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2015年园艺园林学院发表主要文章
作者:张建    文章来源:本站原创    点击数:    更新时间:2015-11-9
 

1Cai XD, Cao Z, Xu SX, Deng Z. Induction, regeneration and characterization of tetraploids and variants in ‘Tapestry’caladium[J]. Plant Cell Tiss Org Cult, 2015, 120): 689-700.

2Fang Zhengwu, Li Xueping, Li Xiaofang, Liu Zhixiong*. FaesPI, a Fagopyrum esculentum PISTILLATA ortholog, is involved only in stamen development. Journal of Plant Biology,2015 58(2):102-109.

3Wang Junbang, Zhang Xiujuan, Wuchu (?)Advances in experimental methods for root system architecture and root development.? J. For. Res. 2015, 26(1):23–32

4Qu Jinwang1, Liu Liping1 (Co-first author), Wu Jian, Yin Qiaoqiao, Wu Tiantian, Guo Xiaohong, Zhang Junlin, Yuan Feirong, Li Na, and Deng Ziniu. Ectopic expression of CisAF7, an Alfin1-like zinc finger gene from Citrus sinensis, confers tolerance to several abiotic stresses in Escherichia coli. Plant Omics Journal. 2015. 8(3): 250-256.

5Qu Jinwang, Liu Liping, Wu Jian, Yin Qiaoqiao, Wu Tiantian, Guo Xiaohong, Zhang Junlin, Yuan Feirong, Li Na, and Deng Ziniu. Ectopic expression of CisAF7, an Alfin1-like zinc finger gene from Citrus sinensis, confers tolerance to several abiotic stresses in Escherichia coli. Plant Omics Journal. 2015. 8(3): 250-256.

6Wu QS, Srivastava AK, Li Y. Effect of mycorrhizal symbiosis on growth behavior and carbohdyrate metabolism of trifoliate orange under different substrate P levels. Journal of Plant Growth Regulation, 2015, 34:495-508

7Zou YN, Huang YM, Wu QS*, He XH. Mycorrhiza-induced lower oxidative burst is related with higher antioxidant enzyme activities, net H2O2 effluxes, and Ca2+ influxes in trifoliate orange roots under drought stress. Mycorrhiza, 2015, 25:143-152

8Wu QS, Li Y, Zou YN, He XH. Arbuscular mycorrhiza mediates glomalin-related soil protein production and soil enzyme activities in the rhizosphere of trifoliate orange grown under different P levels. Mycorrhiza, 2015, 25:121-130?

9Wu QS, Lou YG, Li Y. Plant growth and tissue sucrose metabolism in the system of trifoliate orange and arbuscular mycorrhizal fungi. Sci Hortic, 2015, 181:189-193

10Wu, Q.S., Srivastava, A.K., Cao MQ, Wang J. 2015. Mycorrhizal function on soil aggregate stability in root zone and root-free hyphae zone of trifoliate orange. Archives of Agronomy and Soil Science 51:831-825

11Wu, Q.S., A.K. Srivastava, S. Wang and J.X. Zeng, 2015. Exogenous application of EE-GRSP and changes in citrus rhizosphere properties. Ind. J. Agric. Sci., 85: 802–806

12Zhang ZZ, Srivastava AK, Wu QS*, Li GH. Growth performance and rhizospheric traits of peach (Prunus persica) in response to mycorrhization on replant versus non-replant soil. Indian Journal of Agricultural Science, 2015, 85:125-130

13Zou YN, Srivastava AK, Ni QD, Wu QS*. Disruption of mycorrhizal extraradical mycelium and changes in leaf water status and soil aggregate stability in rootbox-grown trifoliate orange. Frontiers in Microbiology, 2015, 6:203, DOI: 10.3389/fmicb.2015.00203

14Zhang F, Du P, Song CX, Wu QS*. Alleviation of Mycorrhiza to Magnesium Deficiency in Trifoliate Orange: Changes in Physiological Activity. Emirates Journal of Food and Agriculture, 2015, 27(10): 763-769

15Wang S, Wu QS*, He XH. Exogenous easily extractable glomalin-related soil protein promotes soil aggregation, relevant soil enzyme activities and plant growth in trifoliate orange. Plant Soil and Environment, 2015, 61:66-71

16Chang J, Ning Y, Xu F*, Cheng S, Li X. Research advance of 3-hydroxy-3-methylglutaryl-Coenzyme A synthase in plant isoprenoid biosynthesis. The Journal of Animal & Plant Science, 2015, 25(5): 1441-1450

17Liao Y, Xu F*, Huang X, Zhang W, Cheng H, Wang X, Cheng S, Shen Y. Characterization and transcriptional profiling of Ginkgo biloba mevalonate diphosphate decarboxylase gene (GbMVD) promoter towards light and exogenous hormone treatments. Plant Molecular Biology Reporter, 2015, DOI: 10.1007/s11105-015-0947-x

18Xiaohui Wang, Junhuan Cheng, Feng Xu*, Xingxiang Li, Weiwei Zhang, Yongling Liao, Shuiyuan Cheng, Xianbin Li. Molecular cloning and expression analysis of a MADS-Box gene (GbMADS2) from Ginkgo biloba. Notulae Botanicae Horti Agrobotanici Cluj-Napoca, 2015, 43(1):19-24 DOI: 10.15835/nbha4319760

19Yongling Liao, Feng Xu*, HUANG Xiao, Weiwei Zhang, Hua Cheng, Linling Li, Shuiyuan Cheng Yongbao Shen. Promoter Analysis and Transcriptional Profiling of Ginkgo biloba 3-Hydroxy-3-Methylglutaryl Coenzyme A Reductase (GbHMGR) gene in Abiotic Stress Responses. Notulae Botanicae Horti Agrobotanici Cluj-Napoca, 2015, 43(1):25-34

20Liao YL, Shen YB, Chang J, Zhang WW, Cheng SY, Xu F*. Isolation, expression, and promoter analysis of GbWRKY2: a novel transcription factor gene from Ginkgo biloba. Int J Genomics 2015, 2015:607185

21、母洪娜,孙陶泽,杨秀莲,王良桂.两个桂花品种花色色素相关基因的差异表达,南京林业大学学报(自然科学版),2015,03:183-186.

22、刘志雄,李凤兰. 樱胚珠发育调控基因PrseSTK在单瓣与重瓣花中的表达比较. 植物研究,201535 (4): 535-539.

23、刘志雄,李来运,李凤兰. 日本晚樱PrseSHP基因的克隆与功能分析.西北植物学报,201535 (8): 1506-1510.

24、方正武,刘志雄*.甜荞花同源异型基因FeMADS1的克隆和序列结构分析.西北农业学报,2015243):82-87.

25、方正武, 李来运,李晓方,刘志雄*. 甜荞木瓜类半胱氨酸蛋白酶基因FeRD21的克隆与表达分析.西北植物学报, 201535(3):0459-0464.

26、刘会宁,李从玉. 6个生理生化指标与葡萄抗白粉病的关系[J]. 中国南方果树,2015(5) 79-82.

27、肖波,张义,张明权.幼龄桃树套种西瓜双膜覆盖优质高产早熟栽培技术.中国瓜菜,2015281:60-61

28、经博翰,袁龙义*.洪湖5种优势沉水植物光合荧光特性比较研究.西北植物学报,201535(2):344—349.

29、张德健, 夏仁学, 曹秀. 根毛的生长发育及其遗传基础. 植物生理学报, 2015, 51 (1): 9-20.

30、张德健, 夏仁学, 曹秀. 矿质养分和激素对根毛生长发育的影响及作用机制. 植物营养与肥料学报, (2015).

31、李玮婷,宗卫,费永俊. 水杨酸和氯化钙对低温条件下闽楠生理指标的影响[J]. 林业科技开发,2015,05:23-26.

32、丁琼,张佑麟,刘刚,徐振东,费永俊. 水分胁迫对香樟和黑壳楠幼苗光合特性的影响[J]. 西南林业大学学报,2015,04:14-20.

33、徐振东,杨曼,费永俊. 珍贵树种宜昌楠研究进展及其发展对策[J]. 黑龙江农业科学,2015,09:152-156

34、李玮婷,宗卫,费永俊. 水杨酸和氯化钙对低温条件下闽楠生理指标的影响[J]. 林业科技开发,2015,05:23-26.

35、周存宇,万小丽,张建,费永俊. 五种楠属植物叶片油细胞和黏液细胞的比较[J]. 湖北农业科学,2015,18:4506-4508+4518.

36、黄晓蓉,李玮婷,刘刚,徐振东,费永俊. 水分胁迫对楠木幼苗抗逆生理特性的影响[J]. 北方园艺,2015,07:68-71.

37、刘刚,费永俊,涂铭,丁植磊. 矮壮素和缩节胺对闽楠幼苗抗寒性的影响[J]. 湖北农业科学,2015,06:1403-1406+1444.

38、刘刚,涂铭,黄小云,李文杰,费永俊. 不同土壤条件下闽楠幼苗生长量研究[J]. 湖北农业科学,2015,07:1618-1620.

39、张建,费永俊,周存宇. 丹东蒲公英和斑叶蒲公英染色体变异初探[J]. 湖北农业科学,2015,10:2397-2400

40、杨曼,张佑麟,徐振东,刘刚,费永俊. 水分胁迫对黑壳楠和香樟幼苗生理特性的影响[J]. 南方农业学报,2015,08:1449-1454

 

 

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