Mechanism and regulation of ERK2 subcellular localization

Whitehurst, Angelique Wright.

January 2004

Thesis (Ph. D.) -- University of Texas Southwestern Medical Center at Dallas, 2004. / Vita. Bibliography: 118-130.

PAT protein regulation of cytoplasmic lipid droplet formation and secretion : role of adipophilin in mammary epithelial cells /

Russell, Tanya D.

January 2008

Thesis (Ph.D. in Molecular Biology) -- University of Colorado Denver, 2008. / Typescript. Includes bibliographical references (leaves 134-149). Free to UCD affiliates. Online version available via ProQuest Digital Dissertations;

Regulation of the histone chaperone molecules Nap1p and nucleoplasmin by phosphorylation

Calvert, Meredith Emily Kennedy.

January 2007

Thesis (Ph. D.)--University of Virginia, 2007. / Title from title page. Includes bibliographical references. Also available online through Digital Dissertations.

Characterization of QSEA and QSED in the quorum sensing cascade of Enterohemorrhagic Escherichia coli

Sharp, Faith Christine.

January 2005

Thesis (M.S.) -- University of Texas Southwestern Medical Center at Dallas, 2005. / Embargoed. Vita. Bibliography: 81-88.

Phosphoprotein changes in Arabidopsis thaliana cells in response to elicitation by lipopolysaccharides.

Roux, Milena

16 May 2008

Plants respond to pathogen attack by inducing a coordinated resistance strategy, which results in the expression of defense gene products. When a plant-pathogen interaction results in disease establishment, parasite colonization is caused by a delayed plant defense response, not due the absence of any response. Thus, the speed and intensity of the plant response and intracellular signalling determines the outcome of a plant-pathogen interaction. The acceleration of plant responses by the application of resistance inducers could provide a commercially, biologically and environmentally feasible alternative to existing pathogen control methods. Lipopolysaccharides are amphipathic lipoglycans that are attached to the outer bacterial membrane by a lipidic entity inserted into the bacterial phospholipid monolayer, with the saccharidic part oriented towards the exterior. The general structure of this compound is comprised of an anchor named lipid A associated with a core polysaccharide, which bears an O-antigen domain. LPS has been described as one of the pathogen-associated molecular patterns (PAMPs) capable of eliciting the activation of the plant innate immune system. LPS present in the outer membranes of plant growth-promoting rhizobacteria (PBPR) are major determinants of induced systemic resistance (ISR). In addition, LPS may function as an activator of systemic acquired resistance (SAR), providing non-specific immunization against later infection. Evidence suggests that LPS may advance plant disease resistance using the mechanism of ISR or SAR through its application to plants as a sensitizing agent, priming them to respond more effectively to subsequent pathogen attack. Phosphorylation plays a major role during the plant defense response, exemplified by its phosphorylation of transcription factors, required for the expression of defense-related genes. One of the most extensively documented phosphorylation responses is that of MAP kinase activation by phosphorylation in response to elicitation by race-specific and non-racespecific elicitors in various plant species.Proteins that undergo differential phosphorylation as a result of elicitation could be components of signal transduction pathways which connect pathogen perception with defense responses. Thus the identification of protein kinases, protein phosphatases and their substrates is essential in the elucidation of plant defense responses. The hypothesis behind this dissertation is that LPS elicitation results in alterations in the phosphorylation profile of Arabidopsis thaliana proteins. In this study, LPS was extracted from the cell walls of Burkholderia cepacia, a bacterial endophyte, and characterized by SDS-PAGE. The exposure of Arabidopsis callus culture cells to LPS resulted in distinctive changes in the phosphoprotein profile of the cells. Radioactive phosphorous labelling of proteins provided evidence that phosphorylation occurs in Arabidopsis following LPS perception, as part of a defense response related to LPS elicitation. Further investigation of differential protein phosphorylation via immunoblotting with antiphosphotyrosine antibodies revealed that tyrosine phosphorylation of Arabidopsis proteins occurs in response to LPS. One of the tyrosine-phosphorylated proteins was found to be a 42 kDa kinase, activated in response to LPS elicitation. The identity of the kinase as a mitogen-activated protein (MAP) kinase was confirmed by immunoblotting with anti-active MAP kinase antibodies. In addition, an assay of MAP kinase activity demonstrated the ability of the LPS-responsive MAP kinase to phosphorylate the ERK-MAP kinase substrate Elk1. In terms of the global phosphoproteome of Arabidopsis in response to LPS, phosphopeptides were purified from a crude protein digest by immobilized metal affinity chromatography and analyzed by liquid chromatography-tandem mass spectrometry (LCMS/ MS). While LC indicated both quantitative and qualitative differences resulting from LPS elicitation, no peptides could be positively identified as phosphopeptides by MS analysis. This work can however be repeated with further precautions to prevent the loss of phosphate groups prior to analysis. The results obtained in this study indicate that LPS causes specific alterations in Arabidopsis protein phosphorylation as a post-translational modification in response to the perception of LPS during a plant-pathogen interaction, proving the original hypothesis. / Prof. I.A. Dubery

plantphosphorylation

endotoxins

plant defenses

plant disease and pest resistance

plant-pathogen relationships

phosphoproteins

Arabidopsis thaliana

Investigating the molecular mechanism of phospholamban regulation of the Ca²-pump of cardiac sarcoplasmic reticulum

Akin, Brandy Lee

16 March 2011

Indiana University-Purdue University Indianapolis (IUPUI) / The Ca2+ pump or Ca2+-ATPase of cardiac sarcoplasmic reticulum, SERCA2a, is regulated by phospholamban (PLB), a small inhibitory phosphoprotein that decreases the apparent Ca2+ affinity of the enzyme. We propose that PLB decreases Ca2+ affinity by stabilizing the Ca2+-free, E2·ATP state of the enzyme, thus blocking the transition to E1, the high Ca2+ affinity state required for Ca2+ binding and ATP hydrolysis. The purpose of this dissertation research is to critically evaluate this idea using series of cross-linkable PLB mutants of increasing inhibitory strength (N30C-PLB < PLB3 < PLB4). Three hypotheses were tested; each specifically designed to address a fundamental point in the mechanism of PLB action. Hypothesis 1: SERCA2a with PLB bound is catalytically inactive. The catalytic activity of SERCA2a irreversibly cross-linked to PLB (PLB/SER) was assessed. Ca2+-ATPase activity, and formation of the phosphorylated intermediates were all completely inhibited. Thus, PLB/SER is entirely catalytically inactive. Hypothesis 2: PLB decreases the Ca2+ affinity of SERCA2a by competing with Ca2+ for binding to SERCA2a. The functional effects of N30C-PLB, PLB3, and PLB4 on Ca2+-ATPase activity and phosphoenzyme formation were measured, and correlated with their binding interactions with SERCA2a measured by chemical cross-linking. Successively higher Ca2+ concentrations were required to both activate the enzyme co-expressed with N30C-PLB, PLB3, and PLB4 and to dissociate N30C-PLB, PLB3, and PLB4 from SERCA2a, suggesting competition between PLB and Ca2+ for binding to SERCA2a. This was confirmed with the Ca2+ pump mutant, D351A, which is catalytically inactive but retains strong Ca2+ binding. Increasingly higher Ca2+ concentrations were also required to dissociate N30C-PLB, PLB3, and PLB4 from D351A, demonstrating directly that PLB competes with Ca2+ for binding to the Ca2+ pump. Hypothesis 3: PLB binds exclusively to the Ca2+-free E2 state with bound nucleotide (E2·ATP). Thapsigargin, vanadate, and nucleotide effects on PLB cross-linking to SERCA2a were determined. All three PLB mutants bound preferentially to E2 state with bound nucleotide (E2·ATP), and not at all to the thapsigargin or vanadate bound states. We conclude that PLB inhibits SERCA2a activity by stabilizing a unique E2·ATP conformation that cannot bind Ca2+.

Ca-ATPase

SERCA

phospholamban

calcium

sarcoplasmic reticulum

Phosphoproteins

Sarcoplasmic reticulum

Calcium

Selenium mediated arsenic toxicity modifies cytotoxicity, reactive oxygenspecies and phosphorylated proteins

Chitta, Karnakar Reddy

19 September 2013

No description available.

Analytical Chemistry

arsenic

seleniummethionine

phosphoproteins

reactive oxygen species

cytotoxicity

selenium containing proteins

Castração, dieta hiperlipídica e DHEA: efeitos sobre a sensibilidade à insulina e secreção em ilhotas isolatas de ratas. / Oophorectomy high fat diet and DHEA: effects on insulin sensitivity and insulin secretion on isolated islets rats.

Véras, Katherine Maria de Araujo

15 July 2011

A privação dos hormônios sexuais, natural ou induzida, contribui para o aparecimento de diversas desordens metabólicas e endócrinas. Esse estudo investigou se a suplementação em dose única com DHEA, esteróide mais abundante em humanos, melhora a sensibilidade à insulina, bem como sua secreção e ou tolerância à glicose em ratas castradas alimentadas com dieta hiperlipídica (OHL). A castração induziu a perda da proteção fisiológica das fêmeas contra o ganho de peso. O tratamento com DHEA não promoveu alterações sobre esse parâmetro, porém, corrigiu a elevação na concentração de insulina plasmática e o índice HOMA IR, além da constante de decaimento de glicose, kitt. Os animais castrados apresentaram aumento da área da ilhota. DHEA não alterou essa condição. No entanto, as ilhotas das ratas tratadas com DHEA apresentaram aumento do grau de fosforilação da proteína Akt e melhora da capacidade secretória estática de insulina. Esse estudo sugere o uso do DHEA como alternativa protetora sobre a sensibilidade a insulina em fêmeas desprovidas de ovários. / Natural and induced privation of sexual hormones contributes to the development of several metabolic and endocrine disorders. The present study evaluated if DHEA supplementation, the most abundant steroid in humans, would improve the insulin sensitivity and secretion as well as the glucose tolerance, in high fat diet fed ovariectomized rats (OHL). Ovariectomy (OVX) reduced the physiological female protection against the weight gain. Although no effect upon adipose depot-specific action of DHEA has been found, DHEA has corrected the blood insulin levels and HOMA IR. In addition, DHEA has improved peripheral insulin action by the glucose disappearance rate, kitt. The islets area was increased in all ovariectomized groups. Pancreatic islets from DHEA-treated rats showed an increased in the Akt serine phosphorylation status and restored glucose-stimulated insulin secretion. Our results suggest that DHEA can promote protective effects by increasing the insulin sensitivity in females castrated rats exposed to health risk factors.

Animal diet

Animal secretions

Castração animal

Castrated animal

Dieta animal

Fosfoproteínas

Glicose

Glucose

Ilhotas de Langherhans

Islets of Langerhans

Phosphoproteins

Secreção animal

Gene Expression in Embryonic Chick Heart Development

Sneesby, Kyra, n/a

January 2003

Establishment of the biochemical and molecular nature of cardiac development is essential for us to understand the relationship between genetic and morphological aspects of heart formation. The molecular mechanisms that underly heart development are still not clearly defined. To address this issue we have used two approaches to identify genes involved in early chick cardiac development. Differential display previously conducted in our laboratory led to the identification of two gene fragments differentially expressed in the heart that are further described in this thesis. The full-length cDNA sequence of both eukaryotic translation initiation factor-2b (eIF-2b) and NADH cytochrome b5 reductase (b5R) were isolated using library screening. The upreglation of these genes during heart development is expected given the heart is the first functional organ to form in vertebrates and protein synthesis and cell metabolism at this stage of development is maximal. Limitations in the differential display approach led to the development and optimisation of a subtractive hybridisation approach for use with small amounts of cells or tissue. To focus on cardiac gene expression during the initial phases of heart development, subtractive hybridization was performed between the cardiogenic lateral plate mesoderm of Hamburger and Hamilton stage 4 embryos and the heart primordia of stage 9 embryos. Of the 87 independent clones identified by this procedure, 59 matched known sequences with high homology, 25 matched unknown expressed sequence tag (EST) sequences with high homology, and 3 did not match any known sequence on the database. Known genes isolated included those involved in transcription, translation, cell signalling, RNA processing, and energy production. Two of these genes, high mobility group phosphoprotein A2 (HMGA2) and C1-20C, an unknown gene, were chosen for further characterisation. The role of each gene in early chick heart development and indeed development in general, was addressed using techniques such as in situ hybridisation, transfection analysis, in ovo electroporation and RNAi. HMGA2 is a nuclear phosphoprotein commonly referred to as an architectural transcription factor due to its ability to modulate DNA conformation. In keeping with this function, HMGA2/GFP fusion protein was shown to localise to the nucleus and in particular, the nucleolus. In situ hybridisation analysis suggested a role for HMGA2 in heart and somite development. HMGA2 expression was first detected at HH stage 5 in the lateral plate mesoderm, a region synonymous with cells specified to the cardiac fate. HMGA2 was also strongly expressed in the presomitic segmental plate mesoderm and as somites developed from the segmental plate mesoderm, the expression of HMGA2 showed an increasingly more restricted domain corresponding to the level of maturation of the somite. Restriction of HMGA2 expression was first detected in the dorsal region of the epithelial somite, then the dorsomedial lip of the dermomyotome, and finally the migrating epaxial myotome cells. The novel intronless gene, C1-20C, predicts a protein of 148 amino acids containing a putative zinc finger binding domain and prenyl binding motif. Zinc binding assays showed that the zinc finger domain of C1-20C/MBP fusion protein bound over six times the quantity of zinc compared to MBP alone, although not in a 1:1 stoichiometric molar ratio. C1-20C/GFP fusion protein was shown to localise to as yet unidentified intracellular cytoplasmic vesicular compartments. These compartments did not colocalise with the endosome/lysosome pathway, aparently ruling out a role for C1-20C in protein trafficking, recycling or degradation. Expression of C1-20C in the chick embryo suggests a possible role in heart and notochord development and preliminary results using siRNA suggest that C1-20C is involved in normal heart looping.

heart

heart development

heart formation

gene expression

molecular genetics

chick heart

chick embryo

phosphoproteins

HMGA2

high mobility group phosphoprotein A2

Insulin signalling in human adipocytes : mechanisms of insulin resistance in type 2 diabetes /

Danielsson, Anna,

January 2007

Diss. (sammanfattning) Linköping : Linköpings universitet, 2007. / Härtill 4 uppsatser.