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Cold adaptation in stationary phase in Bacillus subtilis
Beranová, Anna ; Konopásek, Ivo (advisor) ; Svobodová, Jaroslava (referee)
Cold adaptation in stationary phase in Bacillus subtilis One of the most important abiotic factor which influences life of bacterial cells is the ambient temperature. A decrease of this temperature is usually accompanied usually with the loss of the fluidity of bacterial cytoplasmatic membrane. While the mechanisms of the responses to the cold shock during the exponential phase of growth are well known for Bacillus subtilis, the responses of stationary phase cells had not been studied yet (despite the stationary phase is the most common state of microorganism in the nature). There are two independent mechanisms which restores much needed fluidity in Bacillus subtilis - short-term adaptation and long-term adaptation. Short-term adaptation is based on the function of fatty acid desaturase coded by des gene. Long-term adaptation relies on the change in ratio of iso- and anteiso- branched fatty acids. In this work we examinated membrane adaptation during stationary phase under two different conditions, namely under cultivation at stable low temperature and after cold shock. The highest activity of Pdes was observed for cultivation at 25 řC and for the cold shock applied from cultivation in 37 řC to 25 řC. Anisotropy measurements and fatty acids analysis were also performed. Results indicated, that the...
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Cytoplasmic membrane of Bacillus subtilis Regulation of the physical parameters
Beranová, Jana ; Konopásek, Ivo (advisor) ; Branny, Pavel (referee) ; Holoubek, Aleš (referee)
Bacillus subtilis, a model Gram-positive soil bacterium, employs two distinct mechanisms in its membrane adaptation to low temperature: 1) Long-term adaptation to suboptimal temperature is accomplished by increasing the ratio of anteiso- to iso-branched fatty acids in the membrane lipids. 2) After a sudden temperature decrease, the oxygen-dependent fatty acid desaturase (Des) is induced which desaturates fatty-acyl chains incorporated in membrane lipids. The transcription of the gene encoding desaturase, des, is activated by the decrease of the membrane order, via two- component system DesK-DesR. In this work, I studied the influence of cultivation conditions on the mechanisms of B. subtilis membrane adjustments for a low temperature employing fatty acid analysis, fluorescence spectroscopy, differential scanning calorimetry and methods of molecular biology. In the first part of this work, I examined the impact of the cultivation medium on the composition and biophysical features of the B. subtilis cytoplasmic membrane during growth under the optimal (40 řC) and suboptimal (20 řC) cultivation temperature. I compared the nutrient-rich complex medium containing glucose and the mineral medium supplemented with either glucose or glycerol. The results obtained showed the crucial importance of medium...
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Biological membranes and methods for their characterization - current approach.
Skotnicová, Marie ; Konopásek, Ivo (advisor) ; Plocek, Vítězslav (referee)
Cell membrane of prokaryotes is immediately exposed to various environmental changes. To survive, the organism has to sufficiently react to these changes and adapt to them. On the level of the lipid bilayer it means changes of membrane fluidity induced by alterations of the lipid composition. Even a small alteration of acyl chains or polar heads of the phospholipids can alter the order of the lipid bilayer. Various biophysical techniques have been used to detect changes of the membrane fluidity and lipid composition. The purpose of this work is to summarize mechanism of adaptation induced by cold, heat and osmotic shock, as well as commonly used methods for detection of these changes. Studied organisms represent Gram- negative Escherichia coli and Gram-positive Bacillus subtilis. Key words biological membranes, membrane fluidity, adaptation of prokaryotic organisms to environmental changes, methods of characterization of biological membranes, membrane spectroscopy
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Cytoplasmic membrane of Bacillus subtilis Regulation of the physical parameters
Beranová, Jana ; Konopásek, Ivo (advisor) ; Branny, Pavel (referee) ; Holoubek, Aleš (referee)
Bacillus subtilis, a model Gram-positive soil bacterium, employs two distinct mechanisms in its membrane adaptation to low temperature: 1) Long-term adaptation to suboptimal temperature is accomplished by increasing the ratio of anteiso- to iso-branched fatty acids in the membrane lipids. 2) After a sudden temperature decrease, the oxygen-dependent fatty acid desaturase (Des) is induced which desaturates fatty-acyl chains incorporated in membrane lipids. The transcription of the gene encoding desaturase, des, is activated by the decrease of the membrane order, via two- component system DesK-DesR. In this work, I studied the influence of cultivation conditions on the mechanisms of B. subtilis membrane adjustments for a low temperature employing fatty acid analysis, fluorescence spectroscopy, differential scanning calorimetry and methods of molecular biology. In the first part of this work, I examined the impact of the cultivation medium on the composition and biophysical features of the B. subtilis cytoplasmic membrane during growth under the optimal (40 řC) and suboptimal (20 řC) cultivation temperature. I compared the nutrient-rich complex medium containing glucose and the mineral medium supplemented with either glucose or glycerol. The results obtained showed the crucial importance of medium...
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Cold adaptation in stationary phase in Bacillus subtilis
Beranová, Anna ; Konopásek, Ivo (advisor) ; Svobodová, Jaroslava (referee)
Cold adaptation in stationary phase in Bacillus subtilis One of the most important abiotic factor which influences life of bacterial cells is the ambient temperature. A decrease of this temperature is usually accompanied usually with the loss of the fluidity of bacterial cytoplasmatic membrane. While the mechanisms of the responses to the cold shock during the exponential phase of growth are well known for Bacillus subtilis, the responses of stationary phase cells had not been studied yet (despite the stationary phase is the most common state of microorganism in the nature). There are two independent mechanisms which restores much needed fluidity in Bacillus subtilis - short-term adaptation and long-term adaptation. Short-term adaptation is based on the function of fatty acid desaturase coded by des gene. Long-term adaptation relies on the change in ratio of iso- and anteiso- branched fatty acids. In this work we examinated membrane adaptation during stationary phase under two different conditions, namely under cultivation at stable low temperature and after cold shock. The highest activity of Pdes was observed for cultivation at 25 řC and for the cold shock applied from cultivation in 37 řC to 25 řC. Anisotropy measurements and fatty acids analysis were also performed. Results indicated, that the...
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