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  • About
  • The Global ETD Search service is a free service for researchers to find electronic theses and dissertations. This service is provided by the Networked Digital Library of Theses and Dissertations.
    Our metadata is collected from universities around the world. If you manage a university/consortium/country archive and want to be added, details can be found on the NDLTD website.
21

Étude des événements moléculaires impliqués dans l'activation de la synthéase endothéliale du monoxyde d'azote (eNOS) par le facteur de croissance de l'endothélium vasculaire (VEGF)

Garcia Blanes, Mariela January 2007 (has links)
Mémoire numérisé par la Direction des bibliothèques de l'Université de Montréal.
22

Actin Tyrosine Phosphorylation in Microcysts of Polysphondylium pallidum

Budniak, Aldona 15 December 2010 (has links)
High osmolarity causes amoebae of the cellular slime mould Polysphondylium pallidum to individually encyst, forming microcysts. During microcyst differentiation, actin is tyrosine phosphorylated. Tyrosine phosphorylation of actin is independent of encystment conditions and occurs during the final stages of microcyst formation. During microcyst germination, actin undergoes dephosphorylation prior to amoebal emergence. Renewed phosphorylation of actin in germinating microcysts can be triggered by increasing the osmolarity of the medium which inhibits emergence. Immunofluorescence reveals that actin is dispersed throughout the cytoplasm in dormant microcysts. Following the onset of germination, actin is observed around vesicles where it co-localizes with phosphotyrosine. Prior to emergence, actin localizes to patches near the cell surface. Increasing osmolarity disrupts this localization and causes actin to redistribute throughout the cytoplasm, a situation similar to that observed in dormant microcysts. Together, these results indicate an association between actin tyrosine phosphorylation, organization of the actin cytoskeleton, and microcyst dormancy.
23

Actin Tyrosine Phosphorylation in Microcysts of Polysphondylium pallidum

Budniak, Aldona 15 December 2010 (has links)
High osmolarity causes amoebae of the cellular slime mould Polysphondylium pallidum to individually encyst, forming microcysts. During microcyst differentiation, actin is tyrosine phosphorylated. Tyrosine phosphorylation of actin is independent of encystment conditions and occurs during the final stages of microcyst formation. During microcyst germination, actin undergoes dephosphorylation prior to amoebal emergence. Renewed phosphorylation of actin in germinating microcysts can be triggered by increasing the osmolarity of the medium which inhibits emergence. Immunofluorescence reveals that actin is dispersed throughout the cytoplasm in dormant microcysts. Following the onset of germination, actin is observed around vesicles where it co-localizes with phosphotyrosine. Prior to emergence, actin localizes to patches near the cell surface. Increasing osmolarity disrupts this localization and causes actin to redistribute throughout the cytoplasm, a situation similar to that observed in dormant microcysts. Together, these results indicate an association between actin tyrosine phosphorylation, organization of the actin cytoskeleton, and microcyst dormancy.
24

Nuclear Pyruvate Kinase M2 Functional Study in Cancer Cells

Gao, Xueliang 10 August 2010 (has links)
Cancer cells take more glucose to provide energy and phosphoryl intermediates for cancer progression. Meanwhile, energy-provider function of mitochondria in cancer cells is disrupted. This phenomenon is so-called Warburg effect, which is discovered over eighty years ago. The detail mechanisms for Warburg effect are not well defined. How glycolytic enzymes contribute to cancer progression is not well known. PKM2 is a glycolytic enzyme dominantly localized in the cytosol, catalyzing the production of ATP from PEP. In this study, we discovered that there were more nuclear PKM2 expressed in highly proliferative cancer cells. The nuclear PKM2 levels are correlated with cell proliferation rates. According to our microarry analyses, MEK5 gene was upregulated in PKM2 overexpression cells. Our studies showed that PKM2 regulated MEK5 gene transcription to promote cell proliferation. Moreover, nuclear PKM2 phosphorylated Stat3 at Y705 site using PEP as a phosphoryl group donor to regulate MEK5 gene transcription. Our study also showed that double phosphorylated p68 RNA helicase at Y593/595 interacted with PKM2 at its FBP binding site. Under the stimulation of growth factors, p68 interacted with PKM2 to promote the conversion from tetrameraic to dimeric form so as to regulate its protein kinase activity. Overexpression PKM2 in less aggressive cancer cells induced the formation of multinuclei by regulating Cdc14A gene transcription. Overall, this study presents a step forward in understanding the Warburg effect.
25

Investigation of the role of rasgap in promoting neuronal survival in Drosophila

Rowshanravan, Behzad January 2014 (has links)
RasGAP is a GTPase activating protein (GAP) that deactivates Ras by promoting Ras-GTP hydrolysis to Ras-GDP. In Drosophila melanogaster, RasGAP is required for the long-term survival of neurons in the adult brain because mutants in the RasGAP gene (vap) show an age-related neurodegenerative phenotype, with dying neurons showing morphological features of autophagy. RasGAP was shown to have a GAP-independent role within fly neurons that is dependent on its SH2 domains. The aim of this study was to identify proteins that interact with the SH2 domains of RasGAP and to understand the roles of these proteins in neuronal survival. By using tagged RasGAP affinity purification and mass spectrometry of RasGAP protein complexes from S2 cells, Sprint, a Ras effector and putative activator of the endocytic GTPase Rab5, was identified as a novel SH2-dependent RasGAP interacting protein. The interaction between Sprint and RasGAP is phosphotyrosine-dependent, since it requires tyrosine phosphorylation of Sprint. In addition, Sprint and RasGAP interaction requires the SH2 domains of RasGAP but not Sprint or the conserved site of RasGAP tyrosine phosphorylation (pTyr363), indicating an association between these two molecules. RasGAP and Sprint co-localised with Rab5-positive early endosomes and this co-localisation depended on the SH2 domains of both RasGAP and Sprint. This study demonstrates a key role for this interaction in neurodegeneration: mutation of Sprint (or Rab5) suppressed the autophagic neuronal cell death caused by the loss of RasGAP. These results indicate that the long-term survival of adult neurons in Drosophila depends on a critical balance between Ras activation and endocytosis, and that this balance is maintained by the interplay between RasGAP and Sprint.
26

Adaptorové domény signálních proteinů: analýza fosforylačních míst a role v mechanorecepci / Adaptor domains in signalling proteins: phosphorylation analysis and a role in mechanosensing

Tatárová, Zuzana January 2012 (has links)
P130Cas (Crk-associated substrate, CAS) is a multiadaptor protein important in integrin signalling where it positively regulates cell motility, invasion, proliferation and survival. CAS lacks enzymatic activity, but its binding to other signalling proteins could lead to the change of phosphorylation status of its substrate domain, which is the main mode, through which CAS takes part in regulating cell behavior. Local tensions in focal adhesions lead to an extension of CAS substrate domain, leaving phosphorylation sites more accessible for kinases, which subsequently leads to an increased CAS substrate domain phosphorylation. The CAS anchorage in focal adhesions is mediated by its SH3 domain, probably through the interactions with FAK, and also by C-terminal domain, where interaction partners are not known. The aim of my project is to find out, which proteins mediate the CAS anchorage to the focal adhesions. The elucidation of CAS anchorage to focal adhesions will contribute to the understanding of mechanosensory function of CAS. Experimental data suggest that tyrosine phosphorylation of the CAS SH3 domain plays an important role in the regulation of its binding properties. Another goal of my diploma project was to analyze the significance of tyrosine phosphorylation within SH3 domain and other...
27

Vliv estrogenních hormonů na kapacitaci a akrozomální reakci myších spermií in vitro / The influence of estrogens on mouse sperm capacitation and acrosome reaction in vitro

Tejnická, Magda January 2011 (has links)
There are an increasing amount of compounds in the environment that can have a negative effect on reproductive parameters in both male and female organism. There has been a worldwide decline of sperm quality during past decades and this fact lead to an increase of unnatural ways of conception through assisted reproduction techniques in the specialised centres. Natural estrogens are one of these compounds and they get into waste water after being excluded from the body by the urine. They get back into the human body from drinking water or from the food, and they can interfere with function of endogenous hormones in very low concentrations. For these reasons it is up to date to deal with the influence of these compounds on mammalian sperm. For many years, estrogens have been considered typically female sex hormones. It is now certain that they are also very important in the regulation of male reproduction. Endogenous estrogens in mammalian males are an important part of the endocrine system. Estrogens play an important role in the development of germ cells, spermatogenesis and processes leading to successful egg fertilization such as a capacitation or acrosomal reaction. Tyrosine phosphorylation is one of the essential steps for the properly ongoing process of capacitation in sperm followed by a...
28

Live Yeast Cell Derivative leads to rapid phosphorylation of Epidermal Growth Factor Receptor

Meeker, Timothy J. 21 September 2012 (has links)
No description available.
29

Identification of a Low Molecular Weight Protein Tyrosine Phosphatase and Its Potential Physiological Substrates in Synechocystis sp. PCC 6803

Mukhopadhyay, Archana 11 April 2006 (has links)
The predicted protein product of open reading frame slr0328 from Synechocystis sp. PCC 6803, SynPTP, possesses significant amino acid sequence similarity with known low molecular weight protein tyrosine phosphatases (PTPs). To determine the gross functional properties of this hypothetical protein, open reading frame slr0328 was cloned, and its predicted protein product was expressed in E. coli. The recombinant protein, SynPTP, was purified by metal ion column chromatography. The catalytic activity of SynPTP was examined toward several exogenous protein substrates that had been phosphorylated on either tyrosine residues or serine residues. SynPTP exhibited phosphatase activity toward tyrosine phosphorylated protein substrates (Vmax toward phosphotyrosyl 32P-casein was 1.5 nmol/min/mg). However, no phosphatase activity was detected toward serine phosphorylated protein substrates. SynPTP displayed phosphohydrolase activity toward several organophosphoesters including para-nitrophenyl phosphate (p-NPP), beta-napthyl phosphate and phosphotyrosine but not toward alpha-napthyl phosphate, phosphoserine, or phosphothreonine. Kinetic analysis indicated that the Km (0.6 mM) and Vmax (3.2 mmole/min/mg) values for SynPTP toward pNPP are similar to those of other known bacterial low molecular weight PTPs. The protein phosphatase activity of SynPTP was inhibited by sodium orthovanadate, a known inhibitor for tyrosine phosphatases, but not by okadaic acid, an inhibitor for many serine/threonine phosphatases. Mutagenic alteration of the predicted catalytic cysteine, Cys7, to serine abolished enzyme activity. Several phosphotyrosine containing proteins were detected from the whole cell extracts of Synechocystis sp. PCC 6803 through immunoreactions using anti-phosphotyrosine antibody. SynPTP was observed to dephosphorylate three of these proteins in vitro. Two of these proteins were identified by peptide-mass fingerprinting analysis, as PsaD (photosystem I subunit II) and CpcD (phycocyanin rod linker protein). In addition, several phosphotyrosine proteins were detected from the soluble and membrane fractions of Synechocystis sp. PCC 6803 cell extracts by in vitro substrate trapping as potential endogenous substrates of SynPTP. Two of these proteins were identified as the alpha and beta subunits of phycocyanin. We therefore speculate that SynPTP might be involved in the regulation of photosynthesis in Synechocystis sp. PCC 6803. / Ph. D.
30

Studies On Molecular Analysis Of Capacitation Associated Protein Tyrosine Phosphorylation In Hamster Spermatozoa

Dasari, Santosh Kumar 07 1900 (has links) (PDF)
In mammals, freshly ejaculated spermatozoa do not possess the ability to fertilize a mature oocyte. They acquire fertilization competence upon residing for a period of time in the female reproductive tract. The physiological changes that bring about these time-dependent changes in motility pattern and acquisition of fertilizing ability of spermatozoa are collectively referred to as capacitation, culminating in sperm hyperactivation. Capacitation-associated increase in sperm protein tyrosine phosphorylation (PYP), exhibited by mammalian sperm, is one of the major downstream events, regulating hyperactivated motility. However, it is still unclear which are the tyrosine kinases and phosphatases involved in modulating the capacitation-associated increase in global PYP. In order to determine this, our laboratory earlier showed the role of PYP in hamster sperm capacitation using a specific EGFR protein tyrosine kinase (PTK) inhibitor, tyrphostin A47 (TP-47). Interestingly, inhibition of capacitation by 0.5 mM TP-47 was associated with induction of a slow circular motility pattern, accompanied by inhibition of PYP of certain proteins (Mr. 45,000-52,000), localized to the principle piece of the sperm flagellum. Two such proteins, hypo-tyrosine phosphorylated, were found to be tektin-2 and ODF-2, using 2D-PAGE followed by MS/MS analysis. Interestingly, a global phosphoproteome analysis of human spermatozoa showed that PYP changes are associated with capacitation and asthenospermic condition in infertile men is attributed to the failure of capacitation-associated increase in PYP. Such individuals exhibited impaired sperm motility. There is a need to understand the exact mechanism of phosphorylation of sperm flagellar proteins, which is necessary to assess sperm’s ability to fertilize the mature oocyte. Therefore, the focus of the present work was to elucidate the role of receptor tyrosine kinases (RTKs) and the non-receptor tyrosine kinases (NRTKs) in mammalian (hamster) sperm capacitation. Recent studies have shown that apart from EGFR other RTKs like IGF1R, FGFR, VEGFR, MuSK, TrkA are expressed in mammalian spermatozoa and actively involved in sperm capacitation. However, there is very little information available in the context of sperm capacitation and associated PYP. Therefore, attempts were made to understand the role of various RTKs (IGF1R, FGFR and VEGFR) in hamster sperm capacitation and associated PYP. Initially, the role of IGF1R tyrosine kinase during sperm capacitation was studied. Immunolocalization of IGF1R in spermatozoa showed a strong signal in the sperm acrosome and the principal piece of the sperm flagellum. Inhibition of IGF1R kinase with an IGF1R-specific inhibitor TP-1-O-Me-AG538 (TP-538) showed inhibitory effect on sperm capacitation and the associated hyperactivation. But, inhibitors of FGFR and VEGFR tyrosine kinases did not show such an effect. Interestingly, inhibition of IGF1R by TP538 was associated with inhibition of PYP of certain proteins (Mr. 45,000-120,000), localized to head, mid piece and principle piece regions of the sperm flagellum. Phosphoproteomic analysis using 2D-PAGE-western blot with anti-phosphotyrosine antibodies identified 17 differentially phosphorylated protein spots. Out of the 17 spots, 12 were identified by MALDI-MS/MS analysis. The proteins identified to be differentially phosphorylated, upon inhibition of IGF1R, were PDHE1, ODF-2, Tubulin β 2C chain, PDHE2 and ATP synthase β subunit. The RTKs being present in the membrane level may not be directly involved in the phopshorylation of downstream target proteins associated with the mitochondrial membrane, sperm axonemal structures and outer dense fibers. Therefore, the RTKs may interact directly or indirectly with the downstream NRTKs, which may be involved in the phosphorylation of target sperm proteins. Till date, six different families of NRTKs are shown to be expressed in mammalian spermatozoa. The major family of NRTKs involved in sperm function is the Src family of kinases. However, there is very little information available in the context of sperm capacitation and the associated PYP. Therefore, studies were carried out to understand the role of Src family of NRTKs in sperm capacitation and associated PYP. Presence of active Src signaling was observed by the immunolocalization of activated Src (pY416) in the acrosome, mid piece and the principal piece regions of the sperm flagellum. Inhibition of Src family of kinase with a specific Src family kinase inhibitor PP2, showed inhibition of sperm capacitation and the associated hyperactivation. Inhibition of Src family of kinases with PP2 was associated with decrease in PYP of several proteins (Mr. 45,000-120,000), localized mainly to the mid piece region, followed by the principle piece region of the sperm flagellum. Phosphoproteomic analysis using 2D-PAGE-western blot with anti-phosphotyrosine antibodies identified 38 differentially phosphorylated protein spots. Out of the 38 spots, 16 were identified by MALDIMS/MS analysis and these corresponded to seven proteins which included PDHE1, ODF-2, Tubulin β 2C chain, Tektin-2, GAPDS, PDHE2 and ATP synthase β subunit. Additionally, the biochemical and molecular characteristics of the identified proteins were also studied. Bioinformatic analysis predicted the presence of phosphorylation motifs for several kinases and interestingly, all the proteins identified had a Src kinase motif. Comparing the current observations and the previous work in the laboratory, two proteins ODF-2 and Tektin-2 were found to be regulated by EGFR, IGF1R and Src family of kinases. Therefore, characterization of the capacitation-associated tyrosine phoposphorylated proteins ODF-2 and Tektin-2 was performed. By employing PCR and Northern blotting techniques, the presence of the transcripts of both the proteins was shown. Additionally, the ontogeny of expression of ODF2 and Tektin-2 in hamster testis development was studied and the results indicated that the expression of both the proteins started from week 3 onwards till week 8. To confirm the meiotic stage-associated expression of ODF-2 and Tektin-2, germ cells were sorted based on their DNA content. ODF-2 and Tektin-2 transcripts were first expressed in the meiotic germ cells (pachytene spermatocytes) and their expression was upregulated in the post-meiotic germ cells (round spermatids). Sequential extraction of sperm proteins showed that, Tektin-2 was majorly extracted out in the Triton X-100 and DTT fraction, whereas, ODF-2 was maximally extracted in the presence of urea and DTT. In conclusion, these observations indicate that IGF1R and Src family of tyrosine kinases are critical for mammalian sperm capacitation and associated global PYP. Inhibition of sperm capacitation was associated with hypo-tyrosine-phospohorylation of certain proteins associated with mitochondrial membrane, axonemal structures and outer dense fibers of the sperm flagellum. Future work can be directed towards understanding the role of other RTKs and NRTKs involved in sperm capacitation and the molecular characterization of hypophosphorylated proteins critical for sperm function and its fertilization competence.

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