Global ETD Search

451	Acute Inhibition of Aberrant Mitochondrial Fission After Traumatic Brain Injury Confers Lasting Neuroprotection Into Late Adulthood Sridharan, Preety S. 26 May 2023 (has links) No description available. Neurosciences neurodegeneration traumatic brain injury TBI alzheimer's disease AD mitochondria mitochondrial dysfunction mitochondrial fission drp1 fis1 P110
452	Overexpression of the human optic atrophy-associated OPA1 gene induces mitochondrial and cellular fitness defects in yeast Almazan, Annabel Vivian P. 07 June 2020 (has links) No description available. Biology Molecular Biology Genetics OPA1 mitochondria mitochondrial dynamics mitochondrial fusion mitochondrial fission dominant optic atrophy optic atrophy type 1 gene
453	Covariant density functional theory: from basic features to exotic nuclei Taninah, Ahmad 13 May 2022 (has links) Covariant density functional theory (CDFT) is one of the modern theoretical tools for the description of finite nuclei and neutron stars. Its performance is defined by underlying covariant energy density functionals (CEDFs) which depend on a number of parameters. Several investigations within the CDFT framework using the relativistic Hartree-Bogoliubov (RHB) approach are discussed in this dissertation. Statistical errors in ground state observables and single-particle properties of spherical even-even nuclei and their propagation to the limits of nuclear landscape have been investigated in the covariant energy density functionals with nonlinear density dependency. The parametric correlations are studied in different classes of CEDFs; the elimination of these correlations reduces the number of independent parameters to five or six without affecting the performance of CEDFs on a global scale. Moreover, this study reveals the need to include information on deformed nuclei for the improvement of fitting protocols. A new technique for incorporating deformed nuclei data into the fitting protocol is described. Different CEDFs are optimized using this approach, resulting in a significant improvement in the nuclear mass description. A systematic investigation of the ground state and fission properties of even-even actinides and superheavy nuclei with proton numbers Z = 90 - 120 located between the two-proton and two-neutron drip lines has been performed. These results provide a necessary theoretical input for the modeling of the nuclear astrophysical rapid neutron capture process (r-process) taking place in the mergers of neutron stars. The state-of-the-art CEDFs, namely, DD-PC1, DD-ME2, NL3*, and PC-PK1, are employed in this study. Theoretical systematic uncertainties in the physical observables and their evolution as a function of proton and neutron numbers have been quantified and their major sources have been identified. The extension of the nuclear landscape to hyperheavy nuclei is investigated. The transition from ellipsoidal-like nuclear shapes to toroidal shapes is crucial for the potential expansion of the nuclear landscape to hyperheavy nuclei. The physical reasons for the stability of toroidal nuclei in the Z ~ 134 region are discussed. covariant density functional theory statistical errors systematic uncertainties parametric correlations r-process fission barriers superheavy nuclei hyperheavy nuclei triaxiality
454	Finite Nuclei in Covariant Density Functional Theory: A Global View with an Assessment of Theoretical Uncertainties Agbemava, Sylvester E 14 December 2018 (has links) Covariant density functional theory (CDFT) is a modern theoretical tool for the description of nuclear structure phenomena. Different physical observables of the ground and excited states in even-even nuclei have been studied within the CDFT framework employing three major classes of the state-of-the-art covariant energy density functionals. The global assessment of the accuracy of the description of the ground state properties and systematic theoretical uncertainties of atomic nuclei have been investigated. Large-scale axial relativistic Hartree-Bogoliubov (RHB) calculations are performed for all Z < 106 even-even nuclei between the two-proton and two-neutron drip lines. The sources of theoretical uncertainties in the prediction of the two-neutron drip line are analyzed in the framework of CDFT. We concentrate on single-particle and pairing properties as potential sources of these uncertainties. The major source of these uncertainties can be traced back to the differences in the underlying single-particle structure of the various CEDFs. A systematic search for axial octupole deformation in the actinides and superheavy nuclei with proton numbers Z = 88 - 126 and neutron numbers from two-proton drip line up to N = 210 has been performed in CDFT. The nuclei in the Z ~ 96, N ~ 196 region of octupole deformation have been investigated in detail and their systematic uncertainties have been quantified. The structure of superheavy nuclei has been reanalyzed with inclusion of quadrupole deformation. Theoretical uncertainties in the predictions of inner fission barrier heights in superheavy elements have been investigated in a systematic way. The correlations between global description of the ground state properties and nuclear matter properties have been studied. It was concluded that the strict enforcement of the constraints on the nuclear matter properties (NMP) defined in Ref. [1] will not necessary lead to the functionals with good description of ground state properties. The different aspects of the existence and stability of hyperheavy nuclei have been investigated. For the first time, we demonstrate the existence of three regions of spherical hyperheavy nuclei centered around (Z ~ 138, N ~ 230), (Z ~ 156, N ~ 310) and (Z ~ 174, N ~ 410) which are expected to be reasonably stable against spontaneous fission. theoretical uncertainties fission barriers hyperheavy elements superheavy elements octupole deformation triaxiality drip lines covariant density functional theory
455	Histone H4 Acetylation in the DNA Damage Response and Telomere Formation of <i>Schizosaccharomyces pombe</i> Eisenstatt, Jessica R. 27 January 2016 (has links) No description available. Biochemistry Genetics Molecular Biology Schizosaccharomyces pombe histone proteins histone H4 H4K16 H4K16ac histone acetylation DNA damage telomere fission yeast
456	A Comprehensive Model of the Structure and Function of the FtsZ Ring of Escherichia coli Redfearn, James C. 21 April 2016 (has links) No description available. Biochemistry Cellular Biology Microbiology FtsZ FtsA Z-ring reconstitution binary fission bacterial cell division cell division Escherichia coli cytokinesis divisome
457	Fission Yeast as a Model Organism for FUS-Dependent Cytotoxicity in Amyotrophic Lateral Sclerosis Cone, Alan J. 06 September 2016 (has links) No description available. Cellular Biology fus fission yeast pombe ALS amyotrophic lateral sclerosis model neurodegenerative FTLD frontotemporal lobar degeneration yeast Schizosaccharomyces
458	Day-roosting Social Ecology of the Northern Long-eared Bat (Myotis septentrionalis) and the Endangered Indiana Bat (Myotis sodalis) Silvis, Alexander 08 December 2014 (has links) Day-roost use by northern long-eared bat (Myotis septentrionalis) maternity colonies on the Fort Knox military reservation, Kentucky, USA, resulted in formation of non-random networks of roosts that exhibited a trend toward centralization. Centralization of day-roost networks was reflected in the social structure of colonies, which were characterized by dense associations among individuals within colonies. Social structure varied among colonies and appeared to be related to reproductive condition; colonies exhibited greater cohesiveness during parturition and lactation. Northern long-eared bat maternity colonies appeared to be exclusive, occupying distinct roosting areas with one or several areas receiving intense use. Day-roost removal simulations suggested a linear relationship between colony fragmentation and roost loss, and that loss of >20% of roosts is required to initiate colony fragmentation. Experimental hierarchical removal of day-roosts yielded results consistent with simulations, as removal of the single most-central (primary) roost had no impact on colony fragmentation, whereas removal of 24% of less-central (secondary) roosts resulted in partial network fragmentation. Patterns of colony day-roost and space use were similar pre- and post-removal treatments. Day-roost removal did not alter the number of roosts used by individual bats, but distances moved between roosts were greater in the secondary roost-removal treatment group. Day-roost characteristics largely were consistent pre-post treatment for both treatment groups. Historical data from an Indiana bat (Myotis sodalis) maternity colony revealed that this species also exhibits a non-random social assorting dynamic. Non-random social assortment resulted in a closely connected centralized network of day-roosts. Individuals within the Indiana bat maternity colony exhibited close social connections with colony members, but subgroups likely existed within the colony. Indiana bat day-roosting ecology appears flexible, as patterns of roost and space use differed substantially between years. Development of specific, but tactical, management approaches for individual colonies of both northern long-eared and Indiana bats may be possible. Such approaches would allow land managers to manage for both northern long-eared bat habitat and other objectives. However, the nature of targeted management approaches employed likely will depend on the unique forest context and dynamic within which individual colonies reside. / Ph. D. Northern long-eared bat Myotis septentrionalis social structure fission-fusion maternity colony roost removal roost selection Indiana bat Myotis sodalis
459	Nuclear structure studies with neutron-induced reactions : fission fragments in the N=50-60 region, a fission tagger for FIPPS, and production of the isomer Pt-195m / Études de la structure nucléaire avec des réaction induites par des neutron : Fragments de fission dans la région N=50-60, un marqueur d'événement de fission pour FIPPS et production de l'isomère Pt-195m Wilmsen, Dennis 21 December 2017 (has links) Ce travail s'inscrit dans le cadre d'études de structures nucléaires réalisées en utilisant des réactions de fission induites par neutrons froids. Il décrit successivement les résultats d'une étude sur des noyaux ayant un nombre de neutrons N=50-60, sur le développement d'un marqueur d'événements de fission et enfin sur la production de l'isomère Pt-195m. Chacun des différents sous-thèmes trouve son origine dans la campagne EXILL qui s'est déroulée en 2012-2013 et durant laquelle un spectromètre de grande efficacité pour la détection des rayonnements γ (EXOGAM) a été utilisé auprès du réacteur à haut flux de neutrons de l'Institut Laue-Langevin (ILL). Dans la première partie de cette thèse, les noyaux d'intérêt ont été produits par fission induites par des neutrons sur les cibles fissiles U-235 et Pu-241. Des méthodes de spectroscopie γ ont été appliquées pour l'identification des fragments de fission, l'attribution des transitions γ à un noyau et l'analyse des durées de vie moyenne des états excités. L'analyse des durées de vie moyenne des états excités dans la plage de quelques picosecondes à quelques nanosecondes a été réalisée en utilisant deux méthodes complémentaires. Dans les deux cas, il s'agit de réaliser un spectre en temps construit à partir de la coincidence entre une transition qui alimente le niveau mesuré et une transition qui le désexcite. Les durées de vie moyenne pour les noyaux Kr-92, Kr-93 et Zr-101 sont présentées. Dans la seconde partie, les premiers résultats du développement d'un nouveau détecteur pour la discrimination des fragments de fission sont présentés. Ce marqueur d'événements de fission est destiné à être utilisé sur le spectromètre FIssion Prompt Product γ-ray Spectrometer (FIPPS) de l'ILL. Dans le cadre de cette étude, deux conceptions de détecteurs différentes, basées sur un scintillateur en plastique solide et un scintillateur liquide organique, ont été testées. Dans la troisième partie, la possibilité de la population spécifique de l'isomère de spin dans Pt-195 est examinée au regard particulièrement de son utilisation en tant que radio-isotope en médecine nucléaire. Une telle activation spécifique pourrait être réalisée grâce à l'existence d'états excités dont la structure permettrait une population ciblée dans le cas de l'utilisation de réactions de photo-excitation. La recherche de tels états a été initiée lors d'une expérience de capture de neutrons à EXILL dans laquelle des états potentiels ont été identifiés. L'activation de l'isomère par ces états a ensuite été testée avec des réactions photonucléaires à l'aide du faisceau haute intensité disponible auprès de l'installation γ HIGS de TUNL (Triangle Universities Nuclear Laboratory, Duke, USA). / Within the scope of atomic nuclear structure studies with neutron-induced reactions, this work presents the results of a fission fragment study in the N=50-60 region, the development of a fission event tagger, and the production of the isomer Pt-195m. Each of the different sub-topics has its origin in the 2012/13 EXILL campaign, where nuclear structure studies were carried out with neutron-induced reactions, and explored with a γ-efficient detector array. In the first part of this thesis, the neutron-rich region around neutron number N=50-60 was investigated with neutron-induced fission reactions on the fissile targets U-235 and Pu-241. Gamma spectroscopy methods were applied for the identification of the respective fission fragments, the assignment of γ transitions, and the analysis of lifetimes of excited states. The slope fit method as well as the recently developed generalized centroid difference method were used for the analysis of lifetimes in the low picoseconds to sub-nanoseconds range. Lifetimes for the nuclei Kr-92, Kr-93 and Zr-101 are presented. In the second part, first results of the development of a new detector for the discrimination of fission fragments are presented. This fission event tagger is intended to be used at the FIssion Product Prompt γ-ray Spectrometer (FIPPS) at the Institut Laue-Langevin. Within the scope of this study, two different detector designs, based on a solid plastic scintillator and an organic liquid scintillator, respectively, were tested. In the third part the possibility of the specific population of the spin-isomer in Pt-195 is discussed with special regard to its use as radioisotope in nuclear medicine. Such a specific activation could be realized via certain “doorway states” in photo-excitation reactions. The search for these doorway states was initiated within a neutron capture experiment at EXILL where potential states were found. The activation of the isomer via these states was tested afterwards with photonuclear reactions using the high intense γ-beam HIGS of the TUNL facility. Mesure de durée de vie Détecteur d'événements de fission Cibles actives Radio-isotopes Radionucléides Thérapie ciblée par radionucléides Excitation photonucléaire Nuclear physics Nuclear structure Gamma spectroscop Nuclear fission Lifetime measurement EXILL Fission event detector Active targets FIPPS Radioisotopes Radionuclides Nuclear medicine Targeted radionuclide therapy Photonuclear excitation
460	Etude préliminaire de la mesure du rapport alpha, rapport de la section efficace moyenne de capture sur celle de fission de l'233U, sur la plateforme PEREN - Développement et étude du dispositif expérimental - Cognet, Marie-Anne 20 December 2007 (has links) (PDF) Cette thèse consiste en une étude préparatoire de la mesure du rapport alpha de l'233U entre 1eV et 10keV, facteur nécessaire pour calculer le pouvoir de régénération de réacteurs basés sur le cycle 232Th/233U. Cette mesure peut être effectuée au LPSC, sur la plateforme PEREN qui est composée d'un spectromètre à temps de ralentissement au plomb couplé à un GEnérateur de NEutrons Pulsé Intense (GENEPI). Les taux de capture et de fission sont mesurés grâce à 8 scintillateurs YAP utilisés en coïncidence et entourant une chambre à fission. Des mesures préliminaires sur l'235U ont présenté un rapport signal sur bruit très faible malgré les améliorations successives apportées. Les contributions du bruit de fond ont été comprises et quantifiées expérimentalement et via des simulations (MCNP et GEANT4). Il est cependant indispensable d'améliorer le rapport signal sur bruit d'au moins un ordre de grandeur pour obtenir la capture d'un élément fissile sur un tel dispositif expérimental. [PHYS:NUCL] Physics/Nuclear Theory Cycle thorium rapport alpha section efficace capture fission uranium 233 uranium 235 spectromètre à temps de ralentissement plomb neutrons épithermiques MCNP GEANT4

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