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Listen "Episode 23: Tracking Glioblastoma Cell by Cell"
Episode Synopsis
The human body contains trillions of individual cells, and inside each resides a unique genetic code. Single-cell RNA sequencing enables researchers to study the mechanics of individual cells and identify the processes underlying disease states — valuable information that helps predict disease susceptibility, or resistance, to drug therapies.
This is particularly important in the study of cancer, as cells are constantly mutating. Single-cell sequencing allows investigators to observe these patterns of mutations at a micro-level. In episode 23 of TGen Talks, Dr. Sen Peng, a computational scientist with TGen’s Brain Tumor Unit, discusses how data from single-cell sequencing allows Dr. Peng and his colleagues to study — and make inroads against — the deadly brain cancer, glioblastoma.
Dr. Peng also discusses work with colleagues at City of Hope and elsewhere, and his future plans for studying glioblastoma.
This is particularly important in the study of cancer, as cells are constantly mutating. Single-cell sequencing allows investigators to observe these patterns of mutations at a micro-level. In episode 23 of TGen Talks, Dr. Sen Peng, a computational scientist with TGen’s Brain Tumor Unit, discusses how data from single-cell sequencing allows Dr. Peng and his colleagues to study — and make inroads against — the deadly brain cancer, glioblastoma.
Dr. Peng also discusses work with colleagues at City of Hope and elsewhere, and his future plans for studying glioblastoma.
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Episode 39: A TGen Overview
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