Tissue Engineering Multiple Choice Questions on “Embryonic Stem Cells”.
1. What does the following diagram depict?
A. Derivation of human embryonic cells
B. Derivation of human hepatocytes
C. Derivation of human cardiac cells
D. Derivation of carcinogenic cells
Answer: A
Clarification: The sperm and egg are melded in-vitro, on the third day from fertilization the developing embryo begins to separate into cells called totipotent cells. On the fifth day from treatment, the blastocyst is shaped, from which the inward cell mass goes about as the wellspring of embryonic foundational microorganisms. These are then refined on a cell culture plate with proper media and eal conditions.
2. Embryonic stem cells are derived from the ________ of the blastocyst.
A. inner cell mass
B. ectoderm
C. blastocoel
D. mesoderm
Answer: A
Clarification: Developing cells in the research center is known as cell culture. Human embryonic Stem cells (hESCs) are produced by moving cells from a preimplantation-organize developing life into a plastic research center culture dish that contains a supplement soup known as culture medium. The cells gap and spread over the outse of the dish.
3. Embryonic stem cells are _________
A. pluripotent
B. small
C. large
D. medium-sized
Answer: A
Clarification: Embryonic stem cells are pluripotent. They can give rise to cells from all three germ layers even after being grown in culture for a long time.
4. The derivation of mouse ES cells was first reported in 1988.
A. TRUE
B. FALSE
Answer: B
Clarification: In the year 1981, Mouse Embryonic Stem cells were derived for the first time. In the year 1998, Human Embryonic Stem cells were derived for the first time.
5. What property of stem-cells has been depicted in this diagram?
A. Self-renewal
B. Division
C. Pluripotency
D. Metastasis
Answer: C
Clarification: During the gastrulation period the single-layered blastula develops into a trilaminar (three-layereD. structure called gastrula. These layers are called germ layers, ectoderm, mesoderm and ectoderm. These layers give rise to different kinds of cells with different functionalities.
6. Human ES cell lines are derived from embryos produced by in vitro fertilization (IVF).
A. TRUE
B. FALSE
Answer: A
Clarification: Human ES cell lines are gotten from developing embryos created by in vitro fertilization (IVF), a procedure wherein oocytes and sperm are set together to enable treatment to occur in a culture dish.
7. Human ES cells also have the potential to prove an unlimited amount of tissue for transplantation therapies to treat a we range of degenerative diseases.
A. TRUE
B. FALSE
Answer: A
Clarification: Human ES cells likewise can possibly give a boundless measure of tissue for transplantation treatments to treat a we scope of degenerative sicknesses. Some significant human ailments are brought about by the passing or brokenness of one or a couple of cell types, e.g., insulin-creating cells in diabetes or dopaminergic neurons in Parkinson’s ailment. The substitution of these cells could offer a long-lasting treatment for these disarranges.
8. When was the first derivation of a human ES cell line (SCNT-hES-1)?
A. March 2004
B. March 2019
C. March 1950
D. March 1980
Answer: A
Clarification: A group from South Korea was the first to report about the derivation of the human embryonic cell line (SCNT-hEs-1), in the year 2004. This was done using the somatic-cell nuclear-transfer (SCNT) technique.
9. ________ is the technique used to detect genetic disorders.
A. Preimplantation genetic diagnosis (PGD.
B. Gene therapy
C. Cell therapy
D. Proliferation
Answer: A
Clarification: New human ES cell lines were set up from developing embryos with a hereditary issue, which were entified during the act of preimplantation genetic diagnosis (PGD.. These new cell lines may give a superb in vitro model for concentrates on the impacts that the hereditary transformations have on cell expansion and separation.
To practice all areas of Tissue Engineering,