© 2018 ZHAO'S LABORATORY
THE HONG KONG POLYTECHNIQUE UNIVERSITY, DEPARTMENT OF APPLIED BIOLOGYAND CHEMICAL TECHNOLOGY
6. Bao, X.; Xiong, Y.; Li, X.; Li, X. D. A chemical reporter facilitates the detection and identification of lysine HMGylation on histones. Chemical Science, 2018. DOI: 10.1039/C8SC02483A
5. Jing, Y.; Liu, Z.; Tian G.; Bao, X.; Ishibashi T.; Li, X. D. Site-Specific Installation of Succinyl Lysine Analog into Histones Reveals the Effect of H2BK34 Succinylation on Nucleosome Dynamics. Cell Chem Biol., 2018, 5;25(2)
4. Bao, X.; Xiong, Y.; Li, X.; Li, X. D. A chemical reporter facilitates the detection and identification of lysine HMGylation on histones. Chemical Science, 2018. DOI: 10.1039/C8SC02483A
3. Jing, Y.; Liu, Z.; Tian G.; Bao, X.; Ishibashi T.; Li, X. D. Site-Specific Installation of Succinyl Lysine Analog into Histones Reveals the Effect of H2BK34 Succinylation on Nucleosome Dynamics. Cell Chem Biol., 2018, 5;25(2)
2. Bao, X.; Xiong, Y.; Li, X.; Li, X. D. A chemical reporter facilitates the detection and identification of lysine HMGylation on histones. Chemical Science, 2018. DOI: 10.1039/C8SC02483A
1. Jing, Y.; Liu, Z.; Tian G.; Bao, X.; Ishibashi T.; Li, X. D. Site-Specific Installation of Succinyl Lysine Analog into Histones Reveals the Effect of H2BK34 Succinylation on Nucleosome Dynamics. Cell Chem Biol., 2018, 5;25(2)
THE HONG KONG POLYTECHNIQUE UNIVERSITY, DEPARTMENT OF APPLIED BIOLOGYAND CHEMICAL TECHNOLOGY