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Die Bedeutung der Ca2+/Calmodulin-abhängigen Proteinkinase IIδ für die zytosolische Natrium- und Kalziumüberladung sowie Arrhythmogenese in Herzmuskelzellen / The significance of the Ca2+/Calmodulin-dependent protein kinase IIδ in oxygen mediated cellular sodium and calcium overload as well as arrhythmogenesis in cardiomyocytes.Bellmann, Sarah 04 February 2013 (has links)
No description available.
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Untersuchungen zur kapazitationsassoziierten Signaltransduktion in humanen Spermatozoen und Evaluation des MACS-Verfahrens zur EjakulataufbereitungKriegel, Christian 16 April 2013 (has links)
Als Kapazitation bezeichnet man den im weiblichen Reproduktionstrakt stattfindenden Reifungsschritt, der Spermien das volle Fertilisierungspotential verleiht. Die molekularbiologischen Grundlagen dieses für eine erfolgreiche natürliche oder auch artifizielle Befruchtung essenziellen Prozesses sind bis heute nur unvollständig verstanden.
Im Rahmen der vorliegenden Dissertation wurden die mit der Kapazitation einhergehenden funktionellen und strukturellen spermalen Veränderungen untersucht. Die kapazitative Stimulation führte zu einer gesteigerten Motilität bis hin zur Hyperaktivierung, zu einer vermehrt induzierten Akrosomenreaktion und zu einer deutlich reduzierten Apoptoseaktivität.
Anhand von Inhibitionsexperimenten wurde die Rolle der potentiellen Signaltransduktoren Caspase-1, Calpain und Calmodulin analysiert. Dabei wies die Calmodulinantagonisierung auf eine ausgeprägte Calciumabhängigkeit aller untersuchten kapazitationsassoziierten Prozesse hin. Die Hemmung von Caspase-1 und Calpain führte zu einer Beeinträchtigung der Motilität und der Akrosomenreaktion ohne das Ausmaß der Apoptoseinduktion zu beeinflussen.
Die vorstehend genannten Erkenntnisse wurden zur Evaluation verschiedener Ejakulataufbereitungsprotokolle genutzt. Dabei konnte gezeigt werden, dass die Kombination des modernen Verfahrens der immunomagnetische Zellseparation mit der etablierten Methode der Dichtegradientenzentrifugation dem einfachen Standard in Bezug auf die Anreicherung hochmotiler Spermien mit minimaler Apoptoseaktivität aus frischen wie auch aus kryokonservierten Ejakulaten deutlich überlegen war. Bedeutsam im Hinblick auf eine mögliche pratische Anwendung der immunomagnetischen Zellseparation erscheint der Befund, dass die durch das kombinierte Anreicherungsverfahren erhaltene Spermatozoensubpopulation im Hamsteroozytenpenetrationstest ein signifikant höheres Fertilisierungspotential zeigte.
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Influência da melatonina e análogos sobre a expressão de colinoceptores nicotínicos em miotubos de rato em cultura. / Influence of melatonin and analogues on the nicotinic-colinoceptors expression in myotube culture from rats.Paula, Lidiana Duarte de Almeida 08 May 2008 (has links)
O objetivo deste estudo foi caracterizar a influência da melatonina sobre a atividade de colinoceptores nicotínicos em miotubos de rato em cultura e determinar seu mecanismo de ação. Neste modelo verificamos que a melatonina reduz a densidade de sítios de ligação para ?-bungarotoxina e também a produção de AMP cíclico induzida por forscolina, adenosina e CGRP, mas não por isoprenalina. Estes efeitos foram mimetizados por N-acetilserotonina e 4-P-PDOT, mas não por 2-Iodo-melatonina e 5-MCA-NAT, e foram bloqueados por luzindol. A redução da produção de AMP cíclico não foi inibida por toxina pertussis. O calmidazolium bloqueia tanto a redução da densidade dos colinoceptores nicotínicos quanto a inibição da produção de AMP cíclico. Avaliando a via da guanilil ciclase determinamos que melatonina e calmidazolium inibem a produção de GMP cíclico induzida por KCl. Podemos concluir que a melatonina não está atuando via receptores de membrana, mas provavelmente, está atuando internamente bloqueando a enzima calmodulina. / The objective of this study was characterize the influence of melatonin on the nicotinic-colinoceptors activity in myotube culture from rats and seeks its action mechanism. In this model we demonstrated that melatonin decreases the binding-sites density to ?-bungarotoxin and cyclic AMP synthesis induced by forskolin, adenosine and CGRP, but not by isoprenaline. These effects were mimetized by N-acetylserotonin and 4-P-PDOT, but not by 2-iodomelatonin and 5-MCA-NAT and were blocked by luzindol. Reduction of the cyclic AMP synthesis was not inhibited by pertussis toxin. Calmidazolium blocked both the reduction of nicotinic colinoceptors density and the inhibition of AMP cyclic synthesis. After evaluate the guanylyl cyclase via, we determined that melatonin and calmidazolium inhibit the cyclic GMP synthesis induced by KCl. Then we concluded that melatonin does not act via membrane receptors, but probably, acts blocking the calmodulin enzyme.
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Influência da melatonina e análogos sobre a expressão de colinoceptores nicotínicos em miotubos de rato em cultura. / Influence of melatonin and analogues on the nicotinic-colinoceptors expression in myotube culture from rats.Lidiana Duarte de Almeida Paula 08 May 2008 (has links)
O objetivo deste estudo foi caracterizar a influência da melatonina sobre a atividade de colinoceptores nicotínicos em miotubos de rato em cultura e determinar seu mecanismo de ação. Neste modelo verificamos que a melatonina reduz a densidade de sítios de ligação para ?-bungarotoxina e também a produção de AMP cíclico induzida por forscolina, adenosina e CGRP, mas não por isoprenalina. Estes efeitos foram mimetizados por N-acetilserotonina e 4-P-PDOT, mas não por 2-Iodo-melatonina e 5-MCA-NAT, e foram bloqueados por luzindol. A redução da produção de AMP cíclico não foi inibida por toxina pertussis. O calmidazolium bloqueia tanto a redução da densidade dos colinoceptores nicotínicos quanto a inibição da produção de AMP cíclico. Avaliando a via da guanilil ciclase determinamos que melatonina e calmidazolium inibem a produção de GMP cíclico induzida por KCl. Podemos concluir que a melatonina não está atuando via receptores de membrana, mas provavelmente, está atuando internamente bloqueando a enzima calmodulina. / The objective of this study was characterize the influence of melatonin on the nicotinic-colinoceptors activity in myotube culture from rats and seeks its action mechanism. In this model we demonstrated that melatonin decreases the binding-sites density to ?-bungarotoxin and cyclic AMP synthesis induced by forskolin, adenosine and CGRP, but not by isoprenaline. These effects were mimetized by N-acetylserotonin and 4-P-PDOT, but not by 2-iodomelatonin and 5-MCA-NAT and were blocked by luzindol. Reduction of the cyclic AMP synthesis was not inhibited by pertussis toxin. Calmidazolium blocked both the reduction of nicotinic colinoceptors density and the inhibition of AMP cyclic synthesis. After evaluate the guanylyl cyclase via, we determined that melatonin and calmidazolium inhibit the cyclic GMP synthesis induced by KCl. Then we concluded that melatonin does not act via membrane receptors, but probably, acts blocking the calmodulin enzyme.
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Investigation of Structure-function and Signal Transduction of Plant Cyclic Nucleotide-gated Ion ChannelsChin, Kimberley 07 January 2014 (has links)
Cyclic nucleotide-gated channels (CNGCs) are non-selective cation channels that were first identified in vertebrate photosensory and olfactory neurons. Although the physiological roles and biophysical properties of animal CNGCs have been well studied, much less is known about these channels in plants. The Arabidopsis genome encodes twenty putative CNGC subunits that are postulated to form channel complexes that mediate various physiological processes involving abiotic and biotic stress responses, ion homeostasis and development.
The identification of Arabidopsis autoimmune CNGC mutants, such as defense no death class (dnd1 and dnd2), and the constitutive expressor of pathogenesis related genes 22 (cpr22) implicate AtCNGC2, 4, 11 and 12 in plant immunity. Here, I present a comprehensive study of the molecular mechanisms involved in CNGC-mediated signaling pathways with emphasis on pathogen defense. Previously, a forward genetics approach aimed to identify suppressor mutants of the rare gain-of-function autoimmune mutant, cpr22, identified key residues that are important for CNGC subunit interactions and channel function.
First, I present a structure-function analysis of one of these suppressor mutants (S58) that revealed a key residue in the cyclic nucleotide binding domain involved in the stable regulation of CNGCs. Second, I present a new suppressor screen using AtCNGC2 T-DNA knockout mutants that specifically aimed to identify novel downstream components of CNGC-mediated pathogen defense signaling. In this screen, I successfully isolated and characterized the novel Arabidopsis mutant, repressor of defense no death 1 (rdd1), and expanded this study to demonstrate its involvement in AtCNGC2 and AtCNGC4-mediated signal transduction. Additionally, I demonstrated for the first time, the physical interaction of AtCNGC2 and AtCNGC4 subunits in planta.
The findings presented in this thesis broaden our current knowledge of CNGCs in plants, and provide a new foundation for future elucidation of the structure-function relationships and signal transduction mediated by these channels.
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Investigation of Structure-function and Signal Transduction of Plant Cyclic Nucleotide-gated Ion ChannelsChin, Kimberley 07 January 2014 (has links)
Cyclic nucleotide-gated channels (CNGCs) are non-selective cation channels that were first identified in vertebrate photosensory and olfactory neurons. Although the physiological roles and biophysical properties of animal CNGCs have been well studied, much less is known about these channels in plants. The Arabidopsis genome encodes twenty putative CNGC subunits that are postulated to form channel complexes that mediate various physiological processes involving abiotic and biotic stress responses, ion homeostasis and development.
The identification of Arabidopsis autoimmune CNGC mutants, such as defense no death class (dnd1 and dnd2), and the constitutive expressor of pathogenesis related genes 22 (cpr22) implicate AtCNGC2, 4, 11 and 12 in plant immunity. Here, I present a comprehensive study of the molecular mechanisms involved in CNGC-mediated signaling pathways with emphasis on pathogen defense. Previously, a forward genetics approach aimed to identify suppressor mutants of the rare gain-of-function autoimmune mutant, cpr22, identified key residues that are important for CNGC subunit interactions and channel function.
First, I present a structure-function analysis of one of these suppressor mutants (S58) that revealed a key residue in the cyclic nucleotide binding domain involved in the stable regulation of CNGCs. Second, I present a new suppressor screen using AtCNGC2 T-DNA knockout mutants that specifically aimed to identify novel downstream components of CNGC-mediated pathogen defense signaling. In this screen, I successfully isolated and characterized the novel Arabidopsis mutant, repressor of defense no death 1 (rdd1), and expanded this study to demonstrate its involvement in AtCNGC2 and AtCNGC4-mediated signal transduction. Additionally, I demonstrated for the first time, the physical interaction of AtCNGC2 and AtCNGC4 subunits in planta.
The findings presented in this thesis broaden our current knowledge of CNGCs in plants, and provide a new foundation for future elucidation of the structure-function relationships and signal transduction mediated by these channels.
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Über die differentielle Regulation von Ionenkanälen in spezifischen Nanodomänen atrialer und ventrikulärer Kardiomyozyten / Differential Regulation of Ion Channels in Specific Nanodomains of Atrial and Ventricular CardiomyocytesBrandenburg, Sören 29 June 2017 (has links)
No description available.
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DISTINCT ROLES OF THE aD HELIX IN aCAMKII ACTIVATION CHARACTERIZED USING A DE NOVO MUTATION FROM CHILDREN WITH LEARNING DISABILITIESWalter Saide (16650807) 07 August 2023 (has links)
<p>This dissertation describes the effects of a <i>de novo</i> mutation of CaMKII found in children with learning disabilities and describes its effect on catalytic activity. We develop a malachite green assay for the measurement of CaMKII activation and use it for high-throughput chemical screening to identify CaMKII inhibitors and enhancers. We also propose a new mechanism of regulation of CaMKII activity by ADP.</p><p><br></p>
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Multidisciplinary study of the role of calcium in plant in vitro embryogenesisCalabuig Serna, Antonio 06 September 2023 (has links)
[ES] El calcio (Ca2+) es un catión esencial que juega un papel fundamental en todos los organismos vivos. Desde el punto de vista funcional, el Ca2+ actúa como un segundo mensajero que regula distintos procesos celulares. Trabajos anteriores indican que la señalización mediante Ca2+ podría estar implicada en las primeras etapas de la inducción de la embriogénesis in vitro de las plantas, pero el verdadero papel del Ca2+ en este proceso es aún desconocido. Por eso, el principal objetivo de la presente Tesis es el estudio del papel del Ca2+ en la embriogénesis in vitro mediante dos sistemas in vitro: la embriogénesis somática y la embriogénesis de microsporas. Para determinar la importancia de la homeostasis del Ca2+ en la inducción de la embriogénesis y las dinámicas de los niveles de Ca2+ durante la inducción y el establecimiento de embriones somáticos y derivados de microsporas, se utilizaron tratamientos químicos y se detectaron los niveles de Ca2+ mediante sondas fluorescentes y sensores cameleon codificados genéticamente, visualizados con microscopía fluorescente y confocal. Observamos que el aumento de Ca2+ es un marcador temprano en la inducción de la embriogénesis in vitro y que los niveles de Ca2+ durante la embriogénesis in vitro son dinámicos en todos los sistemas estudiados. Además, las oscilaciones en los niveles de Ca2+ podrían estar relacionadas con los procesos de diferenciación que ocurren en las células inducidas una vez une el Ca2+ a la calmodulina. Mostramos que un aumento de Ca2+ dentro de un rango definido de concentración tiene un efecto positivo, dependiendo del sistema, en la producción de embriones, siendo más sensibles aquellos sistemas basados en suspensiones de células aisladas que aquellos que usan tejidos como explantes. Finalmente, estudiamos el papel de la calosa durante la embriogénesis somática, observando que la inhibición de la deposición de calosa impide el desarrollo embrionario, lo que sugiere una relación entre la formación de una barrera de calosa y el establecimiento de la identidad embrionaria en las células somáticas. / [CAT] El calci (Ca2+) és un catió essencial que juga un paper fonamental en tots els organismes vius. Des del punt de vista funcional, el Ca2+ actua com a un segon missatger que regula diferents processos cel·lulars. Treballs anteriors indiquen que la senyalització mitjançant el Ca2+ podria estar implicada en les primeres etapes de la inducció de l'embriogènesi in vitro de les plantes, però el paper real del Ca2+ en aquest procés encara és desconegut. Per això, el principal objectiu de la present Tesi és l'estudi del paper del Ca2+ en l'embriogènesi in vitro mitjançant dos sistemes in vitro: l'embriogènesi somàtica i l'embriogènesi de micròspores. Per tal de determinar la importància de l'homeòstasi del Ca2+ en la inducció de l'embriogènesi i les dinàmiques dels nivells de Ca2+ durant la inducció i l'establiment d'embrions somàtics i derivats de micròspores, es van utilitzar tractaments químics i es van detectar els nivells de Ca2+ mitjançant sondes fluorescents i sensors de cameleon codificats genèticament, visualitzats amb microscòpia fluorescent i confocal. Vam observar que l'augment de Ca2+ és un marcador primerenc en la inducció de l'embriogènesi in vitro i que els nivells de Ca2+ durant l'embriogènesi in vitro són dinàmics en tots els sistemes estudiats. A més, les oscil·lacions en els nivells de Ca2+ podrien estar relacionades amb els processos de diferenciació que tenen lloc en les cèl·lules induïdes una vegada uneix el Ca2+ a la calmodulina. Vam mostrar que un augment de Ca2+ dins d'un rang definit de concentració té un efecte positiu, depenent del sistema, en la producció d'embrions, essent més sensibles aquells sistemes basats en suspensions de cèl·lules aïllades que aquells que usen teixits com a explants. Finalment, vam estudiar el paper de la cal·losa durant l'embriogènesi somàtica, i vam observar que la inhibició de la deposició de cal·losa impedeix el desenvolupament embrionari, la qual cosa suggereix una relació entre la formació d'una barrera de cal·losa i l'establiment de la identitat embrionària en les cèl·lules somàtiques. / [EN] Calcium (Ca2+) is an essential cation that plays fundamental roles in all living organisms. From a functional point of view, Ca2+ acts as a second messenger that regulates different cellular processes. Previous works point to the fact that Ca2+ signaling may be involved in the early stages of induction of in vitro plant embryogenesis, but the actual role of Ca2+ in this process remained unveiled. Thus, the main goal of the present Thesis is to study the role of Ca2+ in in vitro embryogenesis using two in vitro systems: somatic embryogenesis and microspore embryogenesis. Chemical treatments and detection of Ca2+ with fluorescent probes and genetically-encoded cameleon sensors imaged by fluorescence and confocal microscopy were performed to determine the importance of Ca2+ homeostasis for induction of embryogenesis and the dynamics of Ca2+ levels during the induction and establishment of somatic and microspore-derived embryos. We observed that Ca2+ increase is an early marker of induction of in vitro embryogenesis and Ca2+ levels during in vitro embryogenesis are dynamic in all the systems we studied. Moreover, Ca2+ oscillations might be related to the differentiation processes that take place in the induced cells upon binding to calmodulin. We showed that Ca2+ increase within a defined range has system-specific positive effects in embryo yield, being more sensitive those systems using isolated cell suspensions rather than those using tissues as explants. Finally, we studied the role of callose during somatic embryogenesis, and we observed that inhibiting callose deposition prevents embryo development, which suggests a relationship between the formation of a callose barrier and the establishment of embryo identity in somatic cells. / Calabuig Serna, A. (2023). Multidisciplinary study of the role of calcium in plant in vitro embryogenesis [Tesis doctoral]. Universitat Politècnica de València. https://doi.org/10.4995/Thesis/10251/196022
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