Cell Division: Mitosis Chapter 8
Prokaryotic Cell Division Binary fission: dividing in half Steps Chromosomes duplicate and move to ends of cell Cell elongates Plasma membrane pinches off into 2 ‘daughter cells’
Chromosomes 1 chromosome is 1 DNA molecule w/ 100’s to 1000’s of genes Composed of chromatin DNA and protein Number varies within species 46 in humans 78 in dogs 38 in cats 254 in shrimp 1200 Adders-tongue (fern)
Eukaryotic Cell Division Chromosomes replicated to form 2 sister chromatids Joined by centromere Division splits chromosome apart Each becomes a chromosome Count centromeres to determine number
The Eukaryotic Cell Cycle (Overview) Interphase About 90% of time Chromosomes not visible yet 3 Subphases G1 phase = cell growth and maturation S phase = synthesis, chromosomes replicated G2 phase = growth and prep for division G0 phase = not dividing or quienescent Mitotic (M Phase) Actual cell division Mitosis – nuclear division Prophase Metaphase Anaphase Telophase Cytokinesis – cytoplasmic division Repeat Mitotic Phase
Prophase Events Sister chromatids condense Nuclear envelope begins to disappear Centrosomes (centrioles in animal cells) move to opposite ends of cell Mitotic spindles form
Metaphase Events Centrosomes at opposite ends of cells Sister chromatids line up with centromere on metaphase plate Microtubules attached to each chromatid at the centromere
Anaphase Events Sister chromatids separate Single chromosomes move toward opposite ends of the cell Microtubule ‘tug of war’ Cell elongates
Telophase Events Daughter nuclei form Nuclear envelope reforms Chromosomes begin to uncoil Mitosis is complete
Cytokinesis Division of cytoplasm Animal cells Plant cells Begins at the end of telophase (late anaphase too) Animal cells Cleavage furrow forms Microfilaments interact to pinch plasma membrane in 2 Plant cells Cell plate forms Vesicles collect in the middle until fuse with plasma membrane
Apoptosis Programmed cell death Necessary for normal development Maintains balance of cell growth Organism shape/form development Sunburn peeling Tightly regulated to maintain balance
Cell Division Control Cyclical control system regulates with ‘checkpoints’ 3 major ones: G1, G2, and M Ensures previous processes complete before allowing continuation of division Possible number of divisions varies Ends of chromosomes dictate Skin cells and those of GI tract divide regularly Liver cells rarely divide Need growth factors, proteins secreted by the body to stimulate growth Cells respond to specific ones Density-dependent inhibition Cells stop dividing if become crowded Remove cells and dividing restarts Anchorage dependence Must have contact w/ a solid surface
Cancer Cancer is a disease of the cell cycle Only 1 cell needs to be transformed into a cancer cell Immune system normally detects then destroys Undetected can proliferate = tumor Benign stay in original location Can be removed by surgery so don’t disrupt organs Malignant can spread into other areas Metastasis: cancer cells spread via the circulatory system from original site Don’t follow normal signaling No density-dependent inhibition (overlap) No check points Make own growth factors to increase proliferation Unlimited number of divisions Often named for site of origin 4 categories
Cancerous Cell Growth
Categories of Cancer Carcinomas Leukemias and lymphomas Sarcomas External or internal coverings of the body E.g. skin or intestinal linings Leukemias and lymphomas Blood forming tissues E.g. bone marrow or lymph bodies Sarcomas Tissues that support the body Eg. Bones or muscle
Cancer Treatments Radiation for localized cells Damages DNA of cancer cells more than normal ones Lost ability to repair Chemotherapy for metastatic tumors Drugs interfere with cell division (normal and abnormal) and cause side effects Nausea from intestinal cells Hair loss from hair follicle cells Infections from immune system cells