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Cell Structure and Organelle Function

Cell Structure and Organelle Function. What Is the Cell Theory?. Why are cells small?. Cheek cells. microscopyu.com. All Cells Share Common Features. Members of Bacteria, Eukaryota, and Archaea share common cellular features. Plasma Membrane.

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Cell Structure and Organelle Function

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  1. Cell Structure and Organelle Function

  2. What Is the Cell Theory?

  3. Why are cells small? Cheek cells. microscopyu.com

  4. All Cells Share Common Features • Members of Bacteria, Eukaryota, and Archaea share common cellular features.

  5. Plasma Membrane • A plasma membrane encloses all cells and regulates material flow

  6. Cytoplasm • Cytoplasm • Interior fluid • Where cell’s metabolic reactions occur • Contains organelles • Fluid portion (cytosol) contains water, salts, and organic molecules

  7. Genetic Material • All cells use DNA(deoxyribonucleic acid) as a hereditary blueprint • All cells use RNA(ribonucleic acid) to copy DNA to make proteins

  8. All Cells Share Common Features • All cells obtain energy and nutrients from the environment • All cells use common building blocks to build the molecules of life

  9. There Are Two Basic Cell Types • Cells are either: • Prokaryotic • Before nucleus • Eukaryotic • True nucleus • Membrane bound organelles www.ucmp.berkeley.edu/alllife/eukaryota.html

  10. Eukaryotic Cells • Eukaryotic cells > 10 µm long • Have membrane-enclosed organellesthat perform specific functions

  11. Cell Walls

  12. The Cytoskeleton

  13. The Cytoskeleton • Main functions of cytoskeleton • Maintaining and changing cell shape • Providing for cell movement • Providing for organelle movement, including vesicle endo- and exocytosis • Facilitating cell division in chromosome movements and cytokinesis

  14. Cilia and Flagella • Cilia and flagella are extensions of the plasma membrane • Cilia • Short, hair-like structures, numerous • Flagella • Longer, whip-like, fewer in number • Functions • motility • Cilia - create currents of moving fluid in environment

  15. The Nucleus • Control center of cell • Contains genetic information (in eukaryotes) • Contains: • Nuclear envelope • Chromosomes • Nucleolus

  16. System of Membranes • Membrane system includes the plasma membrane and organelle membranes

  17. Vesicles • Vesicles • membranous sacs that carry substances throughout the cell

  18. Endoplasmic Reticulum • A series of enclosed, interconnected channels within cell • Two forms of ER • Smooth ER • Rough ER

  19. Golgi Apparatus • a set of stacked flattened sacs

  20. Fate of Substances Made in the Membrane System (3) • Secreted proteins made in RER, travel through Golgi, then are exported through plasma membrane

  21. Fate of Substances Made in the Membrane System (3) • Digestive proteins made in RER, travel through Golgi, and are packaged as lysosomes for use in cell • Lysosomes fuse with food vacuolesand digest food into basic nutrients

  22. Fate of Substances Made in the Membrane System (3) • Membrane proteins and lipids made in ER, travel through Golgi, and replenish or enlarge organelle and plasma membranes

  23. Vacuoles Serve Many Functions • Fluid-filled sacs with a single membrane • Contractile vacuolesin freshwater organisms used to collect and pump water out

  24. Vacuoles Serve Many Functions • Plant central vacuolesused in several ways • Maintain water balance • Store hazardous wastes, nutrients, or pigments • Provide turgor pressure on cytoplasm to keep cells rigid

  25. Mitochondria Extract Food Energy • Mitochondria- round, oval, or tubular sacs of double-membranes • Inner membrane is folded into cristae • Intermembrane compartment lies between inner and outer membranes • Matrixspace within inner membrane

  26. Mitochondria Extract Food Energy • Mitochondria may be remnants of free-living prokaryotes (endosymbiotic hypothesis) thebrain.mcgill.ca

  27. Plants Use Plastids for Storage • Plastids found only in plants and photosynthetic protists • Ex. chloroplasts • Surrounded by a double membrane • Functions • Storage for photosynthetic products • Storage of pigment molecules

  28. Chloroplasts • Chloroplasts- specialized organelles surrounded by a double membrane • Outer membrane • Inner membrane encloses the stroma space • Stacked hollow membranous sacs (grana) within stroma are called thylakoids

  29. Chloroplasts • Contain chlorophyll and other pigments that capture sunlight, CO2, and water and are used to make sugar (photosynthesis)

  30. Prokaryotic Cells • Most prokaryotic cells (bacteria) are < 5 µm long

  31. Prokaryotic Cell Wall • A stiff cell wall is usually present

  32. Prokaryotic Cells • Motility by flagella • May have capsules or slime layerson their surfaces • Pili and fimbriae are protein projections in some bacteria that further enhance adhesion E. Coli with fimbriae. mgm.stonybrook.edu E. Coli with fimbriae. med.upenn.edu

  33. Prokaryotic Cells • Cell shapes: bacilli, cocci, or spirilla abe.ufl.edu

  34. Prokaryotic Cells • Single, circular chromosome of DNA in area called the nucleoid • Small rings of DNA (plasmids) located in the cytoplasm

  35. Prokaryotic Cells • No nuclear membrane or membrane-bound organelles present • Some have internal membranes used to capture light • Cytoplasm may contain food granules

  36. The End

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