1. The mechanism of regulation of hexokinase: new insights from the crystal structure ofrecombinant human brain hexokinase complexed with glucose andglucose-6-phosphate. Aleshin A, Zeng C, Bourenkov G, Bartunik H, Fromm H,Honzatko R. Structure. 6. 1: 39-50 (1998).
2. The structureof mammalian hexokinase-1. Mulichak A, Wilson J, Padmanabhan K, Garavito R.Nature Structural Biology. 5: 555-560 (1988).
3. Function of interdomainα-helix in human brain hexokinase:covalent linkage and catalytic regulation between N- and C-terminal halves.Tsai H. Journal of Biomedical Science. 14. 2:195-202 (2006).
4. ATP-binding site of human brain hexokinase as studied by molecular modelingand site-directed mutagenesis. Zeng C, Aleshin A, Hardie J, Harrison R, Fromm H. Biochemistry. 35: 13157-13164 (1996).
5. Identification of a phosphate regulatory site and a low affinity binding site for glucose-6-phosphate in the N-terminal half of brain hexokinase. Fang T, Alechina O, Aleshin A, Fromm H, Honzatko. The Journal of Biological Chemistry. 273: 19548-19553 (1998).
6. Regulation of hexokinase I: crystal structure ofrecombinant human brain hexokinase complexed with glucose and phosphate.Aleshin A, Zeng C, Bartunik H, Fromm H, Honzatka R. Journal of MolecularBiology. 282. 2: 345-357 (1998).
7. Functional interaction between N-and C-terminalhalves of human hexokinase I. Ardehali H, Printz RL, Whitesell RR, May JM,Granner DK. J Biol Chem. 274. 23: 15986-15989 (1999).
8. The structure of mammalian hexokianse-1. MulichakA, Wilson J, Padmanabhan K, Garavito M. Nature Structural Biology. 5: 555-560(1998).
9. Dali Server: Conservation mapping in 3d. Holm L, Rosenstrom P. Nucleic Acid Research. 38: N545-4549 (2010).
10. "Hexokinase." Wikipedia, the Free Encyclopedia. 2010.