Print Email Facebook Twitter Gene set–based decomposition of T-ALL with respect to normal T-cell implies two distinct T-ALL progression pathways Title Gene set–based decomposition of T-ALL with respect to normal T-cell implies two distinct T-ALL progression pathways Author Gouw, M.R. Contributor De Ridder, D. (mentor) Reinders, M.J.T. (mentor) Faculty Electrical Engineering, Mathematics and Computer Science Department Media & Knowledge Engineering Date 2008-10-31 Abstract In this investigation a gene set–based approach is used to compare T-ALL samples to a series of chronologically ordered T-cell development stages. These results revealed two distinct subtypes of T-ALL that can be de?ned by different cells of origin; either a multipotent hematopoietic stem cell, or a committed T-cell. Subsequently, two-step progression pathways in terms of biological process perturbations were determined for each of these subtypes based on differentially expressed gene sets. The two-step model allowed the characterization of a novel cell type, the T-ALL stem cell. The results indicate that T-ALL can emerge from both multipotent cells as well as committed T-cells, and that the progression pathways of each of these subtypes proceeds via different T-ALL stem cells. Subject T-ALLT-cell Acute Lymphoblastic leukemiagene setstumorigenesisstemness To reference this document use: http://resolver.tudelft.nl/uuid:567ffb5a-2ba2-46eb-a383-d645848fa477 Embargo date 2009-07-04 Part of collection Student theses Document type master thesis Rights (c) 2008 Gouw, M.R. Files PDF Marc_Gouw_Thesis.pdf 12.17 MB Close viewer /islandora/object/uuid:567ffb5a-2ba2-46eb-a383-d645848fa477/datastream/OBJ/view