1. Bioinformatics analyses of the genomes of cancer cells from many different patients with different types of cancer indicate that the vast majority of the detected mutations do not appear to contribute to cancer. Why is this property so common in cancer cells? Group of answer choices Cells can only turn into malignant cancer cells if they substantially increase the frequency of the occurrence of random mutations in their genome. These mutations are important for cancer, but their effects have not yet been discovered. This is a result from the fact that cells can become cancerous through many different “mutational routes” involving mutations in different oncogenes and different tumor suppressor genes. Cancer cells need to acquire multiple mutations (in most cases at least 6 different mutations) to become malignant
1. Bioinformatics analyses of the genomes of cancer cells from many different patients with different types of cancer indicate that the vast majority of the detected mutations do not appear to contribute to cancer. Why is this property so common in cancer cells? Group of answer choices Cells can only turn into malignant cancer cells if they substantially increase the frequency of the occurrence of random mutations in their genome. These mutations are important for cancer, but their effects have not yet been discovered. This is a result from the fact that cells can become cancerous through many different “mutational routes” involving mutations in different oncogenes and different tumor suppressor genes. Cancer cells need to acquire multiple mutations (in most cases at least 6 different mutations) to become malignant
Biology: The Dynamic Science (MindTap Course List)
4th Edition
ISBN:9781305389892
Author:Peter J. Russell, Paul E. Hertz, Beverly McMillan
Publisher:Peter J. Russell, Paul E. Hertz, Beverly McMillan
Chapter16: Regulation Of Gene Expression
Section: Chapter Questions
Problem 3ITD
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1. Bioinformatics analyses of the genomes of cancer cells from many different patients with different types of cancer indicate that the vast majority of the detected mutations do not appear to contribute to cancer. Why is this property so common in cancer cells?
Group of answer choices
Cells can only turn into malignant cancer cells if they substantially increase the frequency of the occurrence of random mutations in their genome.
These mutations are important for cancer, but their effects have not yet been discovered.
This is a result from the fact that cells can become cancerous through many different “mutational routes” involving mutations in different oncogenes and different tumor suppressor genes.
Cancer cells need to acquire multiple mutations (in most cases at least 6 different mutations) to become malignant.
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