Biological Effects of Paramecium Induced by Ultrasound

Chen, Ming-Kai

11 July 2001

Abstract Ultrasonic technique is widely used in medical application and food industry; however, much work has focused on harmful biological effects of tissues and cells by ultrasound exposure; only little information is mentioned about the beneficial biological effects of ultrasound. Thus, the objective of this thesis is to observe the beneficial biological activities of Paramecium induced by ultrasound exposure. Since the structure or biophysical will stimulated into the interaction between ultrasound and living matter. When multi-cell creature is exposed by ultrasound, this reaction will lead the biological effect becomes complex. Therefore, a single cell creature is chosen to understand the beneficial biological effects induced by ultrasound exposure. The oscillation of the monad in response to the ultrasound radiation is simulated using Rayleigh-Plesset¡¦s bubble activation theory. The resonance frequency of the unicellular creature is then calculated. The diffuse field theory of Sabine is used to create a uniform sound field for the radiation experiment. The images obtained from a microscope can be analyzed and recorded by a personal computer. The number of cells was counted in the haemacytometer after irradiation. The calculated resonant frequency range of the Paramecium shape is 0.2~0.27 MHz. The relative growth rate of the Paramecium suspensions exposed to ultrasound was about 20% slower than that of unexposed sample. It was found that the phenomenon of inhibition and destruction appeared during irradiation. Also, the growth curve is retarded during the period. The resonance frequency of the Paramecium vacuole is 0.5~1.09 MHz. The maximum relative growth rate was increasing 18% with 1MHz irradiation.

diffuse field

resonance frequency

ultrasound

Paramecium

Genetics and development of the oral apparatus in 'paramecium tetraurelia'

譚麗華, Tam, Lai-wa.

January 1985

published_or_final_version / Zoology / Master / Master of Philosophy

Paramecium.

Genetics.

Mutation (Biology) - Genetic aspects.

The role of the micronucleus in the development of the oral apparatus of paramecium

周妙芬, Chau, Miu-fun.

January 1987

published_or_final_version / Zoology / Master / Master of Philosophy

Paramecium.

Genetics.

Mutation (Biology) - Genetic aspects.

Alternation behavior in paramecium multimicronucleatum: swimming pattern and maze parameters

Howell, Leon Grant, 1940-

January 1972

No description available.

Paramecium multimicronucleatum.

Maze tests.

Learning, Psychology of.

Effect of boundaries on swimming of Paramecium multimicronucleatum

Jana, Saikat

03 September 2013

Microorganisms swimming in their natural habitat interact with debris and boundaries, which can modify their swimming characteristics. However, the boundary effect on swimming microorganisms have not been completely understood yet, and is one of most active areas of research. Amongst microorganisms, unicellular ciliates are the fastest swimmers and also respond to a variety of external cues. We choose Paramecium multimicronucleatum as a model system to understand the locomotion of ciliates. First, we explore the effects of boundaries on swimming modes of Paramecium multimicronu- cleatum by introducing them in 2D films and 1D channels. The geometric confinements cause the Paramecia to transition between: a directed, a meandering and a self-bending behaviors. During the self-bending mode the cell body exerts forces on the walls; which is quantified by using a beam bending analogy and measuring the elasticity of the cell body. The first inves- tigation reveals the complicated swimming patterns of Paramecium caused by boundaries. In the second study we investigate the directed swimming of Paramecium in cylindrical capillaries, which mimics the swimming of ciliates in the pores of soil. A finite-sized cell lo- comoting in extreme confinements creates a pressure gradient across its ends. By developing a modified envelop model incorporating the confinements and pressure gradient effects, we are able to predict the swimming speed of the organisms in confined channels. Finally we study how Paramecium can swim and feed efficiently by stirring the fluid around its body. We experimentally employ "-Particle Image Velocimetry to characterize flows around the freely swimming Parameicum and numerically use Boundary Element Method to quantify the effect of body shapes on the swimming and feeding process. Results show that the body shape of Paramecium (slender anterior and bulky posterior) is hydrodynamically optimized to swim as well as feed efficiently. The dissertation makes significant advances in both experimentally characterizing and the- oretically understanding the flow field and locomotion patterns of ciliates near solid bound- aries. / Ph. D.

micro-swimmers

locomotion

Paramecium

ciliates

Stokes flow

Dual role of IFT57 in cilia and nucleus in Paramecium / Double rôle de IFT57 entre cils et noyau chez Paramecium

Shi, Lei

20 September 2013

Mon travail de thèse a porté sur l’étude chez la paramécie d’une protéine à localisation à la fois ciliaire et nucléaire. Les cils sont des organites conservés chez la plupart des eucaryotes qui pointent à la surface cellulaire vers le milieu extérieur. Leur squelette microtubulaire est nucléé par la structure centriolaire sous-jacente, le corps basal, qui transmet sa structure à symétrie 9. Une parenté évolutive lointaine existe entre le compartiment cil, isolé du cytoplasme par un filtre moléculaire appelé zone de transition, et les noyaux dont les contacts avec le cytoplasme sont réduits aux pores nucléaires. Cette homologie fonctionnelle est soutenue par l’existence de mécanismes et de partenaires apparentés dans la communication avec le cytoplasme. Les dysfonctionnements des cils conduisent à des maladies graves appelées ciliopathies. La croissance des cils est réalisée au moyen de complexes protéiques appelés IFT (intraflagellar transport) qui incluent au moins 17 protéines regroupés en deux sous complexes, IFTB, lié au moteur kinésine pour le mouvement antérograde vers la pointe du cil et IFTA lié au moteur dynéine pour le mouvement rétrograde vers la base du cil. L’objet principal de ma thèse, dans le cadre de l’étude de l’IFT chez la paramécie, a porté sur la protéine IFT57, aussi connue sous le nom de HIPPI chez l’homme, où elle assure, en plus de sa fonction ciliaire, une fonction d’activateur transcriptionnel associé à l’apoptose dans la maladie de Huntington. Chez la paramécie, il y a quatre gènes codant IFT57 provenant de duplications globales de génome, IFT57A et B d’une part et IFT57C et D d’autre part, suffisamment proches deux à deux pour que l’inactivation d’un gène puis éteindre également l’autre. Dans un premier temps, j’ai étudié la fonction ciliaire d’IFT57 et j’ai montré qu’il était nécessaire à la croissance ciliaire, mais apparemment pas à sa maintenance, contrairement à d’autres protéines de l’IFT telles qu’IFT46. L’action croisée d’inactivation d’une IFT sur la localisation d’une autre IFT fusionnée à la GFP on permis de suggérer des interactions entre IFT 46 et IFT57 dans le cytoplasme, en amont de leur site habituel d’interaction que représente le corps basal. Je me suis ensuite intéressé à la localisation nucléaire d’IFT57. La protéine IFT57A-GFP entre dans le macronoyau, en plus de sa localisation ciliaire, alors que IFT57C-GFP en est exclue. J’ai essayé de déterminer la différence de séquence qui permet de distinguer ces deux molécules proches pour en envoyer une dans le noyau et pas l’autre. L’aspect le plus marquant de la localisation nucléaire d’IFT57A est le changement de localisation au cours des événements sexuels, où le marquage quitte l’ancien macronoyau pour rejoindre les nouveaux macronoyaux en formation. Cette relocalisation évoque celle observée avec des protéines impliquées dans le métabolisme de petits ARN importants pendant les événements sexuels. Une idée est que IFT57A, protéine associée au transport, puisse gouverner ces mouvements internucléaires et j’ai entrepris d’analyser l’effet de l’inactivation de cette protéine sur les événements sexuels. La difficulté qui est apparue est que l’extinction d’IFT57A est rapidement létale. J’ai réalisé plusieurs approches méthodologiques pour contourner ce problème, dont la mise au point d’une nouvelle méthode d’inactivation par ARN en épingle à cheveux, mais sans pouvoir répondre à la question. En utilisant des constructions chimères entre les deux protéines, puis en comparant les séquences au sein du genre Paramecium, j’ai déterminé une région de 90 acides aminés, L129-N219, avec deux positions critiques pour distinguer fonctionnellement ces deux protéines. / My thesis work consisted in the study of cilia and flagella, organelles highly conserved in many eukaryotes, which protrude at the cell surface as a microtubular backbone, the axoneme, bounded by an extension of the plasma membrane. A major interest in the study of cilia is that they are involved in the regulation of many cell events, such as re-entry in the cell cycle, and that their dysfunction in vertebrates provokes multi-symptomatic diseases called ciliopathies. Ciliary growth is under control of IFT (intraflagellar transport) mechanism, first discovered in Chlamydomonas. The IFT complex includes at least 17 members and is is composed of two subcomplexes, IFTB linked to kinesin for anterograde transport in ciliary building, and IFTA linked to dynein for retrograde transport in recycling. In my thesis on IFT in Paramecium, I focused on IFT57/Hippi, a member of IFTB, which seems to display two different functions in human cells: biogenesis of cilia as member of the IFTB particle and gene regulation in Huntington’s diseases, as part of a complex with Hip1 that binds caspase promoters involved in apoptosis. Some recent work also showed that in the cytoplasm of non-ciliate cells, IFT57, associated with IFT20 and IFT88, regulates T-cell antigen receptor (TCR) recycling in immune synapse. In Paramecium, four genes issued from two successive genome duplications encode IFT57 (IFT57A – D). The isoforms A and B on the one hand and C and D on the other hand are sufficiently close in DNA sequence to get homology dependent RNAi silencing with only one gene of each pair. I first confirmed that IFT57 Paramecium genes have a conserved IFT function in cilia formation, but apparently not in maintenance, in contrast to other IFT proteins such as IFT46. The combination of RNAi and GFP fusion localization allowed us to suggest interactions between IFT46 and IFT57 in the cytoplasm, upstream from the usual site of interaction in the basal body. I also found that IFT57A-GFP, but not IFT57C-GFP, can enter the macronucleus and that the labelling shifts from the old to the new macronucleus during sexual events (autogamy and conjugation). This result must be analysed in light of the mechanism that governs genome rearrangements during nuclear reorganization, which are dependent on transport of RNA as well as of piwi and other RNA-binding molecules from old to new macronucleus. By extension of its ciliary role, one interesting possibility is that IFT57 is a partner involved in this transport. I tried to detect the putative roles of IFT57A in sexual process and worked out a new RNAi method by hairpin RNA expression. I expressed a specific IFT57A hairpin under the control of the NOWA1 promoter (only expressed in autogamy or conjugation) and found surprisingly that this hairpin stops the autogamy process. Since another hairpin contain NSF sequence displayed a similar phenotype, I could not draw any conclusion about the role of IFT57A during autogamy. Using chimeras by exchanging parts of IFT57A and IFT57C, then by comparing this sequence to other in the Paramecium genus, I could determine the shortest region of IFT57A necessary for nuclear localization is the peptide encompassing L129 to N219, with two critical positions to functionally distinguish these two proteins.

Paramecium

IFT

IFT57/hippi

Cil

Noyau

Paramecium

IFT

IFT57/hippi

Cilia

Nucleus

Molecular components and organelles involved in calcium-mediated signal-transduction in Paramecium

Sehring, Ivonne Margarete.

January 2006

Konstanz, Univ., Diss., 2006.

Untersuchungen zu invasionspezifischen Proteinen von Holospora obtusa, einem Bakterium aus dem Makronukleus von Paramecium caudatum

Schwarz, Steffen.

January 2002

Stuttgart, Univ., Diss., 2002.

Untersuchungen zu invasionspezifischen Proteinen von Holospora obtusa, einem Bakterium aus dem Makronukleus von Paramecium caudatum

Schwarz, Steffen.

Unknown Date

Universiẗat, Diss., 2002--Stuttgart.

Verhalten, Morphologie und Physiologie von Paramecium biaurelia und Tetrahymena pyriformis unter variablen Umweltbedingungen

Freiberger, Nicole.

Unknown Date

Universiẗat, Diss., 2004--Bonn.