Add to ORKGZervamicin-IIB (Zrv-IIB) is a 16 residue peptaibol which forms voltage-activated, multiple conductance level channels in planar lipid bilayers. A molecular model of Zrv-IIB channels is presented. The structure of monomeric Zrv-IIB is based upon the crystal structure of Zervamicin-Leu. The helical backbone is kinked by a hydroxyproline residue at position 10. Zrv-IIB channels are modelled as helix bundles of from 4 to 8 parallel helices surrounding a central pore. The monomers are packed with their C-terminal helical segments in close contact, and the bundles are stabilized by hydrogen bonds between glutamine 11 and hydroxyproline 10 of adjacent helices. Interaction energy profiles for movement of three different probes species (K+, Cl- and ...
The membrane channel-forming polypeptide, Leu1-zervamicin, Ac-Leu-Ile-Gln-Iva-Ile5-Thr-Aib-Leu-Aib-H...
Atomic-scale computer models were developed for how cecropin peptides may assemble in membranes to f...
Ion channels are membrane proteins of key physiological and pharmacological importance. As is the ca...
Zervamicin-IIB (Zrv-IIB) is a 16 residue peptaibol which forms voltage-activated, multiple conductan...
Zervamicin-IIB (Zrv-IIB) is a 16 residue peptaibol which forms voltage-activated, multiple conductan...
The zervamicins (Zrv) are a family of 16 residue peptaibol channel formers, related to the 20 residu...
Voltage dependent membrane channels are formed by the zervamicins, a group of α-aminoisobutyric acid...
AbstractZervamicin IIB is a 16-amino acid peptaibol that forms voltage-dependent ion channels with m...
isovaline; Hyp: 4-hydroxyproline; Phol: phenylalininol) has been analyzed by x-ray dif-fraction in a...
Structures in four different crystal forms of [Leu1]zervamicin (zervamicin Z-L, Ac-Leu-Ile-Gln-Iva-I...
AbstractSpatial structure of the membrane channel-forming hexadecapeptide, zervamicin IIB, was studi...
The recent determination of several crystal structures of voltage-gated ion channels has catalyzed c...
AbstractThe effect of a transmembrane potential on ion channel formation by zervamicin II (ZER-II) w...
AbstractZervamicin IIB (Zrv-IIB) is a channel-forming peptaibol antibiotic of fungal origin. The mea...
Structures in four different crystal forms of [Leu1]zervamicin (zervamicin Z-L, Ac-Leu-Ile-Gln-Iva-I...
The membrane channel-forming polypeptide, Leu1-zervamicin, Ac-Leu-Ile-Gln-Iva-Ile5-Thr-Aib-Leu-Aib-H...
Atomic-scale computer models were developed for how cecropin peptides may assemble in membranes to f...
Ion channels are membrane proteins of key physiological and pharmacological importance. As is the ca...
Zervamicin-IIB (Zrv-IIB) is a 16 residue peptaibol which forms voltage-activated, multiple conductan...
Zervamicin-IIB (Zrv-IIB) is a 16 residue peptaibol which forms voltage-activated, multiple conductan...
The zervamicins (Zrv) are a family of 16 residue peptaibol channel formers, related to the 20 residu...
Voltage dependent membrane channels are formed by the zervamicins, a group of α-aminoisobutyric acid...
AbstractZervamicin IIB is a 16-amino acid peptaibol that forms voltage-dependent ion channels with m...
isovaline; Hyp: 4-hydroxyproline; Phol: phenylalininol) has been analyzed by x-ray dif-fraction in a...
Structures in four different crystal forms of [Leu1]zervamicin (zervamicin Z-L, Ac-Leu-Ile-Gln-Iva-I...
AbstractSpatial structure of the membrane channel-forming hexadecapeptide, zervamicin IIB, was studi...
The recent determination of several crystal structures of voltage-gated ion channels has catalyzed c...
AbstractThe effect of a transmembrane potential on ion channel formation by zervamicin II (ZER-II) w...
AbstractZervamicin IIB (Zrv-IIB) is a channel-forming peptaibol antibiotic of fungal origin. The mea...
Structures in four different crystal forms of [Leu1]zervamicin (zervamicin Z-L, Ac-Leu-Ile-Gln-Iva-I...
The membrane channel-forming polypeptide, Leu1-zervamicin, Ac-Leu-Ile-Gln-Iva-Ile5-Thr-Aib-Leu-Aib-H...
Atomic-scale computer models were developed for how cecropin peptides may assemble in membranes to f...
Ion channels are membrane proteins of key physiological and pharmacological importance. As is the ca...