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Specific functions of biological systems often require conformational transitions of macromolecules. Thus, being able to describe and predict conformational changes of biological macromolecules is not only important for understanding their impact on biological function, but will also have implications for the modelling of (macro)molecular complex formation and in structure-based drug design approaches. The “conformational selection model” provides the foundation for computational investigations of conformational fluctuations of the unbound protein state. These fluctuations may reveal conformational states adopted by the bound proteins. The aim of this work is to incorporate directional information in a geometry-based approach, in order to sample biologically relevant conformational space extensively. Interestingly, coarse-grained normal mode (CGNM) approaches, e.g., the elastic network model (ENM) and rigid cluster normal mode analysis (RCNMA), have emerged recently and provide directions of intrinsic motions in terms of harmonic modes (also called normal modes). In my previous work and in other studies it has been shown that conformational changes upon ligand binding occur along a few low-energy modes of unbound proteins and can be efficiently calculated by CGNM approaches. In order to explore the validity and the applicability of CGNM approaches, a large-scale comparison of essential dynamics (ED) modes from molecular dynamics (MD) simulations and normal modes from CGNM was performed over a dataset of 335 proteins. Despite high coarse-graining, low frequency normal modes from CGNM correlate very well with ED modes in terms of directions of motions (average maximal overlap is 0.65) and relative amplitudes of motions (average maximal overlap is 0.73). In order to exploit the potential of CGNM approaches, I have developed a three-step approach for efficient exploration of intrinsic motions of proteins. The first two steps are based on recent developments in rigidity and elastic network theory. Initially, static properties of the protein are determined by decomposing the protein into rigid clusters using the graph-theoretical approach FIRST at an all-atom representation of the protein. In a second step, dynamic properties of the molecule are revealed by the rotations-translations of blocks approach (RTB) using an elastic network model representation of the coarse-grained protein. In the final step, the recently introduced idea of constrained geometric simulations of diffusive motions in proteins is extended for efficient sampling of conformational space. Here, the low-energy (frequency) normal modes provided by the RCNMA approach are used to guide the backbone motions. The NMSim approach was validated on hen egg white lysozyme by comparing it to previously mentioned simulation methods in terms of residue fluctuations, conformational space explorations, essential dynamics, sampling of side-chain rotamers, and structural quality. Residue fluctuations in NMSim generated ensemble is found to be in good agreement with MD fluctuations with a correlation coefficient of around 0.79. A comparison of different geometry-based simulation approaches shows that FRODA is restricted in sampling the backbone conformational space. CONCOORD is restricted in sampling the side-chain conformational space. NMSim sufficiently samples both the backbone and the side-chain conformations taking experimental structures and conformations from the state of the art MD simulation as reference. The NMSim approach is also applied to a dataset of proteins where conformational changes have been observed experimentally, either in domain or functionally important loop regions. The NMSim simulations starting from the unbound structures are able to reach conformations similar to ligand bound conformations (RMSD < 2.4 Å) in 4 out of 5 cases of domain moving proteins. In these four cases, good correlation coefficients (R > 0.7) between the RMS fluctuations derived from NMSim generated structures and two experimental structures are observed. Furthermore, intrinsic fluctuations in NMSim simulation correlate with the region of loop conformational changes observed upon ligand binding in 2 out of 3 cases. The NMSim generated pathway of conformational change from the unbound structure to the ligand bound structure of adenylate kinase is validated by a comparison to experimental structures reflecting different states of the pathway as proposed by previous studies. Interestingly, the generated pathway confirms that the LID domain closure precedes the closing of the NMPbind domain, even if no target conformation is provided in NMSim. Hence, the results in this study show that, incorporating directional information in the geometry-based approach NMSim improves the sampling of biologically relevant conformational space and provides a computationally efficient alternative to state of the art MD simulations.
Modelling protein flexibility and plasticity is computationally challenging but important for understanding the function of biological systems. Furthermore, it has great implications for the prediction of (macro) molecular complex formation. Recently, coarse-grained normal mode approaches have emerged as efficient alternatives for investigating large-scale conformational changes for which more accurate methods like MD simulation are limited due to their computational burden. We have developed a Normal Mode based Simulation (NMSim) approach for efficient conformation generation of macromolecules. Combinations of low energy normal modes are used to guide a simulation pathway, whereas an efficient constraints correction approach is applied to generate stereochemically allowed conformations. Non-covalent bonds like hydrogen bonds and hydrophobic tethers and phi-psi favourable regions are also modelled as constraints. Conformations from our approach were compared with a 10 ns MD trajectory of lysozyme. A 2-D RMSD plot shows a good overlap of conformational space, and rms fluctuations of residues show a correlation coefficient of 0.78 between the two sets of conformations. Furthermore, a comparison of NMSim simulations starting from apo structures of different proteins show that ligand-bound conformations can be sampled for those cases where conformational changes are mainly correlated, e.g., domain-like motion in adenylate kinase. Efforts are currently being made to also model localized but functionally important motions for protein binding pockets and protein-protein interfaces using relevant normal mode selection criteria and implicit rotamer basin creation.
Background Endothelium-derived nitric oxide plays an important role for the bone marrow microenvironment. Since several important effects of nitric oxide are mediated by cGMP-dependent pathways, we investigated the role of the cGMP downstream effector cGMP-dependent protein kinase I (cGKI) on postnatal neovascularization. Methodology/Principal Findings In a disc neovascularization model, cGKI -/- mice showed an impaired neovascularization as compared to their wild-type (WT) littermates. Infusion of WT, but not cGKI -/- bone marrow progenitors rescued the impaired ingrowth of new vessels in cGKI-deficient mice. Bone marrow progenitors from cGKI -/- mice showed reduced proliferation and survival rates. In addition, we used cGKI alpha leucine zipper mutant (LZM) mice as model for cGKI deficiency. LZM mice harbor a mutation in the cGKI alpha leucine zipper that prevents interaction with downstream signaling molecules. Consistently, LZM mice exhibited reduced numbers of vasculogenic progenitors and impaired neovascularization following hindlimb ischemia compared to WT mice. Conclusions/Significance Our findings demonstrate that the cGMP-cGKI pathway is critical for postnatal neovascularization and establish a new role for cGKI in vasculogenesis, which is mediated by bone marrow-derived progenitors.
4-(4-Nitrophenoxy)biphenyl
(2009)
The two phenyl rings of the biphenyl unit of the title compound, C18H13NO3, are almost coplanar [dihedral angle 6.70 (9)°]. The nitrophenyl ring, on the other hand, is significantly twisted out of the plane of the these two rings, making dihedral angles of 68.83 (4)° with the middle ring and 62.86 (4)° with the end ring. The nitro group is twisted by 12.1 (2)° out of the plane of the phenyl ring to which it is attached. Key indicators: single-crystal X-ray study; T = 173 K; mean σ(C–C) = 0.002 A° ; R factor = 0.040; wR factor = 0.118; data-to-parameter ratio = 12.8.
The Wages of Corruption
(2009)
Corruption is endemic in Cameroon. Twice, Transparency International have accorded the country the infamous first place in corruption. As one of many concerned Cameroonians, Sammy Oke Akombi was moved and they realized that something was in fact wrong somewhere and something had to be done somehow. This collection of short stories is his contribution to the collective resolve by concerned Cameroonians to wage a war against this most unusual friend of fairness. The stories seek to elicit awareness about a social ill that is ironically championed by the very politicians, functionaries, educator, leaders and power elite whose duty it is to keep society healthy and on the rails. The stories are on corruption in different segments of society and about the people who perpetrate it. Almost everyone is immersed in it and so must make every effort to resurface from it. It takes only the will to stay alive because the wages of corruption like any other sin can only be death.
Starting from the first observation of the halo phenomenon 20 years ago, more and more neutron-rich light nuclei were observed. The study of unstable nuclear systems beyond the dripline is a relatively new branch of nuclear physics. In the present work, the results of an experiment at GSI (Darmstadt) with relativistic beams of the halo nuclei 8He, 11Li and 14Be with energies of 240, 280 and 305 MeV/nucleon, respectively, impinging on a liquid hydrogen target are discussed. Neutron/proton knockout reactions lead to the formation of unbound systems, followed by their immediate decay. The experimental setup, consisting of the neutron detector LAND, the dipole spectrometer ALADIN and different types of tracking detectors, allows the reconstruction of the momentum vectors of all reaction products measured in coincidence. The properties of unbound nuclei are investigated by reconstructing the relative-energy spectra as well as by studying the angular correlations between the reaction products. The observed systems are 9He, 10He, 10Li, 12Li and 13Li. The isotopes 12Li and 13Li are observed for the first time. They are produced in the 1H(14Be, 2pn)12Li and 1H(14Be, 2p)13Li knockout reactions. The obtained relative-energy spectrum of 12Li is described as a single virtual s-state with a scattering length of as = -22;13.7(1.6) fm. The spectrum of 13Li is interpreted as a resonance at an energy of Er = 1.47(13) MeV and a width of Gamma ~ 2 MeV superimposed on a broad correlated background distribution. The isotope 10Li is observed after one-neutron knockout from the halo nucleus 11Li. The obtained relative-energy spectrum is described by a low-lying virtual s-state with a scattering length as = -22.4(4.8) fm and a p-wave resonance with Er = 0.566(14) MeV and Gamma = 0.548(30) MeV, in agreement with previous experiments. The observation of the nucleus 8He in coincidence with one or two neutrons, as a result of proton knockout from 11Li, allows to reconstruct the relative-energy spectra for the heavy helium isotopes, 9He and 10He. The low-energy part of the 9He spectrum is described by a virtual s-state with a scattering length as = -3.16(78) fm. In addition, two resonance states with l 6= 0 at energies of 1.33(8) and 2.4 MeV are observed. For the 10He spectrum, two interpretations are possible. It can be interpreted as a superposition of a narrow resonance at 1.42(10) MeV and a broad correlated background distribution. Alternatively, the spectrum is being well described by two resonances at energies of 1.54(11) and 3.99(26) MeV. Additionally, three-body energy and angular correlations in 10He and 13Li nuclei at the region of the ground state (0 < ECnn < 3 MeV) are studied, providing information about structure of these unbound nuclear systems.
Es gehört zu den Eigenarten der Romane Klaus Manns, daß ihre Handlung vorzugsweise in der Gegenwart oder zumindest der jüngsten Vergangenheit angesiedelt ist. Das war - um nur diese Beispiele zu nennen - der Fall in "Flucht in den Norden", in "Mephisto" und in "Der Vulkan". Es trifft in besonderem Maße für einen Fragment gebliebenen Roman "The Last Day" zu. Er sollte an einem einzigen Tag, dem 13. August 1947, spielen, und dies war auch der Tag, an dem Klaus Mann die ersten Notizen zu dem Roman niederschrieb. Ein hohes Maß an Aktualität war diesem Projekt also von Anfang an eigen, und dieses Maß verringerte sich bis zum April 1949, dem Zeitpunkt der letzten Arbeiten an dem Manuskript, nicht im geringsten, es nahm eher noch zu. Wie bekannt, handelt es von dem tragischen Untergang zweier Intellektueller im Kalten Krieg.
Nahrungsmittelallergikern steht aufgrund inakzeptabler Nebenwirkungen bei der spezifischen Immuntherapie zurzeit noch keine kausale Therapie dieser Erkrankung zur Verfügung. Demzufolge bleibt die Vermeidung der entsprechenden Lebensmittel für Nahrungsmittelallergiker der einzige Weg möglicherweise lebensbedrohlichen allergischen Reaktionen zu entgehen. Ziel dieser Arbeit war es, das Potential eines viralen Vektors für die Verwendung bei der spezifischen Immuntherapie der Lebensmittelallergie zu untersuchen. Die Überlegung dahinter war, das Risiko eines anaphylaktischen Schocks, der bei Injektion eines Allergens immer gegeben ist, durch intrazelluläre Expression des Proteins über das rekombinante Virus zu verringern. Zusätzlich dazu bringt das modifizierte Vacciniavirus Ankara (MVA) ideale Voraussetzungen für eine Allergievakzine mit: Die Infektion mit MVA führt zu einer stark Th1-gerichteten Immunantwort gegen die viral exprimierte Proteine, die möglicherweise die allergische Th2-gerichtete Immunantwort modulieren kann. Die prophylaktische Immunisierung mit MVA-OVA im Mausmodell der systemischen Sensibilisierung gegen Ovalbumin (OVA) führte dosisabhängig zur Suppression der spezifischen IgE-Antwort und somit zum Schutz vor allergischer Sensibilisierung. Zusätzlich konnte nachgewiesen werden, dass die Vakzinierung mit MVA-OVA eine dauerhafte spezifische IgG-Antwort induziert. Diese Daten unterstützen das Konzept einer Modulation der Sensibilisierung durch MVA-Vakzine. Weiterhin wurden zwei rekombinante Vakzinen generiert, mittels derer entweder das Tropomyosin aus Garnelen (Pen a 1) oder das Lipid-Transfer-Protein aus Haselnuss (Cor a 8) intrazellulär exprimiert werden konnte. Dass die Sensibilisierung gegen diese Allergene häufig mit schweren allergischen Reaktionen korreliert, unterstreicht die Notwendigkeit einer verbesserten Immuntherapie in diesem Bereich. Während MVA-Pen a 1 in ausreichender Menge und Qualität für die Verwendung im Mausmodell hergestellt werden konnte, gelang es nicht, eine homogene Population von MVA-Cor a 8 zu gewinnen, in der das Selektionsgen K1L nicht mehr vorhanden war. Parallel zur Virusherstellung wurden Mausmodelle der Sensibilisierung gegen Cor a 8 und Pen a 1 entwickelt. Vergleiche unterschiedlicher Mausstämme ergaben, dass sich Mäuse des Stammes CBA/J am empfänglichsten für eine systemische Sensibilisierung mit Cor a 8 sind. Aufgrund von Erfahrungen zur Sensibilisierung gegen Pen a 1 wurden Mäuse des Stammes C3H/HeJ bei der Etablierung eines Garnelenallergiemodells verwendet. Es zeigte sich, dass durch die intragastrale Applikation von 0,1 mg Pen a 1 sowie Choleratoxin als Adjuvanz (drei Gaben in dreiwöchigem Abstand), gefolgt von einer systemischen Gabe des Allergens mit Aluminiumhydroxid eine spezifische Sensibilisierung hervorgerufen werden konnte, die nach Exposition mit Pen a 1 zu allergischen Symptomen führte. Auch in diesem Modell bot die prophylaktische Immunisierung mit MVA-Pen a 1 Schutz vor Pen a 1spezifischer Sensibilisierung. Um die therapeutische Effektivität der Vakzine ermitteln zu können, muss die begonnene Etablierung eines Allergiemodells mit symptomauslösenden Provokationen und immunologischen Analysen weitergeführt werden. Der in dieser Studie beobachtete starke schützende Effekt einer Vakzinierung mit MVA vor allergischer Sensibilisierung und das sehr gute Sicherheitsprofil dieses Vektors in klinischen Studien zu anderen Erkrankungen belegt die Möglichkeit einer Verwendung von MVA zur erfolgreichen spezifischen Immuntherapie der Lebensmittelallergie.
In den letzten Jahren hat sich die subkutane Schweißdrüsensaugkürettage als Therapie der Wahl bei den operativen Therapieverfahren der Hyperhidrosis axillaris etabliert. In der vorliegenden Studie wurde der klinische Langzeiterfolg der subkutanen Schweißdrüsensaugkürettage unter Einbeziehung quantitativer Meßmethoden untersucht. Der durchschnittliche Nachbeobachtungszeitraum lag bei 31 Monaten. Die Datenerhebung wurde anhand der gravimetrisch ermittelten Schweißmenge präund postoperativ sowie anhand eines Fragebogens vorgenommen. 149 Patienten wurden angeschrieben, 27 waren zum Zeitpunkt der Nachuntersuchung nicht erreichbar, 25 Patienten konnten den Fragebogen ausfüllen aber nicht persönlich zur Nachuntersuchung erscheinen. Bei 97 Patienten konnte auch eine Nachuntersuchung durchgeführt werden. 77% der Patienten waren weiblich und 33% männlich. Der Altersdurchschnitt bei Erstmanifestation der Hyperhidrosis axillaris lag bei 20 Jahren, das Durchschnittsalter der Patienten bei der Operation betrug 29 Jahre. Die Anamnesedauer bis zur subkutanen Schweißdrüsensaugkürettage lag im Durchschnitt bei 7,91 Jahre. Bei 45% der Patienten konnte eine positive Familienanamnese ermittelt werden. In der vorliegenden Arbeit erfolgten gravimetrische Messungen prä- und postoperativ. Es zeigte sich eine signifikante Reduktion der Schweißproduktion um 54% von 271mg/5min an der rechten Axilla auf 103mg/5min und um 62% von 242mg/5min auf 90mg/5min an der linken Axilla. Es konnte zusätzlich eine Korrelation der von den Patienten subjektiv empfundenen Schweißmengenreduktion mit den gravimetrisch ermittelten Werten nachgewiesen werden. Langfristige Nebenwirkungen wurden nicht festgestellt. Es entstanden nur kleine OPNarben, die von keinem Patient als kosmetisch störend beurteilt wurde. Zusammenfassend zeigen die Ergebnisse dieser Arbeit, dass durch die subkutane Schweißdrüsensaugkürettage eine langfristige Reduktion der Schweißmengensekretion über 31 Monaten bei der Hyperhidrosis axillaris erzielt werden kann und somit mittels minimalinvasiver Chirurgie eine Krankheit erfolgreich behandelt werden kann, die die Lebensqualität der Patienten massiv einschränkt.
Word formation in Distributed Morphology (see Arad 2005, Marantz 2001, Embick 2008): 1. Language has atomic, non-decomposable, elements = roots. 2. Roots combine with the functional vocabulary and build larger elements. 3. Roots are category neutral. They are then categorized by combining with category defining functional heads.