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HONORS BIOLOGY CHAPTER 5 REVIEW

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Title: Energy and the Cell Author: Rod Sheldon Last modified by: Sheldon, Cinda Created Date: 1/2/2005 10:26:20 PM Document presentation format: On-screen Show (4:3) – PowerPoint PPT presentation

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Title: HONORS BIOLOGY CHAPTER 5 REVIEW


1
HONORS BIOLOGYCHAPTER 5 REVIEW
2
1
  • Why is fluid mosaic a good description of the
    plasma membrane?
  • Structures shift in place
  • Watery hydrophilic heads and hydrophobic (fatty
    tails)

3
1
  • Why is the cell membrane called a phospholipid
    bilayer?
  • Two layers of phospho heads and fatty acid tails

4
2
  • Six functions of proteins in a plasma membrane
    p.74
  • Attach to ECM
  • Signal transduction
  • Transport
  • Intercellular junction
  • Cell-cell recognition
  • Enzymatic activity

5
3
  • Can easily enter
  • Hydrophobic molecules (oil soluble)
  • O2, N2 (small)
  • Nonpolar benzene
  • Very small uncharged or small polar molecules
    H2O, Urea, glycerol, CO2
  • Can NOT easily enter
  • Large uncharged Glucose,Sucrose
  • Polar molecules sucrose (see OH groups)
  • Hydrophilic
  • Ions (charged) H , Na , HCO3 , K, Ca2, Cl-,
    Mg2

6
4
  • 3 types of passive transport
  • Diffusion-just passing of hi to low
  • Osmosis-passing of water thru a selectively
    permeable memb.
  • Facilitated Hi to low through a protein channel

7
5
  • What does it mean to go down the gradient?
    (passive)
  • Move from hi to low concentration
  • What does it mean to go against the gradient?
    (active transport)
  • Move from low to high (with energy-usually ATP)

8
6
  • What direction does the water flow if a cell of
    4 solutes is placed in

10
4
0
9
6
  • What direction does the water flow if a cell of
    4 solutes is placed in
  • REMEMBER HYPO TO HYPER

10
4
0
4
10
7
  • What is tonicity?
  • Measure of osmotic pressure gradient determined
    by the solute concentration that cannot cross the
    selectively permeable membrane

11
7
  • Note water flows from high water concentration to
    low (hypo to hyper)

12
8 Animal Cells p.77
13
8 Plants
14
9
  • How does the contractile vacuole control water in
    a paramecium?
  • Contractile vacuole youtube
  • Water squeezed out of vacuole

15
10 p. 78
  • What is an aquaporin?
  • Integral membrane proteins moving water
  • 3 billion more times than just moving through a
    regular plasma membrane

16
11
  • Exocytosis and endocytosis are both
  • active transport.
  • Protein channels span the membrane.
  • Endocytosis and exocytosis engulf the particle
    with the membrane.

17
12
  • Large liquid
    receptors
  • Particle drops
    specific

18
13
  • Ability to cause change or do work
  • L. energy
  • Thermal energy
  • O. heat

19
13
  • Energy as a result of location or structure
  • I. potential
  • Type of energy released or need in molecules
  • N. chemical

20
13
  • Study of energy transformations
  • M thermodynamics
  • Reaction that releases energy
  • E. exergonic

21
13
  • Makes products rich in potential energy
  • G. Endergonic
  • Energy of motion
  • J. kinetic

22
13
  • Measure of disorder
  • B. Entropy
  • Energy in the universe is constant
  • C.1st Law of Thermodynamics

23
13
  • Energy from exergonic to run endergonic
  • K. Energy coupling
  • Total of an organisms chemical reactions
  • F. metabolism

24
13
  • Series of chemical reactions.
  • A. Metabolic pathway

25
13
  • Energy conversions increase the entropy
  • D. 2nd Law of Thermodynamics
  • Cells use oxygen to release energy from molecules
  • H. Cellular respiration

26
14
  • What does ATP stand for?
  • Adenosine triphosphate

27
15
  • What part of the ATP molecule is lost or gained?
  • Last Phosphate
  • Is ATP recyclable?
  • YES

28
16
  • Is ATP made by phosphorylation?
  • YES ADP P ATP
  • ADP is made by hydrolysis.
  • ATP ADP P

29
17
  • Is ATP made from exergonic reactions or
    endergonic?
  • Endergonic

30
18
  • What is activation energy?
  • Amount of energy needed to get a reaction going.
  • Why is this energy needed?
  • Reactants are stable and bonds need to be broken
    or distorted.

31
18
  • How do enzymes affect the amount of activation
    energy needed?
  • Reduces the activation energy needed
  • Why?
  • Enzyme brings the reactants together.

32
19
  • Why are enzymes called Biological catalysts?
  • They are proteins (biological) and speed up
    reactions without changing themselves (catalyst).

33
20
  • SKETCH HOW AN ENZYME WORKS
  • Enzyme will bring substrate(s) together and
    contort bonds at the active site

products
34
21
  • What is the purpose of the induced fit (hand
    shake) of an enzyme-substrate complex?
  • The enzyme slightly changes the shape of the
    active site to contort/break substrate bonds.

35
22
  • Why might too high temperatures make an enzyme
    not function properly?
  • Denature (unravel) the enzyme and change the
    shape of the active site.

36
23
  • What is the optimal temperature for most human
    enzymes?
  • 35-40o C
  • (body temp is 37oC)
  • What is the optimal pH for most enzymes?
  • 6-8

37
24
  • What is the difference between cofactors and
    coenzymes?
  • Cofactors are inorganic and coenzymes are organic.

38
25
  • Sketch an enzyme with a competitive inhibitor.

39
26
  • Sketch an enzyme and its substrate with a
    noncompetitive inhibitor.

40
enzyme
Allosteric site
41
28
  • What is it called if a cell produces more product
    than it needs and the product act as an inhibitor?
  • Feedback inhibition (negative feedback)

42
29 MATCH
  • Inhibits prostanglandins (sensation of pain)
  • Blocks bact. Cell walls
  • Blood pressure meds
  • Target HIV

Ibuprofen Penicillin Beta blockers Protease
inhibitors
43
30
44
31
  • LABEL THE PLASMA MEMBRANE
  • Phospho head A1
  • Cholesterol E
  • Lipid tail A2
  • Protein pump G
  • Carbohydrate chain D
  • Glycolipid F

45
31
  • H
  • I
  • A
  • B
  • C
  • Peripheral protein
  • Glycoprotein
  • Phospholipid
  • Receptor protein
  • Passive transport protein

46
32.
  • If given the concentrations in and out of
    dialysis tubing of sucrose solutions predict
    movement of distilled water.
  • 1M
  • 0.8 M
  • 0.6 M
  • 0.4 M
  • 0.2 M
  • 0.0 M

47
32.movement of water
  • 1M in tube
  • 0.8 M in tube
  • 0.6 M in tube
  • 0.4 M in tube
  • 0.2 M in tube
  • 0.0 M in/out
  • If given the concentrations in and out of
    dialysis tubing of sucrose solutions predict
    movement of distilled water.

48
What is the molarity of the potato core? (where
line crosses zero line) 0.3M
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