Print Email Facebook Twitter The impact of third generation sequencing on haplotype assembly Title The impact of third generation sequencing on haplotype assembly Author Shirali Hossein Zade, R. (TU Delft Pattern Recognition and Bioinformatics) Contributor Reinders, M.J.T. (promotor) Abeel, T.E.P.M.F. (promotor) Degree granting institution Delft University of Technology Date 2024-02-26 Abstract The genome encompasses an organism’s full DNA, organized into chromosomes within the cell nucleus. Humans have 46 paired chromosomes, and within these pairs, genetic information is grouped as haplotypes—genetic packages passed from one generation to the next, ensuring genetic diversity. While DNA sequencing produces short fragments or reads, assembling these back into a complete genome can be complex. The presence of multiple, similar haplotypes in some organisms amplifies this complexity, emphasizing the need for specialized techniques to accurately capture these subtle genetic variations.In this thesis, we dive into the de novo and haplotype assembly challenges. We aimto tackle haplotype assembly challenges and find better ways to accurately assemble the genetic puzzle pieces. Along the way, we introduce a new tool for haplotype assembly designed to make the process more interpretable. Subject Haplotype assemblyGenome assemblyThird generation sequencingGenome repeats To reference this document use: https://doi.org/10.4233/uuid:16494021-9bd2-4089-8808-5ad9dffadc5d ISBN 978-94-6384-539-7 Part of collection Institutional Repository Document type doctoral thesis Rights © 2024 R. Shirali Hossein Zade Files PDF Dissertation_Final.pdf 24.66 MB Close viewer /islandora/object/uuid:16494021-9bd2-4089-8808-5ad9dffadc5d/datastream/OBJ/view