梁晶丹 的个人介绍页
梁晶丹
梁晶丹
副教授
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62932943

个人简历

1990.9-1994.6 山西大学生命科学技术学院微生物专业本科,获理学学士学位
1994.9-1997.7 南京农业大学植物病理系植物病理专业研究生,获理学硕士学位
1997.7-2003.3 南通工学院化工系 任教
2003.3-2008.1 上海交通大学生命科学技术学院生物工程系微生物学专业学习,获理学博士学位
2008.1至今 上海交通大学生命科学技术学院生物工程系邓子新实验室任教

研究方向

主要从事DNA大分子硫修饰的课题研究。
DNA modification, most often in the form of methylation, occur naturally both in prokaryotes and in eukaryotes. Subtle changes at bases, effected by proteins recognizing modified/unmodified form of specific nucleotide sequences, have profound impact on a variety of physiological aspects of related organisms. In bacteria, DNA methylation can serve as a restriction and modification system to defend the host from phage, as a genetic switch to turn specific gene expression on or off, and as a marker to coordinate chromosome replication and mismatch repair.
Although DNA backbone phosphodiester linkage is structurally monotonous, potential alterations, as a playground of chemists, have been extensively explored. DNA phosphorothioation, in which the non-bridging oxygen swapped with sulfur, is one of such effective alteration. Owing to its property of resistance to nuclease digestion, DNA phosphorothioation is widely used in biochemical and clinical applications. Interestingly, bacteria also have the ability to harvest the potential of such DNA alteration: the once proved to be sulfur containing DNA modification turns out to be DNA phosphorothioation. Physiological DNA phosphorothioation raised many questions, as noted by professor Fritz Eckstein: 1, how and why has nature chosen this particular modification? 2, what could be the mechanism of post-replicative change of phosphate to phosphorothioate? 3, how sites of DNA thiolation are chosen? 4, what are the function and advantages of this phosphorothioate modification?
Currently, I’m concentrating on the third related question: how sites of DNA phosphorothioation are chosen in bacteria?

发表论文

1. X. Zhou, X. He, J. Liang., T. Xu, A. Li, T. Kieser, J. D. Helmann and Z. Deng (2005). A novel DNA modification by sulphur. Molecular Microbiology, 57(5): 1428-1438.

2. J. Liang, Z. Wang, X. He, J. Li, X. Zhou, and Z. Deng (2007). DNA modification by sulphur: analysis of the sequence recognition specificity surrounding the modification sites. Nucleic Acids Research, 35(9):2944-54.

3. X. He, H.Y. Ou, Q. Yu, X. Zhou, J. Wu, J. Liang, W. Zhang, K. Rajakumar and Z. Deng (2007). Analysis of a genomic island housing genes for DNA S-modification system in Streptomyces lividans 66 and its counterparts in other distantly related bacteria. Molecular Microbiology, 65(4):1034-48.

研究成果

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