Dynamic DNA motors and structures

Lucas, Alexandra

January 2016

DNA nanotechnology uses the Watson-Crick base-pairing of DNA to self-assemble structures at the nanoscale. DNA nanomachines are active structures that take energy from the system to drive a programmed motion. In this thesis, a new design for a reversible DNA motor and an automatically regenerating track is presented. Ensemble fluorescence measurements observe motors walking along the same 42nm track three times. A second new motor was designed to allow motors on intersecting tracks to block each other, which can be used to perform logical computation. Multiple design approaches are discussed. The chosen approach showed limited success during ensemble fluorescence measurements. The 'burnt bridges' motor originally introduced by Bath et al. 2005 was also sent down tracks placed along the inside of stacked origami tubes that are able to polymerise to micrometre lengths. Preliminary optical microscopy experiments show promise in using such a system for observing micrometre motor movement. Scaffold-based DNA origami is the technique of folding a long single-stranded DNA strand into a specific shape by adding small staple strands that hold it in place. Extended staple strands can be modified to functionalise the origami surface. In this thesis, the threading of staple extensions through a freely-floating origami tile was observed using single-molecule Förster resonance energy transfer (smFRET). Threading was reduced by bracing the bottom of the extension or by using a multilayered origami. smFRET was also used to investigate the process of staple repair, whereby a missing staple is added to a pre-formed origami missing the staple. This was found to be successful when the staple is single-stranded, and imperfect when partially double-stranded. Finally the idea for a new "DNA cage", a dynamic octahedron called the "Holliday Octahedron", is presented. The octahedron is made of eight strands, one running around each face. Mobile Holliday junctions at each face allow the stands to rotate causing a conformational change.

New Measurement Techniques and Their Applications in Single Molecule Electronics

January 2012

abstract: Studying charge transport through single molecules tethered between two metal electrodes is of fundamental importance in molecular electronics. Over the years, a variety of methods have been developed in attempts of performing such measurements. However, the limitation of these techniques is still one of the factors that prohibit one from gaining a thorough understanding of single molecule junctions. Firstly, the time resolution of experiments is typically limited to milli to microseconds, while molecular dynamics simulations are carried out on the time scale of pico to nanoseconds. A huge gap therefore persists between the theory and the experiments. This thesis demonstrates a nanosecond scale measurement of the gold atomic contact breakdown process. A combined setup of DC and AC circuits is employed, where the AC circuit reveals interesting observations in nanosecond scale not previously seen using conventional DC circuits. The breakdown time of gold atomic contacts is determined to be faster than 0.1 ns and subtle atomic events are observed within nanoseconds. Furthermore, a new method based on the scanning tunneling microscope break junction (STM-BJ) technique is developed to rapidly record thousands of I-V curves from repeatedly formed single molecule junctions. 2-dimensional I-V and conductance-voltage (G-V) histograms constructed using the acquired data allow for more meaningful statistical analysis to single molecule I-V characteristics. The bias voltage adds an additional dimension to the conventional single molecule conductance measurement. This method also allows one to perform transition voltage spectra (TVS) for individual junctions and to study the correlation between the conductance and the tunneling barrier height. The variation of measured conductance values is found to be primarily determined by the poorly defined contact geometry between the molecule and metal electrodes, rather than the tunnel barrier height. In addition, the rapid I-V technique is also found useful in studying thermoelectric effect in single molecule junctions. When applying a temperature gradient between the STM tip and substrate in air, the offset current at zero bias in the I-V characteristics is a measure of thermoelectric current. The rapid I-V technique allows for statistical analysis of such offset current at different temperature gradients and thus the Seebeck coefficient of single molecule junctions is measured. Combining with single molecule TVS, the Seebeck coefficient is also found to be a measure of tunnel barrier height. / Dissertation/Thesis / Ph.D. Electrical Engineering 2012

Electrical engineering

Chemistry

Physics

charge transport

molecular eletronics

single molecule

STM-break junction

Characterization of the Molecular Mechanisms Regulating the Agrin Signaling Pathway: a Dissertation

Megeath, Laura Jalso

04 October 1999

The nervous system requires rapid, efficient, and accurate transmission between cells for proper functioning. Synapses are the predominant structures through which such vital communication occurs. How synapses are formed, maintained, and eliminated are questions of fundamental importance. At the nerve-muscle synapse, formation of the postsynaptic apparatus is directed by agrin. The hallmark activity of agrin is the aggregation of acetylcholine receptors (AChRs) into dense clusters opposite the presynaptic nerve terminal. Early events in the agrin signal transduction cascade include activation of the receptor tyrosine kinase MuSK and tyrosine phosphorylation of AChRs, but how these events lead to AChR cluster formation is unknown. Using the calcium buffer BAPTA, we demonstrate that intracellular calcium fluxes are necessary for agrin-induced formation of AChR clusters. However, clamping calcium fluxes before agrin stimulation does not alter agrin-induced phosphorylation of either MuSK or AChRs, indicating that this calcium-dependent step occurs downstream of both MuSK and AChR phosphorylation. These results identify a new step in the agrin signaling pathway required for the formation of AChR clusters. We show that intracellular calcium fluxes also play an important role in stabilizing AChR clusters. Clamping intracellular calcium fluxes results in rapid dispersal of AChR clusters and dephosphorylation of both MuSK and AChRs, even if agrin is continually present. Furthermore, the protein tyrosine phosphatase inhibitor pervanadate inhibits both the dispersal and dephosphorylation, indicating a role for a tyrosine phosphatase in AChR cluster dispersal. Our data indicate that AChR clusters are maintained by agrin/MuSK-induced intracellular calcium fluxes that tonically inhibit a tyrosine phosphatase localized to AChR clusters. Our findings also show that distinct molecular mechanisms mediate the formation and the dispersal of agrin-induced AChR clusters. The work presented here expands our understanding of synaptic differentiation in several ways. First, I characterized a new, calcium-dependent step required for the formation of agrin-induced AChR clusters. Next, I showed that postsynaptic specializations must be actively maintained, and describe a molecular mechanism that stabilizes AChR clusters. Finally, dispersal and formation of AChR clusters occurs by distinct pathways. Our understanding of the mechanisms regulating the formation and modulation of synapses will help us to better understand how the nervous system develops and responds to the world around us.

Neuromuscular Junction

Agrin

Synaptic Transmission

Amino Acids, Peptides, and Proteins

Nervous System

Efeitos da baixa altura do potencial da barreira em junções túnel magnéticas

Cruz de Gracia, Evgeni Svenk

January 2007

Junções túnel com eletrodos ferromagnéticos (Py/AlOx/Co) foram produzidas usando a técnica de desbastamento iônico e depositadas sobre condições de oxidação que garantem baixa altura da barreira de potencial, baixa assimetria da barreira, forte dependência da magnetorresistência túnel com a tensão aplicada e o tunelamento quântico como mecanismo de transporte eletrônico. As amostras foram produzidas com o objetivo de corroborar um modelo recentemente publicado e que prevê inversão da magnetorresistência túnel com a tensão aplicada devido à baixa altura do potencial da barreira. As medidas de magneto-transporte eletrônico (resistência de tunelamento em função do campo magnético aplicado) mostram uma inversão da magnetorresistência túnel com a tensão aplicada para temperatura constante de 77 K. O sistema (Py/AlOx/Co) é bem conhecido por apresentar magnetorresistência positiva onde a altura da barreira de potencial é geralmente igual ou maior a 2,0 eV (Moodera et al. 1995 e Boeve et al. 2000). Esta inversão não foi anteriormente reportada e se deve preferencialmente à baixa altura do potencial da barreira e à forte dependência com a tensão aplicada. A explicação física para a inversão é baseada no fator de coerência quântica, D(Ex , V), como previsto por Li et al. (2004a,b) e Ren et al. (2005) para a região de tensão intermediária. Ajustes às curvas I-V, medidas a temperatura ambiente, com os modelos de Simmons (1963b,c), Simmons (1964) e Chow (1965) mostram valores menores que os reportados anteriormente para a altura do potencial da barreira (≈ 1,0 eV) e barreiras com baixa assimetria (≈ 0,2 eV). Também, as curvas I-V para temperatura ambiente e baixa temperatura, as curvas I-T para tensão constante e o crescimento exponencial da resistência de tunelamento em função da espessura efetiva da barreira mostram que o tunelamento quântico é um mecanismo de transporte eletrônico. Este resultado sugere a possibilidade de constatar o aparecimento de áreas efetivas de tunelamento e indicando a presença de uma distribuição não uniforme da corrente de tunelamento. O efeito combinado da baixa altura da barreira de potencial, da baixa assimetria da barreira, da forte dependência da magnetorresistência túnel com a tensão aplicada e do tunelamento quântico como mecanismo de transporte eletrônico possibilitaram não somente a inversão da magnetorresistência túnel com a tensão aplicada, mas também o crescimento exponencial da resistência de tunelamento em função da espessura efetiva da barreira. / Tunneling junctions with ferromagnetic electrodes (Py/AlOx/Co) were produced by magnetron sputtering technique and deposited under oxidation conditions that lead to low potential barrier height, low asymmetrical barrier, strong tunneling magnetoresistance dependence with applied bias and quantum tunneling as the charge transport mechanism. The samples were deposited to verify a recently published model which predicts tunneling magnetoresistance inversion with applied bias due to low enough potential barrier height. Electronic transport measurements (tunneling resistance as a function of the applied magnetic field) show inverse (negative) tunneling magnetoresistance with applied bias at 77 K. Tunneling junctions of (Py/AlOx/Co) are well known positive magnetoresistance system where the potential barrier height is usually equal or higher than 2.0 eV (Moodera et al., 1995 e Boeve et al., 2000). This inverted tunneling magnetoresistance behavior has not been reported before and is due mainly to the low potential barrier height and the strong bias dependence The physical explanation for the inversion is based on the quantum coherence factor, D(Ex , V), following the Li et al. (2004ab) and Ren et al. (2005) model for intermediate voltage range. Room temperature I-V curves fitted with both Simmons’ (1963b,c), Simmons’ (1964) and Chow’s (1965) models showed potential barrier height values (≈ 1.0 eV), lower than those previously reported, and low asymmetry of the barrier (≈ 0.2 eV). Also, I-V curves for room and low temperature, I-T curves for constant applied bias and the exponential growth of the tunneling resistance as a function of the effective barrier thickness showed quantum tunneling as the charge transport mechanism. This result suggests the presence of effective tunneling areas or hot spots, leading to a non-uniform current distribution. The combined effect of low potential barrier height, low barrier asymmetry, strong tunneling magnetoresistance dependence with applied bias and quantum tunneling as the charge transport mechanism allowed not only the tunneling magnetoresistance inversion with applied bias but also, the exponential growth of the tunneling resistance as a function of the effective barrier thickness.

Tunelamento

Magnetismo

Magnetorresistência

Ferromagnetismo

Transporte eletronico

Junção

Junction

Tunneling

Electronic Transport

Magnetism

Magnetoresistance

Aerodynamická analýza a optimalizace konfigurace letounu TL-4000 / Aerodynamic analysis and optimization of TL-4000 aircraft

Trusík, Vojtěch

January 2014

This master´s thesis is focused on aerodynamic analysis of 3D configuration of aircraft TL – 4000 and designing shape modifications to improve flight performances. Modifications are focused on wing – fuselage junction and junction between tail units. In continuation are analyzed the shapes of air intakes to cooling engine. Based on aerodynamic analysis of aircraft TL – 4000 are chosen convenient positions for pitot-static tube and inlets for ventilation of cabin.

Efeito do estresse agudo, crônico e ambos combinados na permeabilidade intestinal de ratos

Lauffer, Adriana

January 2015

Introdução: o estresse psicológico aumenta a permeabilidade intestinal em roedores e humanos, potencialmente levando a inflamação de baixo grau e aos sintomas em distúrbios gastrintestinais funcionais. No entanto, o efeito do estresse agudo combinado ao estresse da vida crônica, que mimetiza potencialmente melhor a situação humana, é desconhecido. Além disso, há poucos dados disponíveis sobre os efeitos do estresse em intestino delgado versus cólon. Métodos: ratos Wistar foram alocados em quatro protocolos de estresse: 1/ controles; 2/ estresse agudo (isolamento e movimentos limitados); 3/ Crowding stress:crônico e 4/ estresse agudo + estresse crônico. Amostras de jejuno e cólon foram colhidas para estudar a permeabilidade em câmaras deUssing, a expressão gênica de moléculas de junção firmes e a densidade de mastócitos. Níveis de corticosterona no plasma foram medidos. Principais resultados:corticosterona plasmática foi avaliada nas três condições de estresse, teve níveis mais altos na condição de estresse combinado. Permeabilidade do jejuno foi aumentada em todas as condições de estresse e correlacionada com os níveis de corticosterona. O aumento da expressão das claudinas 1, 5 e 8, daocludina e da ZO-1 foi detectado no estado de estresse agudo no jejuno. Em contraste, a permeabilidade do cólon foi aumentada no protocolo de estresse combinado, e a expressão de moléculas das junção firmes permaneceu inalterada. O aumento da densidade de mastócitos foi observado no cólon nos ratos submetidos aos estresses crônico e combinado. Conclusão e inferências:os estresses agudo, crônico e combinado influenciam diferentemente a permeabilidade intestinal, a expressão de moléculas de junção firmes e a atividade dos mastócitos, no jejuno e no cólon. Estes resultados fornecem uma visão mais aprofundada dos mecanismos de hiperpermeabilidade intestinal relacionadas ao estresse. / Background: Psychological stress increases intestinal permeability in rodents and humans, potentially leading to low-grade inflammation and symptoms in functional gastrointestinal disorders through disturbances in brain-gut axis. However, the effect of acute stress on the background of Crhonic life stress, potentially better approaching the human situation, is unknown. Moreover, only limited information is available on the effects in small intestine versus colon in animal model. Methods: Wistar rats were allocated to 4 stress protocols: 1/ sham; 2/ acute stress (isolation and limited movement); 3/ Crhonic crowding stress and 4/ acute + Crhonic stress (n = 8 per group). Jejunum and colon were harvested to study permeability in Ussing chambers, gene expression of tight junction molecules and mast cell density. Plasma corticosterone levels were measured. Key Results: Plasma corticosterone was elevated in all three stress conditions, with the highest levels in the combined stress condition. Permeability of the jejunum was increased in all stress conditions and correlated with corticosterone levels. Increased expression of claudin 1, 5 and 8, occludin and ZO-1 was detected in the acute stress condition in the jejunum. In contrast, colonic permeability was increased in the acute on Crhonic stress protocol only and the expression of tight junction molecules was unaltered. Increased mast cell density was observed in the Crhonic and acute on Crhonic stress condition in the colon only. Conclusion and Inferences: Acute, Crhonic and combined stress differentially affect intestinal permeability, expression of tight junction molecules and mast cells in the jejunum and the colon. These findings provide further insight in the mechanisms of stress-related intestinal hyperpermeability and barrier.

Gastroenteropatias

Corticosterona

Estresse psicológico

Brain-gut axis

Corticosterone

Intestinal permeability

Mast cells

Psychological stress

Tight junction

Correlação da análise celular, molecular, comportamental e funcional das conexinas durante o desenvolvimento do estriado

Chabravi, Soha Mohamad Radwan Omar Osman

January 2017

Orientador: Prof. Dr. Alexandre Hiroaki Kihara / Tese (doutorado) - Universidade Federal do ABC, Programa de Pós-Graduação em Neurociência e Cognição, 2017. / O estriado é a maior estrutura dos núcleos basais (NB), recebendo inputs sinápticos de várias regiões. Ele está envolvido no controle de várias funções, incluindo a motora, cognitiva e emocional, além de ser essencial para a organização e execução de ações voluntárias. Os canais de junções comunicantes (JC) são responsáveis por vários processos essenciais, incluindo a sincronização da atividade neuronal e a propagação da apoptose em doenças neurodegenerativas. Por outro lado, o papel da comunicação mediada por Cx no desenvolvimento do SNC permanece mal compreendido. Neste estudo investigamos a expressão gênica e os níveis proteicos da Cx36, Cx43 e Cx45 no estriado de ratos ao longo do desenvolvimento, na idade de E19 (embrionária) P5, P10 (pós-natais) e P60 (adulto), usando PCR em tempo real e wester blotting, respectivamente. Em seguida, examinamos os possíveis papéis dos canais de Cx36, principal Cx neuronal, no estriado em desenvolvimento. Para esta finalidade, realizamos injeções bilaterais in vivo de quinina, um bloqueador seletivo de Cx36, no estriado de ratos P0. Nossos resultados mostraram que Cx36, Cx43 e Cx45 possuem níveis de RNAm distintos durante o desenvolvimento do estriado. Nós observados que os níveis da expressão gênica da Cx36 e Cx45 foram mais altos durante o desenvolvimento quando comparados com P60 (P <0,05), enquanto Cx43 teve níveis mais baixos durante o desenvolvimento, nas idades de E19 e P5, em relação à P60 (P <0,05). O nível proteico da Cx36 em E19 foi maior quando comparado com todas as idades avaliadas e com o adulto (P <0,05). Por outro lado, nós observamos baixos níveis proteicos para Cx43 e Cx45 em todas as idades de desenvolvimento, comparado com P60 (P <0,05). Para analisar os dados de imuno-histoquímica, foram empregadas ferramentas matemáticas para avaliar em detalhe as alterações no padrão de distribuição das Cx36 e Cx45. Verificou-se que a distribuição dos diferentes tamanhos clusters/aglomerados decai semelhante a uma lei de potência, mas com diferentes valores exponenciais para P0 e P60, revelando tamanho de clusters maiores em P0 (P <0,05). Para Cx43, observou-se que esta proteína esteve distribuída uniformemente em toda a região do estriado, incluindo no interior das fibras que formam esta estrutura, padrão não observado para P60. Os resultados estatísticos mostraram uma diferença robusta comparando esses dois padrões de distribuição da proteína (P <0,0002). Nossos resultados da injeção in vivo demonstraram que os comportamentos motivados, como a alimentação, foram gravemente prejudicados nos filhotes. Além disto, a ontogênese de alguns reflexos motores foi adiada, como os comportamentos de aversão ao precipício e de geotaxia negativa. Finalmente, investigamos as conseqüências funcionais do bloqueio de Cx36 realizado no desenvolvimento pós-natal, avaliando o comportamento do rato adulto. Nossos experimentos mostraram que tanto o condicionamento do medo ao som quanto a coordenação motora foram afetados, revelando padrões distintos dos animais controle. Em conclusão a primeira parte do estudo, fomos capazes de revelar padrões de expressão distintos de Cxs em desenvolvimento do estriado, que provavelmente estão relacionados com processos fundamentais durante o desenvolvimento. Pudemos, também, determinar que a comunicação feita pelos canais Cx36 desempenham papéis essenciais no desenvolvimento do SNC, como revelado por nossas observações no estriado. / The striatum is the largest structure of the basal ganglia (BG), receiving synaptic input from multiple regions. It is involved in the control of various aspects of motor, cognitive, and emotional functions, besides being essential for the organization and execution of voluntary actions. Gap junction (GJ) channels are responsible for several essential processes, including synchronization of neuronal activity and spreading of apoptosis in neurodegenerative diseases. On the other hand, the role of Cx-mediated communication in the development of the CNS remains poorly understood. In this study we investigated gene expression and protein levels of Cx36, Cx43 and Cx45 in the striatum of rats along its developmental ages of E19 (embrionary), P5, P10 (postnatal day) and P60 (adult) using real time PCR and western blotting, respectively. We next examined the possible roles of Cx36 channels, the main neuronal Cx, in the developing striatum. To this end, we performed in vivo bilateral injections of quinine, a selective Cx36 blocker, in the striatum of P0 rats. Our results showed that Cx36, Cx43 and Cx45 have distinct mRNA expression during the development of striatum. We observed that Cx36 and Cx45 gene expression levels were higher during the development when compared to P60 (P<0.05), while Cx43 was lower in developmental ages of E19 and P5 (P<0.05) comparing to P60. Cx36 protein levels at E19 were higher when compared with all evaluated ages and to P60 (P<0.05). On the other hand, we observed lower protein levels of Cx43 and Cx45 along all development ages compared to P60 (P<0.05). For immunofluorescence, we employed mathematical analyses to evaluate in detail changes in Cx36 and Cx45 distribution of clusters size evaluation. It was found that the distribution of the clusters size decays similarly with a power law, but with different exponent values for P0 and P60, revealing larger mean clusters at P0 (P<0.05). For Cx43, we observed that this protein was uniformly distributed in the whole striatum, including inside the fibers that forms this structure, pattern not seen for P60. Statistical results showed a robust difference comparing those two patterns of protein distribution (P<0.0002). Our results from in vivo injection showed that motivated behaviors, such as feeding, were severely impaired in rat pups. Moreover, ontogenesis of some motor reflexes was delayed, as supported by cliff avoidance and negative geotaxis behavior tests. Finally, we focused on the functional consequences of Cx36 blockade performed in postnatal development by evaluating adult behavior. Our experiments showed that both tone fear conditioning and motor coordination were affected, revealing distinct from control animals. In conclusion from first part of this study, we were able to disclose distinct expression patterns of Cxs in developing striatum, which are probably related to fundamental processes during the development. We were, also, able to determine that communication provided by Cx36 channels play essential roles in the developing of the CNS, as revealed by our observations in the striatum.

CONEXINA

JUNÇÃO COMUNICANTE

ESTRIADO

CONNEXIN

GAP JUNCTION

STRIATUM

Formulation and evaluation of the biocompatibility of chitosan-dextran nanoparticles using a blood-brain barrier model

Ntwatwa, Ziphozihle

January 2018

Magister Scientiae - MSc (Medical BioSciences) / Central nervous system (CNS) infections are a therapeutic challenge. This is partly due to insufficient drug penetration across the blood-brain barrier (BBB). The BBB is a specialized, highly selective, metabolically active physiological barrier that regulates the movement of molecules into-and-out of the brain. As a result, large hydrophilic antibiotics such as colistin poorly penetrate to the CNS. Colistin is an old 'last line of defence'; a gram-negative antibiotic that has seen its clinical re-emergence due to the surge of multidrug resistance (MDR) infections. However, owing to systemic toxicity, increasing the intravenous dosage, in order to obtain higher CNS penetration, is inimical. Chitosan (CS) based nanoparticles (NPs) have been proposed as drug delivery systems across the BBB. CS is a cationic, natural polysaccharide that has the ability to be complexed with multivalent polymers like dextran (DS) thus forming CS-DS NPs. Naturally, CS has remarkable inherent features such as biocompatibility, biodegradability, ability to encapsulate poorly soluble drugs and it is favourable for endothelial cell uptake. However, polymeric NPs (even those derived from natural polysaccharides) have limited use due to toxicity. Considering the vital role of the BBB, toxicity would denote dire effects on CNS functioning. Therefore, treatment of CNS infections fringes on a deeper understanding of the interactions between drug delivery systems and the BBB.

Studying the formation of tricellular junction upon epithelial cell division in Drosophila / Etude de la formation de la jonction tricellulaire au cours de la division épithéliale chez la drosophile

Wang, Zhimin

15 December 2017

Pour maintenir l'organisation et la polarité du tissu épithélial, de nouvelles jonctions cellulaires ont besoin de se former lors de la division cellulaire. Pour comprendre les mécanismes de formation de la jonction durant la cytokinèse, nous avons exploré dans les tissus épithéliaux de la Drosophile, la formation des jonctions septées tricellulaires (TCJs), critique à la fois dans la fonction de barrière tissulaire, dans l'homéostasie des cellules souches, ainsi que dans l'orientation du fuseau mitotique. Durant les dernières étapes de la constriction de l'anneau contractile, les membranes des deux cellules filles et des cellules voisines localisées sous la jonction adhérente (JA) restent enchevêtrées dans une structure à 4 cellules apposée au corps intermédiaire. Les constituants protéiques de la jonction septée, Discs-large (Dlg) et Neuroglian (Nrg), ainsi que les composants de la TCJ, Gliotactin (Gli) et Anakonda (Aka), s'accumulent dans cette structure à 4 cellules. Par la suite, la descente basale du corps intermédiaire est corrélée au détachement des membranes des cellules voisines, au désengagement des cellules filles de leurs voisines, et à la formation de TCJs matures. Le détachement des cellules voisines du corps intermédiaire est indépendant de l'abscision. Au contraire, la perte de la fonction Gli ou Aka empêche le détachement entre les cellules filles-voisines et le mouvement du corps intermédiaire. Ainsi, nous proposons que les protéines de la TCJ contrôlent une étape additionnelle de la cytokinèse, nécessaire au désengagement des cellules filles et de leurs voisines durant la cytokinèse épithéliale. / To maintain epithelial tissue organisation and polarity, new cell-cell junctions need to be formed upon cell division. To understand the mechanisms of junction formation during cytokinesis, we explored in Drosophila epithelial tissues, the de novo formation of tricellular septate junctions (TCJs), which are critical to tissue barrier function, stem cell homeostasis and mitotic spindle orientation. During the final stages of cytokinetic ring constriction, the membranes of the two daughter cells and of the neighbouring cells located below the adherens junction (AJ) remain entangled in a 4-cell structure apposed to the midbody. Protein constituents of the septate junction Discs-large (Dlg) and Neuroglian (Nrg) and the components of the TCJ Gliotactin (Gli) and Anakonda (Aka) accumulate in this 4-cell structure. Subsequently, a basal descent of the midbody correlates with the detachment of the neighbouring cell membranes, disengagement of the daughter cells from their neighbours and the formation of mature TCJs. The detachment of the neighbouring cells from the midbody is independent of abscission. On the contrary, the loss of Gli or Aka function prevents the resolution of the connection between the daughter-neighbour cells and the midbody movement. Altogether, we propose that TCJ proteins control an additional step of cytokinesis necessary for the disentanglement of the daughter cells and their neighbours during epithelial cytokinesis.

Cytokinèse

Jonction septée

Jonction tricellulaire

Abscission

Gli

Aka

Cytokinesis

Septate junction

Abscission

571.6

Spectroscopies locales sur des nanostructures hybrides hors équilibre / Local spectroscopies on hybrid superconducting nanostructures out of equilibrium.

Quaglio, Thomas

19 January 2012

Nous utilisons un microscope combinant microscopie à force atomique (AFM) et microscopie à effet tunnel (STM) à très basse température (~100 mK) afin d'étudier des nanocircuits mésoscopiques. Pour effectuer l'AFM dans ces conditions, nous utilisons un diapason en quartz recouvert de deux électrodes sur l'une desquelles est collée la pointe. Lorsque le diapason vibre on peut alors localiser en AFM un échantillon conducteur sur un substrat isolant, puis stopper les vibration pour réaliser des spectroscopies tunnel le long de la partie conductrice. Nous utilisons des pointes de platine-iridium ce qui nous permet de mesurer la densité d'états électronique locale. Nous nous sommes intéressés aux jonctions Josephson hybrides composées d'un îlot d'environ 1 µm de métal normal (cuivre) séparant deux supraconducteurs (aluminium). Ces échantillons sont réalisées par lithographie électronique et évaporation sous angle.Les courbes courant-tension de ces jonctions deviennent hystérétiques à très basse température ce qui est vraisemblablement dû à la dissipation thermique dans la partie normale. Nous avons pu localiser de manière fiable des échantillons uniques et effectuer simultanément des mesures en transport et des spectroscopies locales. Nous avons vu que la densité d'états du supraconducteur varie continuement à proximité du métal normal. Nous avons également observé un chauffage du supraconducteur avec le courant traversant la jonction. La mesure de la densité d'états du supraconducteur permet alors d'estimer la température électronique dans l'échantillon. La comparaison avec notre modèle thermique montre que l'énergie thermique produite dans le métal normal semble être évacuée mieux que prévu. / We use a microscope combining atomic force microscopy (AFM) and scanning tunneling microscopy (STM) at very low temperature (~100 mK) to study mesoscopic nanocircuits. To perform AFM measurements, we use quartz tuning forks covered with metallic electrodes on which we glue the tip. By using the tuning fork as a dynamic force sensor, we can localize the sample. Then, switching off the oscillation, we can perform local spectroscopies along the conductive part. We use platinum-iridium coated tips to measure the local density of states. This work is focused on hybrid Josephson junctions composed of a normal metal (copper) island of approximately 1 µm separating two superconductors (aluminium). These samples are made by electronic lithography and shadow evaporation.The current-voltage characteristics of these junctions become hysteretic at very low temperature because of thermal dissipation in the normal part. We achieved the localization of a unique sample and performed simultaneously transport measurements and local spectroscopies. We observed that the density of states of the superconductor varies continuously close to the normal metal. We also observed heating in the superconductor when the junction is current biased. The measure of the density of states of the superconductors gives an estimation of the electronic temperature in the sample. The comparison with our thermal model shows that the energy produced in the normal metal seems to be evacuated better than expected.

AFM

STM

Supraconducteur

Effet de proximité

Jonction Josephson

AFM

STM

Superconductor

Proximity effect

Josephson junction