郑成超的主要研究论文
\u79d1\u5b66\u7814\u7a76\u8bba\u6587 \u600e\u4e48\u5199\uff1f\u8682\u8681\u4e3a\u4ec0\u4e48\u4e0d\u4f1a\u8ff7\u8def\uff1f
\u8682\u8681\uff0c\u76f8\u4fe1\u5927\u5bb6\u90fd\u5f88\u719f\u6089\u3002\u90a3\u53c8\u6709\u8c01\u80fd\u771f\u6b63\u5730\u4e86\u89e3\u8682\u8681\u5462\uff1f\u8682\u8681\u4e3a\u4ec0\u4e48\u4e0d\u4f1a\u8ff7\u8def\u5462\uff1f
\u5e26\u7740\u8fd9\u4e2a\u95ee\u9898\uff0c\u6211\u67e5\u9605\u4e86\u4e00\u4e9b\u4e66\u7c4d\u3002\u4e66\u4e0a\u8bf4\uff0c\u8682\u8681\u4ece\u8681\u7a74\u51fa\u53d1\u5230\u8fbe\u76ee\u7684\u5730\u540e\uff0c\u6cbf\u9014\u4f1a\u7559\u4e0b\u4e00\u4e9b\u6c14\u5473\uff0c\u8fd4\u56de\u8681\u7a74\u3002\u7528\u89e6\u89d2\u76f8\u4e92\u78b0\u4e00\u4e0b\uff0c\u901a\u77e5\u5176\u4ed6\u7684\u8682\u8681\u3002\u79d1\u5b66\u5bb6\u66fe\u7ecf\u5c31\u8fd9\u4e2a\u95ee\u9898\u4f5c\u4e86\u4e00\u4e2a\u8bd5\u9a8c\u3002\u79d1\u5b66\u5bb6\u5148\u786e\u5b9a\u4e00\u53ea\u8682\u8681\uff0c\u5c06\u4ed6\u6cbf\u9014\u5230\u8fbe\u76ee\u7684\u5730\u7684\u5730\u65b9\u7528\u529b\u64e6\u5e72\u51c0\u3002\u5f53\u8fd9\u53ea\u8682\u8681\u8fd4\u56de\u65f6\uff0c\u5728\u88ab\u64e6\u53bb\u6c14\u5473\u7684\u5730\u65b9\u7a81\u7136\u95f4\u505c\u4e86\u4e0b\u6765\u3002\u539f\u5730\u8fb9\u8f6c\u5708\u8fb9\u5bfb\u627e\u7740\u4ec0\u4e48\u3002\u4ece\u800c\u5f97\u5230\u8682\u8681\u662f\u9760\u6c14\u5473\u6765\u8fa8\u522b\u65b9\u5411\u7684\u3002
\u6211\u4e3a\u4e86\u8bc1\u5b9e\u8fd9\u4e2a\u7ed3\u8bba\uff0c\u6211\u505a\u4e86\u4e2a\u8bd5\u9a8c\u3002\u6211\u9996\u5148\u51c6\u5907\u4e86\u4e00\u4e2a\u5341\u5398\u7c73\u5de6\u53f3\u7684\u7ec6\u5c0f\u6811\u679d\uff0c\u5728\u6811\u679d\u7684\u4e00\u5934\u653e\u4e0a\u4e00\u4e2a\u8bf1\u9975\u2014\u2014\u5c0f\u7cd6\u679c\u3002\u6211\u628a\u8fd9\u4e2a\u88c5\u7f6e\u653e\u5728\u4e00\u4e2a\u8681\u7a74\u9644\u8fd1\u3002\u4e0d\u4e00\u4f1a\u513f\uff0c\u6709\u4e00\u53ea\u8682\u8681\u51fa\u6765\u63a2\u8def\u4e86\u3002\u6211\u628a\u4ed6\u5f15\u4e0a\u6728\u68cd\u540e\uff0c\u4ed6\u5230\u8fbe\u4e86\u7cd6\u679c\u7684\u5730\u65b9\uff0c\u4eff\u4f5b\u5728\u95fb\u4e00\u95fb\u3001\u55c5\u4e00\u55c5\u3002\u6211\u8d81\u6b64\u673a\u4f1a\u5c06\u6728\u68cd\u7684\u4e2d\u65ad\u90e8\u5206\u622a\u4e0b\u4e00\u5398\u7c73\u7684\u6728\u68cd\u3002\u5f53\u8fd9\u53ea\u8682\u8681\u8fd4\u56de\u7684\u65f6\u5019\uff0c\u5c31\u5728\u88ab\u622a\u53bb\u7684\u5730\u65b9\u5de6\u8f6c\u53f3\u8f6c\uff0c\u5c31\u662f\u627e\u4e0d\u5230\u56de\u5bb6\u7684\u8def\u3002
\u8fc7\u4e86\u4e00\u4f1a\u513f\uff0c\u6211\u53c8\u91cd\u590d\u4e86\u4e0a\u9762\u7684\u8bd5\u9a8c\uff0c\u8682\u8681\u4ecd\u7136\u6ca1\u6709\u627e\u5230\u56de\u5bb6\u7684\u8def\u3002
\u901a\u8fc7\u8fd9\u4e24\u6b21\u5b9e\u9a8c\uff0c\u6211\u7ec8\u4e8e\u77e5\u9053\u8682\u8681\u4e3a\u4ec0\u4e48\u4e0d\u4f1a\u8ff7\u8def\u7684\u79d8\u5bc6\u4e86\u3002\u539f\u6765\u8682\u8681\u662f\u6839\u636e\u6c14\u5473\u6765\u8fa8\u522b\u65b9\u5411\u7684\u3002
\u77e5\u9053\u4e86\u8682\u8681\u7684\u8fd9\u4e00\u79d8\u5bc6\u540e\uff0c\u6211\u5728\u60f3\uff1a\u662f\u5426\u6211\u4eec\u53ef\u4ee5\u5236\u4f5c\u4e00\u79cd\u8682\u8681\u62a5\u8b66\u5668\u5462\uff1f\u5f53\u8682\u8681\u8d70\u5230\u62a5\u8b66\u5668\u9644\u8fd1\u65f6\uff0c\u62a5\u8b66\u5668\u5c31\u80fd\u201c\u95fb\u201d\u51fa\u8682\u8681\u7684\u6c14\u5473\uff0c\u7136\u540e\u53d1\u51fa\u9e23\u53eb\u58f0\uff0c\u8ba9\u6211\u4eec\u77e5\u9053\u8682\u8681\u8dd1\u5230\u6a71\u67dc\u91cc\u4e86\u6216\u5176\u4ed6\u5730\u65b9
\u5e94\u8be5\u662f\u63d0\u51fa\u79d1\u5b66\u95ee\u9898\u6216\u5b9a\u5f8b,\u5206\u6790\u540e\u4f5c\u8bc4\u8bba\u5427
在《Molecular Cell》 (影响因子14.178)、《Neuclear Acids Research》、《Plant Physiology》、《New Phytologist》、《中国科学》、《科学通报》等国内外著名学术刊物上发表论文170多篇。
1、Zheng CC, Porat R, Lu P, O’Neill SD. PNZIP is a novel mesophyll-specific cDNA that is regulated by phytochrome and a circadian rhythm and encodes a protein with a leucine zipper motif. Plant Physiology, 1998, 116:27~35
2、Zheng CC, Bui AQ, O’Neill SD. Abundance of an mRNA encoding a HMG DNA-binding protein is regulated by light and an endogenous rhythm. Plant Molecular Biology. 1993, 23:813~823
3、张可伟,郑成超(通讯作者)。强MAR的分离及体外功能鉴定。科学通报,2002,47(20):1572- 1577
4、杨宇涛,郑成超(通讯作者)。一个光合组织特异表达强启动子的分离及功能分析。中国科学,2003,33(4):298-306.
5、李宏,郑成超(通讯作者)。6个植物MARs序列的ARS功能鉴定与分析。科学通报,2003,48(24):2544- 2548
6、Ning Liu, Cheng-Chao Zheng(通讯作者), NTZIP antisense plants show reduced chlorophyll levels, Plant Physiology and Biochemistry. 2004,42(4):321-327
7、Changai Wu, Zheng Chengchao(通讯作者). The cotton GhNHX1 gene encoding a novel putative tonoplast Na+/H+ antiporter plays an important role in salt stress. Plant and Cell Physiology, 2004,45(5): 489-496
8、Hai-Yan Li, Cheng-Chao Zheng(通讯作者). Colonization by the Arbuscular Mycorrhizal Fungus Glomus versiforme Induces a Defense Response Against the Root-knot Nematode Meloidogyne incognita in the Grapevine (Vitis amurensis Rupr.), Which Includes Transcriptional Activation of the Class III Chitinase Gene VCH3. Plant and Cell Physiology, 2006, 47(1): 154–163
9、Xiao Wang, Chengchao Zheng(通讯作者). Isolation and purification of honokiol and magnolol from cortex magnoliae officinalis by high-speed counter-current chromatography. Journal of chromatography A. 2004, 1036(2):171-175.
10、Xiao Wang, Chengchao Zheng(通讯作者) An efficient new method for extraction, separation and purification of psoralen and isopsoralen from Fructus Psoraleae by supercritical fluid extraction and high-speed counter-current chromatography。Journal of chromatography A. 2004,.1055:135-140
11、Xiao Wang, Chengchao Zheng(通讯作者). Application of preparative high-speed counter-current chromatography for separation and purification of arctiin from Fructus Arctii, Journal of chromatography A. 2004, 1063: 247-251
12、Hua Xue, Cheng-Chao Zheng(通讯作者), TM2, a novel strong matrix attachment region isolated from tobacco, increases transgene expression in transgenic rice calli and plants. Theoretical and Applied Genetics. 2005, 110:620-627
13、Hongxin Zhang and Cheng-Chao Zheng(通讯作者).Expression and characterization of Helicobacter pylori heat-shock protein A (HspA) protein in transgenic tobacco (Nicotiana tabacum) plants. Biotechnology and Appllied Biochemistry. 2006,43, 33–38
14、 Da-Peng Shan, Jin-Guang Huang, Yu-Tao Yang, Ying-Hui Guo andCheng-Chao Zheng*. Cotton GhDREB1 increases plant tolerance to low temperature and is negatively regulated by gibberellic acid.New Phytologist2007. 176: 70–81
15、Meng-Meng Zhanga, Lu-Sha Ji, Hua Xue, Yu-Tao Yang, Chang-Ai Wu andCheng-Chao Zheng*. High transformation frequency of tobacco and rice via Agrobacterium-mediated gene transfer by flanking a tobacco matrix attachment regionPhysiologia Plantarum2007.129: 644–651.
16、Dong Wang, Yinghui Guo, Changai Wu, Guodong Yang, Yingying Li andChengchao Zheng*. Genome-wide analysis of CCCH zinc finger family in Arabidopsis and rice.BMC Genomics2008, 9:44
17、Hanhua Liu, Xin Tian, Yanjie Li, Changai Wu andChengchao Zheng*.Microarray-based analysis of stress-regulated microRNAs in Arabidopsis thaliana.RNA2008, 14: 836-843
18、 Xin Huang · Wei Zhu · Silan Dai · Shupeng Gai ·Guosheng Zheng ·Chengchao Zheng*. The involvement of mitochondrial phosphate transporter in accelerating bud dormancy release during chilling treatment of tree peony (Paeonia suVruticosa).Planta2008, 228(4):545-52
19、Xiyan Yu, Xiufeng Wang, Wenqian Zhang, Tingting Qian, Guimin Tang, Yankui Guo,Chengchao Zheng*. Antisense Suppression of an Acid Invertase Gene (MAI1) in Muskmelon Alters Plant Growth and Fruit Development.Journal of Experimental Botany.2008, 59(11):2969-77.
20、Jiedao Zhang, Longtao Lu, Lusha Ji, Guodong Yang,Chengchao Zheng*. Functional characterization of a tobacco matrix attachment region-mediated enhancement of transgene expression.Transgenic Research.2009, 18:377-385
21、 Hongxin Zhang andCheng-Chao Zheng* Oral immunogenicity and protective efficacy in mice of a carrot-derived vaccine candidate expressing UreB subunit againstHelicobacter pylori.Protein Expression and Purification. 2009, 69:127-131
22、Tongtong Xue, Xinzheng Li, Wei Zhu, Changai Wu, Guodong Yang, andChengchao Zheng*. Cotton metallothionein GhMT3a, a reactive oxygen species scavenger, increased tolerance against abiotic stress in transgenic tobacco and yeast.Journal of Experimental Botany.2009, 60: 339-349
23、 Ying-Hui Guo, Yue-Ping Yu, Dong Wang, Chang-Ai Wu, Guo-Dong Yang, Jin-Guang Huang andCheng-Chao Zheng*. GhZFP1, a novel CCCH-type zinc finger protein from cotton, enhances salt stress tolerance and fungal disease resistance in transgenic tobacco by interacting with GZIRD21A and GZIPR5.New Phytologist2009, 183: 62–75
24、Yu-Tao Yang, Yan-Li Yu, Guo-Dong Yang, Jie-Dao Zhang andCheng-Chao Zheng*, Tissue-specific expression of the PNZIP promoter is mediated by combinatorial interaction of different cis-elements and a novel ranscriptional factor.Nucleic Acids Research2009, 37(8):2630–2644
25、Jin-Guang Huang, Mei Yang, Pei Liu, Guo-Dong Yang, Chang-Ai Wu andCheng-Chao Zheng*.GhDREB1enhances abiotic stress tolerance, delays GA-mediated development and represses cytokinin signaling in transgenic Arabidopsis.Plant, Cell & Environment, 2009, 32, 1132–1145
26、YanLi Yu, YanZe Li, LingLi Li, JinXing Lin,ChengChao Zheng*Overexpression ofPwTUA1, a pollen-specific tubulin gene, increases pollen tube elongation by altering the distribution of α-tubulin and promoting vesicle transport.Journal of Experimental Botany,2009, 60(9):2737-49
27、 Yanjie Li, Yaru Fu, Lusha Ji, Changai Wu,Chengchao Zheng*.Characterization and expression analysis of the Arabidopsis mir169 family.Plant Science2010,178: 271-280
28、Jin-Guang Huang, Mei Yang, Pei Liu, Guo-Dong Yang, Chang-Ai Wu,Cheng-Chao Zheng*.Genome-wide profiling of developmental, hormonal or environmental responsiveness of the nucleocytoplasmic transport receptors in Arabidopsis.Gene.2010, 451:38-44
29、Dongmei Xi, Wushuang Liu, Guodong Yang, Changai Wu,Cheng-chao Zheng*. Seed-specific overexpression of antioxidant genes in Arabidopsis enhances oxidative stress tolerance during germination and early seedling growth.Plant Biotechnology Journal,2010, 8:796-806.
30、 Hao Huan, Sheng-Dong Qi, Fang Qi, Chang-Ai Wu, Guo-Dong Yang andCheng-Chao Zheng*. NtKTI1, a Kunitz trypsin inhibitor with antifungal activity from Nicotiana tabacum, plays an important role in tobacco’s defense response.FEBS Journal2010, 277:4076-4088.
31、Yanjie Li, Yaru Fu, Jinguang Huang, Changai Wu andChengchao Zheng*Insight into the transcriptional regulation during the early development of the maize brace root.FEBS Journal2010
绛旓細鍦ㄣ奙olecular Cell銆 锛堝奖鍝嶅洜瀛14.178锛夈併奛euclear Acids Research銆嬨併奝lant Physiology銆嬨併奛ew Phytologist銆嬨併婁腑鍥界瀛︺嬨銆婄瀛﹂氭姤銆嬬瓑鍥藉唴澶栬憲鍚嶅鏈垔鐗╀笂鍙戣〃璁烘枃170澶氱瘒銆1銆乑heng CC, Porat R, Lu P, O鈥橬eill SD. PNZIP is a novel mesophyll-specific cDNA that is regulated ...
绛旓細31.杩熻儨璧,瀹嬩簯鏋,鏈卞父棣,閮戞垚瓒,鍒樻檽鐜,娓╁瓪姹*銆鏍稿熀璐ㄧ粨鍚堝尯瀵归┈閾冭柉Y鐥呮瘨鍏ㄩ暱闈炵炕璇慍P鍩哄洜浠嬪鎶楃梾鎬х殑褰卞搷銆傛鐗╃梾鐞嗗鎶,2005,35鈶:345-35132.鎱堟檽鐕,濮氭柟鍗,鏈卞父棣,瀹嬩簯鏋,娓╁瓪姹*,濮滄槑鏉俱傚惈cry1Ab鍜孹a21鍩哄洜鎶楃梾铏按绋婚夎偛鐮旂┒鍙婂叾鐢伴棿琛ㄧ幇銆備腑鍥藉啘涓氱瀛,2005鈶:313-31933.钁涙硥鍗,Michael Maixner,娓╁瓪...
