Sökning: "Sequence capture"
Visar resultat 16 - 20 av 67 avhandlingar innehållade orden Sequence capture.
16. Genomic Diversity and Evolution of Parasitism in Nematode-trapping Fungi
Sammanfattning : Nematode-trapping fungi are soil-living organisms that have the ability to form infection structures, traps to capture nematodes. Many nematode species are parasites on plants and animals, which have resulted in an interest to use the nematode-trapping fungi as biological control agents. LÄS MER
17. The Impact of High-Quality Information on Performance in Manufacturing
Sammanfattning : The dissertation deals with the impact of high-quality information on performance in manufacturing. In a system where two material flows with sequence dependency are matched, the use of real-time information to monitor and control the sequencing buffer improves the system's ability to schedule many different models, compared with a system with no information at all. LÄS MER
18. Acquisition and manipulation of mental structures : investigations on artificial grammar learning and implicit sequence processing
Sammanfattning : This thesis introduces repetitive artificial grammar learning as a paradigm in the investigation of sequential implicit learning, in particular as a model for language acquisition and processing. Implicit learning of sequential structure captures an essential cognitive processing capacity of interest from a larger cognitive neuroscience perspective. LÄS MER
19. Characterization of Polypeptides by Tandem Mass Spectrometry Using Complementary Fragmentation Techniques
Sammanfattning : In the growing field of proteomics identification of proteins by tandem mass spectrometry (MS/MS) is performed by matching experimental mass spectra against calculated spectra of all possible peptides in a protein database. One problem with this approach is the false-positive identifications. LÄS MER
20. Computational exploration of human genome variation
Sammanfattning : In studies of human genome variation, researchers attempt to identify the DNA sequence differences between our genomes that contribute substantially to variation that can be observed on a physical level (phenotype). Genetic variation can also be used to study population dynamics in human history, and how evolutionary forces have shaped the human genome. LÄS MER