2019
DOI: 10.1101/790154
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Structure of KCNH2 cyclic nucleotide-binding homology domain reveals a functionally vital salt-bridge

Abstract: Human KCNH2 are key channels governing cardiac repolarization. Here, a 1.5 Å resolution structure of their cyclic nucleotide-binding homology domain is presented. Structural analysis and electrophysiological validation reveal a novel salt-bridge, playing an important role in hKCNH2 functional regulation.3 AbstractHuman KCNH2 (hKCNH2, Ether-à-go-go (EAG)-Related Gene, hERG) are best known for their role in cardiac action potentials repolarization and have key roles in various pathologies. As other KCNH family m… Show more

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Cited by 3 publications
(6 citation statements)
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“…New details provided by this structure are 1) a new, very detailed picture showing a meshwork of hydrogen bonds associated with the intrinsic ligand, including I804-F860, G806-L862, N819-L862, T859-I804, R863-N861, N819-N861, and N819-R863 (black dashed lines, Figure 7b; underlined residues, Figure 7c) and 2) the identification of a new salt bridge (green-dashed line, Figure 7b) between a residue (E807) in the CNBHD and a residue (R863) adjacent to the intrinsic ligand (red font, Figure 7c). Electrophysiology experiments show a functional role for the salt bridge in hERG channel gating and sequence alignments (Figure 7c) show the conservation of the salt bridge in other KCNH channels [4].…”
Section: The Intrinsic Ligandmentioning
confidence: 94%
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“…New details provided by this structure are 1) a new, very detailed picture showing a meshwork of hydrogen bonds associated with the intrinsic ligand, including I804-F860, G806-L862, N819-L862, T859-I804, R863-N861, N819-N861, and N819-R863 (black dashed lines, Figure 7b; underlined residues, Figure 7c) and 2) the identification of a new salt bridge (green-dashed line, Figure 7b) between a residue (E807) in the CNBHD and a residue (R863) adjacent to the intrinsic ligand (red font, Figure 7c). Electrophysiology experiments show a functional role for the salt bridge in hERG channel gating and sequence alignments (Figure 7c) show the conservation of the salt bridge in other KCNH channels [4].…”
Section: The Intrinsic Ligandmentioning
confidence: 94%
“…Recently, Haitin and colleagues solved the X-ray crystal structure of the hERG CNBHD at high (1.5 Angstrom) resolution [4]. New details provided by this structure are 1) a new, very detailed picture showing a meshwork of hydrogen bonds associated with the intrinsic ligand, including I804-F860, G806-L862, N819-L862, T859-I804, R863-N861, N819-N861, and N819-R863 (black dashed lines, Figure 7b; underlined residues, Figure 7c) and 2) the identification of a new salt bridge (green-dashed line, Figure 7b) between a residue (E807) in the CNBHD and a residue (R863) adjacent to the intrinsic ligand (red font, Figure 7c).…”
Section: The Intrinsic Ligandmentioning
confidence: 99%
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“…Nonetheless, a gold standard for surmising structure/function relationships in proteins and how they might be perturbed by missense mutations is interpreting atomistic-scale structural data of intact proteins, when available. To date, such information for Kv11.1a is incomplete and comprises only Angstrom resolution models of its PAS, EAG and CNBD domains but not of the whole channel [ 92 , 93 , 94 ]. However, a significant advance in this regard is the recent availability of sub-nanometer resolution structural data of the Kv11.1a channel via cryo-electron microscopy [ 27 ].…”
Section: Introductionmentioning
confidence: 99%