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Estrategias para la utilización de la bacteria entomopatógena Bacillus thuringiensis (Berliner) en el control de Ceratitis capitata (Wiedemann)Vidal Quist, José Cristian 24 May 2010 (has links)
La mosca mediterránea de la fruta, Ceratitis capitata, es la principal plaga de la fruticultura en el mundo. El desarrollo de métodos ambientalmente seguros de control de plagas, como Bacillus thuringiensis (Bt), adquiere cada vez mayor importancia. Esta tesis doctoral evalúa la validez de Bt y sus delta-endotoxinas como agentes de control de C. capitata. El análisis de la biodiversidad de Bt ha reflejado la gran riqueza presente en el agroecosistema de los cítricos. Sin embargo, ninguna de las cepas ensayadas (905) muestra alta toxicidad sobre C. capitata cuando esporas/cristales o sobrenadantes de su cultivo son ensayados. En cambio, la solubilización de los cristales de una selección de 42 cepas de Bacillus sp. ha demostrado que, para las cepas de la subespecie israelensis (Bti), este tratamiento produce una ganancia de función biológica. Adicionalmente, la predigestión de dichas protoxinas con proteasas de otro díptero, Culex pipiens, aumenta su actividad larvicida (CL50 31.26 µg/cm2). Por otro lado, se ha demostrado que, entre las delta-endotoxinas producidas por Bti, la protoxina Cyt1Aa es el factor determinante, con una CL50 sobre larvas de 4.93 µg/cm2. Sobre adultos, Cyt1Aa produce efectos subletales. Complementariamente, esta tesis propone un nuevo método de control basado en el desarrollo de toxinas recombinantes de fusión Cry-anticuerpo. Se ha puesto en práctica un sistema modelo para evaluar esta estrategia: se han desarrollado 4 variantes proteicas por la fusión entre partes de la protoxina Cry1Ab y un anticuerpo específico contra GFP (VHH anti-GFP) y éstas se han ensayado sobre larvas transgénicas de Drosophila melanogaster que expresan GFP en su intestino. Deficiencias en la unión de las toxinas de fusión a GFP, han impedido demostrar, por el momento, la estrategia propuesta. Por último, se han detectado al menos 160 proteínas distintas en las membranas intestinales de C. capitata y se han identificado las siguientes: V-ATPasa subunidades A y B, y alfa-tubulina. / Vidal Quist, JC. (2010). Estrategias para la utilización de la bacteria entomopatógena Bacillus thuringiensis (Berliner) en el control de Ceratitis capitata (Wiedemann) [Tesis doctoral]. Universitat Politècnica de València. https://doi.org/10.4995/Thesis/10251/8336
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Peroxisomal Targeting Of Pichia Pastoris Cytochrome C During Methanol And Fatty Acid MetabolismMohanty, Abhishek 07 1900 (has links)
Intracellular protein sorting plays a key role in the regulation of cellular metabolism, gene expression, signal transduction and a number of other cellular processes. Proteins targeted to specific cellular compartments contain organelle-specific targeting sequences which interact with various components of the import machinery that are often evolutionarily conserved. For example, proteins targeted to peroxisomes interact with specific receptor proteins through unique peroxisomal targeting signals (PTS) which results in their import into peroxisomal matrix or insertion into peroxisomal membrane. Peroxisomal protein import has been studied in a number of species and several conserved PTS and receptor proteins have been identified. In our study, we report the unexpected finding that cytochrome c (cyt c), which lacks a canonical PTS, is targeted to peroxisomes of the methylotrophic yeast, Pichia pastoris. This is a unique feature of P. pastoris and is not observed in other yeast species such as the conventional yeast, Saccharomyces cerevisiae or other methylotrophic yeasts such as Hansenula polymorpha. Using S. cerevisiae cyc1 null mutant strain as a surrogate model, we demonstrate that P. pastoris cytochrome c (PpCyt c) is targeted to S. cerevisiae peroxisomes indicating that peroxisomal targeting is a unique and inherent property of PpCyt c and the machinery required for this is conserved in S. cerevisiae as well. We further demonstrate that Ppcyt c targeted to the fatty acid-induced peroxisomes of S. cerevisiae is a hemoprotein with covalently attached heme suggesting that PpCyt c synthesized in cytosol is first targeted to mitochondria where heme is added to the apoprotein by cytochrome c heme lyase and the holoprotein is then re-targeted to peroxisomes through an unknown mechanism.
Proteins imported into peroxisomes carry specific peroxisomal targeting signals (PTS) known as PTS1 and PTS2. PTS1 is a tripeptide sequence (SKL) at the carboxy terminus of peroxisomal matrix proteins. To investigate whether the carboxy terminus of PpCyt c contain PTS1 or PTS1-like sequences, we made GFP fusion proteins with PpCyt c carboxy terminal amino acids (GFP-ATK, GFP-LAKATK) and examined their ability to localize to peroxisomes. Neither of these two proteins is targeted to peroxisomes indicating that PTS1-like sequences are not involved in peroxisomal targeting of Ppcyt c. Two receptors known as Pex5 and Pex7 are known to be involved in peroxisomal protein import and we therefore examined PpCyt c import into peroxisomes of P. pastoris strains lacking pex5 and pex7. Peroxisomal import of PpCyt c is abolished in pex5 but not pex7 mutant strain indicating that PpCyt c is imported into peroxisomes by a pex5-dependent but PTS1independent pathway. Since we observed significant amino acid differences between PpCyt c and S. cerevisiae cytochrome c (ScCyt c) in their carboxy-and amino-termini, we interchanged these amino acids between PpCyt c and ScCyt c and examined their subcellular localization. Such studies revealed that swapping the N-terminal or C-terminal amino acids of PpCyt c with those of S. cerevisaie cytochrome c (ScCyt c) abolishes peroxisomal localization of PpCyt c. Thus, both N-and C-terminal amino acids of PpCyt c are essential for its import into peroxisomes. Interestingly, in a number of fungal species, the N-and C-terminal amino acid sequences of cytochrome c are identical to those of PpCyt c indicating that peroxisomal targeting of cytochrome c may be observed in other yeast species as well.
S. cerevisiae cells expressing PpCyt c exhibit several unique biochemical properties. S. cerevisiae cells expressing PpCyt c grow more rapidly than those expressing ScCyt c when cultured on media containing oleic acid as the sole carbon source and uptake of C-oleic acid from the medium as well as its assimilation into neutral lipids is quantitatively higher in the former. Surprisingly, the phenotype of S. cerevisiae cells expressing PpCyt c is dramatically altered such that the kinetics of growth on fatty acid containing media as well as lipid profile appear to be identical to those of P. pastoris rather than S. cerevisiae. Thus peroxisomal targeting of cytochrome c dramatically alters the kinetics of growth of S. cerevisiae cells in fatty acid containing media as well as the lipid metabolism raising several interesting questions on the molecular mechanisms involved in the alteration of phenotype of S. cerevisiae. It is likely that peroxisomal targeting of cytochrome c results in quantitative as well as qualitative changes in fatty acid metabolism and this opens up new vistas for the bioconversion of fatty acids into value-added lipid products by metabolic engineering. Based on these studies, we propose a new role for cytochrome c in peroxisomal fatty acid metabolism. Our study demonstrates that evolutionarily conserved proteins such as cytochrome c can acquire unique, species-specific functions that may be of great physiological significance to that organism.
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Cytochrome C biosensor for the determination of trace level arsenic and cyanide compoundsFuku, Xolile Godfrey January 2011 (has links)
In this work, an electrochemical method based on a cyt c biosensor has been developed, for the detection of selected arsenic and cyanide compounds. Boron Doped Diamond (BDD) electrode was used as a transducer, onto which cyt c was immobilised and used for direct determination of Prussian blue, potassium cyanide and arsenic trioxide by inhibition mechanism. The sensitivity as calculated from cyclic voltammetry (CV) and square wave voltammetry (SWV), for each analyte in phosphate buffer (pH= 7) was found to be (1.087- 4.488 Ã10-9 M) and the detection limits ranging from 0.0043- 9.1 μM. These values represent a big improvement over the current Environmental Protection Agency (EPA) and World Health Organisation (WHO) guidelines.
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Cytochrome C biosensor for the determination of trace level arsenic and cyanide compoundsFuku, Xolile Godfrey January 2011 (has links)
In this work, an electrochemical method based on a cyt c biosensor has been developed, for the detection of selected arsenic and cyanide compounds. Boron Doped Diamond (BDD) electrode was used as a transducer, onto which cyt c was immobilised and used for direct determination of Prussian blue, potassium cyanide and arsenic trioxide by inhibition mechanism. The sensitivity as calculated from cyclic voltammetry (CV) and square wave voltammetry (SWV), for each analyte in phosphate buffer (pH= 7) was found to be (1.087- 4.488 Ã10-9 M) and the detection limits ranging from 0.0043- 9.1 μM. These values represent a big improvement over the current Environmental Protection Agency (EPA) and World Health Organisation (WHO) guidelines.
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Cytochrome C biosensor for the determination of trace level arsenic and cyanide compoundsFuku, Xolile Godfrey January 2011 (has links)
Magister Scientiae - MSc / In this work, an electrochemical method based on a cyt c biosensor has been developed, for the detection of selected arsenic and cyanide compounds. Boron Doped Diamond (BDD) electrode was used as a transducer, onto which cyt c was immobilised and used for direct determination of Prussian blue, potassium cyanide and arsenic trioxide by inhibition mechanism. The sensitivity as calculated from cyclic voltammetry (CV) and square wave voltammetry (SWV), for each analyte in phosphate buffer (pH= 7) was found to be (1.087- 4.488 ×10-9 M) and the detection limits ranging from 0.0043- 9.1 μM. These values represent a big improvement over the current Environmental Protection Agency (EPA) and World Health Organisation (WHO) guidelines. / South Africa
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