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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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Effect of cryopreservation on mouse sperm.
Veselá, Kateřina ; Hortová, Kateřina (advisor) ; Pěknicová, Jana (referee)
Cryopreservation or freezing of sperm in the reproductive biology is still actual topic. Today is the only method used for sperm storage, whether for the purposes of assisted reproduction, or for scientific purposes. However, this method has a negative impact on such stored cells and is therefore still a subject of many studies. Among the main causes of sperm damage in rodents there are inappropriately selected cryoprotective agents, poor or no elimination of oxidative stress generated during cryopreservation, as well as a poorly chosen speed and temperature of freezing. Correctly chosen procedures and the composition of the media in which sperm are stored, can significantly affect the quality of sperm. This bachelor theses focuses on the influence of cryopreservation on mouse spermatozoa. The main impact of this method includes the effect of freezing on sperm DNA, plasma membrane, acrosome, and sperm motility.
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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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Aplikace kryoterapie při ozdravování regenerantů Prunus persica (L.) od rostlinných virů
Fronková, Hana
Final thesis was worked out on theme Aplication of cryotherapy as a tool for plant viruses eradication from Prunus persica (L.) Batsch regenerants. Experiment was conducted on Faculty of Agronomy of the Mendel University in Brno and in the Crop Research Institute in Prague-Ruzyně. Literary research describes information about peach cultivation in vitro and plant pathogen eradication by cryotherapy. These information has been used in practical part of the final thesis. Plant material of the ´Redhaven´variety of peach was used for virus eradication by cryotherapy. Cryotherapy was applied on shoot tips. In the end of final thesis shoot tips viability and regeneration were evaluated.
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Human heart valve allografts mechanical and morphological properties according to duration of tissue cryopreservation
Fiala, Radovan ; Burkert, Jan (advisor) ; Dominik, Jan (referee) ; Rosenberg, Josef (referee)
Background: The aortic and pulmonary allograft heart valves (AHV) are used in the cardiac surgery for replacing the impaired semilunar valves. They are harvested from donor hearts and cryostored in tissue banks. The expiration period was set to 5 years arbitrarily. We hypothesized that their mechanical and structural properties do not reasonably deteriorate after this period. Methods: A total of 64 human AHV (31 aortic and 33 pulmonary) of different length of cryopreservation (fresh, 0-5, 5-10, over 10 years) were sampled to different tissue strips (artery, leaflet, ventriculo-arterial junction, arterial ring) and tested by tensile test with loading velocity 10 mm/min until tissue rupture. Neighbouring regions of tissue were processed histologically and evaluated for elastin and collagen area fraction. The results were evaluated statistically. Results: In aortic AHV, the physical deformation response of wall samples to stress did not changed significantly neither during the process of cryopreservation nor during the first 10 years of storage. In pulmonary AHV, the ultimate strain dropped after 5 years of cryopreservation indicating that pulmonary artery was significantly less deformable at the time of rupture. On the other hand, the ultimate stress was equal during the first 10 years of...
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Manipulace zárodečných buněk jako nástroj pro management a produkci izogenních linií u ryb
FRANĚK, Roman
Isogenic lines in fish represent a fundamental approach to control the genetic background of experimental animals. All individuals from a given isogenic line share the same genotype. So far, isogenic fish lines have been produced only by repeated uniparental inheritance - androgenesis and gynogenesis. Homozygous progeny is produced in the first generation of uniparental inheritance, and each homozygous individual produces a different isogenic line after second generation of uniparental inheritance. Despite optimized procedures for inducing uniparental inheritance, isogenic lines have been successfully produced in only a few species of fish. Doubled haploids after first uniparental inheritance have affected fitness as well as reproductive performance. Long-term maintenance is considerably problematic even when isogenic line is established already, due to low viability and poor reproductive characteristics. The situation is further complicated by the fact that isogenic lines are usually naturally monosex, thus uniparental inheritance must be re-used for further reproduction, or sex reversal needs to be applied in part of isogenic line. Several types of germ cell manipulation were performed in presented thesis. Protocols for cryopreservation of spermatogonia and oogonia have been developed and optimized to maximize post-thaw viability. The physiological activity of cryopreserved cells was confirmed by transplantation into a surrogate host. Cryopreserved and subsequently transplanted cells retained colonization activity comparable to non-frozen control germ cells. More importantly, male germ cells were able to transdifferentiate from oogonia. The success of transplantation was confirmed by detection of expression of genes associated with gametogenesis in carp by RT-PCR. In the next study, the results of cryopreservation experiments were followed, where sterile goldfish was identified as a suitable host for homozygous carp cells. Germ cells obtained from several homozygous individuals were individually transplanted into sterile goldfish. This procedure has a potential to increase the chance of producing a viable gamete for isogenic line production. Germ cells from homozygotes with affected gametogenesis can be transferred to fully viable recipients, thereby increasing the efficiency of isogenic line production overall. In addition, the use of a goldfish as a surrogate parent will ensure that part of the germline chimeras will be male and female, thus isogenic gametes of both sexes can be obtained and no further intervention for further reproduction of the isogenic line. The suitability of triploid zebrafish, which can potentially be used as recipients for cells from homozygotes to produce isogenic lines, has been confirmed for zebrafish. Spermatogonia and oogonia from diploid donors were transplanted into artificially induced triploid larvae. Donor-derived sperm was were obtained upon maturation of triploid recipients. Transplanted oogonia transdifferentiated into spermatogonia and spermatozoa with female sex chromosomes have been produced, which may be of interesting for further studies of sex determination in zebrafish. A new germline transfer technique has been developed using striped embryos. Donor cells were transplanted from the blastula stage to the swim-up larvae. With this approach, undifferentiated primordial germ cells were able to colonize the genital groove and initiate gametogenesis. After reaching sexual maturity, germline chimeras were obtained with gametes and viable progeny. Although the overall efficacy of this method was lower compared to other transplantation methods, this study may be of relevance for germline rescue in poorly viable embryos or lethal mutants.
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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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