Reduction of auditory event-related P300 amplitude in subjects with at-risk mental state for schizophrenia

Neurophysiological methods allow the examination of cognitive-cortical functioning in patients with schizophrenia in its prodromal states. As revealed by previous studies, event-related potential components such as auditory evoked P300 associated with cognitive processes, such as attention and orientation, are known to be reduced in amplitude in acute and chronic as well as in medicated and unmedicated patients. It is, however, unclear whether a P300 amplitude reduction occurs before the schizophrenic psychosis is fully manifested. We studied patients in the prodromal phase of the schizophrenic disorder (i.e. subjects with an at-risk mental state showing attenuated psychotic symptoms or brief limited intermittent symptoms) as well as first-episode patients and chronic patients with schizophrenia and compared these groups to healthy subjects. The event-related P300 was recorded during an auditory oddball paradigm. Groups differed significantly from each other in the P300 amplitude at Pz (F(3/149)=2.532, p=0.02). Post-hoc tests revealed significantly lower P300 amplitudes of non-medicated prodromal (p=.03), first-episode (p=.01) and chronic patients (p=.001) compared to the healthy controls. The study revealed that there are neurophysiological changes as the reduction in P300 amplitudes begins early in schizophrenia at the prodromal phase, i.e. before a manifestation of full-blown psychosis, and that these changes seem to have a progressive course from prodromal to chronic state of schizophrenia as assumed in this cross-sectional study

Reconstruction of Quaternary Structure from X-ray Scattering by Equilibrium Mixtures of Biological Macromolecules

A recent renaissance in small-angle X-ray scattering (SAXS) made this technique a major tool for the low-resolution structural characterization of biological macromolecules in solution. The major limitation of existing methods for reconstructing 3D models from SAXS is imposed by the requirement of solute monodispersity. We present a novel approach that couples low-resolution 3D SAXS reconstruction with composition analysis of mixtures. The approach is applicable to polydisperse and difficult to purify systems, including weakly associated oligomers and transient complexes. Ab initio shape analysis is possible for symmetric homo-oligomers, whereas rigid body modeling is applied also to dissociating complexes when atomic structures of the individual subunits are available. In both approaches, the sample is considered as an equilibrium mixture of intact complexes/oligomers with their dissociation products or free subunits. The algorithms provide the 3D low-resolution model (for ab initio modeling, also the shape of the monomer) and the volume fractions of the bound and free state(s). The simultaneous fitting of multiple scattering data sets collected under different conditions allows one to restrain the modeling further. The possibilities of the approach are illustrated in simulated and experimental SAXS data from protein oligomers and multisubunit complexes including nucleoproteins. Using this approach, new structural insights are provided in the association behavior and conformations of estrogen-related receptors ERRalpha and ERRgamma. The possibility of 3D modeling from the scattering by mixtures significantly widens the range of applicability of SAXS and opens novel avenues in the analysis of oligomeric mixtures and assembly/dissociation processes

The investment development path in space

Foreign direct investment, Investment development path, F21, F23,

The ‘Complex World’ of the Hsp90 Co-chaperone R2TP

The Hsp90 co-chaperone R2TP consists of the AAA+ ATPases, RUVBL1 (Rvb1p in yeast) and RUVBL2 (Rvb2 in yeast), which together make up a heterohexameric ring, in complex with PIH1D1 (Pih1p in yeast) and RPAP3 (Tah1p in yeast). R2TP is involved in the activation of client proteins, such as phosphatidylinositol 3 kinase-related kinases, including mTORC1, ATM, DNA-PK, SMG and ATR/ATRIP, or in the assembly of protein complexes including those of RNA polymerase and snoRNPs, amongst others. In other cases, the role of the TP component (RPAP3-PIH1D1) of R2TP, and consequently Hsp90, is controversial. None-the-less, the extensive role of RUVBL1-RUVBL2 complex in cells, either with or without Hsp90, means that dysfunction of these AAA+ ATPases, Hsp90 or components of the complexes they assemble leads to diseases such as cancer, ciliary dyskinesia and in the case of defects in ATM to ataxia telangiectasia-like syndrome. Recent advances in determining the structure of the R2TP complex has led to an increased understanding of the assembly and function of the R2TP complex. In this review we discuss the current structural advances in determining the architecture of the R2TP complex and the advances made in understanding its active state