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泰山学者特聘专家-张洪霞

上传时间:2021年09月02日 15:54 浏览次数::2170

1、个人简介

张洪霞,男,鲁东大学农林工程研究院院长、滨海生态高等研究院副院长,二级教授,博士生导师,1967年生于山东省菏泽市;1995年于中国科学院上海植物生理研究所获博士学位;1996-2002年在美国密西根州立大学及加拿大多伦多大学作博士后和研究助理。2002年入选中国科学院“百人计划”, 到中国科学院上海生命科学研究院植物生理生态研究所工作,20167月到鲁东大学农学院工作,入选山东省现代农业产业体系(遗传育种)岗位专家;2017年,获中国“第七届中国侨界贡献奖”;2018年,入选烟台“市双百人才”计划;2019年,入选山东省“泰山学者特聘专家”。

 

2、工作经历

2021.1–现在:鲁东大学农林工程研究院,泰山学者特聘教授专家,二级教授, 博士生导师(曲阜师范大学、内蒙古农业大学)。

2016.32020.12: 鲁东大学农学院,泰山学者特聘专家,二级教授, 博士生导师(曲阜师范大学、内蒙古农业大学)。

2014.122016.2:中国科学院上海生命科学研究院植物生理生态研究所,植物分子遗传国家重点实验室,二级研究员,博士生导师。

2008.122014.11:中国科学院上海生命科学研究院植物生理生态研究所,植物分子遗传国家重点实验室,三级研究员,博士生导师。

2007.92008.11:中国科学院上海生命科学研究院植物生理生态研究所,植物分子遗传国家重点实验室,四级研究员,博士生导师。

2002.82007.8:中科院杰出人才“百人计划”,中国科学院上海生命科学研究院植物生理生态研究所,植物分子遗传国家重点实验室,研究员,博士生导师。

1999.12002.7:加拿大多伦多大学植物系,博士后和研究助理,从事植物耐盐方面的研究, 导师:Eduard Blumwald教授。

1996.11998.12:美国密西根州立大学,美国能源部植物研究实验室,博士后和研究助理,从事赤霉素代谢方面的研究,导师:Jan A. D. Zeevaart院士。

1995.71995.12:上海植物生理研究所,助理研究员。

3、教育经历

1992.91995.7:中国科学院上海植生所,植物分子遗传国家重点实验室,博士。导师:许智宏院士。

1989.91992.8:武汉大学生物系微生物系,硕士。导师:卫扬保教授。

1985.91989.8:曲阜师范大学生物学系,本科。

4、研究领域与方向

研究方向:植物分子遗传。主要从事植物糖代谢以及植物高产和耐逆机理的分子生物学研究,相关研究曾在在Nature Biotechnology, PNASNew PhytologistCell Research等杂志上发表。先后承担了国家863重大专项、转基因重大专项和自然科学基金委、中国科学院先导重大专项、上海市重点基础研究等多个项目的研究任务。

5、主持或主要参加的科研项目27

5.1 目前主持在研科研项目8

8)国家自然科学基金面上项目“细胞自我吞噬在杨树应答盐碱胁迫中的分子机制研究”(课题编号:320717332021.1-2024.1258万;

7)国家自然科学基金面上项目“油菜素内酯受体PtBRI1调控杨树木质形成的分子机理研究”(课题编号:318705762019.1-2022.1260万;

6)农业部转基因重大专项子课题“耐盐转基因白杨新种质创制”(课题编号:2018ZX08020002-003-0042018.1-2020.12, 87.77万元;

5) 国家重点研发计划子课题 “林业资源培育及高效利用技术创新” (课题编号:2016YFD0600106),2016.7-2020.1240万;

4)山东省现代农业产业技术体系创新团队“玉米创新团队遗传育种岗位专家”(课题编号:SDAIT-02-05),2016.1-2020.12125万;

3)山东省林业科技创新项目“抗旱耐盐杨树和白蜡新种质培育与推广” (课题编号:LYCX03-2018-182018.1-2022.12112万;

2)山东省农业良种工程“优质、高产、抗旱马铃薯新品种培育” (课题编号:2016LZGC0182016.1-2020.1240万;

1)山东省重点研发计划子课题“黄河三角洲盐碱地林业生态功能提升关键技术介绍” (课题编号:2017CXGC03142017.7-2019.12200万;

5.2 曾主持科研项目19

国家农业部转基因重大专项(7项):

7)细胞壁蔗糖转化酶基因的克隆及其在提高玉米产量中的功能研究(项目编号:2014ZX0800942B),2014.1-2016.12223.26万;

6)抗逆、抗除草剂转基因水稻新品种培育子课题(项目编号:2011ZX08001-009),2011.7-2015.12340(连续)

5)抗逆转基因大豆新品种培育子课题(项目编号:2011ZX08004-002-001-004),2011.7-2012.3150(连续)

4)大豆规模化转基因技术体系构建子 课题(项目编号:2011ZX08010-004-004),2011.7-2012.3161(连续)

3)抗逆、抗除草剂转基因水稻新品种培育子课题(项目编号:2008ZX001-003),2008.7-2010.12170万;

2)抗逆转基因大豆新品种培育子课题(项目编号:2008ZX08004-002),2008.7-2010.1252.6万;

1)大豆规模化转基因技术体系构建子课题(项目编号:2008ZX08010-004),2008.7-2010.1298万;

中科学院先导重大专项1项:

8)高产、高淀粉玉米新品种培育(项目编号:XDA08030108),2013.1-2017.12300万;

国家自然基金项目(5项):

13)杨树油菜素内酯合成基因PtCYP85A5在杨树生长发育和耐逆境胁迫中的功能研究及其应用(项目编号:31371228,),2014.1-2017.1280万;

12)拟南芥液泡膜钙感受器CBL2CBL3功能的研杨树响应盐胁迫SOS信号通路研究及其应用(项目编号:31171169),2013.1-2016.1265万;

11)杨树响应盐胁迫SOS信号通路研究及其应用(项目编号:30872044),2009.1-2011.1240万;

10)利用质体转基因技术研究开发高度耐盐的植物新品种(项目编号:30571196),2006.1-2008.1230万;

9)双转化耐盐日本光叶楮的培育(项目编号:30471411),2005.1-2007.1225万;

国家科技部863973重大专项3项:

16)耐盐、抗寒植物新品种的研究、开发及应用(863项目编号:2002AA21),2002.9-2005.8105万;

15JY03-B-31-1,转基因植物研究与产业开发子课题(863项目编号:JY03-B-31-1),2003.9-2005.8, 80万;

142006CB00100,作物应答高盐、低温胁迫的分子调控机理子课题(973项目编号:2006CB00100),2006.1-2010.1260万;

上海市基础重点项目1项:

17)玉米水分与养分高效利用基因的克隆、功能分析及应用(项目编号:08JC1421500),2008.10- 2010.920万,主持;

中科院上海生命科学院植物生生态所国家重点实验室重点课题2项:

19)高产、高淀粉玉米新品种培育(项目编号:52ZKF2014),2014.1-2016.1260万;

18)作物重要性状功能基因组及其遗传机理研究(项目编号:52ZKF200805),2008.1-2010.1257万;

6、论文论著发表情况 (第一或通讯作者)

55. Cheng JS, Duan W, Tang XL, Zhang YG, Li B, Wang YJ, Yang CX, Song ZZ, Wang LJ, Yang J, Yu Y, Sun XB, Liang MX, Liang ZC*, Zhang HX* (2021) Low sink demand caused net photosynthetic rate decrease is closely related to the irrecoverable damage of oxygen releasing complex and electron receptor in peach trees. J Plant Physiol (accepted).

54. Jiang CM, Li B, Song ZZ, Zhang YL, Yu CY, Wang HH, Wang LM*, Zhang HX* (2021) PtBRI1.2 promotes shoot growth and wood formation through a brassinosteroid-mediated PtBZR1-PtWNDs module in poplar. J Exp Bot doi:10.1093/jxb/erab260.

53. Liu YF, Wang LM, Zhao LZ, Wang W*, Zhang HX* (2021) Genome-wide identification and evolutionary analysis of argonaute genes in hexaploid bread wheat. BioMed Res Int doi:10.1155/2021/9983858.

52. Liu XH, Zhao LZ, Li JZ, Duan LJ, Zhang K, Qiao XQ, Li WH, Zheng CC, Tang XL*, Zhang HX* (2021) The chloroplastic small heat shock protein gene KvHSP26 is induced by various abiotic stresses in Kosteletzkya virginica. Int J Genomics 1:1-9.

51. Li JZ, Yan XH, Ahmad M, Yu WJ, Song ZZ, Ni JB, Yang QS, Teng YW, Zhang HX*, Bai SL* (2021) Alternative splicing of the dormancy-associated MADS-box transcription factor gene PpDAM1 is associated with flower bud dormancy in ‘Dangshansu’ pear (Pyrus pyrifolia white pear group). Plant Physiol Bioch 166:1096-1108.

50. Song ZZ#, Peng B#*, Gu ZX, Tang ML,  Li B, Liang MX, Wang LM, Guo XT, Wang JP, Sha YF, Zhang HX*. (2021) Site-directed mutagenesis identified the key active site residues of alcohol acyltransferase PpAAT1 responsible for aroma biosynthesis in peach fruits. Hortic Res 83(2):1-10.

49. Qi DZ, Liang MX, Jiang FD, Li JZ, Qiao XQ*, Zhang HX* (2020) Effects of exogenous manganese (Mn) on mineral elements, polyamines and antioxidants in apple rootstock Malus robusta Rehd. Phyton-Int J Exp Bot 89(4):943-955.

48. Guo XQ, Chen HJ, Liu Y, Chen W, Ying YQ, Han JJ, Gui RY*, Zhang HX* (2020) The acid invertase gene family are involved in internode elongation in Phyllostachys heterocycla cv. pubescens. Tree Physiol 40:1217-1231.

47. Gong L, Zhang HW, Liu X, Gan XY, Nie FJ, Yang WJ, Zhang L, Chen YC, Song YX*, Zhang HX* (2020) Ectopic expression of HaNAC1, an ATAF transcription factor from Haloxylon ammodendron, improves growth and drought tolerance in transgenic Arabidopsis. Plant Physiol Bioch 151:535-544.

46. Wang HH, Wang XQ, Yu CY, Wang CT, Jin YL, Zhang HX* (2020) MYB transcription factor PdMYB118 directly interacts with bHLH transcription factor PdTT8 to regulate wound-induced anthocyanin biosynthesis in poplar. BMC Plant Biol 20:173-186.

45. Jin YL, Yu CY, Jiang CM, Guo XT, Li B, Wang CT, Kong FJ, Zhang HX*, Wang HH* (2020) PtiCYP85A3, a BR C-6 oxidase gene, plays a critical role in brassinosteroid-mediated tension wood formation in poplar. Fron Plant Sci 11:468-470.

44. Bao Y*, Song WM, Wang PP, Yu X, Li B, Jiang CM, Shiu SH, Zhang HX*, Bassham DC* (2020) COST1 regulates autophagy to control plant drought tolerance. Proc Natl Acad Sci USA 117(13):7482-7493.

43. Kang T, Yu CY, Liu Y, Song WM, Bao Y, Guo XT, Li B*, Zhang HX* (2020)                                     Subtly manipulated expression of ZmmiR156 in tobacco improves drought and salt tolerance without changing the architecture of transgenic plants. Fron Plant Sci 10:1664-1678.

42. Wang HH, Wang XQ, Song WM, Bao Y, Jin YL, Jiang CM, Wang CT, Li B, Zhang HX* (2019) PdMYB118, isolated from a red leaf mutant of Populus deltoids, is a new transcription factor regulating anthocyanin biosynthesis in poplar. Plant Cell Rep 38:927-936.

41. Song WM, Cheng ZH, Guo XT, Yu CY, Wang HH, Wang J, Li B, Zhang HX*, Bao Y* (2019) Overexpression of NHL6 affects seed production in transgenic Arabidopsis plants. Plant Growth Regul 88:41-47.

40. Bi YJ, Sun ZC, Zhang J, Liu EQ, Shen HM, Lai KL, Zhang S, Guo XT, Sheng YT, Yu CY, Qiao XQ, Li B*, Zhang HX* (2018) Manipulating the expression of a cell wall invertase gene increases grain yield in maize. Plant Growth Regul 84(1):37-43.

39. Yang L, Liu H, Fu SM, Ge HM, Tang RJ, Yang Y, Wang HH, Zhang HX*. (2017) Enhancement of salt and water-deficit tolerance of transgenic poplar by constitutively expressing the vacuolar Na+(K+)/H+ antiporter AtNHX1 or AtNHX3 from Arabidopsis. Biol Plant 61(4):641-650.

38. Wang HH, Jin YL, Wang CT, Li B, Jiang CM, Sun ZC, Zhang ZP, Kong FJ, Zhang HX*. (2017) Fasciclin-like arabinogalactan proteins, PtFLAs, play important roles in GA-mediated tension wood formation in Populus. Sci Rep 7(1):6182.

37. Jin YL, Tang RJ, Wang HH, Jiang CM, Bao Y, Yang Y, Liang MX, Kong FJ, Li B*, Zhang HX*. (2017) Overexpression of Populus trichocarpa PtCYP85A3 promotes growth and biomass production in transgenic trees. Plant Biotechnol J 15(10):1309-1321.

36. Gong L, Yang YJ, Chen YC, Shi J, Song YX*, Zhang HX*. (2016) LbCML38 and LbRH52, two reference genes derived from RNASeq data suitable for assessing gene expression in Lycium barbarum L. Sci Rep 6: 37031.

35. Bao Y, Song WM, Zhang HX*. (2016) Role of Arabidopsis NHL family in ABA and stress response. Plant Signal Behav 11: 1180493.

34. Wang CT, Yang Y, Wang HH, Ran XJ, Li B, Zhang JT, Zhang HX*. (2016) Ectopic expression of a cytochrome P450 monooxygenase gene PtCYP714A3 from Populus trichocarpa reduces shoot growth and improves tolerance to salt stress in transgenic rice. Plant Biotechnol J 14:1838-1851.

33. Wang FB, Guo XT, Qiao XQ, Zhang J, Yu CY, Sheng YT, Zhu LY, Cheng JS, Liang MX, Su HY, Cheng XH, Zhang HX*. (2016) The maize plastidic thioredoxin F-type gene ZmTrxF increases starch accumulation in transgenic Arabidopsis. Sci Hortic 210:205-212.

32. Bao Y, Song WM, Pan J, Jiang CM, Srivastava R, Li B, Zhu LY, Su HY, Gao XS, Liu H, Yu X, Yang L, Cheng XH*, Zhang HX*. (2016) Overexpression of the NDR1/HIN1-Like gene NHL6 modifies seed germination in response to abscisic acid and abiotic stresses in Arabidopsis. PLoS One 11(2): e0148572.

31. Zhang J, Chen HY, Wang HH, Li B, Yi YJ, Kong FJ, Liu JY*, Zhang HX*. (2016) Constitutive expression of a tomato small heat shock protein gene LeHSP21 improves tolerance to high temperature stress by enhancing antioxidation capacity in tobacco. Plant Mol Biol Rep 34:399-409.

30. Yang Y, Tang RJ, Li B, Wang HH, Jin YL, Jiang CM, Bao Y, Su HY, Zhao N, Ma XJ, Yang L, Chen SL, Cheng XH,* Zhang HX*. (2015) Overexpression of a Populus trichocarpa H+-pyrophosphatase gene PtVP1.1 confers salt tolerance on transgenic poplar. Tree Physiol 35:663-677.

29. Yang Y, Tang JR, Jiang CM, Li B, Kang T, Liu H, Zhao N,Ma XJ, Yang L, Chen SL, Zhang HX*. (2015) Overexpression of the PtSOS2 gene improves tolerance to salt stress in transgenic poplar plants. Plant Biotechnol J 13:962-973.

28. Wang HH, Jiang CM, Wang CT, Yang Y, Gao XY, Zhang HX*. (2015). Antisense expression of the fasciclin-like arabinogalactan protein PtFLA6 gene in Populus inhibits expression of its homologous genes and alters stem biomechanics and cell wall composition in transgenic trees. J Exp Bot 66(5):1291-1302.

27. Wang HH, Tang RJ, Wang CT, Liu SC, Gai Y, Jiang XN, Zhang HX*. (2015). Functional repression of PtSND2 represses growth and development by disturbing auxin biosynthesis, transport and signaling in transgenic poplar. Tree Physiol 35:95-105.

26. Bao Y, Song WM, Jin YL, Jiang CM, Yang Y, Li B, Huang WJ, Liu H, Zhang HX*. (2014) Characterization of Arabidopsis Tubby-like proteins and the redundant function of AtTLP3 and AtTLP9 in plant response to ABA and osmotic stress. Plant Mol Biol 86:471-483.

25. Bao Y, Wang CT, Jiang CM, Pan J, Zhang GB, Liu H, Zhang HX*. (2014) The TRAF-like family protein SINA2 promotes drought tolerance in an ABA-dependent manner in Arabidopsis. New Phytol 202:174-187.

24. Tang RJ, Yang Y, Yang L, Liu H, Wang CT, Yu MM, Gao XS, Zhang HX*. (2014) Poplar calcineurin B-like proteins PtCBL10A and PtCBL10B regulate shoot salt tolerance through interaction with PtSOS2 in the vacuolar membrane. Plant Cell Environ 37:573-588.

23. Li B, Liu H, Zhang Y, Kang T, Zhang L, Tong JH, Xiao LT, Zhang HX*. (2013) Constitutive expression of cell-wall invertase genes increase grain yield and starch content in maize. Plant Biotechnol J 11:1080-1091.

22. Wang HH, Tang RJ, Liu H, Chen HY, Liu JY, Jiang XN, Zhang HX*. (2013) Chimeric repressor of PtSND2 severely affects wood formation in transgenic Populus. Tree Physiol 33:878-86.

21. Wang CT, Bao Y, Wang QQ, Zhang HX*. (2013) Introduction of rice CYP714D1 gene into Populus inhibits expression of its homologous genes and promotes growth, biomass production and xylem fiber length in transgenic trees. J Exp Bot 64(10): 2847-2857.

20. Tang RJ, Liu H, Yang Y, Yang L, Gao XS, Garcia VJ, Luan S*, Zhang HX*. (2012) Tonoplast calcium sensors CBL2 and CBL3 control plant growth and ion homeostasis through regulating V-ATPase activity in Arabidopsis. Cell Res 22:1650-1665.

19. Chen HY, Guan YF, Huang XY, Wu YT, Wang FF, Gao JF, Zhou Q, Yang ZN*, Liu JY*, Zhang HX*. (2012) Multiple impairments in male reproduction 1 (mimr1), a novel male-sterile mutant of Arabidopsis thaliana, shows several defects in male reproductive development. J Plant Biol 55:209-217.

18. Zhang JT, Liu H, Sun J, Li B, Zhu Q, Chen SL, Zhang HX*. (2012) Arabidopsis fatty acid desaturase FAD2 is required for salt tolerance during seed germination and early seedling growth. PLoS One 7:1-12.

17. Wang HH, Wang CT, Liu H, Tang RJ, Zhang HX*. (2011) An efficient Agrobacterium-mediated transformation and regeneration system for leaf explants of two elite aspen hybrid clones Populus alba × P. Berolinensis and Populus Davidiana×P. Bolleana. Plant Cell Rep 30:2037-2044

16. Tang RJ, Liu H, Bao Y, Lv QD, Yang L, Zhang HX*. (2010) The woody plant poplar has a functionally conserved salt overly sensitive pathway in response to salinity stress. Plant Mol Biol 74: 367-380.

15. Liu H, Tang RJ, Zhang Y, Wang CT, Lv QD, Gao XS, Li WB, Zhang HX*. (2010) AtNHX3 is a vacuolar K+/H+ antiporter required for low-potassium tolerance in Arabidopsis thaliana.Plant Cell Environ 33:1989-1999.

14. Wang CT, Liu H, Gao XS, Zhang HX*.(2010) Overexpression of G10H and ORCA3 in the hairy roots of Catharanthus roseus improves catharanthine production. Plant Cell Rep 29: 887-894.

13. Zhu Q, Zhang JT, Gao XS, Tong JH, Xiao LT, Li WB, Zhang HX*. (2010) The   Arabidopsis AP2/ERF transcription factor RAP2.6 participates in ABA, salt and   osmotic stress responses. Gene 457:1-12.

12. Li TX, Zhang Y, Liu H, Wu YT, Zhang HX*. (2010) Stable expression of    Arabidopsis vacuolar Na+/H+ antiporter gene AtNHX1, and its salt tolerance in    the transgenic soybean for over six generations. Chinese Sci Bull 55:1127-1134.

11. Zhang Y, Liu H, Li B, Zhang JT, Zhang HX*.(2009) Generation of selectable marker-free transgenic tomato resistant to drought, cold and oxidative stress using   Cre/loxP DNA excision system. Transgenic Res 18: 607-619.

10. Lv QD, Tang RJ, Liu H, Gao XS, Zheng HQ, Zhang HX*. (2009) Cloning and molecular analyses of the Arabidopsis thaliana chloride channel gene family. Plant Sci 176: 650-661.

9. Zhu JQ, Zhang JT, Tang RJ, Lv QD, Wang QQ, Yang L, Zhang HX*. (2009) Molecular characterization of ThIPK2, an inositol polyphosphate kinase gene homolog from Thellungiella halophila, and its heterologous expression to improve abiotic stress tolerance in Brassica napus. Physiol Plant 136: 407-425.

8. Li HT, Liu H, Gao XS, Zhang HX*. (2009) Knock-out of Arabidopsis AtNHX4 gene enhanced tolerance to salt stress. Biochem Biophys Res Commun 382: 637-641.

7. Zhang JT, Zhu JQ, Zhu Q, Liu H, Gao XS, Zhang HX*. (2009) Fatty acid desaturase-6 (Fad6) is required for salt tolerance in Arabidopsis thaliana. Biochem Biophys Res Commun 390: 469-474.

6. Yang L, Tang RJ, Zhu JQ, Liu H, Mueller-Roeber B, Xia HJ, Zhang HX*. (2008)   Enhancement of stress tolerance in transgenic tobacco plants constitutively    expressing AtIpk2β, an inositol polyphosphate 6-/3-kinase from Arabidopsisthaliana. Plant Mol Biol 66: 329-343.

5. Zhang J, Tan W, Yang XH, Zhang HX*. (2008) Plastid-expressed choline monooxygenase gene improves salt and drought tolerance through accumulation of glycine betaine in tobacco. Plant Cell Rep 27: 1113-1124.

4. Liu H, Wang QQ, Yu MM, Zhang YY, Wu YB, Zhang HX*. (2008) Transgenic salt-tolerant sugar beet (Beta vulgaris L.) constitutively expressing an Arabidopsis thaliana vacuolar Na+/H+ antiporter gene, AtNHX3, accumulates more soluble sugar but less salt in storage roots. Plant Cell Environ 31: 1325-1334.

3. Zhang HX,Blumwald E*. (2001) Transgenic salt-tolerant tomato plants accumulate salt in foliage but not in fruit. Nat Biotechnol 19: 765-768.

2. Zhang HX, Hodson JN, William JP, Blumwald E*. (2001) Engineering salt tolerant Brassica plants: Characterization of yield and seed oil quality in transgenic plants with increased vacuolar sodium accumulation. Proc Natl Acad Sci USA 98(22): 12832-12836.

1. Zhang HX, Zeevaart J*. (1999) An efficientAgrobacteriumtumefaciens-mediated transformation and regeneration system for cotyledons of spinach (Spinacia oleracea L.) Plant Cell Rep 18: 640-645.

7授权发明专利13项(含1项国际发明专利)、在审国际发明专利1

1、张洪霞,李蓓,刘华,何祖华,Crop grain filling gene (GIF1) and the application  thereof,2013, U.S. CIP Patent Application No. 13/711,479

 2 张洪霞,唐仁杰,杨阳,一种提高植物抗逆境能力的方法,2013201310293835.6

 3 张洪霞,包岩,王翠亭,一种提高植物逆旱能力的方法,2013201310281850.9

 4 张洪霞,李蓓,刘华,何祖华,提高植物生物量和产量的方法,2013, 201310017091.5

 5 张洪霞,王翠亭,一种改善植物性状的方法,2013, 201310050065.2

 6 张洪霞,王翠亭,一种改善木本植物性状的方法,2012, 201210530079X

 7、张洪霞,唐仁杰, 一种液泡膜定位序列及其应用, 2012,201210034345.X

 8、张娟、冯志彬、张洪霞,一种枯草芽孢杆菌及其应用, 2020,20201092577.X

 9、包岩、宋维萌、张洪霞,通过抑制COST1基因的表达提高植物抗旱性的方法, 2020,201810901473.7

10、张洪霞、晋艳丽、唐仁杰、于春燕、郭笑彤,一种杨树PtCYP85A3基因及应用,2020, 201710048522.2

11、申请国际发明专利:包岩、宋维萌、张洪霞。Enhance plant drought resistanceby inhibiting the expression of a COST1 gene。专利申请号:PCT/CN2018/119255.

12、宋志忠, 梁美霞, 张洪霞, 贺奥, 李权龙, 宋潘晖, 王翊昊, 岳红丽, 毕萌萌; 一种罗布麻的组织培养高效快速繁殖方法, 专利号:ZL201911387578.6.

13 梁美霞, 张洪霞; 一种韭葱组织培养快速繁殖的方法, 专利号:ZL201710017138.6.

 

8、获奖与荣誉

2019年,入选山东省“泰山学者特聘专家”;

2018年,入选烟台“市双百人才”计划;

2017年,获得中国“第七届中国侨界贡献奖”;山东省黄大年式教学团队(带头人);

2002年,入选“中科院百人计划”。

 

9、学术兼职

Environmental and Experimental Botany编委 (SCI 二区)

Plant Growth Regulation编委 SCI 三区)

BioMed Research International副主编 SCI 三区)

Phyton-International Journal of Experimental Botany副主编 SCI 四区)

中国林学会盐碱地分会第一届委员会委员

中国林学会树木生理生化专业委员会第五届委员会委员

中国植物蛋白质组学会第一届理事会理事

中国热带农业科学院第十二届学术委员会专业委员会委员

国家林业和草原局“盐碱地生态修复国家创新联盟”专家咨询委员会委员

海南省南繁生物安全与分子育种重点实验室学术委员会委员

10、联系方式

联系地址:鲁东大学,山东省烟台市芝罘区红旗中路186号,264025

电  话:0535-6697616, 13256976151 (wechat), E-mailhxzhang@sibs.ac.cn