Chen X, Leyendecker S (2024)
Publication Type: Journal article
Publication year: 2024
Book Volume: 43
Journal Issue: 5
Protein kinases are crucial cellular enzymes that facilitate the transfer of phosphates from adenosine triphosphate (ATP) to their substrates, thereby regulating numerous cellular activities. Dysfunctional kinase activity often leads to oncogenic conditions. Chosen by using structural similarity to 5UG9, we selected 79 crystal structures from the PDB and based on the position of the phenylalanine side chain in the DFG motif, we classified these 79 crystal structures into 5 group clusters. Our approach applies our kinematic flexibility analysis (KFA) to explore the flexibility of kinases in various activity states and examine the impact of the activation loop on kinase structure. KFA enables the rapid decomposition of macromolecules into different flexibility regions, allowing comprehensive analysis of conformational structures. The results reveal that the activation loop of kinases acts as a “lock” that stabilizes the active conformation of kinases by rigidifying the adjacent α-helices. Furthermore, we investigate specific kinase mutations, such as the L858R mutation commonly associated with non-small cell lung cancer, which induces increased flexibility in active-state kinases. In addition, through analyzing the hydrogen bond pattern, we examine the substructure of kinases in different states. Notably, active-state kinases exhibit a higher occurrence of α-helices compared to inactive-state kinases. This study contributes to the understanding of biomolecular conformation at a level relevant to drug development.
APA:
Chen, X., & Leyendecker, S. (2024). Kinematic analysis of kinases and their oncogenic mutations – Kinases and their mutation kinematic analysis. Molecular Informatics, 43(5). https://doi.org/10.1002/minf.202300250
MLA:
Chen, Xiyu, and Sigrid Leyendecker. "Kinematic analysis of kinases and their oncogenic mutations – Kinases and their mutation kinematic analysis." Molecular Informatics 43.5 (2024).
BibTeX: Download