Sökning: "DNA sequence analyses"
Visar resultat 1 - 5 av 92 avhandlingar innehållade orden DNA sequence analyses.
1. Statistical modelling and analyses of DNA sequence data with applications to metagenomics
Sammanfattning : Microorganisms are organised in complex communities and are ubiquitous in all ecosystems, including natural environments and inside the human gut. Metagenomics, which is the direct sequencing of DNA from a sample, enables studying the collective genomes of the organisms that are there present. LÄS MER
2. Selector Technology : For Multiplex DNA Analysis
Sammanfattning : A majority of methods for identifying sequences in the human genome involve target sequence amplification through PCR. This work presents novel methods for amplifying circularized DNA and presents solutions for some major limitations of PCR. LÄS MER
3. Methodology and Infrastructure for Statistical Computing in Genomics : Applications for Ancient DNA
Sammanfattning : This thesis concerns the development and evaluation of computational methods for analysis of genetic data. A particular focus is on ancient DNA recovered from archaeological finds, the analysis of which has contributed to novel insights into human evolutionary and demographic history, while also introducing new challenges and the demand for specialized methods. LÄS MER
4. Towards simulating fully charged protein-DNA systems in water : Zif268-DNA as a test case
Sammanfattning : In this thesis, we develop a computing strategy to simulate fully charged protein-DNA systems with a general force field (GROMOS87). The ions neutralizing the phosphates (P-ions) are submitted to global symmetry constraints. A model exhibiting ionic-atmosphere effects on mobile P-ions was implemented via very weak restraint forces. LÄS MER
5. DNA-Assisted Immunoassays for High-Performance Protein Analyses
Sammanfattning : Proteins play important roles in most cellular functions, such as, replication, transcription regulation, signal transduction, for catalyzing chemical reaction, etc. Technologies developed to identify proteins rely either on observing their own properties such as charge, size, mass to charge ratio or sequence composition; or on using affinity reagents that recognize specific protein targets. LÄS MER