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Biology 107 Cellular Respiration

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September 28, 2005 Biology 107 Cellular Respiration Metabolism Review Energy Flow in Ecosystems ATP Supplies Energy for Cellular Work Modes of ATP Synthesis Exergonic ... – PowerPoint PPT presentation

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Title: Biology 107 Cellular Respiration


1
Biology 107Cellular Respiration
  • September 28, 2005

2
Metabolism Review
3
Energy Flow in Ecosystems
4
ATP Supplies Energy for Cellular Work
5
Modes of ATP Synthesis
Substrate Phosphorylation
Oxidative Phosphorylation
Reactions result in the transfer of electrons to
O2. This transfer of energy is used to
phosphorylate ADP with free Pi.
Enzyme transfers a phosphate group from a
substrate to ADP
6
Cellular Respiration Involves Oxidation-reduction
Reactions
  • C6H12O6 6O2 6CO2 6H2O

oxidation
reduction
Electrons lose potential energy along the way
7
Exergonic Reactions Advantage of Multistep
Process in Transfer of Energy to ATP
8
Summary of Multistep Reactions Used to Generate
ATP in Eukaryotic Cells
9
Glycolysis Energy Scorecard
10
Structure of NAD/NADH
e-
e-
H
H
11
Early Steps in Glycolysis
12
Later Steps in Glycolysis
13
Substrate Phosphorylation
14
Summary of Net Products of Gycolysis
Two ATPs Two water molecules Two NADHs (2H) Two
pyruvates The electrons in the NADHs can yield
ATPs through the electron transport system, and
the pyruvate can be metabolized in the Krebs
cycle.
15
In the Presence of Oxygen, Pyruvates Enter the
Mitochondrion and are Oxidized
16
In the Absence of Oxygen, Pyruvates are Fermented
to Liberate NAD
17
Lactic Acid Fermentation Compared to Alcohol
Fermentation
18
Summary
19
Cellular Respiration I
  • Student Objectives As a result of this lecture
    and the assigned reading, you should understand
    the following
  • 1. Cell release chemical energy by means of an
    exergonic process called cellular respiration,
    the aerobic harvesting of energy from food
    molecules by cells.
  • 2. Cellular respiration is the energy-releasing
    chemical breakdown of molecules and the storage
    of energy from that breakdown in a form (e.g.,
    ATP) the cell can use to perform work.

20
Cellular Respiration II
  • 3. Normally there is an oxidation of the organic
    molecule causing the hydrogen atoms (electrons
    and their accompanying protons) to be removed
    from the carbon atoms and eventually combined
    with oxygen (which is thereby reduced).
  • In cellular respiration, the electrons go from
    higher energy levels to lower energy levels, and
    energy is released. This energy is released over
    many steps as electrons move to successively
    lower energy levels. Some of that energy is lost
    as heat a portion of that energy (40) is
    captured in the terminal phosphate bonds of ATP.
  • 5. The efficiency in living systems is due to the
    fact that energy release occurs over the course
    of a series of controlled reaction steps.

21
Cellular Respiration I
  • The harvesting of energy involves the
    rearrangement of electrons in chemical bonds.
    The common theme is that a cell transfers energy
    from one molecule to another by coupling an
    exergonic reaction (energy-releasing) to an
    endergonic reaction (energy-storing). The energy
    released was stored in the specific arrangement
    of a molecule's covalent bonds, and the energy
    stored is in the new covalent bonds formed.
  • In summary, cellular respiration rearranges
    electrons in chemical bonds. These are redox
    reactions. Because an electron transfer requires
    both a donor and an acceptor, an electron leaves
    one molecule only when it contacts another
    molecule that attracts it more strongly.
  • 8. In respiration, there are two main coenzymes
    derived from B complex vitamins. First is NAD
    ,(nicotinamide adenine dinucleotide) which in
    part is derived from B3, niacin. The second
    coenzyme is FAD (flavin adenine dinucleotide),
    which in part is derived from B2, riboflavin.

22
Cellular Respiration I
  • Glucose supplies energy to form ATP by two
    related processes 1) glycolysis and 2)
    cellular respiration. The products of glycolysis
    are reactants used in respiration.
  • In glycolysis ("splitting of sugar"), the
    6-carbon glucose molecule is split into two
    3-carbon molecules, pyruvate. The net energy
    harvested from the glycolysis reactions is in the
    form of ATP and NADH.
  • a. This production of ATP in glycolysis is by
    the direct, enzyme- mediated transfer of a
    phosphate group from a substrate to ADP by the
    mechanism called substrate phosphorylation. This
    is different from electron transport (oxidative)
    phosphorylation, which requires oxygen and a
    transport system.
  • b. Glycolysis occurs in the cytosol and does not
    require oxygen (i.e., it is an anaerobic
    process).

23
Cellular Respiration I
  1. In the presence of oxygen, the pyruvates are fed
    into the second stage of energy capturing,
    cellular respiration.
  2. In the absence of oxygen, the pyruvate is
    converted to either lactic acid or ethanol. This
    conversion process is known as fermentation, and
    it produces no ATP. Fermentation is a mechanism
    for cells to replenish the supply of NAD that
    the cell is using in glycolysis.
  3. The reactions of glycolysis follow essentially
    the same routes in prokaryotes and eukaryotes,
    except the products of fermentation are more
    varied under anaerobic conditions.
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