Which of the following is true about cell differentiation when the body tries to heal from an injury?(1 point)
Responses
Cells grow during the synthesis phase of the cell cycle in preparation for senescence.
Cells grow during the synthesis phase of the cell cycle in preparation for senescence.
Stem cells differentiate to provide specialized cells that replace damaged tissue.
Stem cells differentiate to provide specialized cells that replace damaged tissue.
Damaged cells proliferate until the wound heals.
Damaged cells proliferate until the wound heals.
Platelets express different sections of RNA in order to
stimulate cell differentiation.
Stem cells differentiate to provide specialized cells that replace damaged tissue.
Based on the information provided, the correct answer is:
Stem cells differentiate to provide specialized cells that replace damaged tissue.
To understand this concept, let's break it down:
1. Stem cells: Stem cells are specialized cells in the body that have the unique ability to differentiate into different cell types. They are undifferentiated, meaning they do not have a specific function yet.
2. Differentiation: Cell differentiation refers to the process by which a stem cell develops into a specialized cell with a specific function. This process allows stem cells to generate a wide range of cell types that are needed for various functions in the body, including the replacement of damaged or injured tissue.
3. In the context of healing from an injury: When the body has a wound or injury, stem cells are activated and begin the process of differentiation. These stem cells can differentiate into the specific cell types required to replace the damaged or lost cells in the injured area. For example, if there is a cut on the skin, stem cells may differentiate into skin cells to heal the wound.
Therefore, stem cells differentiate to provide specialized cells that replace damaged tissue, making this statement true about cell differentiation during the healing process.