Search for dissertations about: "Systems Biology"
Showing result 21 - 25 of 930 swedish dissertations containing the words Systems Biology.
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21. Function of MAP20 and MYB103 in cellulose and lignin formation of xylem secondary cell walls
Abstract : Lignocellulose from trees and other crops will have tremendous impact on the next generation of sustainable biofuels and biomaterials. To take advantage of modern breeding tools, it is therefore important to understand the genetic and molecular regulation underlying secondary cell wall formation. READ MORE
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22. Model-Based Hypothesis Testing in Biomedicine : How Systems Biology Can Drive the Growth of Scientific Knowledge
Abstract : The utilization of mathematical tools within biology and medicine has traditionally been less widespread compared to other hard sciences, such as physics and chemistry. However, an increased need for tools such as data processing, bioinformatics, statistics, and mathematical modeling, have emerged due to advancements during the last decades. READ MORE
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23. Systems Biology in Saccharomyces cerevisiae. Statistical data analysis and mathematical methods
Abstract : Over the last decade, Systems Biology has emerged as a new paradigm in the study of cellular systems which are characterized from a global perspective; in contrast to the traditional cellular biology, which was focused on specific components of the cell. To this end, a key milestone for the achievement of a global view of biology is the generation and interpretation of different datasets derived from omics technologies; such as Transcriptome and Proteome. READ MORE
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24. Systems biology of protein synthesis and secretion in yeast
Abstract : Protein synthesis and secretion is a vital process to maintain cell function. As it demands numerous building blocks, cofactors and chaperones generated from metabolism and translation, the process is intertwined with metabolic and regulatory networks. READ MORE
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25. Uncovering the genetics underlying host-parasite interactions during Plasmodium falciparum malaria transmission
Abstract : In eukaryotes, cellular differentiation is often orchestrated by programmed arrays of activation and repression of genes underlying the specific phenotypes of cell-types. To complete its life cycle, the single-celled Apicomplexan parasite Plasmodium falciparum, the most deadly of the human malaria parasites, must repeatedly differentiate and convert into unique cell types that can exploit niches within their human and mosquito hosts. READ MORE