Voltage vs. Ligand II: Structural insights of the intrinsic flexibility in cyclic nucleotide-gated channels

Abstract: In the preceding article, we present a flexibility analysis of the voltage-gated ion channel (VGIC) superfamily. In this study, we describe in detail the flexibility profile of the voltage-sensor domain (VSD) and the pore domain (PD) concerning the evolution of 6TM ion channels. In particular, we highlight the role of flexibility in the emergence of CNG channels and describe a significant level of sequence similarity between the archetypical VSD and the TolQ proteins. A highly flexible S4-like segment exhibiti… Show more

“…Hence, we suggest such an arrangement as the ancestral state for the entire CNBD-channel group. The fact that known bacterial CNBD-channels except MloK1 show non-swapped arrangement supports this suggestion 38 . In contrast, K v -like channels usually possess longer S4-S5 linkers (Fig.…”

Diversity of voltage-gated potassium channels and cyclic nucleotide-binding domain-containing channels in eukaryotes

“…Hence, we suggest such an arrangement as the ancestral state for the entire CNBD-channel group. The fact that known bacterial CNBD-channels except MloK1 show non-swapped arrangement supports this suggestion 38 . In contrast, K v -like channels usually possess longer S4-S5 linkers (Fig.…”

Diversity of voltage-gated potassium channels and cyclic nucleotide-binding domain-containing channels in eukaryotes

Exploring Flexibility and Folding Patterns Throughout Time in Voltage Sensors

CNG channel structure, function, and gating: a tale of conformational flexibility