Global ETD Search

391	Cholesterol Oxidase Modified Microelectrodes for Detection of Cholesterol in the Plasma Membrane of Single Cells Devadoss, Anando January 2006 (has links) No description available. Cholesterol Cholesterol Oxidase Plasma membrane cholesterol Electrochemical detection of cholesterol Xenopus oocyte microelectrodes enzyme modified microelectrodes Lipid bilayer modified electrode
392	Characterization and physiological role of aquaporins during desiccation and freezing in <i>Eurosta solidaginis</i> Philip, Benjamin N. 06 August 2010 (has links) No description available. Biology Zoology cold tolerance acclimation seasonal acclimatization osmotic stress water balance Xenopus swelling assay EsAQP1 freeze tolerance
393	Mesure de la stoechiométrie de transport des cotransporteurs de myo-inositol HMIT et SMIT2 Bourgeois, Francis January 2005 (has links) Mémoire numérisé par la Direction des bibliothèques de l'Université de Montréal. Biophysique Transport membranaire Stoechiométrie Cotransport de myo-inositol Cotransport couplé au sodium Cotransport couplé aux protons Mesures de volume Influx de traceur radioactif Influx d'osmolytes Ovocytes de Xenopus
394	Régulation transcriptionelle du développement de l'hypothalamus chez l'amphibien Bouyakdan, Khalil 08 1900 (has links) Le noyau paraventriculaire (PVN) de l'hypothalamus régule une série de phénomènes physiologiques incluant l'équilibre énergétique et la pression artérielle. Nous avons identifié une cascade de facteurs de transcription qui contrôle le développement du PVN. SIM1 et OTP agissent en parallèle pour contrôler la différenciation d'au moins cinq types de neurones identifiables par la production d'OT, AVP, CRH, SS et TRH. Ces Facteurs de transcriptions contrôlent le développement des lignées CRH, AVP et OT en maintenant l'expression de Brn2 qui à son tour est nécessaire pour la différenciation terminale de ces neurones. L'analyse du transcriptome du PVN nous a permis d'identifier plusieurs gènes qui ont le potentiel de contrôler le développement du PVN. Nous voulons développer un paradigme de perte de fonction qui permettrait l'étude de ces gènes candidats sur une grande échelle. Le but de ce projet est de caractériser le PVN en développement de l'amphibien en vue de l'utilisation de ce modèle pour des études fonctionnelles. Nous avons cloné des fragments de cDNA de Sim1, OTP, Brn2, Sim2, CRH, Ot, AVP et TRH à partir de l'ARN total de Xenopus Laevis. Nous avons adapté notre technique d'hybridation in situ pour caractériser l'expression de ces gènes chez l'amphibien aux stades 33-39, 44, 51, 54, 60, et chez l'adulte. Résultats. Les Facteurs de transcription Sim1, OTP, et Brn2 commencent à être exprimés dans le PVN prospectif au stade 33. L'expression des marqueurs de différenciation terminale devient détectable entre les stades 37 et 39. De façon intéressante, le PVN occupe initialement un domaine de forme globulaire puis à partir du stade 44 s'allonge le long de l’axe dorso-ventral. Cet allongement se traduit par une organisation en colonnes des cellules du PVN que nous n'avons pas observée chez les rongeurs. Le développement du PVN est conservé chez l'amphibien dans la mesure où la relation entre l'expression des facteurs de transcription et des marqueurs de différenciation terminale est conservée. Il existe par ailleurs des différences entre la topographie des PVN des mammifères et de l'amphibien. L'organisation en colonnes de cellules pourrait correspondre à des mouvements de migration tangentielle. Nous sommes maintenant en mesure de tester la fonction des facteurs de transcription dans le PVN par l'approche d'invalidation par morpholinos. / The paraventricular nucleus PVN of the hypothalamus regulates a series of physiological phenomena including the maintenance of energetic balance and arterial blood pressure. We have previously identified a cascade of transcription factors that control the development of the PVN. Sim1 and OTP act in concert to mediate the terminal differentiation of at least five types of neurons identifiable by their production of OT, AVP, CRH, SS and TRH. These transcription factors control the development of the OT, AVP and CRH producing neurons by maintaining the expression of Brn2, which is in turn required for the terminal differentiation of these cell lines. The transcriptome analysis of the PVN allowed us to identify a handful of genes that are potentially implicated in the development of this brain structure. Our goal is to develop a loss of function paradigm that would allow a high troughput study of these candidate genes. The main goal of this project is to characterize the developing PVN in the amphibian in order to use this model in our functional studies of these genes. We have cloned fragments of cDNA of Sim1, OTP, Brn2, Sim2, CRH, TRH, AVP and OT using Xenopus laevis total RNA. We have also adapted our in situ hybridization technique to characterize the expression of these genes in stage 33-39, 44, 51, 54, 60 and adult amphibian brain. Sim1, OTP and Brn2 are expressed in the prospective PVN as soon as stage 33. The expression of the terminal differentiation markers become detectable between stages 37-39. Interestingly, the PVN is initially restricted to a more globular domain and begins to extend along the dorso-ventral axis at around stage 44. This vertical extension translates into a column organization that we do not observe in rodents. The development of the PVN is well conserved in the amphibian in the sense that the relation between the expression of the different transcription factors and the terminal differentiation markers is conserved. We can also observe some topographical differences between the mammalian and amphibian PVN. The column organization the different PVN cell types might correspond to the tangential migration that is observed in the mouse. We are now well equipped to test the function in the PVN of the known transcripton factors as well as the candidate genes previously identified in our lab using a morpholino-mediated gene knock down. Xenopus laevis Hypothalamus Noyau paraventriculaire Facteur de transcription Différentiacion terminale Trh Crh Avp Sim1 Otp Brn2 Transcription factors Terminal differentiation
395	Indukce diferenciace testikulárních kmenových buněk Xenopus tropicalis in vitro. / Induction of Xenopus tropicalis testicular stem cell differentiation in vitro. Strnadová, Karolína January 2016 (has links) Origin of mammalian somatic cells in the developing testes remains unclear. This origin could be explained by established cell culture derived from testes of Xenopus tropicalis juvenile male. The expression profile of the cell culture showed transcription of some pluripotency genes, somatic Sertoli and peritubular myoid cell markers and last but not least, the mesenchymal stem cell markers. Conversely, germ cell genes were downregulated. Immunocytochemical analysis revealed expression of Vimentin, Sox9 and α-smooth muscle actin, indicating that the testicular cell culture is a common mesenchymal progenitor of the Sertoli and peritubular myoid cells and that the cell culture did not arise from spermatogonial stem cells undergoing incomplete reprogramming in vitro. Testing of X. tropicalis cell culture during induction of differentiation in vitro revealed that these cells are probably multipotent with the ability to differentiate into adipocytes, chondroblasts and osteoblasts. The ability to derive multipotent stem cells from the juvenile testes opens new possibilities of using these cells for biotechnology and medicine. Keywords: Testicular somatic cells, Xenopus tropicalis, progenitor, mesenchymal stem cells, induction of differentiation, multipotency
396	The effects of copper and effluent on certain life stages of Xenopus laevis and Tilapia sparrmanii 13 August 2012 (has links) M.Sc. / The increase in industrialisation, mining and agricultural activity along rivers could have a detrimental effect on aquatic environments unless the dangers of pollutants are not taken notice of. Metal ions and industrial effluent have become a source of pollution in the watercourses of South Africa. Pollutants generally have negative effects on the physiology of aquatic biota in polluted waters. The effects of copper and industrial effluent by the exposure of the clawed toad, Xenopus laevis and Tilapia sparrmanii are presented in this study. An experimental static-renewal system with an exposure time of 96 hours was followed at 25±1°C. After copper and effluent exposure, several physiological changes occurred in the two aquatic organisms. The sublethal effects that occurred include changes in hatching, survival, behaviour, growth impairment and developmental limitations. The results of the present study suggest that lethal endpoints can be used as indicators in detecting and evaluating the effects of aquatic pollution, caused by copper and effluent. Individual variation, however, could hamper the conclusions made but the study of aquatic organisms is of practical importance when conducting experimental studies in a laboratory and does not have the same impact as during field studies. Apart from the exposure to sublethal concentrations of copper and effluent, computational derivations of LC50, NOEC values and 95% confidence limits were made. The obtained concentrations were used as assumptions that pollutants should not exceed for the protection of aquatic life. Statistically different differences were found between the chosen derived variables of control and experimental organisms. The advantages of FETAX solution over borehole water can be attributed to the bioavailability of pollutants, which appears to be much less in those solutions. The predicted NOEC values provide some information regarding the concentrations at which no effects will be observed and the Target Water Quality Ranges (TWGR) for water were used to determine if the diluent was correct. Xenopus laevis - Effect of metals on Tilapia - Effect of metals on Tilapia sparrmanii - Effect of metals on Heavy metals - Environmental aspects Fishes - Effect of water pollution on
397	Finding novel Neural Crest regulators : Pfkfb4, a key glycolysis partner, controls Neural Crest early patterning in Xenopus laevis / A la découverte de nouveaux régulateurs de la Crête Neurale : Pfkfb4, un régulateur de la glycolyse, contrôle aussi le développement précoce de la Crête Neurale chez l’amphibien. Pegoraro, Caterina 12 December 2012 (has links) La crête neurale (CN) est une population transitoire de cellules multipotentes qui émerge à la frontière entre l’ectoderme neural et non-neural, dans une région appelée la bordure neurale (BN). Lorsque la BN se soulève pour former le tube neural, les cellules de la CN subissent une transition épithélium-mésenchyme (TEM), et migrent de façon intensive dans l’ensemble de l’embryon pour atteindre leur destination finale et se différencier. Elles sont à l’origine de nombreux types de dérivés : neurones, cellules gliales, cartilage de la tête, os et tissus connectifs, cellules pigmentaires, cellules sympatho-adrenales. Tous ces processus sont régulés par l’action coordonnée de nombreux gènes qui forment un réseau de régulations génétiques complexe, au sein duquel de nombreuses interactions ont été décrites, même si de nombreuses relations restent à élucider à ce jour. Une mauvaise régulation de gènes normalement impliqués dans la formation de la CN provoque des malformations congénitales appelées neurocristopathies. Par ailleurs, la TEM subie par les cellules de CN avant leur migration est également observée dans les cellules cancéreuses acquérant des propriétés métastatiques. Les événements moléculaires et de nombreux gènes impliqués dans la TEM sont communs au développement de la CN et au cancer.Les liens existant entre le développement de la CN et les neurocristopathies, ainsi que les métastases, soulignent l’importance de l’étude du réseau de régulations génétiques permettant la formation de la CN et l’EMT.Au laboratoire, nous nous intéressons aux événements précoces d’induction et de spécification de la CN. Dans le but d’identifier les gènes préférentiellement impliqués dans le développement précoce de la CN et non dans la formation de l’ectoderme neural et non-neural, un crible a été effectué sur le transcriptome de différents tissus embryonnaires micro-disséqués. La validation des résultats de ce crible a permis d’identifier plusieurs gènes intéressants possédant une fonction potentielle dans la formation de la CN. Nous nous sommes particulièrement intéressés à deux d’entre eux, en raison de leur fonction originale comparée à la majorité des gènes impliqués dans le développement de la CN : serca1 et pfkfb4, un régulateur de l’homéostasie calcique et un régulateur de la glycolyse respectivement.Nous avons analysé les patrons d’expression des gènes des familles serca et pfkfb au cours du développement de Xenopus laevis. En raison de son expression spécifique dans la CN, nous avons étudié plus en détails le rôle de pfkfb4 dans la formation de la CN. Cette analyse a montré que pfkfb4 est nécessaire pour la spécification neurale et de la crête neurale.Toutefois, malgré son rôle documenté dans la glycolyse, le phénotype des morphants pfkfb4 dans l’embryon de Xenopus laevis n’est pas dû à une altération de la glycolyse.En conclusion, nos résultats démontrent l’existence d’un nouveau rôle non glycolytique pour Pfkfb4 au cours du développement embryonnaire de Xenopus Laevis. / Neural Crest (NC) is a transient population of multipotent cells that arises at the border between neural and non-neural ectoderm, in a region named the neural border (NB). As the neural border elevates to form the neural tube, NC cells undergo an Epithelial-To-Mesenchymal Transition (EMT), migrate extensively into the whole body to reach their final destinations and differentiate. They give rise to multiple derivatives: neurons and glia, head cartilage, bones and connective tissue, pigment cells, sympatho-adrenal cells. All these processes are regulated by the concerted actions of several genes that form a complex Gene Regulatory Network (GRN), in which many interactions have been elucidated, but even more relationships still need to be understood. Misregulation of genes normally involved in NC formation causes birth defects called neurocristopathies. Moreover, the EMT that NC cells undergo before migration also takes place when cancer cells become metastatic: the molecular events and many of the genes involved in EMT and migration are shared between NC development and cancer. The links with metastasis, neurocristopathies and the fact that still little is known about the earliest steps of NC formation, highlight the importance and the interest in understanding the Gene Regulatory Network (GRN) leading to NC formation and EMT.In the laboratory, we are interested in the early steps of NC induction and specification. In order to identify genes preferentially involved in early NC development compared to genes involved in neural and non-neural ectoderm formation, a transcriptome screen on different microdissected embryonic tissues has been performed. The validation of the results of the screen revealed several interesting genes with a potential function in NC formation. We focused particularly on two of them, due to their original function compared to the majority of the genes involved in NC development: serca1 and pfkfb4, a calcium homeostasis regulator and a glycolysis regulator respectively. We analysed the expression patterns of serca and pfkfb family genes during Xenopus laevis development. Then, due to its specific expression in NC, we studied more in details the role of pfkfb4 in NC formation. This analysis revealed that pfkfb4 is necessary for neural and neural crest specification. However, despite its known role in glycolysis, pfkfb4 morphant phenotype in Xenopus laevis embryos is not due to an alteration of the glycolytic pathway.In conclusion, our results reveal a novel extra-glycolytic role for Pfkfb4 during Xenopus laevis embryonic development. Crête Neurale Xénope Glycolyse Pfkfb4 Pfk1 Serca Métabolisme Plan d’organisation de l’embryon Neural Crest Xenopus Glycolysis Pfkfb4 Pfk1 Serca Metabolism Embryonic patterning.
398	Estudis bioquímics i estructurals de diferents formes de nucleoplasmina. Interacció amb histones i altres proteïnes bàsiques. Arnan Ros, Carme 05 June 2003 (has links) La nucleoplasmina (NP) és la proteïna majoritària del nucli dels oòcits i ous no fecundats de la granota "Xenopus laevis" i altres amfibis. Es tracta d'una proteïna acídica amb tres trams acídics principals (A1, A2, A3). La NP participa en la remodelació de la cromatina durant la fecundació, mediatitzant la descondensació de la cromatina espermàtica i facilitant l'acoblament de nucleosomes gràcies a la seva funció de xaperona molecular. En el decurs d'aquest treball s'ha continuat l'estudi dels diferents recombinants de la NP de què disposem, posant especial èmfasi en la forma mutant r-NP142, que es caracteritza pel fet que té el tram acídic principal A2 molt exposat. Interessava determinar la influència de diferents condicions en l'estabilitat i el grau de pentamerització de la molècula. En aquesta mateixa línia es va estudiar el paper de les Cys de la NP en la pentamerització. Mitjançant mutagènesi dirigida es van substituir les Cys per Ser i es va observar que concretament la mutació de la Cys 45 afavoria la monomerització de la forma r-NP142, però no afectava l'oligomerització de les formes r-NP i r-NP121, les quals romanien pentamèriques. Aquests resultats suggereixen que no hi hauria ponts disofre en l'estructura pentamèrica de la nucleoplasmina. La caracterització estructural de la nucleoplasmina es va intentar abordar a diferents nivells. A nivell de l'estructura secundària, es van utilitzar tècniques de dicroisme circular. Concretament es va determinar que el mutant r-NP142 C45S tenia una estructura plegada a l'atzar (random coil). D'altra banda, per a ordres estructurals superiors es van utilitzar tècniques de microscòpia electrònica i tècniques cristal·logràfiques. Un altre objectiu d'aquest treball va ser la caracterització de les interaccions de l'NP amb histones del nucli del nucleosoma. Estàvem especialment interessats a veure si la interacció NP-histones era fonamentalment de tipus electrostàtic o bé podria tractar-se d'algun altre tipus d'interacció. Mitjançant ultracentrifugació analítica i gradients de sacarosa es va poder determinar que la NP podia unir els quatre tipus d'histones nucleosòmiques. Aquesta unió tindria una estequiometria corresponent a 1 mol de pentàmer de NP per mol d'octàmer d'histones. Cal destacar que la NP pot unir també histones tripsinitzades (sense les cues bàsiques) mantenint la mateixa estequiometria que per al cas de les histones natives. Així mateix, la forma r-NP121 (sense el tram acídic A2) és capaç d'unir histones natives amb la mateixa estequiometria descrita per als casos anteriors. Aquests experiments indiquen que la interacció NP-histones no seria predominantment electrostàtica. Un altra línia de treball va ser estudiar la presència o no d'una NP-like a l'extracte d'oòcits de l'estrella de mar "Echinaster sepositus". S'ha trobat una proteïna majoritària que presenta les propietats de ser termoestable, acídica i parcialment resistent al sulfat amònic. Aquesta proteïna és reconeguda pels anticossos policlonals antinucleoplasmina obtinguts en ous de gallina. D'altra banda, no és capaç de descondensar nuclis espermàtics que contenen protamina.El darrer objectiu del treball va ser l'estudi estructural de la proteïna ?0. La ?0 és específica del nucli espermàtic de l'equinoderm "Holothuria tubulosa" i presenta propietats intermèdies entre les protamines i les histones. La cristal·lització d'una molècula d'aquestes característiques aportaria informació sobre l'estructura de les proteïnes que participen en la compactació de la cromatina i podria obrir un nou camí per a la cristal·lització de les protamines i dels complexos NP-protamina. / Nucleoplasmin (NP) is the most abundant protein found in the nuclei of oocytes and nonfertilized eggs of "Xenopus laevis" and other amphibians. It is an acidic protein with three main acidic tracts (A1, A2, A3). NP is involved in the remodelation of chromatin during fecundation, facilitating nucleosome assembly as a molecular chaperone.In the present work we have continued the study of different recombinant forms of nucleoplasmin which were obtained in our lab, specially the form r-NP142 which has the main acidic tract A2 very exposed. We were interested in how different conditions could affect the stability and pentamerization of the molecule. In this way we studied the importance of Cys in NP pentamerization. We used site directed mutagenesis in order to change Cys for Ser. We observed that the mutation of Cys 45 favoured the monomerization of r-NP142, but this change didn't affect the oligomerization of the forms r-NP and r-NP121, which remained pentameric. These results suggest the absence of disulfide bridges in the pentameric structure of nucleoplasmin. The structural characterization of nucleoplasmin has been studied at different levels. At the secondary structure level we have used circular dichroism techniques and we have determined that the mutant r-NP142 C45S is in random coil conformation. For higher structural levels we have used electron microscopy and crystallographic techniques.Another objective of this work was the characterization of the interactions between NP and nucleosomal core histones. We were specially interested in knowing if the interaction was fundamentally electrostatic. Using analytical ultracentrifugation and sucrose gradient experiments we could determine that NP can bind the four types of nucleosomal histones. This binding would have an stoichiometry equal to 1 mol of NP pentamer per mol of histone octamer. It is important to note that NP can bind trypsinated histones (without the basic tails) maintaining the same stoichiometry as in the case of native histones. In the same way, the r-NP121 form (without the acidic tract A2) is capable of binding native histones with the same stoichiometry described for the other cases. These result indicates that the interaction NP-histones is not mainly electrostaticaly driven.Another objective of this work was the study of the presence of some NP-like proteins in oocyte extracts of the starfish "Echinaster sepositus". We have found a very abundant protein which is termoestable, acidic and partially resistant to ammonium sulphate. This protein is recognized by policlonal antinucleoplasmin antibodies which were obtained in hen eggs. However, it is not able to decondense spermatic nuclei which contain protamine.The last objective of the present work was the structural study of the protein ?0 which is specific of the nuclei of the echinoderm "Holothuria tubulosa" and has intermediate properties between histones and protamines. The crystallization of a molecule like ?0 could bring information about the structure of proteins that participate in chromatin condensation and could offer a new way for the crystallization of protamines and NP-protamine complexes. mutagènesi dirigida proteïna recombinant dicroisme circular "Xenopus laevis" histones cristal·lografia proteïnes espermàtiques bàsiques electroforesi cromatografia nucleoplasmina ultracentrifugació analítica 2302. Bioquímica 577
399	Identification of a new deadenylation negative feedback loop that regulates meiotic progression Belloc Rocasalbas, Eulàlia 15 December 2008 (has links) Els oòcits de vertebrats es troben aturats a la profase I de la primera meiosi (PI). Durant el procés anomenat oogènesi, els oòctits sintetitzen i emmagatzemen grans quantitats d'ARN missatgers(ARNm)que els seran necessaris per la compleció de la meiosi.I,per posteriorment, aturar-se de nou a la metafase de la segona divisió meiòtica (MII) per l'activitat del factor citostàtic(CSF).D'aquestes divisions en destaca el fet que transcorren en absència de transcripció, i per tant depenen totalment en l'activació traduccional dels ARNm anteriorment esmentats que han estat acumulats durant l'oogènesi. L'activació traduccional d'aquests missatgers és principalment induïda per l'elongació de les cues d'adenines(cues de poli(A)), aquest procés és mediat per les seqüències de poliadenilació citoplasmàtiques (CPE)presents a la regió 3' no tradudïda (3'UTR)dels ARNm. El moment i la longitud de la poliadenilació dels ARNm que contenen CPEs estan finament regulats, de manera que en combinació amb la degradació de proteïnes, s'estableixen els patrons específics d'expresió de les proteïnes que condueixen la meiosi (Shmitt et al., 2002; de Moor and Richter, 1997; Ballantyne et al., 1997; Mendez et al., 2002; Charlesworth et al., 2002). Fins a la data, no s'havia descrit que la deadenilació (escurçament de la cua de poli(A)) fos necessària per la progressió meiòtica. En aquesta tesi s'ha descrit, a partir d'un cribatge d'abast genòmic, una ruta de retroalimentació negativa requerida per a la sortida de la primera metafase meiòtica. La nova ruta identificada, a més té la particularitat d'actuar a nivell traduccional regulant l'expressió de proteïnes que participen directament en la progressió meiòtica. L'element central d'aquesta nova ruta és la proteïna C3H-4, que a la vegada és regulada per poliadenilació citoplasmàtica. C3H-4 crea la retroalimentació negativa interaccionant amb elements ARE de les regions 3'UTR, promovent la deadenilació del ARNm al qual s'uneix. D'entre les seves dianes hem identificat Emi1 i Emi2, ambdós reguladors de l'activitat de l'APC/C, crítica per la divisió cel·lular. Xenopus Laevis ruta de retroalimentació poliadenilació poli(A) maduració metafase meiosi ARNm Emi2 Emi1 desenvolupament cyclin E control traduccional CPEB C3H-4 deadenilació 3' UTR 575
400	Effect of heat shock factor inhibitor, KNK437, on stress-induced hsp30 gene expression in Xenopus laevis A6 cells Voyer, Janine January 2008 (has links) Prokaryotic and eukaryotic organisms respond to various stresses with the production of heat shock proteins (HSPs). HSPs are molecular chaperones that bind to unfolded proteins and inhibit their aggregation as well as maintaining their solubility until they can be refolded to their original conformation. Stress-inducible hsp gene transcription is mediated by the heat shock element (HSE), which interacts with heat shock transcription factor (HSF). In this study, we examined the effect of KNK437 (N-formyl-3,4-methylenedioxy-benzylidene-g-butyrolactam), a benzylidene lactam compound, on heat shock, sodium arsenite, cadmium chloride and herbimycin A-induced hsp gene expression in Xenopus laevis A6 kidney epithelial cells. In studies limited to mammalian cultured cells, KNK437 has been shown to inhibit HSE-HSF1 binding activity and stress-induced hsp gene expression. In the present study, western and northern blot analysis revealed that exposure of A6 cells to heat shock, sodium arsenite, cadmium chloride and herbimycin A induced the accumulation of HSP30 protein and hsp30 mRNA, respectively. Western blot analysis also determined that exposure of A6 cells to heat shock, sodium arsenite, cadmium chloride and herbimycin A induced the accumulation of HSP70 protein. Pre-treatment of A6 cells with 100 µM KNK437 inhibited stress-induced hsp30 mRNA as well as HSP30 and HSP70 protein accumulation. Immunocytochemistry and confocal microscopy were used to confirm the results gained from western blot analysis as well as determine the localization of HSP30 accumulation in A6 cells. A 2 h heat shock at 33°C resulted in the accumulation of HSP30 in the mostly in the cytoplasm with a small amount in the nucleus. Heat shock at 35°C resulted in substantial HSP30 accumulation in the nucleus. This is in contrast with A6 cells treated for 14 h with 10 µM sodium arsenite, 100 µM cadmium chloride and 1 µg/mL herbimycin A, where HSP30 accumulation was found only in the cytoplasm and not in the nucleus. A 6 h pre-treatment with 100 µM KNK437 completely inhibited the accumulation of HSP30 in A6 cells heat shocked at 33 or 35°C as well as cells treated with 1 µg/mL herbimycin A. The same pre-treatment with KNK437 resulted in a 97-100% decrease in HSP30 accumulation in A6 cells treated with 10 µM sodium arsenite or 100 µM cadmium chloride. These results show that KNK437 is effective at inhibiting both heat shock and chemical induced hsp gene expression in amphibian cells. Xenopus laevis KNK437 hsp30 small heat shock proteins heat shock factor heat shock factor inhibition cadmium chloride herbimycin A sodium arsenite heat shock HSF1 hsp70 Biology

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