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 Cell cycle – regular pattern of eukaryotic cells that includes growth, DNA replication and cell division  All eukaryotic cells go through the same.

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Presentation on theme: " Cell cycle – regular pattern of eukaryotic cells that includes growth, DNA replication and cell division  All eukaryotic cells go through the same."— Presentation transcript:

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2  Cell cycle – regular pattern of eukaryotic cells that includes growth, DNA replication and cell division  All eukaryotic cells go through the same basic cycle  Essential for organism growth and healing  If cycle is uncontrolled or incorrect disease will result

3 1. Gap 1 (aka Growth 1) 2. S phase – “S” for synthesis Interphase 3. Gap 2 (aka Growth 2) 4. M phase – “M” for mitosis

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5  Cell carries out normal functions  Cell growth Increases in size Cellular contents, excluding chromosomes, are duplicated  Majority of cell cycle is spent in this phase  There is a checkpoint in this phase (Why?) If cell has adequate nutrition, proper size, undamaged DNA and organism requires more cells it will proceed to next phase! If an organism doesn’t require more cells it may enter G 0 at this time.

6  Synthesis – to make or to put together  Cell copies the DNA in the nucleus  Semi-conservative replication…  At end of this phase the cell contains 2 copies of DNA! Each of the 46 chromosomes is duplicated.  The copies are attached to each other and are both inside 1 nucleus

7  Cell carries out normal functions  Additional cell growth  There is a check point in this phase (Why?) – the cell “double checks” the duplicated chromosomes for error, making any needed repair. If cell has adequate nutrition, proper size, undamaged DNA and organism requires more cells it will proceed to next phase!

8 2 (possible) parts  Mitosis – division of the cell nucleus and its contents  Also called karyokinesis – the division of the nucleus  Kinesis – Greek for movement, to move  Cytokinesis – division of the cell cytoplasm  Usually follows mitosis but not always!

9  Nuclear membrane dissolves  2 sets of DNA separate  Remember, we copied this during S phase  New nuclear membranes form around each set of DNA separately  2 nuclei!  (nuclei is plural of nucleus)

10  Division of cytoplasm  1 cell divided in half resulting in 2 “new” cells Original cell is called ‘parent’ cell 2 new cells are called ‘daughter’ cells  Each daughter cell gets one of the nuclei Each has a copy of DNA – identical copy Carbon copy of original parent cell

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12  Not a real phase in the cell cycle  Phase name for cells that rarely divide or in which cell division has stopped  Some stay in stage until more cells of that type are needed.  Lymphocyte (type of white blood cell) - fight disease, only reproduce when needed  Some stay in stage permanently  Neurons (nerve cells) – neuroglial cells DO divide  Skeletal and cardiac muscle cells Nerve cells and skeletal muscle cells cannot undergo mitosis after they fully develop. This is why nerve and muscle diseases are so debilitating.

13  Cells divide at different rates Prokaryotic cells divide much faster than eukaryotic cells (Why?) Cells in embryos and children divide much faster than in adults (Why?)  Differs according to cell/tissue types More wear and tear – faster division and replacement May only divide and replace as result of cell injury or cell death In humans, 50 million cells die every second!

14 Cells divide to produce more cells as body needs them In humans – length of G 1 varies with cell type but S + G 2 + M = 12 hours!

15  Too small can not contain all needed organelles and molecules  Too big becomes a problem of adequate exchange of materials and transport of those materials within cell  Nutrients and waste move across cell membrane – surface area must be large enough to handle needed amounts

16  For cells to stay the same size from generation to generation, growth and cell division must be coordinated  Need large surface area with relatively small volume  Surface:volume ratio = the bigger the ratio the better Analogy: Think of baking one large cake v 3 smaller ones

17  Apoptosis – programmed cell death; the process by which a cell will kill itself through internal proteases and nucleases. It can be triggered by a number of internal or external signals.

18  Internal signal examples: if the DNA of a cell is damaged to a degree where the cell is unable to repair itself - mechanisms will signal the cell to kill itself, in order to prevent cancerous transformation. The cells that form webbed digits in a fetus undergo apoptosis in order to have individualized fingers and toes.  External signal examples: if a neuron during development fails to form the correct connections to other cells, it will initiate apoptosis (90% of all neurons formed during development do this). Alternatively, if a cell finds itself on the "wrong" sort of extracellular matrix proteins (meaning it is in the wrong location in the body), it will apoptose (this is called "anoikis"). Signaling proteins can also tell a cell to kill itself: if an immune cell encounters a virus-infected cell, it will tell the infected cell to commit suicide.  Apoptosis can also occur inappropriately. For example, Huntington's disease is caused when a subset of neurons undergo apoptosis when they should not.

19  Cancer - abnormal and uncontrolled cell division  2 possibilities: A mutation occurs within the cell causing normal cell cycle controls and check points to fail A normal cell embedded in a benign growth is starved of oxygen, but it can survive by switching to glycolysis for energy (recall that glycolysis is anaerobic). In this process, the mitochondria, which holds the cell’s self- destruct mechanism is turned off. This makes the cell “immortal” and cancerous, so it continues to replicate, and the tumor grows. Glycolysis also generates lactic acid which lets the cancer cells eat through tissue, escape, and form secondary cancers elsewhere in the body.

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