chunjiang Zhou

Ph. D.

Professor

College of Life Sciences

Hebei Normal University

Shijiazhuang, 050024

P. R. China

Email: cjzhou@hebtu.edu.cn

Phone: 86-311-80787527

Education

Ph.D. 2002.08--2005.08 Institute of Genetics and Developmental Biology, China Academy of Sciences, Beijing, China

M.S. 1996.09--1999.06 Department of Horticulture, Hebei Agricultural University, Baoding, China

B.S. 1992.09--1996.06 Department of Biology, Hebei Normal University, Shijiazhuang, China

Professional Experience

2009.10--  Professor, College of Life Sciences, Hebei Normal University, China

2006.10-- 2009.09 Associate Professor, College of Life Sciences, Hebei Normal University, China

2001.10-- 2006.09 Lecturer, Department of Biology, Hebei Normal University, China

1999.06-- 2001.09 Teaching Assistant, Department of Biology, Hebei Normal University, China

2013.07-- 2013.12 Visiting Fellow, Department of Horticulture, Cornell University, Ithaca, NY USA

2005.09-- 2008.09 Postdoctoral Research Associate, Department of Horticulture, Cornell University, Ithaca, NY USA

Research Interest

Molecular basis and regulation of plant senescence, abiotic responses, plant growth and development, and postharvest biology.

Teaching Focus

Molecular Biology, Genomics, Genetic Engineering, Plant Tissue Culture

Selected Publications

1. Tan Q, Zhao M, Gao J, Li K, Zhang M, Li Y, Liu Z, Song Y, Lu X, Zhu Z, Lin R, Yin P, Zhou C*, Wang G*.AtVQ25 promotes SA-related leaf senescence by fine tuning the self-repression of AtWRKY53. Journal of Integrative Plant Biology, 2024, https://doi.org/10.1111/jipb.13659

2. Lu M, Fu B, Meng X, Jia T, Lu X, Yang C, Li K, Yin P, Guo Y, Li W, Chi J, Wang G*, Zhou C*. NtNAC028 and NtNAC080 form heterodimers to regulate jasmonic acid biosynthesis during leaf senescence in Nicotiana tabacum. Journal of Experimental Botany, 2024, 75(8):2351-2371.

3. Li J, Qiao H, Yin P, Liu M, Yang Y, Li K, Yang L, Yang C, Zhao L, Zhou S, Liu Y*, Zhou C*, Wang G*. Increasingly amplified stimulation mediated by TaNAC69-B is crucial for the leaf senescence in wheat. Plant Journal. 2023, 114(3):570-590.

4. Meng X, Lu M, Xia Z, Li H, Liu D, Li K, Yin P, Wang G*, Zhou C*. Wheat VQ motif-containing protein VQ25-A facilitates leaf senescence via the abscisic acid pathway. International Journal of Molecular Sciences. 2023, 24:13839.

5. Wang D, Li Y, Wang H, Xu Y, Yang Y, Zhou Y, Chen Z, Zhou Y, Gui L, Guo Y, Zhou C, Tang W, Zheng S, Wang L, Guo X, Zhang Y, Cui F, Lin X, Jiao Y, He Y, Li J*, He F*, Liu X*, Xiao J*. Boosting wheat functional genomics via an indexed EMS mutant library of KN9204. Plant Communications. 2023, 21:100593. doi: 10.1016/j.xplc.2023.100593.

6. Qiao H, Liu Y, Cheng L, Gu X, Yin P, Li K, Zhou S, Wang G*, Zhou C*. TaWRKY13-A serves as a mediator of JA-related leaf senescence by modulating JA biosynthesis. Frontiers in Plant Science. 2021, 12: 717233. doi: 10.3389/fpls.2021.717233.

7. Zhao M, Zhang X, Liu Y, Li K, Tan Q, Zhou S, Wang G*, Zhou C*. A WRKY transcription factor, TaWRKY42-B, facilitates initiation of leaf senescence by promoting jasmonic acid biosynthesis. BMC Plant Biology. 2020, 20 (1):444. doi: 10.1186/s12870-020-02650-7.

8. Zhao L, Zhang W, Song Q, Xuan Y, Li K, Cheng L, Qiao H, Wang G*, Zhou C*. A WRKY transcription factor, TaWRKY40-D, promotes leaf senescence associated with jasmonic acid and abscisic acid pathways in wheat. Plant Biology. 2020, 22(6): 1072-1085.

9. Ren T, Wang J, Zhao M, Gong X, Wang S, Wang G*, Zhou C*. Involvement of NAC transcription factor SiNAC1 in a positive feedback loop via ABA biosynthesis and leaf senescence in foxtail millet. Planta. 2018, 247: 53-68.

10. Wang G, Li K, Zhou C*. Identification and functional analysis of senescence-associated genes in wheat. Methods in Molecular Biology. 2018, 1744: 237-246.

11. Zhou C, Liu B, Lakso AN, Robinson TL, Gan S*. Identification of genes associated with BA-induced apple fruitlet abscission. Acta Horticulturae. 2017, 1177: 249-258.

12. Zhang H, Zhao M, Song Q, Zhao L, Wang G, Zhou C*. Identification and function analyses of senescence associated WRKYs in wheat. Biochemical & Biophysical Research Communications. 2016, 474(4):761-767.

13. Bai X, Li Y, Wang G, Yin Q, Geng B, Dong W, Zhou C, Wu Z. Molecular identification and sequence analysis of tomato yellow leaf curl virus(TYLCV) isolate from Shijiazhuang. Acta Horticulturae Sinica. 2015, 42 (1): 167-173. (In Chinese)

14. Li K, Zhou C*. Research progress in WRKY transcription factors in plants. Plant Physiology Journal. 2014, 50 (9): 1329-1335. (In Chinese)

15. Zhao M, Li M, Song Q, Wang G, Zhou C*. Cloning and functional analysis of senescence-associated gene Ta MYBAS2-1 in wheat leaves. Plant Physiology Journal. 2014, 50 (9): 1347-1352. (In Chinese)

16. Zhang H, Zhou C*. Signal transduction in leaf senescence. Plant Molecular Biology.2013, 82(6):539-545.

17. Zhao L, Zhang H, Zhang B, Bai X, Zhou C*. Physiological and molecular changes of detached wheat leaves in responding to various treatments. Journal of Integrative Plant Biology. 2012, 54(8):567-576.

18. Zhou C, Liu J. Introduction to Life Sciences. Beijing, Science Press. 2011, 333 pages. (In Chinese)

19. Gao Z, He X, Zhao B, Zhou C, Liang Y, Ge R, Shen Y, and Huang Z*. Overexpressing a putative aquaporin gene from wheat, TaNIP, enhances salt tolerance in transgenic Arabidopsis. Plant and Cell Physiology. 2010, 51:767-775.

20. Zhou C, Cai Z, Guo Y, Gan S*. An Arabidopsis mitogen-activated protein kinase cascade, MKK9-MPK6, regulates leaf senescence. Plant Physiology. 2009, 150:167-177.

21. Zhou C Gan, S*. Senescence. In: Plant Developmental Biology: Biotechnological Perspectives (ed. by E. C. Pua and M. R. Davey). 2009, pp151-169, Springer.

22. Cao P , Song J, Zhou C, Weng M, Liu J, Wang F, Zhao F, Feng D, Wang B*. Characterization of multiple cold induced genes from Ammopiptanthus mongolicus and functional analyses of gene AmEBP1. Plant Molecular Biology. 2009, 69: 529-539.

23. Li J, Song H, Zhou C, Niu Z, Zhang Q, Wang B*. AFLP fingerprinting for 10 cultivars of section Aigeiros widely planted in north China. Forest Research. 2009, 22(2): 207-212. (In Chinese)

24. Zhou C, Lakso AN, Robinson TL, Gan S*. Isolation and characterization of genes associated with shade induced apple thinning by suppression subtractive hybridization. Molecular Genetics and Genomics. 2008, 280: 83-92.

25. Zhou C, Chen C, Cao P , Wu S Sun J, Jin D, Wang B*. Characterization and fine mapping of RppQ , a resistance gene to southern corn rust in maize. Molecular Genetics and Genomics. 2007, 278:723-728.

26. Zhou C, Ge R, Zhao B, Huang Z, Shen Y, He C. Study on transgenic wheat with rabbit defensing (NP-1) via the pollen-tube pathway. Acta Agriculturae Boreali-Sinica. 2007, 22(2):26-28. (In Chinese)

27. Zhou C, Li J, Zou J, Liang F, Ye C, Jin D, Weng M, Wang B*. Cloning and characterization of a second form of the rice adenine phosphoribosyl transferase gene (OsAPT2) and its association with TGMS. Plant Molecular Biology. 2006, 60:365-376.

28. Zhou C, Song H, Li J, Sun J, Yang Q, Jin D, Zhang Q, Wang B*. Genetic diversity evaluation and germplasm identification of 44 species, clones and cultivars from five sections of the genus Populus based on AFLP analysis. Plant Molecular Biology Reporter. 2005, 23: 39-51.

29. Liang F, Zhang K, Zhou C, Kong F, Li J, Wang B*. Cloning, characterization and expression of the gene encoding polygalacturonase-inhibiting proteins (PGIPs) of peach [Prunus persica (L.) Batch]. Plant Science.2005, 168: 481-486.

30. Sun J, Jin D, Zhou C, Yang Q, Weng M, Duan D, Xu P, Ma J, Wang B*. Identification of Porphyra lines (Rhodophyta) by AFLP DNA fingerprinting and molecular markers. Plant Molecular Biology Reporter. 2005, 23: 251-262.

31. Liang F, Kong F, Zhou C, Cao P, Ye C, Wang B*. Cloning and characterization of a non-TIR-NBS-LRR type disease resistance gene analogue from peach. DNA Sequence. 2005, 16:103-110.

32. Xing Q, Ru Z, Zhou C, Xue X, Liang C, Yang D, Jin D, Wang B*. Genetic analysis, molecular tagging and mapping of the thermo-sensitive genic male-sterile gene (wtms1) in wheat. Theoretical and Applied Genetics. 2003, 107:1500-1504.

33. Zhou C, Huang Z, Shen Y, Zhao S, He C. Primary study on rabbit defensin (NP-1) in wheat disease resistance breeding. Acta Tritical Crops. 2003, 23(2): 7-10. (In Chinese)

34. Zhou C, Li W, Ge H. Regeneration of callus from protoplasts of suspension cells in strawberry. Journal of Fruit Science. 2003, 20(4): 319-321. (In Chinese)

35. Zhou C, Li W, Ge H. Establishment and some influenced factors of suspension cells in strawberry. Plant Physiology Journal. 2002, 38(1): 22-24. (In Chinese)


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