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Cell Structure and Function Cells • Smallest living unit • Most are microscopic Discovery of Cells • Robert Hooke (mid-1600s) – Observed sliver of cork – Saw “row of empty boxes” – Coined the term cell Cell theory • (1839)Theodor Schwann & Matthias Schleiden “ all living things are made of cells” • (50 yrs. later) Rudolf Virchow “all cells come from cells” Principles of Cell Theory • All living things are made of cells • Smallest living unit of structure and function of all organisms is the cell • All cells arise from preexisting cells (this principle discarded the idea of spontaneous generation) Cell Size Characteristics of All Cells • • • • A surrounding membrane Protoplasm – cell contents in thick fluid Organelles – structures for cell function Control center with DNA Cell Types • Prokaryotic • Eukaryotic Prokaryotic Cells • First cell type on earth • Cell type of Bacteria and Archaea Prokaryotic Cells • No membrane bound nucleus • Nucleoid = region of DNA concentration • Organelles not bound by membranes Eukaryotic Cells • Nucleus bound by membrane • Include fungi, protists, plant, and animal cells • Possess many organelles Protozoan Representative Animal Cell Representative Plant Cell Organelles • Cellular machinery • Two general kinds – Derived from membranes – Bacteria-like organelles Bacteria-Like Organelles • Derived from symbiotic bacteria • Ancient association • Endosymbiotic theory – Evolution of modern cells from cells & symbiotic bacteria Plasma Membrane • Contains cell contents • Double layer of phospholipids & proteins Phospholipids • Polar – Hydrophylic head – Hydrophobic tail • Interacts with water Movement Across the Plasma Membrane • A few molecules move freely – Water, Carbon dioxide, Ammonia, Oxygen • Carrier proteins transport some molecules – Proteins embedded in lipid bilayer – Fluid mosaic model – describes fluid nature of a lipid bilayer with proteins Membrane Proteins 1. Channels or transporters – Move molecules in one direction 2. Receptors – Recognize certain chemicals Membrane Proteins 3. Glycoproteins – Identify cell type 4. Enzymes – Catalyze production of substances Cell Walls • Found in plants, fungi, & many protists • Surrounds plasma membrane Cell Wall Differences • Plants – mostly cellulose • Fungi – contain chitin Cytoplasm • Viscous fluid containing organelles • components of cytoplasm – – – – Interconnected filaments & fibers Fluid = cytosol Organelles (not nucleus) storage substances Cytoskeleton • Filaments & fibers • Made of 3 fiber types – Microfilaments – Microtubules – Intermediate filaments • 3 functions: – mechanical support – anchor organelles – help move substances A = actin, IF = intermediate filament, MT = microtubule Cilia & Flagella • Provide motility • Cilia – Short – Used to move substances outside human cells • Flagella – Whip-like extensions – Found on sperm cells • Basal bodies like centrioles Cilia & Flagella Structure • Bundles of microtubules • With plasma membrane Centrioles • Pairs of microtubular structures • Play a role in cell division Membranous Organelles • Functional components within cytoplasm • Bound by membranes Nucleus • Control center of cell • Double membrane • Contains – Chromosomes – Nucleolus Nuclear Envelope • Separates nucleus from rest of cell • Double membrane • Has pores DNA • Hereditary material • Chromosomes – DNA – Protiens – Form for cell division • Chromatin Nucleolus • Most cells have 2 or more • Directs synthesis of RNA • Forms ribosomes Endoplasmic Reticulum • Helps move substances within cells • Network of interconnected membranes • Two types – Rough endoplasmic reticulum – Smooth endoplasmic reticulum Rough Endoplasmic Reticulum • Ribosomes attached to surface – Manufacture protiens – Not all ribosomes attached to rough ER • May modify proteins from ribosomes Smooth Endoplasmic Reticulum • No attached ribosomes • Has enzymes that help build molecules – Carbohydrates – Lipids Golgi Apparatus • Involved in synthesis of plant cell wall • Packaging & shipping station of cell Golgi Apparatus Function 1. Molecules come in vesicles 2. Vesicles fuse with Golgi membrane 3. Molecules may be modified by Golgi Golgi Apparatus Function (Continued) 4. Molecules pinched-off in separate vesicle 5. Vesicle leaves Golgi apparatus 6. Vesicles may combine with plasma membrane to secrete contents Lysosomes • Contain digestive enzymes • Functions – Aid in cell renewal – Break down old cell parts – Digests invaders Vacuoles • Membrane bound storage sacs • More common in plants than animals • Contents – Water – Food – wastes Bacteria-Like Organelles • Release & store energy • Types – Mitochondria (release energy) – Chloroplasts (store energy) Mitochondria • Have their own DNA • Bound by double membrane Mitochondria • Break down fuel molecules (cellular respiration) – Glucose – Fatty acids • Release energy – ATP Chloroplasts • Derived from photosynthetic bacteria • Solar energy capturing organelle Photosynthesis • Takes place in the chloroplast • Makes cellular food – glucose Molecule Movement & Cells • Passive Transport • Active Transport • Endocytosis (phagocytosis & pinocytosis) • Exocytosis Passive Transport • No energy required • Move due to gradient – differences in concentration, pressure, charge • Move to equalize gradient – High moves toward low Types of Passive Transport 1. Diffusion 2. Osmosis 3. Facilitated diffusion Diffusion • Molecules move to equalize concentration Osmosis • Special form of diffusion • Fluid flows from lower solute concentration • Often involves movement of water – Into cell – Out of cell Solution Differences & Cells • solvent + solute = solution • Hypotonic – Solutes in cell more than outside – Outside solvent will flow into cell • Isotonic – Solutes equal inside & out of cell • Hypertonic – Solutes greater outside cell – Fluid will flow out of cell Facilitated Diffusion • Differentially permeable membrane • Channels (are specific) help molecule or ions enter or leave the cell • Channels are usually made of transport proteins (aquaporins facilitate the movement of water) • No energy is used Process of Facilitated Transport • Protein binds with molecule • Shape of protein changes • Molecule moves across membrane Active Transport • Molecular movement • Requires energy (against gradient) • Example is sodium-potassium pump Endocytosis • Movement of large material – Particles – Organisms – Large molecules • Movement is into cells • Types of endocytosis – bulk-phase (nonspecific) – receptor-mediated (specific) Process of Endocytosis • Plasma membrane surrounds material • Edges of membrane meet • Membranes fuse to form vesicle Forms of Endocytosis • Phagocytosis – cell eating • Pinocytosis – cell drinking Exocytosis • Reverse of endocytosis • Cell discharges material Exocytosis • Vesicle moves to cell surface • Membrane of vesicle fuses • Materials expelled The Cell Cycle & Cell Division The Cell Cycle http://www.nobel.se/medicine/laureates/2001/press.html MITOSIS Mitosis The process of cell division which results in the production of two daughter cells from a single parent cell. The daughter cells are identical to one another and to the original parent cell. Mitosis can be divided into stages • Interphase • Prophase • Metaphase • Anaphase • Telophase & Cytokinesis Interphase The cell prepares for division • Animal Cell – DNA replicated – Organelles replicated – Cell increases in size • Plant Cell – DNA replicated – Organelles replicated – Cell increases in size Interphase Animal Cell Plant Cell Photographs from: http://www.bioweb.uncc.edu/biol1110/Stages.htm Prophase The cell prepares for nuclear division • Animal Cell – Packages DNA into chromosomes • Plant cell – Packages DNA into chromosomes Prophase Animal Cell Plant Cell Photographs from: http://www.bioweb.uncc.edu/biol1110/Stages.htm Metaphase The cell prepares chromosomes for division • Animal Cell – Chromosomes line up at the center of the cell – Spindle fibers attach from daughter cells to chromosomes at the centromere • Plant Cell – Chromosomes line up at the center of the cell – Spindle fibers attach from daughter cells to chromosomes at the centromere Metaphase Animal Cell Plant Cell Photographs from: http://www.bioweb.uncc.edu/biol1110/Stages.htm Anaphase The chromosomes divide • Animal Cell – Spindle fibers pull chromosomes apart – ½ of each chromosome (called chromotid) moves to each daughter cell • Plant Cell – Spindle fibers pull chromosomes apart – ½ of each chromosome (called chromotid) moves to each daughter cell Anaphase Animal Cell Plant Cell Photographs from: http://www.bioweb.uncc.edu/biol1110/Stages.htm Telophase The cytoplasm divides • Animal Cell – DNA spreads out – 2 nuclei form – Cell membrane pinches in to form the 2 new daughter cells • Plant Cell – DNA spreads out – 2 nuclei form – New cell wall forms between to nuclei to form the 2 new daughter cells Telophase Animal Cell Plant Cell Photographs from: http://www.bioweb.uncc.edu/biol1110/Stages.htm Animal Mitosis -- Review Interphase Prophase Metaphase Anaphase Telophase Interphase Plant Mitosis -- Review Interphase Prophase Metaphase Anaphase Telophase Interphase MEIOSIS Meiosis Meiosis is the type of cell division by which germ cells (eggs and sperm) are produced. One parent cell produces four daughter cells. Daughter cells have half the number of chromosomes found in the original parent cell Meiosis During meiosis, DNA replicates once, but the nucleus divides twice. Meiosis Four stages can be described for each division of the nucleus. Meiosis I First division of meiosis First Division of Meiosis • Prophase 1: Each chromosome duplicates and remains closely associated. These are called sister chromatids. • Metaphase 1: Chromosomes align at the center of the cell. • Anaphase 1: Chromosome pairs separate with sister chromatids remaining together. • Telophase 1: Two daughter cells are formed with each daughter containing only one chromosome of the chromosome pair. Prophase I http://everyschool.org/u/logan/cellreproductionx/rogersa/research/meiosis.html Prophase I http://everyschool.org/u/logan/cellreproductionx/rogersa/research/meiosis.html Metaphase I http://everyschool.org/u/logan/cellreproductionx/rogersa/research/meiosis.html Telophase I http://everyschool.org/u/logan/cellreproductionx/rogersa/research/meiosis.html Meiosis Second Division of Meiosis Second Division of Meiosis • Prophase 2: DNA does not replicate. • Metaphase 2: Chromosomes line up at the center of the cell • Anaphase 2: Centromeres divide and sister chromatids move separately to each pole. • Telophase 2: Cell division is complete. Four haploid daughter cells are formed. Prophase II http://everyschool.org/u/logan/cellreproductionx/rogersa/research/meiosis.html Metaphase II http://everyschool.org/u/logan/cellreproductionx/rogersa/research/meiosis.html Telophase II http://everyschool.org/u/logan/cellreproductionx/rogersa/research/meiosis.html Meiosis http://www.biosci.uga.edu/almanac/bio_103/notes/apr_3.html. Differences in Mitosis & Meiosis • Mitosis – – – – Asexual Cell divides once Two daughter cells Genetic information is identical • Meiosis – Sexual – Cell divides twice – Four haploid daughter cells – Genetic information is different
