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Transcript
How do cells grow & reproduce? In the Beginning – One Cell • Most of the organisms start out as one cell • Humans start out as a single cell, the zygote, formed by uniting a sperm and egg • The zygote divides to make trillions of cells • During the process of dividing, cells become specialized to function in the various tissues and organs of the body = differentiation • Mitosis is the process of cell division in eukaryotic cells The Cell Cycle = Sequences of growth and division of a cell Two main parts: 1. Interphase – growth phase; takes most of the time 2. Mitosis – cell division phase S Interphase G2 G1 M The Cell Life Cycle Gap 1 - Doubling of cell size, increase in the number of organelles, regular cellular activities S - Synthesis of DNA S G1 G1, S, & G2 = Interphase = busy time G2 M Gap 2 - Final preparation for division Mitosis - Cell division S phase – DNA replication Fig. 3.26 nucleolus is still visible INTERPHASE: nuclear envelope is clearly visible chromatin = uncoiled DNA http://www.fed.cuhk.edu.hk/~johnson/photomicrographs/mitosis/animal/animal_interphase.htm Interphase • • • • • Metabolic phase Cell growth DNA replication Protein synthesis Visible nucleus with CHROMATIN Mother cell Stages of Mitosis Nucleus with chromatin Interphase Disappearing Prophase nuclear membrane Mitotic spindle Condensed Equator chromosomes of the cell Poles of the cellTwo daughter cells Metaphase Anaphase Telophase PROPHASE nuclear envelope disappears nucleolus disappears http://www.ac-dijon.fr/pedago/svt/documents/mitose/prophase.gif chromosomes become visible Prophase • Centrioles move to the opposite sides of cell • Spindle fibers from centrioles connect with chromosomes Prophase METAPHASE http://iccbweb.med.harvard.edu/mitchisonlab/Pages/mt.html METAPHASE chromatids Chromosomes line up at the equator of the cell spindle centriole http://www.chembio.uoguelph.ca/educmat/chm736/cycletx.htm Each chromatid is attached to a separate spindle fiber by its centromere Metaphase chromatids spindle centriole Nature (408. 423, 2000). http://www.blc.arizona.edu/courses/181gh/Lectures_WJG.01/mitosis_F.01/mitosis.html ANAPHASE http://www.univ-orleans.fr/SCIENCES/BIOCHIMIE/MMC/accueil.htm ANAPHASE early Conly Rieder http://www.wadsworth.org/BMS/SCBlinks/WEB_MIT2/HOME.HTM late ANAPHASE Chromatids separate and migrate to opposite poles http://www.blc.arizona.edu/courses/181gh/Lectures_WJG.01/mitosis_F.01/mitosis.html Anaphase TELOPHASE Daughter Nucleus Spindles dissolve Daughter Nucleus Telophase • Chromosomes uncoil • Two identical nuclei are formed (DNA is in the chromatin form) • Nuclear membrane & nucleolus reappear Cytoplasmic Division: Cytokinesis • Division of a cell’s cytoplasm to form two identical cells • Usually begins in late anaphase • Interphase begins when cytokinesis is complete Chromosomes, Chromatids & Centromeres A packaged chromosome Chromatid Chromosome arm Centromere Joins sister chromatids Chromosome arm Replication DNA doubling during Sphase Identical chromatid (sister chromatid) Anaphase Two identical chromosomes Results of Mitosis: Two new diploid cells with chromosomes that are identical to those of the parent cell Hmm… Why is it necessary for a cell’s chromosomes to be distributed to its daughter cells in such a precise manner?
