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Antimicrobial and antiborrelial characterization of Dermacentor marginatus defensin.
CHRUDIMSKÁ, Tereza
Ticks, as blood sucking arthropods, are able to transmit various pathogens. Their immune system involves many antimicrobial molecules to fight against them. Among these antimicrobials, defensins, a 5.3 kDa peptides, play an important role in rapid immune answer. In this study we examined the antimicrobial spectrum of Dermacentor marginatus defensin (def DM) with respect to the fact that Dermacentor variabilis ticks are not able to successfully maintain and transmit Borrelia burgdorferi sensu lato, the causative agent of Lyme disease. Expression of the def DM gene was detected in hemolymph, midgut and salivary glands. Defensin was isolated from hemolymph using RP-HPLC and its sequence was determined by mass spectrometry and Edman degradation. Synthetic mature peptide def DM revealed an anti-Gram-positive bacterial role as well as borreliacidal activity, with concentration dependent influence. These results suggest a possible role in the clearing of borrelia spirochetes ingested by D. marginatus ticks.
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Variability of the domestic chicken breeds in selected immunological traits of hen and egg
Bílková, Barbora ; Vinkler, Michal (advisor) ; Plachý, Jiří (referee) ; Trefil, Pavel (referee)
The avian immune system is a complex system of defence mechanisms that protect bird hosts against threats from ubiquitous pathogens. According to the co-evolutionary models, variability in immune traits of hosts is the key component providing ability to adapt and enhance their defence mechanisms in presence of constant selective pathogen pressure. Domestic chicken (Gallus gallus f. domestica) is used as a model organism in avian biology and also is one of the most important food-producing animals, not only for their meat but also for the egg production. Unfortunately, in research usually only inbred chicken lines are used and modern poultry husbandry is tight with unilateral breeding towards highly productive breeds. Those approaches decrease intra-population polymorphism in chickens. However, especially in case of farm animals, searching and extending the pool of immune variability and enhancing pathogen resistance is crucial for sustaining healthy and biologically secure populations and their products. Morphologically highly distinct traditional chicken breeds, which have evolved for hundreds years under different selective pressures, may represent this desirable immunological variability. In my thesis I described variability in chosen immunological traits, haematological parameters and proteomic...
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The effect of antimicrobial peptides on Saccharomyces cerevisiae and other yeast species
Makarova, Anna-Marie ; Hodek, Petr (advisor) ; Malcová, Ivana (referee)
The increased use of antibiotics, antifungal agents and disinfectants in the last decades has resulted in development of microbial resistance to these drugs. Candida species are the fourth most common cause of hospital-acquired bloodstream infection and kill 40% of those patients. Natural antimicrobial peptides are promising candidates for the development of new agents to treat yeast and bacterial infections, as their presumed mechanism of action differs significantly from the mechanism of action of current drugs. This work is focused on several peptides isolated from the venom of wild bees and their synthetic analogues and the identification of the most effective ones against non-pathogenic Saccharomyces cerevisiae and several pathogenic Candida species. Antifungal activity of eight cationic antimicrobial peptides was tested and compared under various conditions. The overall susceptibility of pathogenic yeast species to currently used antifungal drugs and the antimicrobial peptides was screened with the aim to identify potential synergistic and species-specific effects. The effect of antimicrobial peptides on membrane potential was measured by a fluorescent probe (diS-C3(3)), and the relative hyperpolarization of plasma membrane was shown for each peptide. The effect of antimicrobial peptides on...
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New antimcrobial peptides isolated from the bee venom and the study of their action mechanism
Čujová, Sabína
EN The growing emergence of bacteria resistant to conventional antibiotics is very alarming. This has prompted an intensive search for alternative antimicrobial agents which kill bacteria with different modes of action than do traditional antibiotics and do not develop drug resistance. Among these, antimicrobial peptides (AMPs) are considered as promising compounds against resistant pathogens. These positively charged peptides permeabilize or disrupt bacterial cell envelope which leads to leakage of cytoplasmic components and cell death. The aim of my dissertation thesis was the study of the action mechanism of novel antimicrobial peptides which I have isolated from the venom of different wild bees. I identified six novel AMPs which were named panurgines (PNG), codesane (COD) and antapines (ANTPs). These peptides were isolated from the venom of three different bee species (Panurgus calcaratus, Collete daviesanus and Anthophora plumipes). I was also involved in the structural studies of lasiocepsin (Las), the antimicrobial peptide identified in the venom earlier in our laboratory. All studied peptides possess activity against various strains of bacteria and low or moderate hemolytic activity. We prepared series of PNG, COD and ANTP analogs in order to study the effect of physicochemical properties...
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Evolution of sting and associated venom gland in Hymenoptera (Aculeata)
Matějková, Zuzana ; Straka, Jakub (advisor) ; Šobotník, Jan (referee)
Theme: Evolution of the sting and associated glands in Hymenoptera (Aculeata) Author: Zuzana Matějková Supervisor: Mgr. Jakub Straka, Ph.D. Abstract A stinger is a synapomorphy of Aculeata group. The branch of Aculeata has cleaved from the Parasitica group - they both belong to the order Apocrita. The stinger of Aculeata has evolved from a former ovipositor - though the function of laying eggs has been lost. Besides venom gland several other glands including Dufour's gland vent into a stinger. The original (parasitic-predator strategy- binding) function of the gland excretes is a paralysis of the prey. In social Aculeata it gains a defensive function - associated with a possible act of autotomy of the stinger. The stinger and associated glands are also a source of pheromones and small peptides with an antimicrobial function. These peptides act together with other venom components and they help to improve its effectiveness.
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Antimicrobial peptides isolated from the venom of hymenopterous insect
Monincová, Lenka ; Čeřovský, Václav (advisor) ; Macek, Tomáš (referee) ; Fusek, Martin (referee)
Rapid development of bacterial resistance and multiresitance to conventional antibiotics has resulted in an intensive search for alternative antimicrobial agents. Antimicrobial peptides (AMPs) belong to promising anti-infective candidates since they do not development bacterial resistance. They kill microbes by disturbing or permeabilizing the cytoplasmic membrane, or may target putative key intracellular compartments. Their advantages include fast action and selectivity between prokaryotic and eukaryotic cells. We have isolated several novel AMPs from the venom of wild bees: halictines (HAL-1 and HAL-2) from Halictus sexcinctus, lasiocepsin (Las) from Lasioglossum laticeps and macropin (MAC-1) from Macropis fulvipes. They are active against Gram-positive and Gram- negative bacteria and against yeast Candida albicans. While halictines and macropin have moderate hemolytic activity, Las shows no hemolytic activity. A novel AMP was isolated also from the mucus of Xiphydria camelus. This AMP belongs to the category of insect defensins. It contains 55 amino acid residues, three disulphide bridges and its C-terminus is amidated. CD and NMR studies of HAL-1, HAL-2 and MAC-1 revealed propensity to form amphipathic α-helical structure in the presence of sodium dodecyl sulfate or trifluoroethanol. For the...
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New antimcrobial peptides isolated from the bee venom and the study of their action mechanism
Čujová, Sabína ; Čeřovský, Václav (advisor) ; Fusek, Martin (referee) ; Hlaváček, Jan (referee)
EN The growing emergence of bacteria resistant to conventional antibiotics is very alarming. This has prompted an intensive search for alternative antimicrobial agents which kill bacteria with different modes of action than do traditional antibiotics and do not develop drug resistance. Among these, antimicrobial peptides (AMPs) are considered as promising compounds against resistant pathogens. These positively charged peptides permeabilize or disrupt bacterial cell envelope which leads to leakage of cytoplasmic components and cell death. The aim of my dissertation thesis was the study of the action mechanism of novel antimicrobial peptides which I have isolated from the venom of different wild bees. I identified six novel AMPs which were named panurgines (PNG), codesane (COD) and antapines (ANTPs). These peptides were isolated from the venom of three different bee species (Panurgus calcaratus, Collete daviesanus and Anthophora plumipes). I was also involved in the structural studies of lasiocepsin (Las), the antimicrobial peptide identified in the venom earlier in our laboratory. All studied peptides possess activity against various strains of bacteria and low or moderate hemolytic activity. We prepared series of PNG, COD and ANTP analogs in order to study the effect of physicochemical properties...
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Supported Phospholipid Bilayers and their Interactions with Proteins Studied by Ellipsometry, Atomic Force Microscopy and Confocal Fluorescence Microscopy
Macháň, Radek ; Hof, Martin (advisor) ; Fidler, Vlastimil (referee) ; Konopásek, Ivo (referee)
Supported lipid bilayers have been used as an artificial model of biological membranes and their interaction with 5 selected antimicrobial peptides was studied by several experimental techniques, mainly ellipsometry, laser scanning microscopy and fluorescence correlation spectroscopy. The thesis explains basic principles of the applied techniques focusing on their aspects relevant to characterization of lipid bilayers. The biological significance of antimicrobial peptides, their modes of interaction with membranes and the basic characteristics of the selected peptides are briefly discussed. The following text describes the main types of experimental studies performed and the interpretation of their results. Peptide-induced changes in lipid bilayer morphology were characterized by ellipsometry and laser scanning microscopy. Most interesting effects were observed in the case of melittin, which induced formation of long lipid tubules protruding from the bilayer. Lipid lateral diffusion measured by fluorescence correlation spectroscopy can provide information on bilayer organization on length-scales below resolution of optical microscopy.
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Supported Phospholipid Bilayers and their Interactions with Proteins Studied by Ellipsometry, Atomic Force Microscopy and Confocal Fluorescence Microscopy
Macháň, Radek
Supported lipid bilayers have been used as an artificial model of biological membranes and their interaction with 5 selected antimicrobial peptides was studied by several experimental techniques, mainly ellipsometry, laser scanning microscopy and fluorescence correlation spectroscopy. The thesis explains basic principles of the applied techniques focusing on their aspects relevant to characterization of lipid bilayers. The biological significance of antimicrobial peptides, their modes of interaction with membranes and the basic characteristics of the selected peptides are briefly discussed. The following text describes the main types of experimental studies performed and the interpretation of their results. Peptide-induced changes in lipid bilayer morphology were characterized by ellipsometry and laser scanning microscopy. Most interesting effects were observed in the case of melittin, which induced formation of long lipid tubules protruding from the bilayer. Lipid lateral diffusion measured by fluorescence correlation spectroscopy can provide information on bilayer organization on length-scales below resolution of optical microscopy.
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Mode of action of antimicrobial lipopeptides produced by Bacillus subtilis
Pinkas, Dominik ; Seydlová, Gabriela (advisor) ; Žíla, Vojtěch (referee)
Increasing bacterial resistance to classical antibiotics and emergence of multi-resistant strains impose a constant threat. Antimicrobial compounds of bacterial origin are an important source of new antibacterial therapeutic agents needed to answer this issue. Three families of lipopeptides produced by Bacillus subtilis - surfactins, fengycins and iturins represent an interesting class of such compounds. They exert a wide range of biological activities and possess a good potential for modifications and improvement of their structure and function. Lipopeptides produced by B. subtilis are surface active compounds capable of reducing surface/interface tension. The variety of their biological activities stems from their ability to insert into lipid membranes leading to disruption and permeabilization of the membrane. Specific mode of action differs between the three families but the common feature is that it is concentration dependent. First, lipopeptides induce ion leakage, pore formation and then the increasing concentration eventually causes complete solubilisation of the membrane in a detergent-like manner. In addition, surfactin can inhibit some enzymes by chelating divalent cations required for their activity. These properties make the B. subtilis lipopeptides promising compounds for commercial applications.
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