Global ETD Search

41	Time course simulation replicability of SBML-supporting biochemical network simulation tools Sentausa, Erwin January 2006 (has links) Background: Modelling and simulation are important tools for understanding biological systems. Numerous modelling and simulation software tools have been developed for integrating knowledge regarding the behaviour of a dynamic biological system described in mathematical form. The Systems Biology Markup Language (SBML) was created as a standard format for exchanging biochemical network models among tools. However, it is not certain yet whether actual usage and exchange of SBML models among the tools of different purpose and interfaces is assessable. Particularly, it is not clear whether dynamic simulations of SBML models using different modelling and simulation packages are replicable. Results: Time series simulations of published biological models in SBML format are performed using four modelling and simulation tools which support SBML to evaluate whether the tools correctly replicate the simulation results. Some of the tools do not successfully integrate some models. In the time series output of the successful simulations, there are differences between the tools. Conclusions: Although SBML is widely supported among biochemical modelling and simulation tools, not all simulators can replicate time-course simulations of SBML models exactly. This incapability of replicating simulation results may harm the peer-review process of biological modelling and simulation activities and should be addressed accordingly, for example by specifying in the SBML model the exact algorithm or simulator used for replicating the simulation result. Bioinformatics (Computational Biology) Bioinformatik (beräkningsbiologi)
42	A method for extracting pathways from Scansite-predicted protein-protein interactions Simu, Tiberiu January 2006 (has links) Protein interaction is an important mechanism for cellular functionality. Predicting protein interactions is available in many cases as computational methods in publicly available resources (for example Scansite). These predictions can be further combined with other information sources to generate hypothetical pathways. However, when using computational methods for building pathways, the process may become time consuming, as it requires multiple iterations and consolidating data from different sources. We have tested whether it is possible to generate graphs of protein-protein interaction by using only domain-motif interaction data and the degree to which it is possible to automate this process by developing a program that is able to aggregate, under user guidance, query results from different information sources. The data sources used are Scansite and SwissProt. Visualisation of the graphs is done with an external program freely available for academic purposes, Osprey. The graphs obtained by running the software show that although it is possible to combine publicly available data and theoretical protein-protein interaction predictions from Scansite, further efforts are needed to increase the biological plausibility of these collections of data. It is possible, however, to reduce the dimensionality of the obtained graphs by focusing the searches on a certain tissue of interest. Bioinformatics (Computational Biology) Bioinformatik (beräkningsbiologi)
43	A method to identify the non-coding RNA gene for U1 RNA in species in which it has not yet been found Mathew, Sumi January 2007 (has links) Background Non coding RNAs are the RNA molecules that do not code for proteins but play structural, catalytic or regulatory roles in the organisms in which they are found. These RNAs generally conserve their secondary structure more than their primary sequence. It is possible to look for protein coding genes using sequence signals like promoters, terminators, start and stop codons etc. However, this is not the case with non coding RNAs since these signals are weakly conserved in them. Hence the situation with non coding RNAs is more challenging. Therefore a protocol is devised to identify U1 RNA in species not previously known to have it. Results It is sufficient to use the covariance models to identify non coding RNAs but they are very slow and hence a filtering step is needed before using the covariance models to reduce the search space for identifying these genes. The protocol for identifying U1 RNA genes employs for the filtering a pattern matcher RNABOB that can conduct secondary structure pattern searches. The descriptor for RNABOB is made automatically such that it can also represent the bulges and interior loops in helices of RNA. The protocol is compared with the Rfam and Weinberg & Ruzzo approaches and has been able to identify new U1 RNA homologues in the Apicomplexan group where it has not previously been found. Conclusions The method has been used to identify the gene for U1 RNA in certain species in which it has not been detected previously. The identified genes may be further analyzed by wet laboratory techniques for the confirmation of their existence. 4 Bioinformatics (Computational Biology) Bioinformatik (beräkningsbiologi)
44	Design and Development of a Database for the Classification of Corynebacterium glutamicum Genes, Proteins, Mutants and Experimental Protocols Muhammad, Ashfaq January 2006 (has links) Coryneform bacteria are largely distributed in nature and are rod like, aerobic soil bacteria capable of growing on a variety of sugars and organic acids. Corynebacterium glutamicum is a nonpathogenic species of Coryneform bacteria used for industrial production of amino acids. There are three main publicly available genome annotations, Cg, Cgl and NCgl for C. glutamicum. All these three annotations have different numbers of protein coding genes and varying numbers of overlaps of similar genes. The original data is only available in text files. In this format of genome data, it was not easy to search and compare the data among different annotations and it was impossible to make an extensive multidimensional customized formal search against different protein parameters. Comparison of all genome annotations for construction deletion, over-expression mutants, graphical representation of genome information, such as gene locations, neighboring genes, orientation (direct or complementary strand), overlapping genes, gene lengths, graphical output for structure function relation by comparison of predicted trans-membrane domains (TMD) and functional protein domains protein motifs was not possible when data is inconsistent and redundant on various publicly available biological database servers. There was therefore a need for a system of managing the data for mutants and experimental setups. In spite of the fact that the genome sequence is known, until now no databank providing such a complete set of information has been available. We solved these problems by developing a standalone relational database software application covering data processing, protein-DNA sequence extraction and management of lab data. The result of the study is an application named, CORYNEBASE, which is a software that meets our aims and objectives. Bioinformatics (Computational Biology) Bioinformatik (beräkningsbiologi)
45	Construction of Evolutionary Tree Models for Oncogenesis of Endometrial Adenocarcinoma Chen, Lei January 2005 (has links) Endometrial adenocarcinoma (EAC) is the fourth leading cause of carcinoma in woman worldwide, but not much is known about genetic factors involved in this complex disease. During the EAC process, it is well known that losses and gains of chromosomal regions do not occur completely at random, but partly through some flow of causality. In this work, we used three different algorithms based on frequency of genomic alterations to construct 27 tree models of oncogenesis. So far, no study about applying pathway models to microsatellite marker data had been reported. Data from genome–wide scans with microsatellite markers were classified into 9 data sets, according to two biological approaches (solid tumor cell and corresponding tissue culture) and three different genetic backgrounds provided by intercrossing the susceptible rat BDII strain and two normal rat strains. Compared to previous study, similar conclusions were drawn from tree models that three main important regions (I, II and III) and two subordinate regions (IV and V) are likely to be involved in EAC development. Further information about these regions such as their likely order and relationships was produced by the tree models. A high consistency in tree models and the relationship among p19, Tp53 and Tp53 inducible protein genes provided supportive evidence for the reliability of results. Bioinformatics (Computational Biology) Bioinformatik (beräkningsbiologi)
46	Improvements and extensions of a web-tool for finding candidate genes associated with rheumatoid arthritis Dodda, Srinivasa Rao January 2005 (has links) QuantitativeTraitLocus (QTL) is a statistical method used to restrict genomic regions contributing to specific phenotypes. To further localize genes in such regions a web tool called “Candidate Gene Capture” (CGC) was developed by Andersson et al. (2005). The CGC tool was based on the textual description of genes defined in the human phenotype database OMIM. Even though the CGC tool works well, the tool was limited by a number of inconsistencies in the underlying database structure, static web pages and some gene descriptions without properly defined function in the OMIM database. Hence, in this work the CGC tool was improved by redesigning its database structure, adding dynamic web pages and improving the prediction of unknown gene function by using exon analysis. The changes in database structure diminished the number of tables considerably, eliminated redundancies and made data retrieval more efficient. A new method for prediction of gene function was proposed, based on the assumption that similarity between exon sequences is associated with biochemical function. Using Blast with 20380 exon protein sequences and a threshold E-value of 0.01, 639 exon groups were obtained with an average of 11 exons per group. When estimating the functional similarity, it was found that on the average 72% of the exons in a group had at least one Gene Ontology (GO) term in common. Bioinformatics (Computational Biology) Bioinformatik (beräkningsbiologi)
47	Numerical methods for mapping of multiple QTL Ljungberg, Kajsa January 2003 (has links) This thesis concerns numerical methods for mapping of multiple quantitative trait loci, QTL. Interactions between multiple genetic loci influencing important traits, such as growth rate in farm animals and predisposition to cancer in humans, make it necessary to search for several QTL simultaneously. Simultaneous search for n QTL involves solving an n-dimensional global optimization problem, where each evaluation of the objective function consists of solving a generalized least squares problem. In Paper A we present efficient algorithms, mainly based on updated QR factorizations, for evaluating the objective functions of different parametric QTL mapping methods. One of these algorithms reduces the computational work required for an important function class by one order of magnitude compared with the best of the methods used by other authors. In Paper B previously utilized techniques for finding the global optimum of the objective function are compared with a new approach based on the DIRECT algorithm of Jones et al. The new method gives accurate results in one order of magnitude less time than the best of the formerly employed algorithms. Using the algorithms presented in Papers A and B, simultaneous search for at least three QTL, including computation of the relevant empirical significance thresholds, can be performed routinely. Bioinformatics (Computational Biology) Bioinformatik (beräkningsbiologi)
48	Inferring Gene Regulatory Networks in Cold-Acclimated Plants by Combinatorial Analysis of mRNA Expression Levels and Promoter Regions Chawade, Aakash January 2006 (has links) Understanding the cold acclimation process in plants may help us develop genetically engineered plants that are resistant to cold. The key factor in understanding this process is to study the genes and thus the gene regulatory network that is involved in the cold acclimation process. Most of the existing approaches1-8 in deriving regulatory networks rely only on the gene expression data. Since the expression data is usually noisy and sparse the networks generated by these approaches are usually incoherent and incomplete. Hence a new approach is proposed here that analyzes the promoter regions along with the expression data in inferring the regulatory networks. In this approach genes are grouped into sets if they contain similar over-represented motifs or motif pairs in their promoter regions and if their expression pattern follows the expression pattern of the regulating gene. The network thus derived is evaluated using known literature evidence, functional annotations and from statistical tests. Bioinformatics (Computational Biology) Bioinformatik (beräkningsbiologi)
49	Identifying esophageal atresi associated variants from whole genome sequencing data Mattisson, Jonas January 2018 (has links) Knowing the underlying cause of a genetic disorder could not only further our understanding of the disease itself, and the otherwise healthy mechanism that is disrupted. It could potentially improve people’s lives. Even if whole genome sequencing has drastically improved the potential of discovering the cause, a comparison of two non-related individual’s genome will find several million sequence variations. While most variants have no significant impact, it is enough for only one to functionally impact a gene, for it to cause a genetic disorder. This project therefore focused on the filtering of variants, from lists of several million possible causes, to the stage where they could feasible be manually analysed one by one. Single-nucleotide variants, indels and structural variants were filtered, based on a dataset where single-nucleotide variants and indels had already been called. The more difficult process of structural variants discovery was performed, but it required the application of four different tools to minimise the drawback of each separate discovery technique. The same three filtering approaches were applied to all variants; the intersecting of datasets that should contain the same variant, the removal of variants in common with the general population and the selection of variants impacting functionality. Each approach proved to be an efficient filtering step, with their combination reducing each list to only a couple of variants out of the original five million. Due to lower accuracy and sensitivity of the structural variant analysis, this data will likely require more extensive manual analysis. Bioinformatics (Computational Biology) Bioinformatik (beräkningsbiologi)
50	Framtagning av unika gemensamma sekvenser hos koagulasnegativa stafylokocker Mattisson, Jonas, Gräsberg, Sofia, Rydberg Öhrling, Sara, Al-Jaff, Mohammed, Molin, Iris, Sandström, Eric January 2016 (has links) I följande rapport kommer vi ta upp hur vi löste problemet med att hitta gemensamma sekvenser hos en mängd koagulasnegativa stafylokocker (KNS) för att bl.a. kunna skilja dem ifrån dess släkting Staphylococcus aureus (S. aureus). Problemet har sin grund i att projektbeställaren, Q-linea, vill kunna identifiera infekterande bakterier i fall av blodsjukdomen sepsis. Vi kunde dessvärre inte hitta sekvenser som fungerade för alla våra utvalda stafylokocker. Däremot lyckades vi hitta flera sekvenser som parvis fungerade tillsammans för att urskilja stafylokockgruppen mot S. aureus. För att utföra alla jämförelser konstruerade och implementerade vi en bioinformatisk pipeline med en tredelad optimeringsmetod för att göra de tunga beräkningarna snabbare. Bioinformatics (Computational Biology) Bioinformatik (beräkningsbiologi)

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