| 姓名: | 兰平 | 性别: | 男 |
| 职务: | 职称: | 研究员 | |
| 通讯地址: | 南京市北京东路71号 | ||
| 邮政编码: | 210008 | 电子邮箱: | plan@issas.ac.cn |
兰平,男,博士,研究员,博士生导师。2001年毕业于中国农业大学生物学院,获理学博士学位。2001年8月起先后在中国科学院遗传与发育生物学研究所,德国Fraunhofer Institute for Molecular biology and Applied Ecology ,the Institute of Molecular Biotechnology, RWTH Aachen 大学,The State Agricultural Biotechnology Centre (S.A.B.C),Murdoch University, Western Australia 及Institute of Plant and Microbial biology, Academia Sinica, Taipei从事博士后研究。2012年9月起,受聘中国科学院南京土壤研究所研究员。长期从事植物营养的组学研究,如蛋白组学,转录组学以及分子生物学和系统生物学的研究,相继在Nature Plants、 Proteomics、 Genome biology、 Mol Cell Proteomics、Plant Physiology、Mol Plant Microbe Interact和BMC Plant Biol等国际学术期刊上发表了论文。目前工作的重点,运用蛋白组学和转录组学等系统生物学技术手段,研究植物高效吸收与运输营养物质的分子机制,特别是小分子肽在调控植物根系发育及其植物营养高效吸收中作用。
主要研究方向是从分子水平探讨植物是如何响应和适应环境逆境的(特别是矿质营养溃乏,如缺磷,缺铁和缺锰等)。拟采用蛋白组学及基于新一代测序的转录组学和生物信息学等系统生物学的技术和方法解析植物应答环境逆境的分子调控网络,并结合植物生理和分子生物学,生物化学,遗传学等对网络中的节点进行基因功能验证,为最终通过分子设计培育矿质营养高效吸收利用的作物新品种提供理论指导和基因资源。
1. Grillet, L.#; Lan, P#.; Li, W.; Mokkapati, G.; Schmidt, W. Iron man is a ubiquitous family of peptides that control iron transport in plants. Nature Plants 2018.
2. Karim, M.; Dong, X.; Zheng, L.; Shen, R.; Lan, P. Can aluminum tolerant wheat cultivar perform better under phosphate deficient conditions? International journal of molecular sciences 2018, 19, 2964.
3. Li, W.; Lan, P. The understanding of the plant iron deficiency responses in strategy i plants and the role of ethylene in this process by omic approaches. Frontiers in plant science 2017, 8.
4. Huang, J.; Xue, C.; Wang, H.; Wang, L.; Schmidt, W.; Shen, R.; Lan, P. Genes of acyl carrier protein family show different expression profiles and overexpression of acyl carrier protein 5 modulates fatty acid composition and enhances salt stress tolerance in arabidopsis. Frontiers in plant science 2017, 8, 987.
5. Wang, H.; Lan, P.; Shen, R.F. Integration of transcriptomic and proteomic analysis towards understanding the systems biology of root hairs. Proteomics 2016, 16, 877-893.
6. Li, W.; Lan, P. Re-analysis of rna-seq transcriptome data reveals new aspects of gene activity in arabidopsis root hairs. Frontiers in plant science 2015, 6, 421.
7. Zheng, L.; Lan, P.; Shen, R.F.; Li, W.F. Proteomics of aluminum tolerance in plants. Proteomics 2014, 14, 566-578.
8. Wang, J.; Lan, P.; Gao, H.; Zheng, L.; Li, W.; Schmidt, W. Expression changes of ribosomal proteins in phosphate- and iron-deficient arabidopsis roots predict stress-specific alterations in ribosome composition. BMC genomics 2013, 14, 783.
9. Lan, P.; Li, W.; Schmidt, W. Genome-wide co-expression analysis predicts protein kinases as important regulators of phosphate deficiency-induced root hair remodeling in arabidopsis. BMC genomics 2013, 14, 210.
10. Lan, P.; Li, W.; Lin, W.D.; Santi, S.; Schmidt, W. Mapping gene activity of arabidopsis root hairs. Genome biology 2013, 14, R67.
11. Lan, P.; Li, W.; Wen, T.N.; Schmidt, W. Quantitative phosphoproteome profiling of iron-deficient arabidopsis roots. Plant physiology 2012, 159, 403-417.
12. Lan, P.; Li, W.; Schmidt, W. Complementary proteome and transcriptome profiling in phosphate-deficient arabidopsis roots reveals multiple levels of gene regulation. Molecular & cellular proteomics : MCP 2012, 11, 1156-1166.
13. Lan, P.; Li, W.; Wen, T.N.; Shiau, J.Y.; Wu, Y.C.; Lin, W.; Schmidt, W. Itraq protein profile analysis of arabidopsis roots reveals new aspects critical for iron homeostasis. Plant physiology 2011, 155, 821-834.
14. Lan, P.; Yeh, W.B.; Tsai, C.W.; Lin, N.S. A unique glycine-rich motif at the n-terminal region of bamboo mosaic virus coat protein is required for symptom expression. Molecular plant-microbe interactions : MPMI 2010, 23, 903-914.
15. Lan, P.; Li, W.; Wang, H.; Ma, W. Characterization, sub-cellular localization and expression profiling of the isoprenylcysteine methylesterase gene family in arabidopsis thaliana. BMC plant biology 2010, 10, 212.
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