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Download NOTES: 10.3 - 10.4 - Control of the Cell Cycle / Cancer
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Transcript
NOTES: 10.3-10.4 - Regulating the Cell Cycle / Cell Differentiation Key Concepts: ● How is the cell cycle regulated? ● How are cancer cells different from other cells? ● What causes cancer? The Cell Cycle – review of the basics: ● Genetic information is in the form of DNA ● Cell cycle = process of cell division The cell grows; DNA is copied; The contents of the nucleus are divided; An Interesting Fact About Cell Division Cytoplasm is divided; Two new cells exactly like the original cell! ● Not all cells move through the -Ex: most cells & cells do not divide at all once they have developed -Ex: skin cells and cells lining our intestines complete the cell cycle every -Ex: frog embryo cells take ! CONTROLS ON CELL DIVISION ● Controls can be observed in a lab -Cells in a petri dish containing nutrient broth (food) will grow and divide forming a thin layer. -When the cells come into contact with each other, they . -If cells from the center are removed, growth and division will continue until cells are in once again Cell Cycle Regulators ● Several scientists discovered that cells in mitosis contained a ● If this protein was injected into a non-dividing cell, the mitotic spindle would -scientists called this protein -Scientists have since discovered a family of closely related proteins (cyclins) & dozens of other proteins that help . Regulatory Proteins: ● The cell cycle is controlled by regulatory proteins, both inside & outside of the cell Regulatory Proteins: INTERNAL ● Respond to events ● Allow the cell cycle to proceed only when certain events have occurred in the cell itself ● Example: some regulatory proteins make sure a cell until its chromosomes have been replicated ● Example: a regulatory protein prevents a cell from entering anaphase until the spindle fibers have attached to all chromosomes. Regulatory Proteins: EXTERNAL ● Respond to events occurring ● GROWTH FACTORS: -important during & ● Other external regulators cause cells to their cell cycles…this & keeps body tissues from disrupting one another. Recent studies suggest… ● The portion of interphase just before DNA replication is a key control period in the cell cycle; ● There are several proteins identified as controlling the cell cycle… ● RECALL: Proteins are coded for by DNA! So… ● A mistake ( ) in the DNA ( ) that codes for one or more of these control factors/enzymes could lead to a . Uncontrolled Cell Growth ● What can happen if the cell cycle is not regulated so carefully? - ! ● Cancer cells do not respond to that regulate the growth of most cells. ● The result? They form masses of cells called that can damage the surrounding tissues -Benign vs. malignant ● Cancer cells can also break off and spread throughout the body ( Recent Research ● Many cancer cells have a defect in a gene called p53 ) can spread through lymph nodes -The protein made from this segment of DNA normally until all chromosomes have been replicated properly (without mutations) -If it isn’t working, damaged DNA can replicate -The cell may have lost the information it needs to respond to growth control signals ● Cancer is a disease of the Cancer is the 2nd leading cause of death in the U.S. ● It can affect any tissue, but the most commonly affected are: What causes the loss of growth control? Cancer Prevention: ● There is a clear link between healthy lifestyle and reducing the incidence of cancer; ● Diet low in and high in ● and ● ; ● (fruits, vegetables, & grains); (A, C, E, & calcium); ; ● !!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!! Treatments ● ● (for benign tumors) ● 10.4: Cell Differentiation Key Concepts: ● How do cells become specialized for different functions? ● What are stem cells? ● What are some possible benefits & issues associated with stem cell research? Cell Differentiation: ● the process by which cells become ● we all started as an individual ; adult organism ● cell differentiation is controlled by a number of interacting factors in an embryo…many of which we still don’t completely understand! STEM CELLS: ● how do so many specialized, differentiated cell types develop from just a single cell? ● such a cell is said to be TOTIPOTENT ● TOTIPOTENT = able to ● PLURIPOTENT = able to ● STEM CELLS = the from which differentiated cells develop ● TYPES of stem cells: ● EMBRYONIC: pluripotent cells …mouse embryonic stem cells have been triggered to differentiate into: nerve cells, muscle cells, & even sperm & egg cells! ● ADULT: groups of cells that differentiate to cells in the adult body; more limited than embryonic stem cells ● Example: adult stem cells in the bone marrow can develop into several types of ● Example: adult stem cells in the brain can produce ● BENEFITS of Stem Cell Research: ● stem cells offer excellent prospects to that is the cause of many human life- threatening conditions: ● Example: ● Example: strokes & spinal cord injuries & cause paralysis ● ETHICAL ISSUES: ● adult stem cells can be harvested from willing adult donors ● embryonic stem cells are harvested from many ethical discussions involving issues of life and death… ● in the future, technology may help to reduce these ethical concerns (i.e. to behave like an embryonic stem cell) …this has led to
