White matter maturation reshapes structural connectivity in the late developing human brain.

From toddler to late teenager, the macroscopic pattern of axonal projections in the human brain remains largely unchanged while undergoing dramatic functional modifications that lead to network refinement. These functional modifications are mediated by increasing myelination and changes in axonal diameter and synaptic density, as well as changes in neurochemical mediators. Here we explore the contribution of white matter maturation to the development of connectivity between ages 2 and 18 y using high b-value diffusion MRI tractography and connectivity analysis. We measured changes in connection efficacy as the inverse of the average diffusivity along a fiber tract. We observed significant refinement in specific metrics of network topology, including a significant increase in node strength and efficiency along with a decrease in clustering. Major structural modules and hubs were in place by 2 y of age, and they continued to strengthen their profile during subsequent development. Recording resting-state functional MRI from a subset of subjects, we confirmed a positive correlation between structural and functional connectivity, and in addition observed that this relationship strengthened with age. Continuously increasing integration and decreasing segregation of structural connectivity with age suggests that network refinement mediated by white matter maturation promotes increased global efficiency. In addition, the strengthening of the correlation between structural and functional connectivity with age suggests that white matter connectivity in combination with other factors, such as differential modulation of axonal diameter and myelin thickness, that are partially captured by inverse average diffusivity, play an increasingly important role in creating brain-wide coherence and synchrony.

Structural prediction of peptides bound to MHC class I.

An ab initio structure prediction approach adapted to the peptide-major histocompatibility complex (MHC) class I system is presented. Based on structure comparisons of a large set of peptide-MHC class I complexes, a molecular dynamics protocol is proposed using simulated annealing (SA) cycles to sample the conformational space of the peptide in its fixed MHC environment. A set of 14 peptide-human leukocyte antigen (HLA) A0201 and 27 peptide-non-HLA A0201 complexes for which X-ray structures are available is used to test the accuracy of the prediction method. For each complex, 1000 peptide conformers are obtained from the SA sampling. A graph theory clustering algorithm based on heavy atom root-mean-square deviation (RMSD) values is applied to the sampled conformers. The clusters are ranked using cluster size, mean effective or conformational free energies, with solvation free energies computed using Generalized Born MV 2 (GB-MV2) and Poisson-Boltzmann (PB) continuum models. The final conformation is chosen as the center of the best-ranked cluster. With conformational free energies, the overall prediction success is 83% using a 1.00 Angstroms crystal RMSD criterion for main-chain atoms, and 76% using a 1.50 Angstroms RMSD criterion for heavy atoms. The prediction success is even higher for the set of 14 peptide-HLA A0201 complexes: 100% of the peptides have main-chain RMSD values < or =1.00 Angstroms and 93% of the peptides have heavy atom RMSD values < or =1.50 Angstroms. This structure prediction method can be applied to complexes of natural or modified antigenic peptides in their MHC environment with the aim to perform rational structure-based optimizations of tumor vaccines.

Structural and functional interaction sites between Na,K-ATPase and FXYD proteins.

Several members of the FXYD protein family are tissue-specific regulators of Na,K-ATPase that produce distinct effects on its apparent K(+) and Na(+) affinity. Little is known about the interaction sites between the Na,K-ATPase alpha subunit and FXYD proteins that mediate the efficient association and/or the functional effects of FXYD proteins. In this study, we have analyzed the role of the transmembrane segment TM9 of the Na,K-ATPase alpha subunit in the structural and functional interaction with FXYD2, FXYD4, and FXYD7. Mutational analysis combined with expression in Xenopus oocytes reveals that Phe(956), Glu(960), Leu(964), and Phe(967) in TM9 of the Na,K-ATPase alpha subunit represent one face interacting with the three FXYD proteins. Leu(964) and Phe(967) contribute to the efficient association of FXYD proteins with the Na,K-ATPase alpha subunit, whereas Phe(956) and Glu(960) are essential for the transmission of the functional effect of FXYD proteins on the apparent K(+) affinity of Na,K-ATPase. The relative contribution of Phe(956) and Glu(960) to the K(+) effect differs for different FXYD proteins, probably reflecting the intrinsic differences of FXYD proteins on the apparent K(+) affinity of Na,K-ATPase. In contrast to the effect on the apparent K(+) affinity, Phe(956) and Glu(960) are not involved in the effect of FXYD2 and FXYD4 on the apparent Na(+) affinity of Na,K-ATPase. The mutational analysis is in good agreement with a docking model of the Na,K-ATPase/FXYD7 complex, which also predicts the importance of Phe(956), Glu(960), Leu(964), and Phe(967) in subunit interaction. In conclusion, by using mutational analysis and modeling, we show that TM9 of the Na,K-ATPase alpha subunit exposes one face of the helix that interacts with FXYD proteins and contributes to the stable interaction with FXYD proteins, as well as mediating the effect of FXYD proteins on the apparent K(+) affinity of Na,K-ATPase.

Coltop3D: A new software for structural analysis with high resolution 3D point clouds and DEM

Coltop3D is a software that performs structural analysis by using digital elevation model (DEM) and 3D point clouds acquired with terrestrial laser scanners. A color representation merging slope aspect and slope angle is used in order to obtain a unique code of color for each orientation of a local slope. Thus a continuous planar structure appears in a unique color. Several tools are included to create stereonets, to draw traces of discontinuities, or to compute automatically density stereonet. Examples are shown to demonstrate the efficiency of the method.

SwissSidechain: a molecular and structural database of non-natural sidechains.

Amino acids form the building blocks of all proteins. Naturally occurring amino acids are restricted to a few tens of sidechains, even when considering post-translational modifications and rare amino acids such as selenocysteine and pyrrolysine. However, the potential chemical diversity of amino acid sidechains is nearly infinite. Exploiting this diversity by using non-natural sidechains to expand the building blocks of proteins and peptides has recently found widespread applications in biochemistry, protein engineering and drug design. Despite these applications, there is currently no unified online bioinformatics resource for non-natural sidechains. With the SwissSidechain database (http://www.swisssidechain.ch), we offer a central and curated platform about non-natural sidechains for researchers in biochemistry, medicinal chemistry, protein engineering and molecular modeling. SwissSidechain provides biophysical, structural and molecular data for hundreds of commercially available non-natural amino acid sidechains, both in l- and d-configurations. The database can be easily browsed by sidechain names, families or physico-chemical properties. We also provide plugins to seamlessly insert non-natural sidechains into peptides and proteins using molecular visualization software, as well as topologies and parameters compatible with molecular mechanics software.

Socioeconomic status, structural and functional measures of social support, and mortality: The British Whitehall II Cohort Study, 1985-2009.

The authors examined the associations of social support with socioeconomic status (SES) and with mortality, as well as how SES differences in social support might account for SES differences in mortality. Analyses were based on 9,333 participants from the British Whitehall II Study cohort, a longitudinal cohort established in 1985 among London-based civil servants who were 35-55 years of age at baseline. SES was assessed using participant's employment grades at baseline. Social support was assessed 3 times in the 24.4-year period during which participants were monitored for death. In men, marital status, and to a lesser extent network score (but not low perceived support or high negative aspects of close relationships), predicted both all-cause and cardiovascular mortality. Measures of social support were not associated with cancer mortality. Men in the lowest SES category had an increased risk of death compared with those in the highest category (for all-cause mortality, hazard ratio = 1.59, 95% confidence interval: 1.21, 2.08; for cardiovascular mortality, hazard ratio = 2.48, 95% confidence interval: 1.55, 3.92). Network score and marital status combined explained 27% (95% confidence interval: 14, 43) and 29% (95% confidence interval: 17, 52) of the associations between SES and all-cause and cardiovascular mortality, respectively. In women, there was no consistent association between social support indicators and mortality. The present study suggests that in men, social isolation is not only an important risk factor for mortality but is also likely to contribute to differences in mortality by SES.

NS2 protein of hepatitis C virus interacts with structural and non-structural proteins towards virus assembly.

Growing experimental evidence indicates that, in addition to the physical virion components, the non-structural proteins of hepatitis C virus (HCV) are intimately involved in orchestrating morphogenesis. Since it is dispensable for HCV RNA replication, the non-structural viral protein NS2 is suggested to play a central role in HCV particle assembly. However, despite genetic evidences, we have almost no understanding about NS2 protein-protein interactions and their role in the production of infectious particles. Here, we used co-immunoprecipitation and/or fluorescence resonance energy transfer with fluorescence lifetime imaging microscopy analyses to study the interactions between NS2 and the viroporin p7 and the HCV glycoprotein E2. In addition, we used alanine scanning insertion mutagenesis as well as other mutations in the context of an infectious virus to investigate the functional role of NS2 in HCV assembly. Finally, the subcellular localization of NS2 and several mutants was analyzed by confocal microscopy. Our data demonstrate molecular interactions between NS2 and p7 and E2. Furthermore, we show that, in the context of an infectious virus, NS2 accumulates over time in endoplasmic reticulum-derived dotted structures and colocalizes with both the envelope glycoproteins and components of the replication complex in close proximity to the HCV core protein and lipid droplets, a location that has been shown to be essential for virus assembly. We show that NS2 transmembrane region is crucial for both E2 interaction and subcellular localization. Moreover, specific mutations in core, envelope proteins, p7 and NS5A reported to abolish viral assembly changed the subcellular localization of NS2 protein. Together, these observations indicate that NS2 protein attracts the envelope proteins at the assembly site and it crosstalks with non-structural proteins for virus assembly.

Functional analysis and structural modeling of human APOBEC3G reveal the role of evolutionarily conserved elements in the inhibition of human immunodeficiency virus type 1 infection and Alu transposition.

Retroelements are important evolutionary forces but can be deleterious if left uncontrolled. Members of the human APOBEC3 family of cytidine deaminases can inhibit a wide range of endogenous, as well as exogenous, retroelements. These enzymes are structurally organized in one or two domains comprising a zinc-coordinating motif. APOBEC3G contains two such domains, only the C terminal of which is endowed with editing activity, while its N-terminal counterpart binds RNA, promotes homo-oligomerization, and is necessary for packaging into human immunodeficiency virus type 1 (HIV-1) virions. Here, we performed a large-scale mutagenesis-based analysis of the APOBEC3G N terminus, testing mutants for (i) inhibition of vif-defective HIV-1 infection and Alu retrotransposition, (ii) RNA binding, and (iii) oligomerization. Furthermore, in the absence of structural information on this domain, we used homology modeling to examine the positions of functionally important residues and of residues found to be under positive selection by phylogenetic analyses of primate APOBEC3G genes. Our results reveal the importance of a predicted RNA binding dimerization interface both for packaging into HIV-1 virions and inhibition of both HIV-1 infection and Alu transposition. We further found that the HIV-1-blocking activity of APOBEC3G N-terminal mutants defective for packaging can be almost entirely rescued if their virion incorporation is forced by fusion with Vpr, indicating that the corresponding region of APOBEC3G plays little role in other aspects of its action against this pathogen. Interestingly, residues forming the APOBEC3G dimer interface are highly conserved, contrasting with the rapid evolution of two neighboring surface-exposed amino acid patches, one targeted by the Vif protein of primate lentiviruses and the other of yet-undefined function.

Enzymic, phylogenetic, and structural characterization of the unusual papain-like protease domain of Plasmodium falciparum SERA5.

Serine repeat antigen 5 (SERA5) is an abundant antigen of the human malaria parasite Plasmodium falciparum and is the most strongly expressed member of the nine-gene SERA family. It appears to be essential for the maintenance of the erythrocytic cycle, unlike a number of other members of this family, and has been implicated in parasite egress and/or erythrocyte invasion. All SERA proteins possess a central domain that has homology to papain except in the case of SERA5 (and some other SERAs), where the active site cysteine has been replaced with a serine. To investigate if this domain retains catalytic activity, we expressed, purified, and refolded a recombinant form of the SERA5 enzyme domain. This protein possessed chymotrypsin-like proteolytic activity as it processed substrates downstream of aromatic residues, and its activity was reversed by the serine protease inhibitor 3,4-diisocoumarin. Although all Plasmodium SERA enzyme domain sequences share considerable homology, phylogenetic studies revealed two distinct clusters across the genus, separated according to whether they possess an active site serine or cysteine. All Plasmodia appear to have at least one member of each group. Consistent with separate biological roles for members of these two clusters, molecular modeling studies revealed that SERA5 and SERA6 enzyme domains have dramatically different surface properties, although both have a characteristic papain-like fold, catalytic cleft, and an appropriately positioned catalytic triad. This study provides impetus for the examination of SERA5 as a target for antimalarial drug design.

Structural characterization of Turtle Mountain anticline (Alberta, Canada) and impact on rock slope failure

his paper proposes a structural investigation of the Turtle Mountain anticline (Alberta, Canada) to better understand the role of the different tectonic features on the development of both local and large scale rock slope instabilities occurring in Turtle Mountain. The study area is investigated by combining remote methods with detailed field surveys. In particular, the benefit of Terrestrial Laser Scanning for ductile and brittle tectonic structure interpretations is illustrated. The proposed tectonic interpretation allows the characterization of the fracturing pattern, the fold geometry and the role of these tectonic features in rock slope instability development. Ten discontinuity sets are identified in the study area, their local variations permitting the differentiation of the study zone into 20 homogenous structural domains. The anticline is described as an eastern verging fold that displays considerable geometry differences along its axis and developed by both flexural slip and tangential longitudinal strain folding mechanisms. Moreover, the origins of the discontinuity sets are determined according to the tectonic phases affecting the region (pre-folding, folding, post-folding). The localization and interpretation of kinematics of the different instabilities revealed the importance of considering the discrete brittle planes of weakness, which largely control the kinematic release of the local instabilities, and also the rock mass damage induced by large tectonic structures (fold hinge, thrust).

La recherche au sein des hautes écoles spécialisées 2012: descriptions, analyses, conclusions

Résumé Contexte et objectifs Les activités de recherche appliquée et développement (Ra&D) font partie du mandat de prestations des hautes écoles spécialisées (HES) prescrit par la loi. Néanmoins la tradition, le type et l'importance de la recherche varient fortement en fonction des domaines d'études. Il en va de même pour les liens avec les autres domaines de prestations que sont l'enseignement, la formation continue et les prestations de services. Les activités de Ra&D dans chaque HES s'inscrivent dans la tension entre l'orientation pratique (qui signifie le plus souvent une orientation vers le marché économique) et l'orientation vers la science (signe de leur rattachement au système scientifique). Il en découle des conflits d'intérêts entre les critères de qualité du « succès sur le marché » et de la « réputation scientifique ». En 2005, sur mandat de la Commission pour la technologie et l'innovation (CTI), B. Lepori et L. Attar (2006) ont mené une étude visant à examiner plus particulièrement les stratégies de recherche et l'organisation de la recherche au sein des hautes écoles spécialisées. Aujourd'hui, six ans plus tard, la phase de mise sur pied est en grande partie terminée. En lançant une nouvelle étude, l'Office fédéral de la formation professionnelle et de la technologie (OFFT) et la Commission fédérale des hautes écoles spécialisées (CFHES) souhaitaient faire le point sur les activités de recherche des HES, c'està- dire examiner les résultats des stratégies et de l'organisation de cette phase. Cette étude s'articule principalement autour de l'état actuel de la recherche, de ses problèmes et de ses perspectives. Structure de l'étude La recherche dans les HES se caractérise par différents facteurs d'influence (cultures disciplinaires, traditions, ancrage dans les régions linguistiques, structures organisationnelles, gouvernance, stratégies de positionnement, personnel, etc.). Dans la présente étude, ces facteurs sont systématiquement examinés selon deux dimensions: le « domaine d'études » et la « haute école spécialisée». L'analyse repose notamment sur l'exploitation de documents et de données. Mais cette étude se fonde principalement sur les entretiens menés avec les représentants des HES à différents niveaux de responsabilités. Les hautes écoles spécialisées (HES) Les entretiens avec les directions des HES ainsi que l'exploitation des données et des documents mettent en évidence la grande diversité des sept HES suisses de droit public dans leur structure, leurs combinaisons de domaines d'études et leurs orientations. Les modes de financement de la recherche varient fortement entre les HES. Concrètement, les sources de financement ne sont pas les mêmes d'une HES à l'autre (contributions des organes responsables, fonds de tiers, etc.). Les degrés et formes du pilotage concernant les contenus de la recherche diffèrent également dans une large mesure (définition de pôles de recherche, soutien cumulatif à l'acquisition de fonds de tiers), de même que les stratégies en matière de recrutement et d'encouragement du personnel. La politique de chaque HES implique des tensions et des problèmes spécifiques. Les domaines d'études Sur les dix domaines d'études, quatre ont été choisis à titre d'exemples pour des études approfondies : Technique et technologies de l'information (TI), Economie et services, Travail social, Musique, arts de la scène et autres arts. Chaque domaine d'études a été examiné à chaque fois dans deux HES. Cette méthode permet de relever les différences et les similitudes. Les résultats confirment qu'il existe des différences importantes à bien des égards entre les domaines d'études évalués. Ces différences concernent la position dans le système des hautes écoles, le volume des activités de recherche, l'importance de la recherche au sein des HES, la tradition, l'identité et l'orientation. Elles se retrouvent par ailleurs dans les buts et la place de la Ra&D dans les domaines d'études concernés. Il ressort toutefois qu'il n'y a pas lieu de parler d'une dichotomie entre les « anciens » et les « nouveaux » domaines d'études : Technique, économie et design (TED) d'une part et Santé, social et arts (SSA) d'autre part. Il semble plus pertinent de désigner le domaine d'études 4/144 Technique et TI comme le domaine dominant auquel se référent le pilotage et le financement des HES, que ce soit implicitement ou explicitement. Cadre homogène et espaces hétérogènes Le pilotage et le financement de la Ra&D au sein des hautes écoles spécialisées s'inscrivent dans un modèle-cadre fixé à l'échelle fédérale et principalement axé sur le domaine d'études Technique. Ce modèle-cadre se caractérise par un apport élevé de fonds de tiers (notamment les subventions de la CTI et les fonds privés) et des incitations en faveur de ce mode de financement, par une orientation vers le marché et par un haut degré d'autonomie des établissements partenaires/départements et instituts. Par comparaison avec les hautes écoles universitaires, les HES affichent notamment un faible niveau de financement de base dans le secteur Ra&D. Cet état de fait est certes compatible avec la forme actuelle du financement par la CTI, mais pas avec les règles de financement du Fonds national suisse (FNS). Un financement principalement basé sur les fonds de tiers signifie par ailleurs que l'orientation du contenu de la recherche et la définition de critères de qualité sont confiées à des instances externes, notamment aux mandants et aux institutions d'encouragement de la recherche. Il apparaît en dernier lieu qu'un tel modèle-cadre ne favorise pas les politiques visant à la constitution de pôles de recherche, l'obtention d'une taille critique, et la mise en place d'une coordination. Ces résultats concernent tous les domaines d'études sans avoir pour autant les mêmes conséquences : les domaines d'études se prêtant dans une faible mesure à l'acquisition de fonds de tiers sur des marchés économiques (dans cette étude, il s'agit essentiellement de la Musique, arts de la scène et autres arts, mais également du Travail social dans certains cas) ont plus de difficultés à répondre aux attentes énoncées en termes de succès et de profit. Les HES modifient plus ou moins le modèle-cadre en élaborant elles-mêmes des modèles d'organisation qui prennent en compte leur combinaison de domaines d'études et soutiennent leurs propres orientations et positionnements stratégiques. La combinaison de domaines d'études hétérogènes et de politiques différentes au sein des HES se traduit par une complexité du système des HES, beaucoup plus importante que ce que généralement supposée. De plus, au regard des connaissances lacunaires sur les structures « réelles » de gouvernance des HES, il n'est quasiment pas possible de comparer directement les hautes écoles spécialisées entre elles. Conclusions et recommandations Le principal constat qui ressort d'un ensemble de conclusions et de recommandations des auteurs est que le secteur Ra&D dans les HES doit être plus explicitement évalué en fonction des spécificités des domaines d'études, à savoir du rôle de la recherche pour l'économie et la société, des différences entre les marchés (économiques) correspondants et de l'importance de la Ra&D pour les objectifs visés. L'étude montre clairement qu'il n'y a pas à proprement parler une seule et unique recherche au sein des hautes écoles spécialisées et que la notion de « recherche appliquée » ne suffit ni comme description ni, par conséquence, comme critère d'identité commun. Partant de ce constat, nous recommandons de revoir le mode de financement de la recherche dans les HES et d'approfondir le débat sur les structures de gouvernance sur l'orientation de la Ra&D (et notamment sur les critères de qualité appliqués), de même que sur l'autonomie et la coordination. Les recommandations constituent des points de discussion et n'engagent aucunement l'OFFT ou la CFHES.

Diffusion spectrum imaging shows the structural basis of functional cerebellar circuits in the human cerebellum in vivo.

BACKGROUND: The cerebellum is a complex structure that can be affected by several congenital and acquired diseases leading to alteration of its function and neuronal circuits. Identifying the structural bases of cerebellar neuronal networks in humans in vivo may provide biomarkers for diagnosis and management of cerebellar diseases. OBJECTIVES: To define the anatomy of intrinsic and extrinsic cerebellar circuits using high-angular resolution diffusion spectrum imaging (DSI). METHODS: We acquired high-resolution structural MRI and DSI of the cerebellum in four healthy female subjects at 3T. DSI tractography based on a streamline algorithm was performed to identify the circuits connecting the cerebellar cortex with the deep cerebellar nuclei, selected brainstem nuclei, and the thalamus. RESULTS: Using in-vivo DSI in humans we were able to demonstrate the structure of the following cerebellar neuronal circuits: (1) connections of the inferior olivary nucleus with the cerebellar cortex, and with the deep cerebellar nuclei (2) connections between the cerebellar cortex and the deep cerebellar nuclei, (3) connections of the deep cerebellar nuclei conveyed in the superior (SCP), middle (MCP) and inferior (ICP) cerebellar peduncles, (4) complex intersections of fibers in the SCP, MCP and ICP, and (5) connections between the deep cerebellar nuclei and the red nucleus and the thalamus. CONCLUSION: For the first time, we show that DSI tractography in humans in vivo is capable of revealing the structural bases of complex cerebellar networks. DSI thus appears to be a promising imaging method for characterizing anatomical disruptions that occur in cerebellar diseases, and for monitoring response to therapeutic interventions.