Tissue movement in bipopulation tumour cord growth

submitted by: sast

Simulation of tumour cord growth where conversion of the tumour to glycolytic (anaerobic) metabolism takes place under hypoxia. This video shows volume fraction of glycolytic cell population and velocity of tissue movement. Isolines show hypoxia limits for aerobic and anaerobic cell lines respectively. This video reflects work in progress and may be different from the final results.

ATP deficit in bipopulation tumour cord growth

submitted by: sast

Simulation of tumour cord growth where conversion of the tumour to glycolytic (anaerobic) metabolism takes place under hypoxia. This video shows evolution of the region where the aerobic cells suffer from hypoxia (ATP deficit) as well as the limit where the glycolytic cells start suffering too. This video reflects work in progress and may be different from the final results.

Computational Lab - Chris Miller

submitted by: ralanharris

The goal of this exercise is to show how we can relate the results of two independent gene expression datasets to each other. In the case where one dataset provides "transcriptional signatures" of known oncogenic pathways, we can get clues as to which oncogenic pathways may be represented within the results obtained from another dataset. Lab for the Computer-Aided Discovery Methods course taught at Baylor College of Medicine.

Gene expression studies of cancer - Prof. Chad Creighton (Part 2)

submitted by: ralanharris

Lecture on gene expression studies of cancer and gene transcription signatures. Part of the Computer-Aided Discovery Methods course taught at Baylor College of Medicine.

Gene expression studies of cancer - Prof. Chad Creighton (Part 1)

submitted by: ralanharris

Lecture on gene expression studies of cancer and gene transcription signatures. Part of the Computer-Aided Discovery Methods course taught at Baylor College of Medicine.