5 Must Know Facts For Your Next Test

1. Proto-oncogenes code for proteins involved in signaling pathways that stimulate cell division and survival.
2. Examples of proto-oncogenes include RAS, MYC, and ERBB2, which are known for their roles in various cancers.
3. Mutations in proto-oncogenes can lead to a gain-of-function, causing cells to divide uncontrollably.
4. Proto-oncogenes can be activated by several factors, including environmental influences, viral infections, and genetic alterations.
5. Understanding proto-oncogenes is critical for developing targeted cancer therapies that aim to inhibit their overactive forms.

Review Questions

• How do proto-oncogenes contribute to the control of the cell cycle and what happens when they become mutated?
  • Proto-oncogenes contribute to the control of the cell cycle by producing proteins that signal cells to grow and divide. When these genes undergo mutations, they can become oncogenes, leading to overexpression or hyperactivity of these signaling proteins. This results in a loss of normal regulatory control over the cell cycle, causing unchecked cell proliferation and potentially leading to tumor formation.
• Discuss the relationship between proto-oncogenes and tumor suppressor genes in the context of cancer development.
  • Proto-oncogenes promote cell growth and division while tumor suppressor genes act as brakes on this process. The balance between these two types of genes is crucial for normal cellular function. When proto-oncogenes are mutated and become oncogenes, they can drive excessive cell division. If tumor suppressor genes are also mutated, this further weakens the cell's ability to regulate growth, significantly increasing the risk of cancer development.
• Evaluate the role of proto-oncogenes in gene regulation and how their dysfunction might influence treatment strategies for cancer.
  • Proto-oncogenes play a vital role in gene regulation by encoding proteins that help manage key processes like cell growth and differentiation. Dysfunction in these genes leads to aberrant signaling pathways that promote cancer progression. Understanding the specific mutations or alterations in proto-oncogenes can inform treatment strategies, such as targeted therapies that inhibit the activity of these overactive genes or enhance the function of tumor suppressor genes to restore normal cell regulation.

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