The Cell Cell Types & Cell Parts. Cell Types Prokaryotic Cells or Prokaryotes The Bacteria.
Chapter 7:Cell Structure and Function Sec7.1: Cell theory and cell types.
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Transcript of Chapter 7:Cell Structure and Function Sec7.1: Cell theory and cell types.
Chapter 7:Cell Structure and Function
Sec7.1: Cell theory and cell types
Do Now
• In about 4-5 sentences, discuss the relationship between structure and function; use the examples of petals and/or sepals to support
your discussion.
• Read the article provided in your notes packet and answer the questions that follow.
A. The discovery of cells
1. Invention of the microscope (around 1590) was important to the discovery of cells
2. 1665 ~ Robert Hooke publishes the first drawings of cells
3.1674 ~ Anton van Leeuenhoek found organisms in pond water
4.1838 ~ Matthias Schleiden concluded that all plants are made of cells
5. 1839 ~ Theodore Schwann concluded that all animals are made of cells.
6.1855 ~ Rudolf Virchow concludes that all cells come from pre-existing cells
B. Cell Theory
1. Discoveries in the 1600’s through the 1800’s led to the development of Cell Theory.
2. Three components of cell theory:
a. All living things are composed of cells b. Cells are the basic unit of structure and function in living things c. All cells come from preexisting cells
Inquiry Activity
• “All new cells arise from existing ones”.
In your pairs, discuss and answer the following questions:
1. What characteristics of life are enumerated through this statement?2. Why is it important for new cells to arise from existing ones?
C. Two Major groups of cells = Prokaryotic and Eukaryotic cells.
1.Prokaryotic Cells a. Simple, single celled organisms whose DNA is NOT
stored in a nucleus
b. Do not have a nucleus and lack organelles that are surrounded by membranes
c. Tiny ~ much smaller than eukaryotic cells
d. Internal Structure is very simple
e. Example = bacteria
2.Eukaryotic Cells a. Complex cells whose DNA is stored in a nucleus.
b. Have a nucleus and several other organelles that are surrounded by membranes.
c. Larger than prokaryotic cells
d. Complex internal structure
e. Can be single celled or part of a multicellular organism. f. Examples:i. Plants and animals (multicellular) ii. Protists = single celled eukaryotes •Ex. = Amoeba, paramecium, euglena
D. Viruses
1.Particles made of nucleic acids and proteins that reproduce by infecting living cells a. Are viruses living???
Closure Activity
• Write down, in complete sentences, three things you learnt today.
Animal Cell Vs. Plant Cell
Inquiry Activity
• Compare and contrast an animal cell and a plant cell using a Venn Diagram.
Plasma Membrane
• Plasma Membrane is also known as cell membrane.• Plasma membrane are made of a phospholipid bilayer that is
embedded with proteins.• Plasma membrane acts as a selective barrier that allows only certain
material to enter or leave the cells.Analogy:
Nucleus
• The function of the nucleus is to house all of the cell’s genetic material.
• The nucleus is made of a nuclear envelope (an outer membrane) that protects the nucleus.
• The nucleolus is the inner fluid that makes up the nucleus.Analogy:
Cytoplasm
• Is the region between the plasma membrane and the nucleus.• It ensures smooth transportation of material inside the cell. It also
helps in providing structure for the cell.• Analogy:
Cell Wall
• Cell wall is the outermost membrane of plant cells, algae and fungi.• Cell walls are made of a tough carbohydrate fiber known as
cellulose- The cellulose result in strong and rigid cells. • Cell walls are also made of pores that allow for essentials to pass
through.• All in all the cell wall protects and supports the cell. Analogy:
Looking at the picture above, what can you deduce about the functions of cell wall? Explain in about 2-3 sentences.
Ribosomes
• Ribosomes are small particles of RNA and proteins.• Their job is to manufacture proteins.Analogy:
Rough ER
• Rough ER are packed with ribosomes and are found close to the nucleus.
• Their job is to make fats (lipids) and proteins and to store the proteins.
• Analogy:
Smooth ER
• Smooth ER are found close to nucleus are not covered with ribosomes.
• Their job is to make lipids, store proteins and detoxify the cells. Analogy:
Inquiry Activity
• The job of the liver is to detoxify chemicals. Based on this function which organelle is found in abundance in the cells of the liver? Justify.
Golgi Bodies
• The golgi bodies are made of many membranes stacked up together. They look very similar to the ER.
• Their job is to package and modify the proteins from the ER, to deliver them to the various different destinations inside and outside the cell.
Analogy:
Vacuole
• Vacuoles are large saclike structures that are found in plant cells.• Their job is to store, water and food.Analogy:
Lysosome
• Lysosomes are small circular organelles that are packed with enzymes.• Their job is to breakdown food and decompose dead matter. Analogy:
Chloroplast
• Chloroplast are found in plant cells and are organelles that are stacked with chlorophyll.
• The job of the chloroplast is to trap sunlight and water to manufacture food for the plant in a process called photosynthesis.
• The compartmentalization of the chloroplast allows for efficient synthesis of carbohydrates.
Analogy:
Mitochondria
• Mitochondria is known as the powerhouse of the cell• It is found in all eukaryotic cells• The function of the mitochondria is to produce energy.• The compartmentalization of mitochondria allows for efficient
production of energy. Analogy:
Closure activity
• http://www.pbslearningmedia.org/resource/tdc02.sci.life.cell.organelles/organelles-in-the-cytoplasm/
Cytoskeleton
• The main function of cytoskeleton is to provide shape and structure to a cell.
• Cytoskeleton are primarily proteins and are made of two parts the microfilaments and the microtubules.
• Microfilaments:
• Microtubules:
Cilia and Flagella
• The cilia is a hair like projection of the microtubule. - It helps in movement Ex:- It helps to trap dirt and other harmful micro-organisms. Ex:
The Flagella is a tail like projection of the microtubule.- It helps in movement of micro-organisms. Ex:
Cellular Transportation
A. Cell Transport1. Materials are constantly
moving across a cell’s plasma membrane
2. Plasma membranes are selectively permeable ~ allow some things to cross but not others
3. Two categories of cell transport a. Passive Transportb. Active Transport
Passive Transport
B. Passive Transport1. Molecules move from an area
of high concentration to an area of low concentration
2. Molecules move until equilibrium is reached and the number of molecules is balanced
3. This does NOT require energy
4. Examplesa. Diffusionb. Facilitated Diffusionc. Osmosis
C. Diffusion1. Molecules move across
the plasma membrane from high to low concentration until equilibrium is reached.
2. Molecules squeeze through the phospholipids of the bilayer
3. Small, non-charged and non-polar molecules squeeze through easilya. Oxygen, Carbon Dioxide
D. Facilitated Diffusion1. Molecules move
from high to low concentration with the help of a transport protein embedded in the plasma membrane
2. Proteins create tunnels for larger, polar, or charged molecules to passa. Glucose, NA+, K+
Do Now
• What is one difference and one similarity between diffusion and facilitated diffusion?
• Give a real world example of diffusion.
E. Osmosis1. The passive
transport of water across a selectively permeable membrane
2. Water moves from high to low concentration and energy is not required
3. Concentration of water (and solutes dissolved in the water) must remain in equilibrium.
a. Isotonic Solutioni. The concentration of
solute is the same outside the cell and inside the cell.
ii. Overall movement of molecules keeps the concentrations in equilibrium
NaNa
Na
Na NaNa
Na
Na
NaNaNa
Na
NaNa
Na
b. Hypertonic Solutioni. When there is more
solute outside than inside the cell.• Solute will move into the
cell ( )
ii. There is less water outside than inside the cell• Water will move out of the
cell ( ) • This will cause the cell to
shrink because it is losing water.
Na
NaNa
Na
Na
Na
NaNa
Na
Na
Na
Na
Na
NaNa
Na
NaNa
Na
Na
Na
Na
Na
Na
Na
Na
c. Hypotonic Solutioni. When there is less
solute outside than inside the cell.
• Solute will move out of the cell ( )
ii. There is more water outside than inside the cell
• Water will move into the cell ( )
• This will cause the cell to swell and possibly explode because it is gaining excess water.
Na
Na
Na
NaNa
NaNa
Na
Na
Na
NaNaNa
Na
Na
Na
Na
Na
Na
Na
Na
Na
Osmosis in Living Cells
Other Types of Cell Transport
A. Active Transport
1. Molecules are moving from an area of low concentration to an area of high concentration.
2. This requires energy ~ like getting your car up a hill
3. Protein pumps in the plasma membrane help force the molecules across
B. Endocytosis1. Process that brings REALLY large molecules or particles into the cella. Food Particlesb. Polysaccharides such as starchc. Proteins
C. Exocytosis
1. Process that takes REALLY large molecules or particles out of the cell
2. Vesicles inside the cell fuse with the plasma membrane and the materials inside the vacuole are released out of the cell.
3. Opposite of endocytosis