Global ETD Search

1	Venom Peptides Lasioglossin II and Mastoparan B as Escherichia coli ATP synthase Inhibitors Bello, Rafiat Ajoke 01 August 2016 (has links) The inhibitory effects on Escherichia coli ATPase activity by two venom peptides, lasioglossin II and mastoparan B. Membrane bound F1FO ATP synthase was isolated from E. coli strain pBWU13.4/DK8 and treated with varied concentrations of lasioglossin II and mastoparan B. Lasioglossin II caused very low inhibition of ATPase activity, but the inhibition profile of mastoparan B was suggestive of an interesting biological effect. A relatively shorter total length, a smaller net positive charge, and a reduced amphipathic character of both peptides, as compared to previously tested antimicrobial peptides, may account for the limited degree of inhibition observed in the present study. Antimicrobial Peptides Venom Peptides Lasioglossin II Mastoparan B F1FO ATP Synthase ATPase Activity Biology Integrative Biology Life Sciences
2	Venom Peptide Induced Inhibition of Escherichia coli ATP synthase Azim, Sofiya 01 May 2015 (has links) ATP is the main cellular energy generated by the enzyme ATP synthase in almost all organisms from bacteria to vertebrates. While malfunction of the ATP synthase complex is responsible for several disease conditions, the enzyme itself can be used as a potent molecular drug target to combat many diseases including microbial infections, cancer, tuberculosis, and obesity. Recent widespread escalation of antibiotic resistant microbes in general and E. coli in particular demands novel alternative approaches to combat microbial infections. Inhibition of ATP synthase by inhibitors such as peptides is known to deprive microbes of required energy, resulting in microbial cell death. Therefore, we have examined the venom peptide induced inhibition of E. coli ATP synthase. It was found that venom peptides completely inhibited E. coli ATP synthase and the process of inhibition was found to be fully reversible. This study also links the antimicrobial properties of peptides in part to the inhibition of ATP synthase. Thus, selective use of ATP synthase as a molecular drug may have an important impact on biology and medicine. E. coli ATP synthase venom peptides enzyme inhibition ATPase activity membrane bound F1Fo ATP synthase Biochemistry Molecular Biology
3	Estudo da conformação e atividade lítica de peptídeos antimicrobianos de vespas Cabrera, Marcia Perez dos Santos [UNESP] 18 August 2006 (has links) (PDF) Made available in DSpace on 2014-06-11T19:30:54Z (GMT). No. of bitstreams: 0 Previous issue date: 2006-08-18Bitstream added on 2014-06-13T19:19:38Z : No. of bitstreams: 1 cabrera_mps_dr_sjrp.pdf: 1625766 bytes, checksum: 6073fec2bef34125e9db4700102a3680 (MD5) / Coordenação de Aperfeiçoamento de Pessoal de Nível Superior (CAPES) / Neste trabalho estudamos a conformação em ambientes anisotrópicos e a atividade lítica em vesículas aniônicas e zwitteriônicas de um conjunto de peptídeos biologicamente ativos, extraídos de veneno de vespas solitárias, que se caracterizam por usar seus venenos para paralisar as presas com as quais alimentam suas larvas. Esses peptídeos que são desgranuladores de mastócitos, apresentam atividade antimicrobiana e a maioria deles não é hemolítica. Possuem entre 10 e 15 resíduos, são catiônicos, com alta proporção de resíduos carregados e polares, e são lineares e helicoidais em meios miméticos de membranas. Buscamos correlacionar a atividade lítica em vesículas de diferentes composições, analisada em experimentos de fluorimetria, às mudanças conformacionais, induzidas por diferentes ambientes miméticos, monitoradas por dicroísmo circular, complementando com a análise das características físico-químicas como comprimento da cadeia, amidação do terminal-C, carga líquida, influências no macrodipolo da hélice, hidrofobicidade, momento hidrofóbico e ângulo polar. Observamos que estes peptídeos apresentam intensa atividade em membranas modelo, interagem preferencialmente com bicamadas aniônicas, e sua atividade lítica acontece de modo cooperativo tanto em vesículas aniônicas como nas zwitteriônicas. Com exceção de Anoplin, todos os peptídeos com ação antimicrobiana apresentam curvas de dose-resposta que mostram uma dependência sigmoidal com a concentração do peptídeo. Isso sugere que esses peptídeos se acumulam na superfície da vesícula até atingir uma concentração crítica, além da qual o vazamento aumenta cooperativamente. De uma forma geral os peptídeos mais eficientes como antimicrobianos, são também aqueles caracterizados pela maior eficiência em permeabilizar vesículas aniônicas do tipo PCPG 7030 e por baixas razões limite P/L. / Solitary wasps use their venoms to paralise prays to feed their larvae. A set of biologically active peptides, obtained from these venoms, have been investigated in relation to the conformational changes they undergo in anisotropic environments and their lytic activity on zwitterionic and anionic vesicles. These peptides are mast cell degranulators, present antimicrobial activities and most of them are not hemolytic. They are cationic, their chain length are 10 to 15 residues long, with high hydrophilic / hydrophobic ratio; they are linear and helical in membrane mimetic environments. We searched correlation between the lytic activity in vesicles of different compositions, monitored in fluorimetric experiments, and conformational changes, induced by varied mimetic media, monitored by circular dichroism. The results have been also correlated with peptides' physical-chemical parameters such as chain length, amidated or carboxylated C-terminal, net charge, influences on the helix macrodipole, hydrophobicity, hydrophobic moment and polar angle. We observed that these peptides present intense activity on model membranes, they interact preferentially with anionic bilayers, and their lytic activity is a cooperative process either in anionic or in zwitterionic vesicles. Exception made to Anoplin, all the other peptides that have antimicrobial activity present in their dose-response curves a sigmoidal dependence with the peptide concentration. This fact suggests that these peptides accumulate on the vesicles surface until they reach a threshold concentration, beyond which leakage increases cooperatively. As a general rule, the most efficient antimicrobial peptides are also those characterized by efficient permeabilization of anionic vesicles, namely PCPG 7030 and by small threshold P/L ratios. Biologia molecular Biofísica Peptídeos Lipossomos Mastoparano Atividade lítica Biofísica molecular Peptídeos antimicrobianos Peptídios de vespa Wasp venom peptides Antimicrobial peptides Mastoparan Liposomes Lytic activity Circular dichroism
4	Estudo da conformação e atividade lítica de peptídeos antimicrobianos de vespas / Cabrera, Marcia Perez dos Santos. January 2006 (has links) Orientador: João Ruggiero Neto / Banca: João Procópio de Araújo Filho / Banca: Maria Teresa Lamy / Banca: Roberto da Silva / Banca: Valmir Fadel / Resumo: Neste trabalho estudamos a conformação em ambientes anisotrópicos e a atividade lítica em vesículas aniônicas e zwitteriônicas de um conjunto de peptídeos biologicamente ativos, extraídos de veneno de vespas solitárias, que se caracterizam por usar seus venenos para paralisar as presas com as quais alimentam suas larvas. Esses peptídeos que são desgranuladores de mastócitos, apresentam atividade antimicrobiana e a maioria deles não é hemolítica. Possuem entre 10 e 15 resíduos, são catiônicos, com alta proporção de resíduos carregados e polares, e são lineares e helicoidais em meios miméticos de membranas. Buscamos correlacionar a atividade lítica em vesículas de diferentes composições, analisada em experimentos de fluorimetria, às mudanças conformacionais, induzidas por diferentes ambientes miméticos, monitoradas por dicroísmo circular, complementando com a análise das características físico-químicas como comprimento da cadeia, amidação do terminal-C, carga líquida, influências no macrodipolo da hélice, hidrofobicidade, momento hidrofóbico e ângulo polar. Observamos que estes peptídeos apresentam intensa atividade em membranas modelo, interagem preferencialmente com bicamadas aniônicas, e sua atividade lítica acontece de modo cooperativo tanto em vesículas aniônicas como nas zwitteriônicas. Com exceção de Anoplin, todos os peptídeos com ação antimicrobiana apresentam curvas de dose-resposta que mostram uma dependência sigmoidal com a concentração do peptídeo. Isso sugere que esses peptídeos se acumulam na superfície da vesícula até atingir uma concentração crítica, além da qual o vazamento aumenta cooperativamente. De uma forma geral os peptídeos mais eficientes como antimicrobianos, são também aqueles caracterizados pela maior eficiência em permeabilizar vesículas aniônicas do tipo PCPG 7030 e por baixas razões limite P/L. / Abstract: Solitary wasps use their venoms to paralise prays to feed their larvae. A set of biologically active peptides, obtained from these venoms, have been investigated in relation to the conformational changes they undergo in anisotropic environments and their lytic activity on zwitterionic and anionic vesicles. These peptides are mast cell degranulators, present antimicrobial activities and most of them are not hemolytic. They are cationic, their chain length are 10 to 15 residues long, with high hydrophilic / hydrophobic ratio; they are linear and helical in membrane mimetic environments. We searched correlation between the lytic activity in vesicles of different compositions, monitored in fluorimetric experiments, and conformational changes, induced by varied mimetic media, monitored by circular dichroism. The results have been also correlated with peptides' physical-chemical parameters such as chain length, amidated or carboxylated C-terminal, net charge, influences on the helix macrodipole, hydrophobicity, hydrophobic moment and polar angle. We observed that these peptides present intense activity on model membranes, they interact preferentially with anionic bilayers, and their lytic activity is a cooperative process either in anionic or in zwitterionic vesicles. Exception made to Anoplin, all the other peptides that have antimicrobial activity present in their dose-response curves a sigmoidal dependence with the peptide concentration. This fact suggests that these peptides accumulate on the vesicles surface until they reach a threshold concentration, beyond which leakage increases cooperatively. As a general rule, the most efficient antimicrobial peptides are also those characterized by efficient permeabilization of anionic vesicles, namely PCPG 7030 and by small threshold P/L ratios. / Doutor Biologia molecular. Biofísica. Peptídeos. Lipossomos. Mastoparano. Wasp venom peptides. eng Antimicrobial peptides. eng Mastoparan. eng Lipossomes. eng Lytic activity. eng Circular dichroism. eng
5	Venom Peptides Cathelicidin and Lycotoxin Cause Strong Inhibition of Escherichia coli ATP Synthase Azim, Sofiya, McDowell, Derek, Cartagena, Alec, Rodriguez, Ricky, Laughlin, Thomas F., Ahmad, Zulfiqar 01 June 2016 (has links) Venom peptides are known to have strong antimicrobial activity and anticancer properties. King cobra cathelicidin or OH-CATH (KF-34), banded krait cathelicidin (BF-30), wolf spider lycotoxin I (IL-25), and wolf spider lycotoxin II (KE-27) venom peptides were found to strongly inhibit Escherichia coli membrane bound F1Fo ATP synthase. The potent inhibition of wild-type E. coli in comparison to the partial inhibition of null E. coli by KF-34, BF-30, Il-25, or KE-27 clearly links the bactericidal properties of these venom peptides to the binding and inhibition of ATP synthase along with the possibility of other inhibitory targets. The four venom peptides KF-34, BF-30, IL-25, and KE-27, caused ≥85% inhibition of wild-type membrane bound E.coli ATP synthase. Venom peptide induced inhibition of ATP synthase and the strong abrogation of wild-type E. coli cell growth in the presence of venom peptides demonstrates that ATP synthase is a potent membrane bound molecular target for venom peptides. Furthermore, the process of inhibition was found to be fully reversible. cathelicidin E. coli F F ATP synthase 1 o F -ATPase 1 lycotoxin I lycotoxin II OH-CATH venom peptides Biological Sciences
6	Mass Spectrometric Deconvolution of Libraries of Natural Peptide Toxins Gupta, Kallol January 2013 (has links) (PDF) This thesis deals with the analysis of natural peptide libraries using mass spectrometry. In the course of the study, both ribosomal and non-ribosomal classes of peptides have been investigated. Microheterogeneity, post-translational modifications (PTM), isobaric amino acids and disulfide crosslinks present critical challenges in routine mass spectral structure determination of natural peptides. These problems form the core of this thesis. Chapter 2 describes an approach where chemical derivatization, in unison with high resolution LC-MSn experiments, resulted in deconvolution of a microheterogenous peptide library of B. subtilis K1. Chapter 3 describes an approach for distinction between isobaric amino acids (Leu/Ile/Hyp), by the use of combined ETD-CID fragmentation, through characteristic side chain losses. Chapters 4-6 address a long standing problem in structure elucidation of peptide toxins; the determination of disulfide connectivity. Through the use of direct mass spectral CID fragmentation, a methodology has been proposed for determination of the S-S pairing schemes in polypeptides. Further, an algorithm DisConnect has been developed for a rapid and robust solution to the problem. This general approach is applicable to both peptides and proteins, irrespective of the size and the number of disulfide bonds present. The method has been successfully applied to a large number of peptide toxins from marine cone snails, conotoxins, synthetic foldamers and proteins. Chapter 7 describes an attempt to integrate next generation sequencing (NGS) data with mass spectrometric analysis of the crude venom. This approach couples rapidly generated cDNA sequences, with high-throughput LC-ESI-MS/MS analysis, which provides mass spectral fragmentation information. An algorithm has been developed that allows the construction of a putative conus peptide database from the NGS data, followed by a protocol that permits rapid annotation of tandem MS data. The approach is exemplified by an analysis of the peptide components present in the venom of Conus amadis, yielding 225 chemically unique sequences, with identification of more than 150 sites of PTMs. In summary, this thesis presents different methodologies that address the existing limitations of de novo mass spectral structure determination of natural peptides and presents new methodologies that permit for rapid and efficient analysis of complex mixtures. Peptides - Mass Spectrometry Mass Spectrometry Peptide Sequencing Amino Acid Sequence Natural Peptide Libraries Natural Peptide Toxins - Deconvolution Peptides - Analysis Natural Peptides - Mass Spetrometry Conus Venom Peptides Lipopeptides Heterogeneous Peptides Conus Peptides Natural Peptide Mixtures Native Natural Peptides Peptide Natural Products. Conotoxins Venom Peptide Library Biochemistry

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