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Energy in a Cell

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Title: Energy in a Cell


1
  • Energy in a Cell

2
  • Terms

Autotroph creates their own food
through photosynthesis or
chemosynthesis. These organisms are
producers.
Heterotroph depends upon other organisms for
nutrition. These organisms are
consumers. Some organisms, such as the
Euglena, will be photosynthetic in the presence
of light and heterotrophic without light.
Chemosynthetic Organisms that obtain cellular
energy by breaking down inorganic chemicals
3
  • Energy Carriers
  • ATP
  • temporary energy storage molecule in all cells
  • NADH
  • H and e- carrier molecule
  • NAD H e- NADH
  • FADH2
  • H and e- carrier molecule
  • FAD 2H e- FADH2
  • Think of NADH and FADH2 as taxi cabs!

4
NADH and FADH2
5
All Cells Need Energy
  • Cells need energy to do a variety of work
  • Making new molecules
  • Building membranes and organelles
  • Moving molecules in and out of the cell
  • Movement

6
Where Does A Cell Get Energy?
  • Food is broken down to a form the cell can use.
  • Extra energy is stored in an ATP molecule, a
    nucleotide.

7
What Is ATP?
  • ATP adenosine triphosphate is a molecule made
    up of an adenine, ribose, and 3 phosphate groups.

phosphate groups
8
A Simple Review
What basic unit of what organic compound is
pictured to the right?
9
How Does ATP Work?
  • Energy is stored in the bond between the second
    and third phosphate group.
  • When the bond is broken, energy is released and
    ADP is formed.

Adenine
Ribose
10
ATP Energy Currency
  • Within a cell, formation of ATP from ADP and
    phosphate occurs over and over, storing energy
    each time.
  • As the cell uses energy, ATP breaks down
    repeatedly to release energy and form ADP and
    phosphate.

11
Making Energy
  • Cells make energy in two ways
  • Photosynthesis takes place in the chloroplasts.
  • Respiration takes place in the mitochondria.

12
Photosynthesis
  • Autotrophs make their own food by trapping light
    energy and converting it to chemical energy
    (carbohydrates).

13
Photosynthesis
  • Using light from the sun, plants combine water
    and carbon dioxide to make sugar .
  • General Equation
  • 6CO2 12H2O C6H12O6 6O2 6
    H2O
  • Reactants Products

light
14
Chemosynthesis
  • Some autotrophs can convert inorganic substances
    to energy.
  • Most are adapted to live in conditions where
    there is no oxygen.
  • Marshes
  • Lake sediments
  • Digestive tracts of mammals
  • Deep in the ocean

15
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16
Cellular Respiration
  • The process of breaking down food molecules to
    release energy.
  • Aerobic respiration occurs in the mitochondria.
  • Two types
  • Aerobic requires oxygen.
  • Anaerobic requires an absence of oxygen.

17
Cellular Respiration Chemical Equation
enzymes
C6H12O6 6 O2 _ CO2 _ H2O
36-38 ATP
18
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19
Cellular Respiration
  • Cellular Respiration Steps
  • Glycolysis
  • Citric Acid Cycle
  • Electron Transport Chain

20
1. Glycolysis
  • Glucose is split to form pyruvate.
  • Takes place in the cytoplasm of the cell.
  • ATP and NADH are byproducts.

Glycolysis Chemical Equation Glucose 2 NAD
2 ADP 2 Pi 2 pyruvate 2
NADH 2 ATP 2 H2O
Enzymes
21
Glycolysis
C6H12O6
NAD
2 ATP
NADH
C3H3O4

22
Review
  • What are the inputs for Glycolysis?

Glucose 2 ATPC6H12O6 (6 carbon molecule)2 NAD
(coenzyme) 2 ADPP
What are the outputs for Glycolysis?
2 pyruvic acid (3 carbon molecules)2 NADH2 ATP
(makes 4 but 2 are needed in the process)
23
Anaerobic Respiration
  • Two types of anaerobic respiration
  • Fermentation
  • Occurs when bacteria break down plants
    (vegetables and fruit) and release alcohol or
    vinegar.
  • Lactic Acid Fermentation Occurs in muscles
    a buildup of lactic acid causes soreness.

24
Aerobic Respiration
  • 2. Citric Acid Cycle A.K.A. Krebs Cycle
  • Pyruvate is used to build citric acid (a carbon
    compound), which is broken down to release ATP.
    ( Net 2 ATP)
  • Takes place in the cristae (the folded membrane
    in the mitochondrion)
  • CO2 is released, and NADH FADH2 carry electrons
    and hydrogen ions to the electron transport
    chain.
  • Each glucose molecule takes two trips around the
    cycle!

25
Each glucose molecule takes 2 turns through the
cycle!
  • Inputs
  • Pyruvate
  • NAD
  • FAD
  • ADP Pi
  • Outputs
  • 4 NADH
  • 1 FADH2
  • 1 ATP
  • 3 CO2
  • Outputs
  • 8 NADH
  • 2 FADH2
  • 2 ATP
  • 6 CO2

26
3. Electron Transport Chain
  • Electron Transport Chain
  • Electrons are reduced, and that energy forms
    large amounts of ATP. (32-34 ATP)
  • Takes place in the inner membrane of the
    mitochondrion
  • The used ions are combined with oxygen to form
    H2O.

27
NADH
H2O
NAD
O2
FADH2
FAD
36-38 ATP
28
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29
Review
  • What are the inputs for the Krebs cycle?

1 Pyruvate (3 carbon molecule) 4 NAD 1 FAD 1
ADP Pi
What are the outputs for the Krebs cycle? (Per 1
pyruvate 1 glucose yields 2X)
4 NADH 1 FADH2 1 ATP 3 CO2
30
Review
  • What are the inputs for the ETS per one molecule
    of glucose?

10 NADH 8 from Krebs, 2 from glycolysis 2 FADH2
from Krebs cycle O2
What are the outputs for the ETS?
32-24 ATP molecules H2O
31
Total ATP Production
  • 36 -38 ATP molecules

enzymes
C6H12O6 6 O2 6 CO2 6 H2O
36-38 ATP
32
Heat
Electron Transport System
O2
ATP
H2O
NADH FADH2
NAD FAD
CO2
citric acid cycle
Glucose
ATP
Pyruvate
MITOCHONDRION
ATP
33
Sunlight
Heat
O2
Photo- System I
Photo- system II
Electron Transport System
ATP
H2O
ATP
NADH FADH2
NADP ADP
NADPH
NAD FAD
CO2
Calvin
Citric Acid
Cycle
Cycle
ATP
Glucose
Pyruvate
CHLOROPLAST
MITOCHONDRION
34
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35
Citric Acid
Cycle
36
Cellular Respiration
C6H12O6 O2 CO2 H2O 36-38 ATP
6
6
6
37
Oxidation - Reduction
  • Oxidation is the loss of elecrons from an atom or
    molecule. It is also the loss (removal) of
    hydrogen atoms from a molecule. A loss of energy
    is associated with the loss of electrons or
    hydrogen atoms.
  • Reduction is the gain of electrons or the gain of
    hydrogen atoms. This process stores energy.

38
Oxidation - Reduction
  • Oxidation and reduction occur together. When a
    atom or molecule is oxidized, another must be
    reduced.
  • Example Na Cl   NaCl-  - The Na is oxidized
    the Cl is reduced.
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