A2.2

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Created by
Shree R

Subdecks (2)

Cards (102)

  • Cell theory
    1. All organisms are composed of one or more cells
    2. Cells are the smallest unit of life
    3. All cells come from pre-existing cells
  • Image size = Magnification x actual size
  • 1mm = 1000 picometers
  • Flouroscent stains
    Substances bind to a chemical, gives bright images
  • Immunoflouresence staining
    Stains antibodies to target proteins within a cell, can be tracked
  • Freeze Facture
    Requires freezing a cell and fracturing at a weak point under EM
  • Cyrogenic electron microscopy
    Transmission electron microscopy to determine the structure near atomic level
  • Plasma membrane, cytoplasm, DNA and ribosomes are present in eukaryotes and prokaryotes
  • Plasma membrane
    Seperates interior from exterior allowing for seperate chemical reactions to take place
  • Cytoplasm
    Cytosol is the liquid part of the cytoplasm
    Contains many salts, fatty acids, sugars, aminoacids which carry out metabolic processes
  • DNA
    All living organisms contain DNA as genetic material
  • Ribosomes
    Catalyzes the synthesis of polypeptides
    Prokaryotes have 70S ribosomes
    Eukaryotes have 80S ribosomes
  • Pilli
    Enables the cell to attach to the surface
  • Capsule body
    helps keep the cell from dehydration and adheres to surfaces
  • Flagellum
    Long extensions used in cell locomotion
  • Cell Wall
    Provides turgidity in order to hold the shape
  • Prokaryotic cell DNA contains
    Nucleoid
    Plasmid
  • Nucleoid
    contains the main DNA of the cell
    DNA is a single loop
    DNA is not wrapped around histones (naked)
  • Plasmid
    circular and naked DNA
    smaller than nucleoid
  • Nucleus (eukaryotic)
    Contains DNA and nucleolus where ribosomes are made
    Double membrane with pores to seperate activities
  • Ribosomes
    Catalyze the synthesis of polypeptides
    Composed of two subunits (free or bound)
  • Rough Endoplasmic Reticulum
    Series of flattened sacs that play a role on synthesis and transport of polypeptides
    Has membrane bound ribosomes
  • Smooth Endoplasmic reticulum
    Series of flattened sacs that play a role on the synthesis of phospholipids and cholesterol for membranes
    no bound membranes present
  • Golgi Apparatus
    Flattened sacs called cisternae
    Modifies polypeptides
    Sorts, packs proteins into vesicles (either within cell, plasma membrane, outside the cell)
  • Vesicles
    Membrane bound sacs containing and transports within cells
  • Lysosome
    Contains enzymes that work in oxygen poor areas
    are internal digestive centers
    Involved in the break down of molecules brought in by phagocytosis
  • Mitochondria
    Adapted for ATP production
    Double membrane
    Endosymbiosis
  • Chloroplasts
    Adapted for photosynthesis
    Endosymbiosis
  • Vacuoles
    Mature plant cells and occupies 30-90% of volume in cell
    to maintain turgor pressure
  • Cytoskeleton
    Helps maintain the shape and organizes cell
    Works together with microtubles, actin filaments.
  • Microtubles
    Polymer of protein(tubi
  • Microtubles
    Polymer of protein (tubilin) and forms cytoskeleton
    Responsible for intracellular transport
  • Centrioles
    Cylindrical shaped organelle composed of 9 rows of 3 microtubles
    Arrangement of mitotic spindle during cell division
    Serves as anchor points for microtubles in cytoplasms and for cillia/flagella
  • In unicellular organisms
    Metabolism --> Mitochondria
    Growth --> Ribosomes
    Response to stimuli --> Flagellum
  • In plant cells;
    The cell wall is composed of cellulose
    Chloroplasts store carbohydrates
    Large central vacuole is for the carbohydrate storage
    Stores carbs as starch
    No cillia/flagella
    Angular cell wall shape
    Centrosomes but no centrioles
  • Basal bodies relate to the centrosome of the base of cillia/flagella.
  • Animal cells do not have cell walls or chloroplasts
    small and numerous vacuoles
    stores carb as glycogen
    flagella/cillia is present with basalbodies
    flexible round shape
    both centrosomes + centrioles
  • Fungal cells
    cell walls are composed of chitin
    no chloroplast
    small and numerous vacuoles
    stores carbs as glycogen
    no basal bodies but cillia and flagella are present
    varying cell shape
    centrosomes no centrioles
  • Erythrocytes
    No nucleus or mitochondria
    For efficient gas exchange, and has ability to move through narrow vessels
    Increase in surface area to volume
    Concave surface for extra surface area
  • Aseptate Fungal Hyphae
    Not a single celled organism, but multiple nuclei together causing tubular projections of multicellular fungi