Cell Structures - PowerPoint PPT Presentation

About This Presentation
Title:

Cell Structures

Description:

Cell Structures Movement & Organelles Diffusion Movement of molecules from an area of high concentration to an area of low concentration Move to the lower ... – PowerPoint PPT presentation

Number of Views:174
Avg rating:3.0/5.0
Slides: 29
Provided by: Charles736
Category:

less

Transcript and Presenter's Notes

Title: Cell Structures


1
Cell Structures
  • Movement Organelles

2
Diffusion
  • Movement of molecules from an area of high
    concentration to an area of low concentration
  • Move to the lower concentration

3
Osmosis
  • Diffusion of water

4
Osmotic Conditions
  • Hypertonic Solution - contain a high
    concentration of solute relative to another
    solution (e.g. the cell's cytoplasm). When a cell
    is placed in a hypertonic solution, the water
    diffuses out of the cell, causing the cell to
    shrivel
  • Hypotonic Solution - contain a low concentration
    of solute relative to another solution (e.g. the
    cell's cytoplasm). When a cell is placed in a
    hypotonic solution, the water diffuses into the
    cell, causing the cell to swell and possibly
    explode.
  • Isotonic Solution solution where parts are
    equal in solute and solvent water moves across
    the membrane freely
  • http//www.tvdsb.on.ca/westmin/science/sbi3a1/Cell
    s/Osmosis.htm

5
Cell Membrane
  • 1. regulates the flow of materials in out of
    the cell
  • 2. selectively permeable only certain
    materials pass thru
  • 3. made up of bilayer of phospholipids with
    protein molecules jutting thru the layers

6
Cell Wall
  • Prokaryotic Cell Wall
  • Some have a 2nd outer layer composed of
    lipoproteins and lipopolysaccharides
  • Eukaryotic Cell Wall
  • 3 parts primary, middle lamella and secondary
    cell wall
  • Primary cell wall cellulose
  • Middle Lamella polysaccharides pectins
  • Secondary cell wall cellulose and lignin

7
Cell Wall
  • Eukaryotic Cell Wall Prokaryotic Cell Wall

8
Movement Through Membrane
  • Simple Diffusion
  • Molecules pass thru phospholipids in the membrane
  • Only occurs for small non-polar molecules

9
Movement Through Membrane
  • Passive Transport
  • 1. Protein channels
  • A. Proteins can form tunnels thru which
    molecules can diffuse
  • B. Polar molecules can travel thru

10
Movement Through Membrane
  • 2. Facilitated Diffusion
  • A. Carrier proteins bond to a molecule on one
    side of the membrane, travel across and releases
    it on the other side.
  • B. Carrier proteins bond with specific molecules
    (like enzymes do)

11
Movement Through Membrane
  • Active Transport
  • Works against a concentration gradient
  • Requires an input of energy
  • Contractile Vacuole is an example it forces
    excess water out of the cell even if it is
    against osmosis
  • http//www.biologie.uni-hamburg.de/b-online/librar
    y/biology107/bi107vc/fa99/terry/images/ATPpumA.gif

12
Organelles
  • Vacuoles sacs in cell which hold food, water,
    and enzymes
  • Vessicles small vacuoles formed from part of
    Golgi bodies to hold proteins
  • Lysosomes sac contains digestive enzymes to
    break down food or damaged organelles

13
Vacuoles and Vessicles
  • Vacuole Vessicle

14
Organelles
  • Nucleus contains cells DNA, controls proteins
    and their production
  • Cells brain
  • Surrounded by nuclear membrane which has pores to
    allow RNA to pass thru into the endoplasmic
    reticulum
  • Nucleolus inside nucleus, makes ribosomes
  • Usually each nucleus has several nucleoli

15
Nucleus
16
Organelles
  • Ribosomes
  • Tiny structure responsible for protein production
  • Has its own ribosomal RNA
  • Located in the endoplasmic reticulum

17
Endoplasmic Reticulum (ER)
  • Network of tunnels running from nucleus to Golgi
    bodies
  • Rough ER contains ribosomes, Smooth ER does not
  • Function carry proteins to the Golgi bodies and
    make new cell membrane

18
Endoplasmic Reticulum (ER)
19
Golgi Bodies
  • Stacks of membranous pouches at the end of the ER
  • Receive proteins from ER and send them to other
    organelles by putting them in vessicles

20
Mitochondria
  • Where cellular respiration occurs
  • Eukaryotes have thousands in their cells
  • Inner folded membrane (cristae) where respiration
    occurs
  • Have their own DNA and can replicate themselves

21
Mitochondria
22
Cytoskeleton
  • Network of protein fibers allow the cell to
    change its shape four types
  • 1. microtubules- involved in cell reproduction
  • 2. intermediate filaments strength/shape
  • 3. microfilaments cell locomotion
  • 4. microtrabeculae
  • connect organelles

23
Plastids(only found in plants)
  • Chloroplasts
  • green due to chlorophyll
  • Have grana and thykaloids
  • Photosynthesis occurs in thykaloids

24
Plastids(only found in plants)
  • Chromoplasts
  • Are like chloroplasts but not green
  • Allow photosynthesis to occur in different
    lighting conditions

25
Plastids(only found in plants)
  • Leucoplasts
  • Colorless, have no pigments
  • Stores starch proteins and lipids
  • Releases them when the cell needs them

26
Unicellular Movement
  • Cilia
  • Tiny hairs on outside of cell membrane used for
    locomotion

27
Unicellular Movement
  • Flagella
  • Large hair on outside of cell membrane used for
    locomotion
  • Both are composed of microtubules

28
Unicellular Movement
  • Psudopodia not truly an organelle
  • Extension of the cytoplasm which the rest of the
    cytoplasm flows to
  • Used for movement
  • Surrounds and captures prey
Write a Comment
User Comments (0)
About PowerShow.com