Respostas de pêlos radiculares de tomateiro (Solanum lycopersicum L. cv Micro-Tom) submetidos a estresse por pH baixo e hipo-osmolaridade / Response of tomato (Solanum lycopersicum L. cv Micro-Tom) root hairs to low pH and hypo-osmotic stress

Sardinha, Elissena Chinaglia Zabotto

30 November 2010

A acidez do solo é um dos principais fatores limitantes à produção vegetal. A toxicidade por alumínio, que ocorre apenas a pH baixo, tem sido extensamente investigada, enquanto o estresse causado pelo pH baixo tem recebido pouca atenção. Os estudos nesta área quase sempre presumem efeitos aditivos, e portanto independentes, da toxicidade por Al3+ e H+. Este provavelmente não é o caso, sendo que o pH baixo pode ser um fator de predisposição das células ao Al3+. As evidências indicam que o pH baixo causa desarranjos na parede de células em crescimento, gerando estresse que pode comprometer a sua funcionalidade e integridade. É provável que a susceptibilidade a este estresse deve ser dependente da pressão de turgor. Por sua vez, o metabolismo oxidativo e a geração de espécies reativas de oxigênio (ROS) na parede celular podem modular a sua extensibilidade por romper ou criar ligações dentro ou entre cadeias de polissacarídeo. Há grande interesse em se conhecer se, à semelhança do que ocorre em leveduras, as células vegetais possuem um sistema de percepção e resposta a estresse da parede. Os pêlos radiculares em crescimento são sensíveis a pH baixo e estresse hipo-osmótico e constituem um bom modelo experimental para estes estudos. Os objetivos deste trabalho foram: a) Otimizar um sistema experimental para o estudo de pêlos radiculares de tomateiro (Solanum lycopersicum L. cv Micro-Tom); b) Avaliar as respostas dos pêlos radiculares ao estresse por pH baixo e hipo-osmolaridade; c) Examinar o papel da modulação oxidativa da parede celular nestas respostas; e d) Avaliar a resposta de diferentes mutantes hormonais de Micro-Tom a estes fatores de estresse. Os principais parâmetros avaliados foram a taxa de alongamento (µm.min-1) e a freqüência de rompimento dos pêlos. Tanto o estresse por pH baixo quanto choques hipo-osmóticos resultaram em taxas de alongamento significativamente diminuídos e o rompimento de pêlos radiculares, mas os efeitos dos tratamentos hipo-osmóticos foram mais marcantes. Uma curva de resposta frente à osmolaridade da solução externa revelou que a taxa de alongamento aumentou com a diminuição da osmolaridade até alcançar um limiar em que houve redução drástica da taxa de alongamento e começou-se a observar o rompimento de pêlos. Também se observou uma interação entre hipo-osmolaridade e pH baixo. O emprego do inibidor difenileno iodônio não forneceu evidências do envolvimento de NADPH oxidases da membrana plasmática na resposta de pêlos radiculares a choque hipo-osmótico ou pH baixo. Já no caso do inibidor ácido salicilhidroxâmico, encontrou-se evidências do envolvimento de peroxidases da parede. Nos mutantes hormonais dgt (pouco sensível a auxina) e epi (super produtor de etileno), mas não em not (deficiente em ácido abscísico), os pêlos radiculares apresentaram uma melhor resposta de ajustamento a choque hipo-osmótico do que Micro-Tom, reduzindo o alongamento e o rompimento dos pêlos. Este trabalho fornece fortes evidências de que os pêlos radiculares possuem um mecanismo de percepção e resposta a estresse da parede visando à manutenção de sua integridade e que apresentam bom potencial como sistema modelo nesta linha de pesquisa / Soil acidity is a major factor limiting plant growth worldwide. Aluminum toxicity, which occurs only at low pH, has been extensively studied, whereas low pH stress has received much less attention. Studies on Al3+ and H+ toxicity make the underlying assumption that the effects of these stress factors are additive, and, therefore independent of each other. However, this is most likely not the case and low pH may be a factor which increases susceptibility to further injury by Al3+. There is evidence that low pH causes disruption in cell wall structure of growing cells, which might jeopardize cell wall functionality and integrity. It is likely that turgor pressure plays an important role in cell wall stress caused by low pH. The apoplastic metabolism of reactive oxygen species (ROS) can modulate cell wall extensibility by making or breaking bonds within and between cell wall polysaccharides. A major question is whether, similarly to yeast, plant cells have a cell wall integrity signaling and response system. Growing root hairs are sensitive to low pH and hypo-osmotic stress and are potentially good experimental systems for such investigations. The objectives of this study were: a) Optimize an experimental system to examine tomato (Solanum lycopersicum L. cv Micro-Tom) root hairs; b) Examine the response of root hairs to low pH and hypo-osmotic stress; c) Examine the role of oxidative modulation of the cell wall in these responses; and d) Evaluate the response of different hormonal mutants of Micro-Tom to these stress factors. Root hair elongation rates (µm.min-1) and the frequency of cell bursting were the major experimental parameters which were evaluated. Both low pH and, more markedly, hypo-osmotic stress caused significant reductions in elongation rates and the bursting of root hair tips. In a response curve to varying osmolarities of the external medium, root hair elongation rates increased with decreasing osmolarities until a threshold was reached and elongation rates decreased drastically and the bursting of root hairs began to be observed. Interactions between low pH and hypo-osmolarity were observed. The use of the inhibitor diphenylene iodonium (DPI) did not provide evidence for the involvement of plasma membrane NADPH in the response of root hairs to low pH and hypo-osmotic shock. However, a role for cell wall peroxidases was provided by use of the inhibitor salicylhydroxamic acid (SHAM). Root hairs of the hormonal mutants dgt (low sensitivity to auxin) and epi (ethylene super producer), but not not (deficient in abscisic acid), displayed a more effective response to hypo-osmotic shock than Micro-Tom, by decreasing elongation rates and cell bursting to a greater degree. This study provides strong evidence to suggest that root hairs have a cell wall integrity response system and that root hairs are potentially good cell model systems for such research

Cell wall

Espécies reativas de oxigênio

Hipo-osmótico

Hormonal mutants

Hypo-osmolarity

Low pH

Modulação oxidativa

Mutantes hormonais

Oxidative modulation

Parede celular

Pêlos radiculares

pH baixo

Pressão de turgor

Reactive oxygen species

Root hairs

Tomateiro

Tomato

Turgor pressure

Le pilocentrisme de la France d’Ancien Régime. Évolution des représentations de la pilosité de François 1er à Louis XVI / Pilocentrism in French Ancien Régime. The Representation of Hair from François 1er to Louis XVI

Legeais, Benoite

11 December 2015

À cheval entre nature et culture, le poil et la chevelure humaine condensent un grand ensemble d’enjeux symboliques relevant de questions identitaires, religieuses, scientifiques, et autres. L’étude des discours et des pratiques concernant le poil représente, pour l’historien, une fenêtre sur l’évolution des mentalités d’une société donnée en ce qui concerne les perceptions de soi et de l’autre. S’inscrivant dans le courant intellectuel de l’histoire du corps, cette thèse s’attarde plus précisément aux « systèmes trichologiques » dans la France de l’époque moderne (soit du XVIe au XVIIIe siècle). Elle se fonde sur l’analyse d’une grande variété de sources permettant de recouper différents types de discours touchant au poil : point de vue scientifique des médecins, physiognomonistes et historiens, point de vue prescriptif des traités d’éducation et de civilité, contrepoint exotique des récits de voyage et autre témoignages de « curiosités » ainsi qu’un suivi de l’évolution étymologique des mots pertinents au sein de dictionnaires et encyclopédies. La question centrale de cette thèse est celle du rôle du poil dans le façonnement de représentations servant à identifier, démarquer et hiérarchiser les groupes sociaux; et comment celles-ci évoluent de concert avec d’autres transformations historiques.Le premier chapitre s’attarde au poil comme marqueur de différences individuelles. On y retrace une sorte de « langage » du poil, recensant les significations et connotations rattachées aux diverses manifestations pileuses : couleur, longueur, abondance, forme. Il y a apparait clairement que le poil joue un rôle important tant dans la mise en scène de soi que dans la lecture de l’apparence physique de l’autre. Le deuxième chapitre s’intéresse au poil en tant que marqueur de « genre ». On y examine la contribution des représentations de la pilosité dans la construction des identités masculines et féminines. Le poil s’interprète comme une manifestation extérieure de la nature des différents sexes et de leurs rôles dans la société, ce qui en fait un enjeu dans les relations de pouvoir entre les sexes et entre les gens du même sexe. Le troisième chapitre aborde le poil en ce qu’il permet de délimiter et hiérarchiser les classes sociales. On le voit participer aux modes et au processus de discipline des corps qui permettent aux élites, avec les perruques et le raffinement des conduites et des pratiques d’embellissement, de se distinguer autrement que par les vêtements. On retrace également une politique du poil qui s’étend au-delà du regard, l’état s’accordant le droit d’agir directement sur les corps – les chevelures, les poils – de ses sujets. Le dernier chapitre explore l’instrumentalisation du poil dans la construction d’un « autre » lointain et anormal : le sauvage d’outre-mer, l’enfant-loup, l’aberration de la nature. En caractérisant les poils de cas qu’ils situent aux frontières de l’humanité, les Français de l’Ancien régime exposent leurs propres présupposés sur la normalité et la civilisation. / Both natural and cultural phenomenon, human hair condenses a wide array of symbolic issues relating to notions of identity, religion, science, etc. The analysis of discourses and practices concerning hair affords the historian a window to the evolution of a given society’s attitudes towards the self and others. Following the historiographical current of the history of the body, this thesis examines the “trichological systems” of modern France (16th to 18th centuries). It is based on the survey of a wide variety of sources, allowing the comparison of different types of hair-related discourses: the scientific point of view of physicians, physiognomonists and historians; the prescriptive point of view of education and civility treatises; the exotic counterpoint of travel narratives and other writings on “curiosities”, as well as a review of the etymological evolution of relevant words in dictionaries and encyclopedia. The central question in this dissertation concerns the role of hair in the construction of representations used in identifying, distinguishing and hierarching social groups; and how these representations evolve along other historical transformations. The first chapter highlights hair’s role as marker of individual differences. A “language of hair” is exposed, inventorying meanings and connotations attached to the various factors of hairy manifestations: color, length, affluence, shape. The importance of hair in the staging of the self and the reading of others is highlighted. The second chapter explores the contribution of hair in the construction of gendered identities. Hair is interpreted as an outward sign of the sexes’ different natures and the confirmation of their respective social roles. As such, it is a tool in the negotiation of power between and within genders. The third chapter examines hair as it is used in the demarcation of social classes. It is seen as participating in the process of body discipline of the French elite. The use of wigs alongside refined hair care emphasized their distinction from lower classes beyond the traditional means of clothing. Direct state regulations on the hair of its subjects also show that trichological politics don’t limit themselves to the gaze. The finale chapter highlights the instrumentalization of hair in the construction of faraway and abnormal “other”: the oversea savage, the wolf child, the natural aberration. By characterizing the hair of beings at the frontier of humanity, Ancien Régime French expose their own presuppositions on normality and civilization.

Pilosité

Poils

Barbe

France

Genre

Représentation

Virilité

Féminité

Identités

Normes

Beauté

Perruques

Physiognomonie

Monstruosité

Sauvage

Civilisation

Chevelure

Hair

Hairs

Beards

France

Gender

Representation

Virility

Feminity

Identity

Norm

Beauty

Wig

Physiognomony

Monstruosity

Savage

Civilization

944.028

944.03

Respostas de pêlos radiculares de tomateiro (Solanum lycopersicum L. cv Micro-Tom) submetidos a estresse por pH baixo e hipo-osmolaridade / Response of tomato (Solanum lycopersicum L. cv Micro-Tom) root hairs to low pH and hypo-osmotic stress

Elissena Chinaglia Zabotto Sardinha

30 November 2010

A acidez do solo é um dos principais fatores limitantes à produção vegetal. A toxicidade por alumínio, que ocorre apenas a pH baixo, tem sido extensamente investigada, enquanto o estresse causado pelo pH baixo tem recebido pouca atenção. Os estudos nesta área quase sempre presumem efeitos aditivos, e portanto independentes, da toxicidade por Al3+ e H+. Este provavelmente não é o caso, sendo que o pH baixo pode ser um fator de predisposição das células ao Al3+. As evidências indicam que o pH baixo causa desarranjos na parede de células em crescimento, gerando estresse que pode comprometer a sua funcionalidade e integridade. É provável que a susceptibilidade a este estresse deve ser dependente da pressão de turgor. Por sua vez, o metabolismo oxidativo e a geração de espécies reativas de oxigênio (ROS) na parede celular podem modular a sua extensibilidade por romper ou criar ligações dentro ou entre cadeias de polissacarídeo. Há grande interesse em se conhecer se, à semelhança do que ocorre em leveduras, as células vegetais possuem um sistema de percepção e resposta a estresse da parede. Os pêlos radiculares em crescimento são sensíveis a pH baixo e estresse hipo-osmótico e constituem um bom modelo experimental para estes estudos. Os objetivos deste trabalho foram: a) Otimizar um sistema experimental para o estudo de pêlos radiculares de tomateiro (Solanum lycopersicum L. cv Micro-Tom); b) Avaliar as respostas dos pêlos radiculares ao estresse por pH baixo e hipo-osmolaridade; c) Examinar o papel da modulação oxidativa da parede celular nestas respostas; e d) Avaliar a resposta de diferentes mutantes hormonais de Micro-Tom a estes fatores de estresse. Os principais parâmetros avaliados foram a taxa de alongamento (µm.min-1) e a freqüência de rompimento dos pêlos. Tanto o estresse por pH baixo quanto choques hipo-osmóticos resultaram em taxas de alongamento significativamente diminuídos e o rompimento de pêlos radiculares, mas os efeitos dos tratamentos hipo-osmóticos foram mais marcantes. Uma curva de resposta frente à osmolaridade da solução externa revelou que a taxa de alongamento aumentou com a diminuição da osmolaridade até alcançar um limiar em que houve redução drástica da taxa de alongamento e começou-se a observar o rompimento de pêlos. Também se observou uma interação entre hipo-osmolaridade e pH baixo. O emprego do inibidor difenileno iodônio não forneceu evidências do envolvimento de NADPH oxidases da membrana plasmática na resposta de pêlos radiculares a choque hipo-osmótico ou pH baixo. Já no caso do inibidor ácido salicilhidroxâmico, encontrou-se evidências do envolvimento de peroxidases da parede. Nos mutantes hormonais dgt (pouco sensível a auxina) e epi (super produtor de etileno), mas não em not (deficiente em ácido abscísico), os pêlos radiculares apresentaram uma melhor resposta de ajustamento a choque hipo-osmótico do que Micro-Tom, reduzindo o alongamento e o rompimento dos pêlos. Este trabalho fornece fortes evidências de que os pêlos radiculares possuem um mecanismo de percepção e resposta a estresse da parede visando à manutenção de sua integridade e que apresentam bom potencial como sistema modelo nesta linha de pesquisa / Soil acidity is a major factor limiting plant growth worldwide. Aluminum toxicity, which occurs only at low pH, has been extensively studied, whereas low pH stress has received much less attention. Studies on Al3+ and H+ toxicity make the underlying assumption that the effects of these stress factors are additive, and, therefore independent of each other. However, this is most likely not the case and low pH may be a factor which increases susceptibility to further injury by Al3+. There is evidence that low pH causes disruption in cell wall structure of growing cells, which might jeopardize cell wall functionality and integrity. It is likely that turgor pressure plays an important role in cell wall stress caused by low pH. The apoplastic metabolism of reactive oxygen species (ROS) can modulate cell wall extensibility by making or breaking bonds within and between cell wall polysaccharides. A major question is whether, similarly to yeast, plant cells have a cell wall integrity signaling and response system. Growing root hairs are sensitive to low pH and hypo-osmotic stress and are potentially good experimental systems for such investigations. The objectives of this study were: a) Optimize an experimental system to examine tomato (Solanum lycopersicum L. cv Micro-Tom) root hairs; b) Examine the response of root hairs to low pH and hypo-osmotic stress; c) Examine the role of oxidative modulation of the cell wall in these responses; and d) Evaluate the response of different hormonal mutants of Micro-Tom to these stress factors. Root hair elongation rates (µm.min-1) and the frequency of cell bursting were the major experimental parameters which were evaluated. Both low pH and, more markedly, hypo-osmotic stress caused significant reductions in elongation rates and the bursting of root hair tips. In a response curve to varying osmolarities of the external medium, root hair elongation rates increased with decreasing osmolarities until a threshold was reached and elongation rates decreased drastically and the bursting of root hairs began to be observed. Interactions between low pH and hypo-osmolarity were observed. The use of the inhibitor diphenylene iodonium (DPI) did not provide evidence for the involvement of plasma membrane NADPH in the response of root hairs to low pH and hypo-osmotic shock. However, a role for cell wall peroxidases was provided by use of the inhibitor salicylhydroxamic acid (SHAM). Root hairs of the hormonal mutants dgt (low sensitivity to auxin) and epi (ethylene super producer), but not not (deficient in abscisic acid), displayed a more effective response to hypo-osmotic shock than Micro-Tom, by decreasing elongation rates and cell bursting to a greater degree. This study provides strong evidence to suggest that root hairs have a cell wall integrity response system and that root hairs are potentially good cell model systems for such research

Espécies reativas de oxigênio

Hipo-osmótico

Modulação oxidativa

Mutantes hormonais

Parede celular

Pêlos radiculares

pH baixo

Pressão de turgor

Tomateiro

Cell wall

Hormonal mutants

Hypo-osmolarity

Low pH

Oxidative modulation

Reactive oxygen species

Root hairs

Tomato

Turgor pressure

Functional Characterization of Beta-Glucuronosyltransferases (GLCATs) and Hydroxyproline-Galactosyltransferases (GALTs) Involved in Arabinogalactan-Protein (AGP) Glycosylation Using CRISPR/Cas9 Gene Editing Technology In Arabidopsis

Zhang, Yuan

28 September 2020

No description available.

Genetics

Molecular Biology

Plant Biology

Biochemistry

Arabidopsis

Arabinogalactan-proteins

CRISPR-Cas9

calcium

development

glucuronic acid

glucuronosyltransferase

Hydroxyproline-Galactosyltransferases

pollen

root hairs

seed coat mucilage

seed germination

siliques

trichomes

reproduction

Steuerung der Beinmotorik von Grillen durch ein Paar gravizeptiver Interneurone / Control of leg motor activity via a pair of graviceptive interneurons in crickets

Funke, Frank

04 November 2004

No description available.

590 Tiere (Zoologie)

Mathematics and Computer Science

Gryllus bimaculatus

Grille

Cercales System

Cerci

Keulenhaare

Gleichgewichtsorgan

Gravizeption

PSI

positionssensitive Interneurone

Kippung

Rieseninterneurone

gravitationskompensatorische Motorik

mesothorakale Motorik

mesothorakaler Nerv 3D1

mesothorakaler Nerv 3D3

neurales Netzwerk

Gryllus bimaculatus

cricket

cercal system

cerci

club-shaped hairs

clavate hairs

equilibrium organ

graviception

PSI

position sensitive interneuron

tilting

giant interneuron

gravitation compensatory motor activity

mesothoracic motor activity

mesothoracic nerve 3D1

mesothoracic nerve 3D3

neural network

42.63

Hexagonal packing of Drosophila wing epithelial cells by the Planar Cell Polarity pathway

Classen, Anne-Kathrin

31 August 2006

The mechanisms that order cellular packing geometry are critical for the functioning of many tissues, but are poorly understood. Here we investigate this problem in the developing wing of Drosophila. The surface of the wing is decorated by hexagonally packed hairs that are uniformly oriented towards the distal wing tip. They are constructed by a hexagonal array of wing epithelial cells. We find that wing epithelial cells are irregularly arranged throughout most of development but become hexagonally packed shortly before hair formation. During the process, individual cell junctions grow and shrink, resulting in local neighbor exchanges. These dynamic changes mediate hexagonal packing and require the efficient delivery of E-cadherin to remodeling junctions; a process that depends on both the large GTPase Dynamin and the function of Rab11 recycling endosomes. We suggest that E-cadherin is actively internalized and recycled as wing epithelial cells pack into a regular hexagonal array. Hexagonal packing furthermore depends on the activity of the Planar Cell Polarity proteins. The Planar Cell Polarity group of proteins coordinates complex and polarized cell behavior in many contexts. No common cell biological mechanism has yet been identified to explain their functions in different tissues. A genetic interaction between Dynamin and the Planar Cell Polarity mutants suggests that the planar cell polarity proteins may modulate Dynamin-dependent trafficking of E-cadherin to enable the dynamic remodeling of junctions. We furthermore show that the Planar Cell Polarity protein Flamingo can recruit the exocyst component Sec5. Sec5 vesicles also co-localizes with E-cadherin and Flamingo. Based on these observations we propose that during the hexagonal repacking of the wing epithelium these proteins polarize the trafficking of E-cadherin-containing exocyst vesicles to remodeling junctions. The work presented in this thesis shows that one of the basic cellular functions of planar cell polarity signaling may be the regulation of dynamic cell adhesion. In doing so, the planar cell polarity pathway mediates the acquisition of a regular packing geometry of Drosophila wing epithelial cells. We identify polarized exocyst-dependent membrane traffic as the first basic cellular mechanism that can explain the role of PCP proteins in different developmental systems.

Planar cell polarity

junctional remodeling

E-cadherin

hexagonal

epithelial packing

Drosophila

exocyst

Sec5

Flamingo

recycling

Dynamin

Rab11

wing hairs

Planare Polarität

hexagonal

E-cadherin

Drosophila

Exocyst

Sec5

Flamingo

Recycling

Dynamin

Rab11

Flügelhaare

ddc:570

rvk:WG 5900

Drosophila

Polarität

Recycling

Dynamin

Flügel<Zoologie>

Cadherine

Exocytose

Ephitelzelle

Métrologie optique en dynamique des fluides appliquées à l'écologie physique des insectes / Optical measurement techniques in the fluid dynamics of insect sensory ecology

Steinmann, Thomas

06 March 2017

La capacité à percevoir des courants dans un fluide s'est développée chez de nombreuses espèces animales, dans des contextes écologiques très variés qui couvrent aussi bien les interactions proies-prédateurs, la sélection sexuelle ou l'orientation dans un environnement. Parmi ces espèces animales, les grillons détectent les courants d'air générés notamment lors de l'attaque de leurs prédateurs à l'aide de deux organes appelés "cerques", situés à l'arrière de leur abdomen et recouverts de poils mécano-sensoriels. Ces senseurs sont considérés comme les détecteurs les plus sensibles du monde animal. Il leur suffit de capter l'énergie d'un dixième d'un photon pour déclencher un potentiel d'action au niveau du neurone sensoriel. Ce manuscrit présente à la fois le développement des outils de mesures sans contact adaptés à ces questions d'écologie sensorielle ainsi que les méthodes numériques simulant les processus physiques à l'oeuvre. L'étude du fonctionnement des senseurs a nécessité l'adaptation des méthodes de mesures non intrusives de très grande précision tel que la Vélocimétrie par Imagerie de Particules (PIV). La couche limite oscillante dans laquelle évoluent les poils a été visualisée et a servi à déterminer la réponse de poils modélisés par des systèmes oscillatoires du second ordre. Le couplage visqueux entre poils a été lui aussi caractérisé en adaptant la PIV à des mesures à très petites échelles sur des poils biomimétiques micro-electro-mécanique (MEMS). Les mesures des perturbations générées lors des attaques d'araignées, principales prédatrices des grillons, nous ont aidé à valider des modélisations numériques, réalisées à l'aide des techniques de dynamique des fluides computationnelles (CFD) par résolution des équations de Navier Stokes via la méthode des éléments finis (FEM). La mise au point et l'utilisation de techniques de métrologie optique en dynamique des fluides semi-visqueux et l'analyse des données nous permettent de revisiter la sensibilité extrême du système sensoriel du grillon et de placer ces mesures dans un contexte plus large, d'écologie sensorielle. En particulier, nous montrons que ces soies sont placées en groupe compact et exercent entre elles un fort couplage aérodynamique visqueux, qui réduit fortement leur sensibilité "de groupe". Ce fort couplage interroge l'intérêt d'avoir des récepteurs aussi performants individuellement, s'ils perdent leur sensibilité lorsqu'ils fonctionnent en réseau. Finalement, les réactions des poils à des mouvements de fluides générés par un piston mimant les attaques réelles d'araignées ont pu être déterminées à l'aide d'une caméra rapide, puis simulées et validées après avoir développé un modèle mécanique du poil répondant à des stimuli transitoires. / Flow sensing is used by a vast number of animals in various ecological contexts, from preypredator interactions to mate selection, and orientation to flow itself. Among these animals, crickets use hundreds of filiform hairs on two cerci as an early warning system to detect remote potential predators. Over the years, the cricket hairs have been described as the most sensitive sensor in the animal kingdom. The energy necessary for the emission of an action potential by its sensory neuron was estimated to be a tenth of the energy of a photon. This PhD thesis aims to describe recent technological advances in the measurement and model of flows around biological and artificial flow sensors in the context of organismal sensory ecology. The study and understanding of the performance of sensory systems requires a high spatial precision of non-intrusive measurement methods. Thus, non-contacting measurement methods such as and Particle Image Velocimetry (PIV), originally developed by aerodynamics and fluid mechanics engineers, have been used to measure flows of biological relevance. The viscous oscillatory boundary layer surrounding filiform hairs has been visualized and used as input to model the mechanical response of these hairs, described as second order mechanical systems. The viscous hydrodynamic coupling occurring within hair canopy was also characterized using PIV measurements on biomimetic micro-electro-mechanical systems (MEMS) hairs, mimicking biological ones. Using PIV, we have also measured the air flow upstream of hunting spiders. We prove that this flow is highly conspicuous aerodynamically, due to substantial air displacement detectable up to several centimeters in front of the running predator. This disturbance of upstream air flows were also assessed by computational fluid dynamics (CFD) with the finite elements method (FEM). The development of non-intrusive measurement and CFD methods and their application to the analysis of the biological flow involved in cricket sensory ecology allowed us to revisit the extreme sensitivity of cricket filiform hairs. We predicted strong hydrodynamic coupling within natural hair canopies and we addressed why hairs are packed together at such high densities, particularly given the exquisite sensitivity of a single hair. We also proposed a new model of hair deflection during the arrival of a predator, by taking into account both the initial and long-term aspects of the flow pattern produced by a lunging predator. We conclude that the length heterogeneity of the hair canopy mirrors the flow complexity of an entire attack, from launch to grasp.

Écologie sensorielle

Écologie physique

Poils filiformes

Couche limite

Bioinspiration

Biomimétisme

Écoulements visqueux

Interaction proie-prédateur

Biomécanique

Sensory ecology

Physical ecology

Particle Image Velocimetry (PIV)

Filiform hairs

Boundary layer flow

Biomimetism

Bioinspiration

Viscous flow

Prey-predator interaction

Biomechanics

Hexagonal packing of Drosophila wing epithelial cells by the Planar Cell Polarity pathway

Classen, Anne-Kathrin

25 July 2006

The mechanisms that order cellular packing geometry are critical for the functioning of many tissues, but are poorly understood. Here we investigate this problem in the developing wing of Drosophila. The surface of the wing is decorated by hexagonally packed hairs that are uniformly oriented towards the distal wing tip. They are constructed by a hexagonal array of wing epithelial cells. We find that wing epithelial cells are irregularly arranged throughout most of development but become hexagonally packed shortly before hair formation. During the process, individual cell junctions grow and shrink, resulting in local neighbor exchanges. These dynamic changes mediate hexagonal packing and require the efficient delivery of E-cadherin to remodeling junctions; a process that depends on both the large GTPase Dynamin and the function of Rab11 recycling endosomes. We suggest that E-cadherin is actively internalized and recycled as wing epithelial cells pack into a regular hexagonal array. Hexagonal packing furthermore depends on the activity of the Planar Cell Polarity proteins. The Planar Cell Polarity group of proteins coordinates complex and polarized cell behavior in many contexts. No common cell biological mechanism has yet been identified to explain their functions in different tissues. A genetic interaction between Dynamin and the Planar Cell Polarity mutants suggests that the planar cell polarity proteins may modulate Dynamin-dependent trafficking of E-cadherin to enable the dynamic remodeling of junctions. We furthermore show that the Planar Cell Polarity protein Flamingo can recruit the exocyst component Sec5. Sec5 vesicles also co-localizes with E-cadherin and Flamingo. Based on these observations we propose that during the hexagonal repacking of the wing epithelium these proteins polarize the trafficking of E-cadherin-containing exocyst vesicles to remodeling junctions. The work presented in this thesis shows that one of the basic cellular functions of planar cell polarity signaling may be the regulation of dynamic cell adhesion. In doing so, the planar cell polarity pathway mediates the acquisition of a regular packing geometry of Drosophila wing epithelial cells. We identify polarized exocyst-dependent membrane traffic as the first basic cellular mechanism that can explain the role of PCP proteins in different developmental systems.

info:eu-repo/classification/ddc/570

ddc:570