|
|
Využívání emocí v marketingových aktivitách DMO
Lankaš, Filip
Lankaš. F. Using emotions in DMO marketing activities. Bachelor thesis. Mendel University in Brno, 2023. The bachelor’s thesis focuses on the evaluation of the use of emotions in the marketing activities of DMOs. The analytical part consists of a description of the market situation and an evaluation of the marketing plans of some DMOs for the year 2023. In the case of an evaluation of the current situation, a questionnaire survey of DMOs of the Czech Republic was carried out. The results of this investigation were used in the recommendations for DMOs, which serve to improve the use of emotions in marketing activities.
|
|
| |
|
|
Design, parameterization and verification of a coarse-grained model of DNA
Dršata, Tomáš ; Lankaš, Filip (advisor) ; Jurečka, Petr (referee)
Structure and mechanical properties of DNA play a key role in its biological functioning. A lot of well-established conclusions about the DNA structure and its sequence-dependent variabil- ity came from various experimental and computational studies of the Dickerson-Drew dodecamer (DD), a prototypic B-DNA molecule of the sequence (5')CGCGAATTCGCG(3'). In this study we present a detailed analysis of structural and mechan- ical properties of DD based on extensive atomistic molecular dynamics (MD) simulations with explicit representation of wa- ter and ionic environment. We analyze three simulated systems covering different ionic conditions and water models. Two MD trajectories are reported for the first time, one of them being 2.4 µs long. An extensive comparsion with one recent NMR struc- ture and four recent X-ray structures is made. It is found that the end basepairs can adopt two different pairing motifs dur- ing the simulation: the canonical Watson-Crick pair or a non- canonical trans Watson-Crick/Sugar Edge pair. These states can significantly influence the structure of DD even at the third step from the end. A clear relationship is found between the BI/BII backbone substates and the basepair step conformation. A model of rigid bases is used to study mechanical properties of the DNA. The non-local...
|
|
|
Modelling mechanical properties of RNA and DNA
Dršata, Tomáš ; Lankaš, Filip (advisor) ; Banáš, Pavel (referee) ; Schneider, Bohdan (referee)
Structural and mechanical properties of nucleic acids play a key role in a wide range of biological processes, as well as in the field of nucleic acid nanotechnology. The thesis presents results of several studies focused on modelling these properties. Extensive unrestrained atomic-resolution molecular dynamics (MD) simulations are used to investigate structural dynamics of nucleic acids, and to parametrize their mechanical models. The deformation energy is assumed to be a general quadratic function of suitably chosen internal coordinates. Two types of models are employed which differ in the level of coarse- graining. The first one is based on the description of conformation at the level of individual bases and the second, coarser one is used to study global bending and twisting flexibility. The models are applied to explain mechanical properties of A-tracts in the context of DNA looping and nucleosome positioning, to characterize twist-stretch cou- pled deformations in DNA and RNA, and to predict changes in the properties of damaged DNA that are likely to be relevant for damage recognition and repair. Besides that, we propose a general model of DNA allostery, applied to study the effect of minor groove binding of small ligands and the allosteric coupling between proteins mediated by the DNA. A careful...
|
|
|
Design, parameterization and verification of a coarse-grained model of DNA
Dršata, Tomáš ; Lankaš, Filip (advisor) ; Jurečka, Petr (referee)
Structure and mechanical properties of DNA play a key role in its biological functioning. A lot of well-established conclusions about the DNA structure and its sequence-dependent variabil- ity came from various experimental and computational studies of the Dickerson-Drew dodecamer (DD), a prototypic B-DNA molecule of the sequence (5')CGCGAATTCGCG(3'). In this study we present a detailed analysis of structural and mechan- ical properties of DD based on extensive atomistic molecular dynamics (MD) simulations with explicit representation of wa- ter and ionic environment. We analyze three simulated systems covering different ionic conditions and water models. Two MD trajectories are reported for the first time, one of them being 2.4 µs long. An extensive comparsion with one recent NMR struc- ture and four recent X-ray structures is made. It is found that the end basepairs can adopt two different pairing motifs dur- ing the simulation: the canonical Watson-Crick pair or a non- canonical trans Watson-Crick/Sugar Edge pair. These states can significantly influence the structure of DD even at the third step from the end. A clear relationship is found between the BI/BII backbone substates and the basepair step conformation. A model of rigid bases is used to study mechanical properties of the DNA. The non-local...
|
|
| |
guest ::
