Title: Cell Processes
1Cell Processes
2What happened to the egg in vinegar????
3List some things that would go through this
strainer.List some things that would NOT go
through this strainer.
4Vocabulary Words
- Solution
- Solute
- Solvent
- Concentration
- Homeostasis
- Hypertonic
- Hypotonic
- Isotonic
- Permeable
5Selectively Permeable
- What did the strainer allow to pass through?
- If the strainer is permeable to water sugar,
what does permeable mean? - What could not pass through the strainer?
- If the strainer is impermeable to pennies
paperclips, what does impermeable mean? - What do you think selectively permeable means?
- What about semi-permeable?
6Homeostasis
- Homeo same
- Stasis condition
A biological balance A process in which
organisms maintain an internal balance
(equilibrium)
7Cell Membrane
NERVE CELL
Gap between cells
Cell membrane
cell membrane 7nm wide
NERVE CELL
8Cell Membrane
Carbohydrate Chains
Proteins
Protein Channel
Lipid Bilayer
9Lipid Bilayer
10Lipid Bilayer
- Phosphate head is polar
- Hydrophilic end
- Fatty Acid tails are nonpolar
- Hydrophobic end
- Hydro water
- Phobic fear
- Phillic loving
_
11Construction of the Cell Membrane
How could proteins help some molecules pass
through the membrane?
Carbohydrate Chains
Proteins
Protein Channel
Lipid Bilayer
12Solutions
- What does the sugar/food coloring represent?
- Solute
- What does the water represent?
- Solvent
- Which solution has a greater concentration of
solute? - Which solution has more solvent?
13Solutions
- Hyper above (high)
- Iso same (equal)
- Hypo below (low)
- Tonic strength
- Hypertonic?
- Hypotonic?
- Isotonic?
14Molecule Transport Across Cell Membranes
TYPE DESCRIPTION ENERGY NEEDED ACTIVE or PASSIVE TRANSPORT
Osmosis
Diffusion
Facilitated Diffusion
Endocytosis
Exocytosis
15- Process that requires energy to move materials
across cell membranes against a concentration
gradient
- Process that does NOT requires energy to move
materials across cell membranes against a
concentration gradient
16Osmosis
- Diffusion of WATER (solvent) across a selectively
permeable membrane
- Above/High
- Solution with the higher concentration of solute
Hypertonic
- Same/Equal
- Solutions have the same concentration of a solute
Isotonic
- Below/Low
- Solution with the lower concentration of solute
Hypotonic
17Osmosis
- What happens to cells placed in an isotonic
solution? - Water moves in out equally stay same size
- What happens to cells placed in a hypertonic
solution? - Water moves out of cell
- Animal cells shrink Plant cells shrink or wilt
- What happens to cells placed in a hypotonic
solution? - Water moves into cell
- Animal cells swell may burst Plant cells
become more rigid
18Osmosis
19Diffusion
- Everyone group together
- at the front of the room
20Diffusion
- How long did it take you to detect the odor?
- How did the smell get from the balloon to your
nose? - How do you think the molecules of the vanilla
travel from the balloon to your nose? Straight
line, zig zag? - Diffusion movement of PARTICLES (solute) from a
region of high concentration to a region of low
concentration
21Diffusion in Air
22Diffusion in Water
23Diffusion Demonstration
24Diffusion
- Molecules tend to move from areas of ______
concentration to areas of _______concentration. - Is the bag or beaker more concentrated in starch?
- Is the bag or beaker more concentrated in iodine?
- Iodine Solution is the bag or beaker hypertonic?
- Starch Solution is the bag or beaker hypertonic?
high
low
25Diffusion
- If the bag is permeable to starch, which way
would the starch move? - If the bag is permeable to iodine, which way
would the iodine move? - Make a prediction about what you think will
happen. - Is the starch going to move out of the bag??????
- Is the iodine going to move into the bag???????
Out of the bag
Into the bag
26Diffusion
- Iodine is an indicator for starch.
- An indicator changes color in the presence of the
substance it indicates. - Iodine turns blue/black in the presence of starch
- Make a prediction about what you think will
happen to the color of both solutions. - Will the beaker solution turn colors??????
- Will the bag solution turn colors???????
27Diffusion
- Which substance moved, the iodine or the starch?
- The plastic bag was permeable to which substance?
- Why is it not a good idea to store iodine in a
plastic bag? - What cell structure does the bag represent?
Iodine
Because iodine would leak out of bag
Cell Membrane
28Diffusion
- What does permeable mean?
- Allows materials to pass
- Was the bag selectively permeable?
- Yes
- Why?
- It only allowed certain materials to pass
29Warm-up
30Cell Membrane
Carbohydrate Chains
Proteins
Protein Channel
Lipid Bilayer
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32Osmosis
33Lab Preparation
- Each team member will need to participate take
an active part in lab - Getter get materials/equipment only one to
leave table! - Shusher make sure everyone stays on task
doesnt get too loud. Makes sure entire group is
helping to answer questions. - Reader reads lab aloud before during lab
- Checker make sure all questions are answered,
names are on paper, turned in, etc.
347th Period
Orange Anthony, Nichole,Jaqueline, Hayden
Yellow Ambreasha, James, Amanda, Mavricio
Green Jazmyne, Caitlin, Heath, John
Black Tiara, Robert, Alysse, Michael
Red Camauni, David, Carolina, Irvin
Blue Edwin, KaDeedra, Fabian, Cecelia
35Osmosis
Every student turn in lab report! Make sure your
name is on it!
366th Period
Orange Chris, Joymina, Eduardo, Ronald
Yellow Brandi, Nikki, Kalaya, David
Green Leslie, Moneshia, Jerry, QuaVante
Black Cynthia
Red Traeveon, Eryka, Christian,Jennifer
Blue Kevin, Tuyen, Miguel, Guillermo
375th Period
Orange Eunice, Chris, Keith, Rainey
Yellow Cecilia, Serena, Carly, Melissa
Green Nathan, Jalestine, Elizabeth, Adam
Black Lauren, Sabryn, Ivon, Jamie, Dalton,
Red Christina, Shafter, Lyndsay, Erik, Jose
Blue Quindon, Lesly, Ray, Francisco
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39- Process that requires energy to move materials
across cell membranes against a concentration
gradient
- Process that does NOT requires energy to move
materials across cell membranes against a
concentration gradient
40Facilitated Diffusion
- Movement of molecules across a membrane through
protein channels - TAKES NO ENERGY!!
41Passive Transport
- Osmosis
- Diffusion
- Facilitated Diffusion
42Endocytosis
endo inside cyto cell osis process
A process in which a cell takes materials in
by membrane folding ENERGY NEEDED
43Endocytosis
44Exocytosis
exo outside cyto cell osis process
A process in which a cell removes large amounts
of materials ENERGY NEEDED
45Exocytosis
46Active Transport
47Molecule Transport Across Cell Membranes
TYPE DESCRIPTION ENERGY NEEDED ACTIVE or PASSIVE TRANSPORT
Osmosis
Diffusion
Facilitated Diffusion
Endocytosis
Exocytosis
48Molecule Transport Across Cell Membranes
TYPE DESCRIPTION ENERGY NEEDED ACTIVE or PASSIVE TRANSPORT
Osmosis Diffusion of water across a selectively permeable membrane
Diffusion
Facilitated Diffusion
Endocytosis
Exocytosis
49Molecule Transport Across Cell Membranes
TYPE DESCRIPTION ENERGY NEEDED ACTIVE or PASSIVE TRANSPORT
Osmosis Diffusion of water across a selectively permeable membrane NO
Diffusion
Facilitated Diffusion
Endocytosis
Exocytosis
50Molecule Transport Across Cell Membranes
TYPE DESCRIPTION ENERGY NEEDED ACTIVE or PASSIVE TRANSPORT
Osmosis Diffusion of water across a selectively permeable membrane NO Passive Transport
Diffusion
Facilitated Diffusion
Endocytosis
Exocytosis
51Molecule Transport Across Cell Membranes
TYPE DESCRIPTION ENERGY NEEDED ACTIVE or PASSIVE TRANSPORT
Osmosis Diffusion of water across a selectively permeable membrane NO Passive Transport
Diffusion Movement of solute from a region of high concentration to a region of low concentration
Facilitated Diffusion
Endocytosis
Exocytosis
52Molecule Transport Across Cell Membranes
TYPE DESCRIPTION ENERGY NEEDED ACTIVE or PASSIVE TRANSPORT
Osmosis Diffusion of water across a selectively permeable membrane NO Passive Transport
Diffusion Movement of solute from a region of high concentration to a region of low concentration NO
Facilitated Diffusion
Endocytosis
Exocytosis
53Molecule Transport Across Cell Membranes
TYPE DESCRIPTION ENERGY NEEDED ACTIVE or PASSIVE TRANSPORT
Osmosis Diffusion of water across a selectively permeable membrane NO Passive Transport
Diffusion Movement of solute from a region of high concentration to a region of low concentration NO Passive Transport
Facilitated Diffusion
Endocytosis
Exocytosis
54Molecule Transport Across Cell Membranes
TYPE DESCRIPTION ENERGY NEEDED ACTIVE or PASSIVE TRANSPORT
Osmosis Diffusion of water across a selectively permeable membrane NO Passive Transport
Diffusion Movement of solute from a region of high concentration to a region of low concentration NO Passive Transport
Facilitated Diffusion Movement of molecules across a membrane through protein channels
Endocytosis
Exocytosis
55Molecule Transport Across Cell Membranes
TYPE DESCRIPTION ENERGY NEEDED ACTIVE or PASSIVE TRANSPORT
Osmosis Diffusion of water across a selectively permeable membrane NO Passive Transport
Diffusion Movement of solute from a region of high concentration to a region of low concentration NO Passive Transport
Facilitated Diffusion Movement of molecules across a membrane through protein channels NO
Endocytosis
Exocytosis
56Molecule Transport Across Cell Membranes
TYPE DESCRIPTION ENERGY NEEDED ACTIVE or PASSIVE TRANSPORT
Osmosis Diffusion of water across a selectively permeable membrane NO Passive Transport
Diffusion Movement of solute from a region of high concentration to a region of low concentration NO Passive Transport
Facilitated Diffusion Movement of molecules across a membrane through protein channels NO Passive Transport
Endocytosis
Exocytosis
57Molecule Transport Across Cell Membranes
TYPE DESCRIPTION ENERGY NEEDED ACTIVE or PASSIVE TRANSPORT
Osmosis Diffusion of water across a selectively permeable membrane NO Passive Transport
Diffusion Movement of solute from a region of high concentration to a region of low concentration NO Passive Transport
Facilitated Diffusion Movement of molecules across a membrane through protein channels NO Passive Transport
Endocytosis When cells take materials in by membrane folding
Exocytosis
58Molecule Transport Across Cell Membranes
TYPE DESCRIPTION ENERGY NEEDED ACTIVE or PASSIVE TRANSPORT
Osmosis Diffusion of water across a selectively permeable membrane NO Passive Transport
Diffusion Movement of solute from a region of high concentration to a region of low concentration NO Passive Transport
Facilitated Diffusion Movement of molecules across a membrane through protein channels NO Passive Transport
Endocytosis When cells take materials in by membrane folding YES
Exocytosis
59Molecule Transport Across Cell Membranes
TYPE DESCRIPTION ENERGY NEEDED ACTIVE or PASSIVE TRANSPORT
Osmosis Diffusion of water across a selectively permeable membrane NO Passive Transport
Diffusion Movement of solute from a region of high concentration to a region of low concentration NO Passive Transport
Facilitated Diffusion Movement of molecules across a membrane through protein channels NO Passive Transport
Endocytosis When cells take materials in by membrane folding YES Active Transport
Exocytosis
60Molecule Transport Across Cell Membranes
TYPE DESCRIPTION ENERGY NEEDED ACTIVE or PASSIVE TRANSPORT
Osmosis Diffusion of water across a selectively permeable membrane NO Passive Transport
Diffusion Movement of solute from a region of high concentration to a region of low concentration NO Passive Transport
Facilitated Diffusion Movement of molecules across a membrane through protein channels NO Passive Transport
Endocytosis When cells take materials in by membrane folding YES Active Transport
Exocytosis When cells remove large amounts of materials
61Molecule Transport Across Cell Membranes
TYPE DESCRIPTION ENERGY NEEDED ACTIVE or PASSIVE TRANSPORT
Osmosis Diffusion of water across a selectively permeable membrane NO Passive Transport
Diffusion Movement of solute from a region of high concentration to a region of low concentration NO Passive Transport
Facilitated Diffusion Movement of molecules across a membrane through protein channels NO Passive Transport
Endocytosis When cells take materials in by membrane folding YES Active Transport
Exocytosis When cells remove large amounts of materials YES
62Molecule Transport Across Cell Membranes
Transport Animations
TYPE DESCRIPTION ENERGY NEEDED ACTIVE or PASSIVE TRANSPORT
Osmosis Diffusion of water across a selectively permeable membrane NO Passive Transport
Diffusion Movement of solute from a region of high concentration to a region of low concentration NO Passive Transport
Facilitated Diffusion Movement of molecules across a membrane through protein channels NO Passive Transport
Endocytosis When cells take materials in by membrane folding YES Active Transport
Exocytosis When cells remove large amounts of materials YES Active Transport
63Endosymbiotic Theory
64- Would you consider cells to be simple or complex?
- How did cells become so complex?
- Endo within
- Symbiosis 2 organisms living together
- What does endosymbiosis mean?
65http//highered.mcgraw-hill.com/sites/9834092339/s
tudent_view0/chapter4/animation_-_endosymbiosis.ht
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66Endosymbiotic Theory
- Page 427
- Proposes that eukaryotic (have nuclei) cells
arose from living communities formed by
prokaryotic (no nuclei) organisms.
67Endosymbiotic Theory
- Mitochondria Chloroplasts are very similar to
prokaryotic bacteria - DNA
- Ribosomes
- Reproduce by binary fission
- 2 membranes
68Endosymbiotic Theory
69OM NOM NOM NOM
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72- The endosymbiotic theory suggests that eukaryotes
developed when a prokaryotic cell was engulfed by
another prokaryotic cell continued living
inside the other cell. One piece of evidence for
this is that some organelles have their own DNA.
Which of these organelles has its own DNA and is
thought to have developed in this way? - Cell membrane
- Mitochondria
- Golgi apparatus
- Vacuole
73Osmosis
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