3.3.3 Stem Cells

Cards (52)

  • What are the two unique properties of stem cells?
    Self-renewal and differentiation
  • Self-renewal refers to the ability of stem cells to undergo cell division while maintaining their undifferentiated state
  • Differentiation is the process of stem cells changing into specialized cells with specific functions.
  • Match the stem cell type with its differentiation potential:
    Totipotent ↔️ Any cell in the organism
    Pluripotent ↔️ Any cell in the embryo
    Multipotent ↔️ Limited range of cell types
  • What is an example of a totipotent cell?
    Zygote
  • Pluripotent cells can differentiate into any cell in the embryo, but not extra-embryonic cells.
  • Multipotent stem cells can differentiate into any cell type within the embryo.
    False
  • Which type of stem cell can form extra-embryonic tissues like the placenta?
    Totipotent
  • Order the stem cell types based on their differentiation potential from highest to lowest:
    1️⃣ Totipotent
    2️⃣ Pluripotent
    3️⃣ Multipotent
  • What is an example of a pluripotent cell?
    Inner cell mass of blastocyst
  • A totipotent cell can differentiate into any cell type in the organism.
  • Multipotent stem cells can differentiate into a limited range of cell types within a tissue or organ.
  • Why are totipotent cells considered the most versatile stem cells?
    They can form any cell type
  • Pluripotent cells can form extra-embryonic tissues like the placenta.
    False
  • What is an example of a multipotent cell?
    Hematopoietic stem cell
  • Pluripotent cells cannot form extra-embryonic tissues.
  • Match the stem cell type with its example:
    Totipotent ↔️ Zygote
    Pluripotent ↔️ Inner cell mass
    Multipotent ↔️ Hematopoietic stem cell
  • Order the roles of stem cells in tissue repair:
    1️⃣ Replace damaged cells
    2️⃣ Form new tissues
    3️⃣ Regenerate organs
  • What are the two key properties of stem cells that enable their role in development and tissue repair?
    Self-renewal and differentiation
  • During development, stem cells give rise to various cell types that form tissues and organs.
  • Stem cells in tissue repair help replace damaged or lost cells.
  • Match the role of stem cells with its description:
    Development ↔️ Stem cells differentiate into various cell types to form tissues and organs
    Tissue Repair ↔️ Stem cells replace damaged or lost cells to restore tissue function
  • What type of stem cells differentiate into blood cells to replace those lost due to injury or disease?
    Hematopoietic stem cells
  • Stem cell research raises several ethical considerations.
  • Why is the use of embryonic stem cells controversial in research?
    Destruction of embryos
  • Steps to ensure ethical standards in stem cell research
    1️⃣ Ethical oversight
    2️⃣ High ethical standards
    3️⃣ Respect for human dignity
    4️⃣ Protection of individuals from harm
  • Match the ethical consideration with its description:
    Source of Embryonic Stem Cells ↔️ The destruction of embryos to obtain embryonic stem cells is controversial.
    Potential Misuse ↔️ Stem cells could be used for non-medical enhancements, raising fairness concerns.
    Informed Consent ↔️ Patients must be fully informed about risks and benefits.
  • What are stem cells defined as in multicellular organisms?
    Undifferentiated cells
  • Self-renewal refers to the ability of stem cells to undergo cell division while maintaining their undifferentiated state.
  • What is the process called by which stem cells change into specialized cells with specific functions?
    Differentiation
  • Hematopoietic stem cells in bone marrow can differentiate into red blood cells, white blood cells, and platelets.
  • Match the stem cell type with its differentiation potential:
    Totipotent ↔️ Can differentiate into any cell in the organism
    Pluripotent ↔️ Can differentiate into any cell in the embryo
    Multipotent ↔️ Can differentiate into a limited range of cell types
  • Totipotent cells are the most versatile and can become any cell type in the organism.
  • Pluripotent cells can form extra-embryonic tissues like the placenta.
    False
  • What is an example of multipotent stem cells in the body?
    Hematopoietic stem cells
  • Totipotent cells are capable of becoming any cell type, including extra-embryonic tissues like the placenta
  • Pluripotent cells can form extra-embryonic tissues.
    False
  • Multipotent cells can differentiate into a limited set of cell types within a specific tissue
  • Which type of stem cell can differentiate into any cell in the organism, including extra-embryonic cells?
    Totipotent
  • Pluripotent cells can differentiate into any cell in the embryo