Cell Reproduction Unit Chromosome Structure - chromosome = a long continuous thread of DNA that consists of numerous genes with regulatory information coiled around proteins in compact structures Chromosome Structure - DNA wraps around proteins (called histones) to become compact Chromosome Formation Chromosome Structure (cont) Cell Cycle = the regular pattern of growth, DNA duplication, and cell division that occurs in cells Cell Cycle - results in two cells (daughter cells) identical to one another - made up of 5 Phases Cell Cycle (cont) 1) G1 Phase = cell growth 2) S Phase = DNA is copied 3) G2 Phase = cell prepares for cell division Together Phases 1-3 are called Interphase Cell Cycle (cont) 4) M Phase (Mitosis) - division of the nucleus 5) C Phase (Cytokinesis) - division of the cytoplasm Cell Cycle (cont) Sequence of the Cell Cycle G1 S G2 M C Cell Cycle (cont) Cell Cycle (cont) Mitosis = division of the nucleus and its contents - discovered by Walther Flemming in 1882 Phases of Mitosis 1) Prophase - DNA coils to become chromosomes - nuclear membrane disappears - microtubules called spindle fibers grow from centrioles to center of cell 1) Prophase (cont) Spindle Fibers: 2 Types 1) Kinetochore Fibers – attach to chromosomes (at centromere) 2) Polar Fibers – spread throughout cell Prophase Centrioles Spindle Fibers Nucleus with Chromosomes Late Prophase Kinetochore Fibers Polar Fibers 2) Metaphase - chromosomes line up in center Metaphase 3) Anaphase - chromosomes pull apart and move to opposite sides of cell Anaphase 4) Telophase - chromosomes uncoil - nuclear membrane reforms Telophase Chromosomes Uncoil New Nuclear Membrane Forms Phases of Mitosis How do you remember the order of the phases of Mitosis? Just remember this phrase………. PMAT P = Prophae M = Metaphase A = Anaphase T = Telophase MATT PEE Cytokinesis - cell membrane forms a cleavage furrow and cytoplasm divides - in plants, a cell plate forms between each cell Cytokinesis Cleavage Furrow Cell Plate Regulation of Cell Division - controlled by external and internal factors - External Factors 1) cell to cell contact 2) growth factors Cell to Cell Contact Regulation of Cell Division (cont) Growth Factors – Examples - Platelets Regulation of Cell Division (cont) Growth Factors – Examples - Erythropoietin (stimulates red blood cell production) Regulation of Cell Division (cont) - Internal Factors - enzymes and proteins released by the cell Regulation of Cell Division (cont) - apoptosis = programmed cell death Webbed Fingers Apoptosis – Leaves in Fall Incomplete Apoptosis Cancer cells form tumors that may metastasize to other parts of the body Normal Cell Cancer Cell Bloodstream A healthy cell may become a cancer cell if certain genes are damaged Cancer cells form tumors that may metastasize to other parts of the body Cancer cells divide more often than do healthy cells and may form disorganized clumps called tumors Cancer cells form tumors that may metastasize to other parts of the body Sometimes cancer cells break away from the tumor. They can be carried in the bloodstream to other parts of the body where they form new tumors. According to the American Cancer Society, skin cancer is the most common of all cancers. This cancerous mole is an example of a skin cancer, which may metastasize quickly. ABCD Rule (for moles, etc) Mnemonic to help remember what to look for A = Asymmetry (irregular shape) B = Border is irregular shape C= Color change (changing or many colors) D = Dimension (1/4 in or less) **other key signs to look for: New growth, changes in growth, painful feeling Look for the ABCD Rule in this mole? Why is sex with someone else better than sex by yourself? Asexual Reproduction = reproduction of offspring from one parent - offspring are genetically identical to the parent …this is a BAD thing Sexual Reproduction = reproduction of offspring from two parents - offspring are genetically different from the parents …this is a GOOD thing Example Nut Disease in Squirrels Some eukaryotic cells divide by mitosis Some organisms can reproduce by asexual or sexual reproduction (depends on conditions) Meiosis Meiosis = cell reproduction that forms gametes (= sex cells = egg/sperm) Meiosis (cont) - # of chromosomes is halved - produces haploid cells (23 chromosomes) Meiosis (cont) Two Stages: Meiosis I Prophase I, Metaphase I, Anaphase I, Telophase I Meiosis II Prophase II, Metaphase II, Anaphase II, Telophase II Meiosis (cont) Homologous chromosomes line up ( = tetrad) Portions of chromatids are exchanged ( = crossing over) - results in new mixture of genetic material ( = genetic recombination) Meiosis (cont) Meiosis (cont) Chromosomes separate randomly ( = law of independent assortment) - results in genetic variation Meiosis (cont) Spermatogenesis = production of sperm cells - makes 4 haploid cells called spermatids Spermatogenesis Oogenesis = production of egg cells - makes 1 haploid egg cell and 3 polar bodies - polar bodies degenerate Oogenesis Mitosis Examples: vs. Meiosis Examples: Mitosis vs. Meiosis A human has 46 chromosomes - after mitosis, each body cell has 46 chromosomes - after meiosis, each sex cell (egg and sperm) has 23 chromosomes