Heavy meromyosin (HMM) forms clusters along actin filaments under low ATP concentrations. Here, we observed the growth of HMM clusters under low concentrations of ATP in real time using fluorescence microscopy. When actin filaments were loosely immobilized on positively charged lipid bilayers, clusters of HMM-GFP were readily formed. Time-lapse observation revealed that the clusters grew unidirectionally. When we used a mixture of actin filaments and copolymers of actin and acto-S1dC, a chimeric protein of actin and the myosin motor domain, HMM-GFP preferentially formed clusters along the copolymers. We thus suggest that binding of myosin motors carrying ADP and Pi induces unidirectional conformational changes in actin filaments and allosterically recruits more myosin binding. In contrast, when actin filaments and copolymers were anchored to glass substrate via stable biotin-avidin linkage, higher concentrations of HMM-GFP were required to form clusters than on the lipid bilayer. Moreover, actin filaments and copolymers were not discriminated regarding preferential cluster formation. This is presumably because the myosin-induced cooperative conformational changes in actin filaments involve changes in the helical twist. Consistent with this, cofilin clusters, which supertwist the helix, were readily formed along loosely immobilized actin filaments, but not along those anchored via biotin-avidin linkage.
Because of the relevance of d-serine (d-Ser) to schizophrenia, inhibitors of d-amino acid oxidase (DAO), which catalyzes degradation of d-Ser in the presence of flavin adenine dinucleotide (FAD), are expected to be anti-schizophrenia therapeutics. In this study, binding pockets of DAO to its inhibitor 4-bromo-3-nitrobenzoic acid were searched by combining in silico docking simulation and labeling experiments employing an N-sulfanylethylanilide-based labeling technology that we have developed. The results clearly demonstrated that there are two binding pockets: one is shared with d-Ser and FAD, and the other is an unexpected cleft between the subunits of a DAO dimer. These findings will provide insight to aid the development of new DAO inhibitors. In addition, it was also proved that our labeling technology could be applicable to elucidate the binding pockets of proteins.
A synthetic platform for chlorpromazine (CPZ) oligomers, which could be generated via photo-reaction of CPZ, is essential to promote their biological and structural studies. In this paper, the first synthetic platform for CPZ oligomers is described. A photo-irradiation experiment of CPZ to confirm whether the structure of the CPZ dimer generated by the photo-irradiation was identical to that prepared by our synthetic method is also reported.
for flagerlar protein export, and its complex structure is composed of about 20 difrerellt proteins. The basa] body contains at least five parts accoTding to their functions/ the rod, LP ring. MS ring, C rjng, and type III protein export apparatus, TheC ring is made ofthe switch cemp]ex proteins FliG, FliM, FliN, whichcontrolscounterclockwise-clockwise(CCW/CW)switchingofthemotor rotation and sits on the cytoplasmic face of the MS ring. To understand the switching mechanisms jn detail, we analyzcd the C ring structures ofCCW-bias and CW-locked mutant moters by etectron cryomicroscopy (cryoEM). The CCW-bias and CW-locked phenotypes arise from single point mutation
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