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Non-resonant Raman Spectroscopic Study of Guanine Quadruplex Structures
Golan, Martin ; Mojzeš, Peter (advisor) ; Mašek, Vlastimil (referee)
Parts of human telomere sequences containing at least 4 guanine subsequences show the ability to form intrastrand quadruplexes of remarkable conformational diversity. Former studies using conventional Raman spectroscopy have revealed that the sequence G3(TTAG3)3 at milimolar concentrations in phosphate buffer solution doped with Na+ ions (ionic strength 150 mM) adopts antiparallel conformation regardless of the length of standing at room temperature or annealing, whereas K+ ions cause gradual transition to "3+1" or even parallel conformation. On the other hand, measurements carried out upon sequence AG3(TTAG3)3 at similar concentrations using Photonic Crystal Fibre-enhanced Raman Spectroscopy (PCFRS) suggest that in the respective presence of both Na+ and K+ (ionic strength 100 mM), a parallel structure is adopted. The hereby presented work employs conventional Raman spectroscopy and Drop Coating Deposition Raman spectroscopy to examine the sequence AG3(TTAG3)3 at concentrations ranging from units to hundreds of milimoles in strands. It concludes that the structure adopted in the presence of Na+, resp. K+ ions is antiparallel, resp. "3+1", and doesn't change over time despite both long standing and annealing. Two hypotheses about the cause of the differences between the results obtained by PCFRS and...
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Influence of freezing and thawing process on cryopreserved cells nuclei and surfaces. Functions and physico-chemical properties of cryoprotectants.
Golan, Martin ; Kratochvílová, Irena (advisor) ; Raška, Milan (referee) ; Schneider, Bohdan (referee)
1 Abstract: Cryopreservation of cells is a complex process with many useful applications in basic biological research, medicine and agriculture. In this work we deepened the current understanding of the cryopreservation process both at physical and biological level. Results include characteristics of selected cryoprotectants (primarily DMSO, trehalose, antifreeze protein ApAFP752) in liquid phase, during phase transition and in solid phase, as well as their impact on cryopreserved cells states. Specifically, the level of cell viability, state of cell membrane and condition of cell nucleus (nuclear membrane, chromatin condensation, DNA strand breaks) are monitored over several time points after thawing. It is shown that S-phase cells (NHDF and MCF7 lines) suffer massive collapse of replication forks during cryopreservation which makes them much less suitable for cryopreservation than cells in other phases of the cell cycle. Several methods (most importantly Atomic Force Microscopy, Confocal Fluorescence Microscopy and Flow Cytometry) were used to examine the post-thaw state of cryopreserved cells. The acquired insights into cryodamage of cells can lead to optimization of current cryopreservation protocols and to more thorough evaluation of efficacy of future novel cryoprotectants.
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Influence of freezing and thawing process on cryopreserved cells nuclei and surfaces. Functions and physico-chemical properties of cryoprotectants.
Golan, Martin ; Kratochvílová, Irena (advisor)
1 Abstract: Cryopreservation of cells is a complex process with many useful applications in basic biological research, medicine and agriculture. In this work we deepened the current understanding of the cryopreservation process both at physical and biological level. Results include characteristics of selected cryoprotectants (primarily DMSO, trehalose, antifreeze protein ApAFP752) in liquid phase, during phase transition and in solid phase, as well as their impact on cryopreserved cells states. Specifically, the level of cell viability, state of cell membrane and condition of cell nucleus (nuclear membrane, chromatin condensation, DNA strand breaks) are monitored over several time points after thawing. It is shown that S-phase cells (NHDF and MCF7 lines) suffer massive collapse of replication forks during cryopreservation which makes them much less suitable for cryopreservation than cells in other phases of the cell cycle. Several methods (most importantly Atomic Force Microscopy, Confocal Fluorescence Microscopy and Flow Cytometry) were used to examine the post-thaw state of cryopreserved cells. The acquired insights into cryodamage of cells can lead to optimization of current cryopreservation protocols and to more thorough evaluation of efficacy of future novel cryoprotectants.
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Influence of freezing and thawing process on cryopreserved cells nuclei and surfaces. Functions and physico-chemical properties of cryoprotectants.
Golan, Martin ; Kratochvílová, Irena (advisor)
1 Abstract: Cryopreservation of cells is a complex process with many useful applications in basic biological research, medicine and agriculture. In this work we deepened the current understanding of the cryopreservation process both at physical and biological level. Results include characteristics of selected cryoprotectants (primarily DMSO, trehalose, antifreeze protein ApAFP752) in liquid phase, during phase transition and in solid phase, as well as their impact on cryopreserved cells states. Specifically, the level of cell viability, state of cell membrane and condition of cell nucleus (nuclear membrane, chromatin condensation, DNA strand breaks) are monitored over several time points after thawing. It is shown that S-phase cells (NHDF and MCF7 lines) suffer massive collapse of replication forks during cryopreservation which makes them much less suitable for cryopreservation than cells in other phases of the cell cycle. Several methods (most importantly Atomic Force Microscopy, Confocal Fluorescence Microscopy and Flow Cytometry) were used to examine the post-thaw state of cryopreserved cells. The acquired insights into cryodamage of cells can lead to optimization of current cryopreservation protocols and to more thorough evaluation of efficacy of future novel cryoprotectants.
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Influence of freezing and thawing process on cryopreserved cells nuclei and surfaces. Functions and physico-chemical properties of cryoprotectants.
Golan, Martin ; Kratochvílová, Irena (advisor) ; Raška, Milan (referee) ; Schneider, Bohdan (referee)
1 Abstract: Cryopreservation of cells is a complex process with many useful applications in basic biological research, medicine and agriculture. In this work we deepened the current understanding of the cryopreservation process both at physical and biological level. Results include characteristics of selected cryoprotectants (primarily DMSO, trehalose, antifreeze protein ApAFP752) in liquid phase, during phase transition and in solid phase, as well as their impact on cryopreserved cells states. Specifically, the level of cell viability, state of cell membrane and condition of cell nucleus (nuclear membrane, chromatin condensation, DNA strand breaks) are monitored over several time points after thawing. It is shown that S-phase cells (NHDF and MCF7 lines) suffer massive collapse of replication forks during cryopreservation which makes them much less suitable for cryopreservation than cells in other phases of the cell cycle. Several methods (most importantly Atomic Force Microscopy, Confocal Fluorescence Microscopy and Flow Cytometry) were used to examine the post-thaw state of cryopreserved cells. The acquired insights into cryodamage of cells can lead to optimization of current cryopreservation protocols and to more thorough evaluation of efficacy of future novel cryoprotectants.
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Preparing of the Chameleon coating by the Ion Jet Deposition method
Skocdopole, J. ; Aversa, L. ; Golan, Martin ; Schenk, A. ; Baldi, G. ; Kratochvílová, Irena ; Kalvoda, L. ; Nozar, P.
Preparation of chameleon coatings using an Ionized Jet Deposition (IJD) technique is reported in the present paper. IJD is a new flexible method for thin film deposition developed by Noivion, Srl. The chameleon coatings are thin films characterised by a distinct change of their tribological properties according to the external conditions. The deposited films of SiC and TiN materials were examined by the Raman spectroscopy, SEM and XPS. The results of the Raman spectroscopy have proved an amorphous structure of SiC films. The data from XPS on TiN films have shown that the\nfilms are heavily oxidized, but also prove that the films are composed of TiN and pure Ti. The SEM provided information about the size of grains and particles constituting the deposited films, which is important for tribological properties of the films. Deposition of the chameleon coating is very complex problem and IJD could be ideal method for preparation of this coating.\n
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Non-resonant Raman Spectroscopic Study of Guanine Quadruplex Structures
Golan, Martin ; Mojzeš, Peter (advisor) ; Mašek, Vlastimil (referee)
Parts of human telomere sequences containing at least 4 guanine subsequences show the ability to form intrastrand quadruplexes of remarkable conformational diversity. Former studies using conventional Raman spectroscopy have revealed that the sequence G3(TTAG3)3 at milimolar concentrations in phosphate buffer solution doped with Na+ ions (ionic strength 150 mM) adopts antiparallel conformation regardless of the length of standing at room temperature or annealing, whereas K+ ions cause gradual transition to "3+1" or even parallel conformation. On the other hand, measurements carried out upon sequence AG3(TTAG3)3 at similar concentrations using Photonic Crystal Fibre-enhanced Raman Spectroscopy (PCFRS) suggest that in the respective presence of both Na+ and K+ (ionic strength 100 mM), a parallel structure is adopted. The hereby presented work employs conventional Raman spectroscopy and Drop Coating Deposition Raman spectroscopy to examine the sequence AG3(TTAG3)3 at concentrations ranging from units to hundreds of milimoles in strands. It concludes that the structure adopted in the presence of Na+, resp. K+ ions is antiparallel, resp. "3+1", and doesn't change over time despite both long standing and annealing. Two hypotheses about the cause of the differences between the results obtained by PCFRS and...
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