Refine
Document Type
- Master's Thesis (121) (remove)
Year of publication
Language
- English (121) (remove)
Keywords
- Maschinelles Lernen (24)
- Vektorquantisierung (8)
- Blockchain (7)
- Algorithmus (5)
- Bioinformatik (5)
- Neuronales Netz (5)
- Deep learning (4)
- Kryptologie (4)
- Virtuelle Währung (4)
- China (3)
RNA tertiary contact interactions between RNA tetraloops and their receptors stabilize the folding of ribosomal RNA and support the maturation of the ribosome. Here we use FRET assisted structure prediction to develop structural models of two ribosomal tertiary contacts, one consisting of a kissing loop and a GAAA tetraloop and one consisting of the tetraloop receptor (TLR) and a GAAA tetraloop. We build bound and unbound states of the ribosomal contacts de novo, label the RNA in silico and compute FRET histograms based on MD simulations and accessible contact volume (ACV) calculations. The predicted mean FRET efficiency from molecular dynamics (MD) simulations and ACV determination show agreement for the KL-TLGAAA construct. The KL construct revealed too high FRET efficiency and artificial dye behavior, which requires further investigation of the model. In the case of the TLR, the importance of the correct dye and construct parameters in the modeling was shown, which also leads to a renewed modeling. This hybrid approach of experiment and simulation will promote the elucidation of dynamic RNA tertiary contacts and accelerate the discovery of novel RNA interactions as potential future drug targets.
To investigate the effects of climate change on interactions within ecosystems, a microcosm experiment was conducted. The effects of temperature increase and predator diversity on Collembola communities and their decomposition rate were investigated. The predators used were mites and Chilopods, whose predation effects on several response variables were analysed. This data included Collembola abundance, biomass and body mass as well as basal respiration and microbial biomass carbon. These response variables were tested against the predictors in several models. Temperature showed high significance in interaction with mite abundance in almost all models. Furthermore, the results of the basal respiration and microbial biomass carbon support the suggestion of a trophic cascade within the animal interaction.
This scientific work reveals the potential for the development of the renewable energy market, due to many reasons. The reasons are the unstable political situation in the world, rising energy prices, environmental degradation and the growing demand of Ger man residents for government measures to reduce the negative impact on the environment. This work is related to business planning and development using strategies based on the above reasons. The purpose of the study is to develop methods for successfully regulating the market for renewable resources to solve the problem of environmental pollution through the promotion of environmentally friendly products. The work explores the driving forces and problems hindering the development of the market for renewable resources. The problems raised concerned all interested parties, from consumers and producers to the state body for regulating and stimulating the industry . An analysis was also made of the methods of environmentally oriented companies and the tools they use to strengthen their positions in the market. Based on the data obtained from the conducted research, a concept and business strategy for a new environmentally oriented generation” was created. The business consulting company “Sun’s idea of the new company is to involve all parties using marketing tools, creating a healthy competitive environment among commercial companies and benefiting not only the companies themselves but also the end user of the products and the German government.
The occurence of prostate cancer (PCa) has been consistently rising since three decades and remains the third leading cause of cancer-related deaths after lung and bowel cancer in Germany. Despite of new methods of early detection, such as prostate-specific antigen (PSA) testing, it persists to be the most common cancer in german men with over 63,400 new diagnoses in Germany every year and exhibits high prevalence in other countries of Northern andWestern Europe as well [64]. Men over the age of 70 are most commonly affected by the lethal disease, whereas an indisposition before 50 is rare. The malignant prostate tumor can be healed through operation or irradiation while the cancer hasn’t reached the stage of metastasis in which other therapeutic methods have to be employed [14] [15]. In the metastatic phase, the patient usually exhibits symptoms when the tumors size affects the urethra or the cancer spreads to other tissue, often the bones [16].
The high prevalence of this disease marks the importance of further research into prognosis and diagnosis methods, whereby identification of further biomarkers in PCa poses a major topic of scientific analysis. For this task, the effectiveness of high-throughput RNA sequencing of the transcriptome (RNA molecules of an organism or specific cell type) is frequently exploited [66]. RNA sequencing or RNA-Seq in short, offers the possibility of transcriptome assessment, enabling the identification of transcriptional aberrations in diseases as well as uncharacterized RNA species such as non-coding RNAs (ncRNAs) which remain undetected by conventional methods [49]. To alleviate interpretation of the sequenced reads they are assembled to reconstruct the transcriptome as close to the original state as possible, thus enabling rapid detection of relevant biomolecules in the data [49]. Transcriptomic studies often require highly accurate and complete gene annotations on the reference genome of the examined organism. However, most gene annotations and reference genomes are far from complete, containing a multitude of unidentified protein-coding and non-coding genes and transcripts. Therefore, refinement of reference genomes and annotations by inclusion of novel sequences, discovered in high quality transcriptome assemblies, is necessary [24].
Glycans play an important role in the intracellular interactions of pathogenic bacteria. Pathogenic bacteria possess binding proteins capable of recognizing certain sugar motifs on other cells, which are found in glycan structures. Artificial carbohydrate synthesis allows scientists to recreate those sugar motifs in a rational, precise, and pure form. However, due to the high specificity of sugar-binding proteins, known as lectins, to glycan structures, methods for identifying suitable binding agents need to be developed. To tackle this hurdle, the Fraunhofer Institute for Cell Therapy and Immunology (Fraunhofer IZI) and the Max-Planck Institute of Colloids and Interfaces (MPIKG) developed a binding assay for the high throughput testing of sugar motifs that are presented on modular scaffolds formed by the assembly of four DNA strands into simple, branched DNA nanostructures. The first generation of this assay was used in combination with bacteria that express a fluorescent protein as a proof-of-concept. Here, the assay was optimized to be used with bacteria not possessing a marker gene for a fluorescent protein by staining their genomic DNA with SYBR® Green. For the binding assay, DNA nanostructures were combined with artificially synthesized mannose polymers, typical targets for many lectins on the surface of bacteria, presenting them in a defined constellation to bind bacteria strongly due to multivalent cooperativity. The testing of multiple mannose polymers identified monomeric mannose with a 5’-carbon linker and 1,2-linked dimeric mannose with linker as the best binding candidates for E. coli, presumably due to binding with the FimH protein on the surface. Despite similarities between the FimH proteins of E. coli and K. pneumoniae, binding was only observed between E. coli and the different sugar molecules on DNA structures. Furthermore, the degree of free movement seemed to affect the binding of mannose polymers to targeted proteins, since when utilizing a more flexible DNA nanostructure, an increase in binding could be observed. An alternative to the simple DNA nanostructures described above is the use of larger, more complex DNA origami structures consisting of several hundred strands. DNA origami structures are capable of carrying dozens of modifications at the same time. The results for the DNA origami structure showed a successful functionalization with up to 71 1,2-linked dimeric mannose with linker molecules. These results point towards a solution for the high-throughput analysis of potential binding agents for pathogenic bacteria e.g. as an alternative treatment for antibiotic-resistant.
Cryptorchidism is the most common disorder of sex development in dogs. It describes a failure of one or both testes to descend into the scrotum in due time. It is a heritable multifactorial disease. In this work, selected dogs of a german sheep poodle breed were sequenced with nanopore sequencing and subsequently examined for genetic variations correlating with cryptorchidism. The relationships of the studied dogs were also analyzed and visually processed.
Assessment of COI and 16S for insect species identification ti determine the diet of city bats
(2023)
Despite the numerous benefits of urbanization to human living conditions, urbanization has also negatively affected humans, their environment, and other organisms that share urban habitats with humans. Undoubtedly adverse while some wild animals avoid living in urban areas, others are more tolerant or prefer life in urban habitats. There are more than 1,400 species of bats in the world.
Therefore, they have the potential to contribute significantly to the mammalian biodiversity in urban areas. Insectivorous bats species play a key role in agriculture by improving yields and reducing chemical pesticide costs. Using metabarcoding, it is possible to determine the prey consumed by these noctule mammals based on the DNA fragments in their fecal pellets. This study
aimed to evaluate COI and 16S metabarcodes for insect species identification to determine the diet of metropolitan bats. For this purpose, COI and 16S metabarcodes were extracted, amplified, and sequenced from 65 bat feces collected in the Berlin metropolitan areas. Following a taxonomic annotation, I found that 73% of all identified insects could only be detected using the COI method, while 15% could be recovered using the 16S approach. Just 12% of all detected insects were identified simultaneously by both markers. According to this result, COI is more suitable for the taxonomic identification of insects from bat feces. However, given the bias of COI primers, it is recommended to use both markers for a more precise estimation of species diversity. Additionally,based on the insect species identified, I noticed that urban bats fed mainly on Diptera, Coleoptera,and Lepidoptera. The bat species Nyctalus noctula was most abundant in the samples. His diet analysis revealed that 91% of the samples contained the insect species Chironomus plumosus. 14 pest insect species were also found in his diet.
Our current research aims to establish a complete ribonucleic acid (RNA) production line from plasmid design to purification of in vitro transcribed RNA and labeling of RNA. RNA is the central molecule within the central dogma of molecular biology and is involved in most essential processes within a cell[1]. In many cases, only compact three-dimensional structures of the respective RNA are able to fulfill their function. In this context, RNA tertiary contacts such as kissing loops and pseudoknots are essential to stabilize three-dimensional folding[2]. We will produce a tertiary contact consisting of a kissing loop and a GAAA tetraloop that occurs in eukaryotic ribosomal RNA[3,4]. The RNA sequence is integrated into a vector plasmid. Subsequently, the plasmid is amplified in E. coli. After following plasmid purification steps, the RNA sequence will be transcribed in vitro[5,6]. In order for the RNA be used for Förster resonance energy transfer (FRET) experiments at the single molecule level, fluorescent dyes must be coupled to the RNA molecule[7].
Recently a deep neural network architecture designed to work on graph- structured data have been capturing notice as well as getting implemented in various domains and application. However, learning representation (feature embedding) from graphical data picking pace in research and constructing graph(s) from dataset remains a challenge. The ability to map the data to lower dimensions further makes the task easier while providing comfort in applying many operations. Graph neural network (GNN) is one of the novel neural network models that is catching attention as it is outperforming in various applications like recommender systems, social networks, chemical synthesis, and many more. This thesis discusses a unique approach for a fundamental task on graphs; node classification. The feature embedding for a node is aggregated by applying a Recurrent neural network (RNN), then a GNN model is trained to classify a node with the help of aggregated features and Q learning supports in optimizing the shape of neural networks. This thesis starts with the working principles of the Feedforward neural network, recurrent units like simple RNN, Long short-term memory (LSTM), and Gated recurrent unit (GRU), followed by concepts of Reinforcement learning (RL) and the Q learning algorithm. An overview of the fundamentals of graphs, followed by the GNN architecture and workflow, is discussed subsequently. Some basic GNN models are discussed in brief later before it approaches the technical implementation details, the output of the model, and a comparison with a few other models such as GraphSage and Graph attention network (GAN).
In the past few years, social media has become the most popular communication software, replacing phone calls, text messages, television and even advertisements. Social media has become the most important channel for spreading opinions. As a result of this trend, many politicians have also started to operate social media (Wang, Tsai, & Chen 2019). This study was conducted in order to understand whether there was an intercandidate agenda-setting effect between the Facebook posts of legislative candidates and presidential candidates during the election period, and whether the legislative candidates' Facebook posts were influenced by the presidential candidates' Facebook posts. The target population of this study was the three presidential candidates in Taiwan's 2020 presidential election — Dr. Tsai Ing-Wen, Mr. Han Kuo-Yu, and Mr. James Soong — as well as the 36 legislative candidates in Taipei, Taichung, and Kaohsiung.
The study focused on Facebook posts from 1thNovember 2019 to 10th January 2020, 10 weeks before the voting day. Text-mining and cosine similarity were used to organize the posts and compare the similarity between posts. Finally, the similarity between posts was presented as a line graph.
The study revealed that there was an inter-candidate agenda-setting effect between legislative candidate posts and presidential candidate posts, and that Dr. Tsai Ing-Wen, who was also the incumbent president during the campaign, was the most influential Facebook poster during the entire election.
Future research is proposed on the inter-candidate agenda-setting effect only analyzing the similarity of posts among the candidates to discuss the influence of the candidates' Facebook agenda-setting during a specific election period.
This is the first study in which the Facebook posts of Taiwanese politicians are analyzed and the relationships were analyzed and the relationships were systematically compared, across multiple degrees, which opens up a whole new subject for future elections in Taiwan.