Crystal structure of brain‐type creatine kinase at 1.41 Å resolution

Protein Science - Tập 8 Số 11 - Trang 2258-2269 - 1999

Michael Eder^1,2, Uwe Schlattner², Theo Wallimann², Andreas Becker¹, Wolfgang Kabsch¹, Karin Fritz‐Wolf¹

¹Department of Biophysics, Max-Planck Institute for Medical Research Heidelberg, Jahnstr. 29, D-69120 Heidelberg, Germany

²Institute of Cell Biology, Swiss Federal Institute of Technology, ETH Zurich, CH-8093 Zurich, Switzerland

Tóm tắt

AbstractExcitable cells and tissues like muscle or brain show a highly fluctuating consumption of ATP, which is efficiently regenerated from a large pool of phosphocreatine by the enzyme creatine kinase (CK). The enzyme exists in tissue–as well as compartment‐specific isoforms. Numerous pathologies are related to the CK system: CK is found to be overexpressed in a wide range of solid tumors, whereas functional impairment of CK leads to a deterioration in energy metabolism, which is phenotypic for many neurodegenerative and age‐related diseases. The crystal structure of chicken cytosolic brain‐type creatine kinase (BB‐CK) has been solved to 1.41 Å resolution by molecular replacement. It represents the most accurately determined structure in the family of guanidino kinases. Except for the N‐terminal region (2‐12), the structures of both monomers in the biological dimer are very similar and closely resemble those of the other known structures in the family. Specific Ca2+‐mediated interactions, found between two dimers in the asymmetric unit, result in structurally independent heterodimers differing in their N‐terminal conformation and secondary structure.The high‐resolution structure of BB‐CK presented in this work will assist in designing new experiments to reveal the molecular basis of the multiple isoform‐specific properties of CK, especially regarding different subcellular locations and functional interactions with other proteins. The rather similar fold shared by all known guanidino kinase structures suggests a model for the transition state complex of BB‐CK analogous to the one of arginine kinase (AK). Accordingly, we have modeled a putative conformation of CK in the transition state that requires a rigid body movement of the entire N‐terminal domain by rms 4 Å from the structure without substrates.

Từ khóa

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