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Spontaneous Generation

Spontaneous Generation. Where do cells come from?. Abiogenesis. Early scientists believed that living things formed from non-living things spontaneously. These early scientists believed that frogs and fish fell from the sky with the rain.

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Spontaneous Generation

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  1. Spontaneous Generation • Where do cells come from?

  2. Abiogenesis • Early scientists believed that living things formed from non-living things spontaneously. • These early scientists believed that frogs and fish fell from the sky with the rain.

  3. Aristotle proposed that fish and frogs came from the mud and that flies came from rotting meat.

  4. He introduced his theory of ABIOGENESIS  theory which states that nonliving things can be transformed into living things spontaneously. • This theory was accepted for more than 2000 years.

  5. Jean van Helmont believed that mice came from grains of wheat and dirty shirts.

  6. Redi • Redi, in 1668, did an experiment to prove that flies did not come from rotting meat. • - He had four jars each with a different kind of meat (eel, fish, veal, and snake). He put these meats in four other jars but put lids on the jars. • - After time maggots were all over the meat in the uncovered jars.

  7. Redi • - Critics claimed that the difference was fresh air. • - Redi repeated his experiment but this time he put wire mesh over the jars. This time no maggots were found. • - Redi concluded that flies do not come from rotting meat.

  8. Needham • In 1745 Needham boiled chicken broth then put it into a flask • He wanted to see if microorganisms would grow. He only boiled the broth for a short time, so the microorganisms grew. • He supported spontaneous generation

  9. Spallanzani • Spallanzani • He put the broth in a flask, sealed it, drew out any air, he then boiled the broth. • Critics said that he only disproved that spontaneous generation cannot occur without air

  10. Pasteur • 1859 Pasteur • He boiled a meat broth in a flask • Heated the flask’s neck until he could bend it into an S shape. (Therefore air could enter the flask but not airborne microorganisms, these organisms would settle in the neck of the flask).

  11. He found no microorganisms to grow in the broth. • When he tilted the flask so that the airborne microorganisms could enter the flask, he found growth in the flask. • http://www.youtube.com/watch?v=WNByRghR6sw

  12. Brief Important Events in the Development of theCell Theory Hooke (1635-1703): viewed pieces of cork through a microscope, and described ‘cells’ in 1665.

  13. Leeuwenhoek (1632-1723): viewed small organisms, protozoa and single celled organisms, under a microscope, which he called ‘animalicules’. He was the first person to observe bacteria.

  14. Lorenz Orken : He stated “all living organisms originate and consist of cells”. • Brown : first to coin the term nucleus, which he discovered in a plant cell. • Schwann and Schleiden : concluded that animals and plants are made up of cells

  15. Modern Cell Theory • All Living things are composed of cells. • The cell is the basic unit of life. • All cells arise from pre-existing cells. Cells do not spontaneously arise or come from non-living things.

  16. Biogenesis Is the idea that living things only arise from other living things of the same type.

  17. What did the first cells ‘look’ like?

  18. Prokaryotes

  19. Characteristics of a Prokaryotic Cell • Simple cells • Smaller than Eukaryotic cells • Lack a cell nucleus • Organelles lack membranes • Majority are unicellular (one cell) • Two Domains: archaea and bacteria

  20. Prokaryotic Cell • Reproduce asexually usually by budding or binary fission

  21. Prokaryotic Cell • Structure: • cell wall • plasma membrane • nucleoid ( DNA (deoxyribonucleic acid) material) • ribosomes (function in protein synthesis) • plasmids (extra genetic material that is able to replicate independently) • Pili • Cytoplasm • flagellum • One strand of DNA, usually circular

  22. Eukaryotic Cells

  23. Characteristics of a Eukaryotic Cell • Found in all 5 kingdoms EXCEPT monera (bacteria) • Membrane bound organelles • Has a true nucleus • Unicellular and multi-cellular • Contains many strands of DNA • Larger than prokaryotic cells; 10-100 µm (1 micrometer = 0.000 1 centimeter)

  24. Structure of cell: • Cytoplasm – gel like • Mitochondria - energy source • Cell membrane • Nucleus ( the ‘control center’) – contains all the cell’s genetic material.

  25. Eukaryotic Cell • Vacuole (mostly in plant cells) - is a fluid filled sac that stores materials • Ribosomes (can be attached to the ER or are free) - are the site of protein synthesis

  26. Eukaryotic Cell • Lysosomes (contain enzymes) - engulf molecules • Chloroplasts (mostly in plant cells) - site of photosynthesis

  27. Eukaryotic Cells • Endoplasmic reticulum [ER] (made up of heavily folded membranes) - is important in protein and lipid synthesis • Golgi apparatus (is a stack of membranes) - involved in packaging of proteins

  28. Eukaryotic Cell • Cytoskeleton - supports and shapes the cell • Centriole (made up of protein tubes) – aids in mitosis • May or may not have flagellum.

  29. Similarities between Prokaryotic and Eukaryotic Cells

  30. Which came first….. • Prokaryotic or Eukaryotic???

  31. Endosymbiont Hypothesis • The idea that prokaryotic cells developed into eukaryotic cells.

  32. Endosymbiont or Endosymbiosis Hypothesis

  33. Endosymbiosis Hypothesisendo = “within” sym = together biosis = “way of life” • The idea that mitochondria and chloroplasts were at one time simple bacteria (prokaryotic cells) that were taken in by a larger prokaryotic cell about 1.5 billion years ago • These smaller bacteria gave the larger cell energy and sugars (via photosynthesis)

  34. The larger cell gave the smaller cell a safe place to live. • Both cells benefitted. • Eventually the smaller cell became an organelle apart of the larger cell.

  35. Evidence • Mitochondria and chloroplasts have their own DNA (deoxyribonucleic acids) and ribosomes. Their DNA is circular and similar to prokaryotes.

  36. Mitochondria and chloroplasts are about the same size as prokaryotes. • Mitochondria and chloroplasts are able to copy themselves within the cell.

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