bio201a cell biology lecture 12 monday 02/12/07
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BIO201A Cell Biology Lecture 12 Monday 02/12/07. Important Announcements:. Exam on Friday, Feb 16th, 9AM in Knox20. First exam will cover material up to and including today. Thirty four (34) multiple choice questions. See next page for exam instructions. - PowerPoint PPT PresentationTRANSCRIPT
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BIO201A Cell Biology
Lecture 12
Monday 02/12/07
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Important Announcements:
– Exam on Friday, Feb 16th, 9AM in Knox20.
– First exam will cover material up to and including today. Thirty four (34) multiple choice questions.
See next page for exam instructions.
– Reading in Chapter 9 for upcoming lectures.
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For the Exam
1. All you need are pencils (not pens), an eraser, your 8 digit Student Number, and Student ID.
2. Wait to enter the room until you are told.3. Do not open your envelopes until you are told to do so.4. The first thing you will do (when told to) is to put your name,
Student Number, and exam form number in the correct spaces on the answer sheet.
5. The exam will end at 9:50 AM. No extra time will be given.6. You must put your exam and answer sheet in your envelope
and turn it in to get a grade7. Do not seal the envelope.
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Chloroplasts and Photosynthesis
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Chloroplast
1. The envelope membrane is a double membrane. These membranes are not the photosynthetic membranes
2. The thylakoid membranes are the photosynthetic membranes inside the chloroplasts.
The light harvesting proteins (pigments), electron transport proteins and the ATP synthetase are all on or in the thylakoid membranes
3. The lumen is the aqueous area inside the thylakoids
4. The stroma is the aqueous area outside the thylakoids
5. No TCA cycle in chloroplasts. They are different than mitochondria. They do have their own DNA but 90% of their proteins come from nuclear-encoded genes
Thylakoid membranes are high in protein and have no cholesterol
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Chloroplast
About how wide is this chloroplast?
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Comparison of mitochondria and chloroplast
Mitochondria
F1 faces the matrix
High H+ outside of the inner membrane
ADP + Pi ATPMatrix
Stroma
Intermembrane space
lumen
ADP + Pi ATP
H+H+ H+ H+
H+
H+H+
H+
H+ H+H+ H+H+
H+ H+
Chloroplast
CF1 faces the stroma
High H+ inside the thylakoid membranes
Thylakoid membrane
Inner membraneChloroplasts are like inside-out mitochondria
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In both mitochondria and chloroplasts, H+ flux is coupled to ATP synthesis
H+
H+H+
H+H+
H+
H+H+
H+
H+H+
Membrane
ADP + Pi
ATP
High [H+]
Low pH
Low [H+]
High pH
F1 of mitochondria
CF1 of chloroplasts
In both, ATP is made when H+ flow from the low pH side to high pH side
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Chloroplasts
H2O oxidized to O2
Energy required (light)
Makes sugars from CO2
H+ high inside thylakoids
CF1 faces out
H+ efflux during ATP synthesis
Mitochondria
O2 reduced to H2O
Energy produced (ATP)
Makes CO2 from sugars
H+ high outside inner membrane
F1 faces in
H+ influx during ATP synthesis
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Overall scheme of photosynthesis:
CO2 + H2O (CH2O)n + O2
Light
Carbohydrates
CO2 is reduced to make carbohydrates by reductive biosynthesis in the Dark Reactions.
This requires ATP and NADPH from the light reactions
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Light Reactions
Convert light energy into chemical energy stored in
NADPH and ATP
Dark Reactions*
The NADPH and ATP made in the light reactions are used to make
carbohydrates from CO2
Water is the initial e- donor to the electron
transport chain.
Water gets oxidized to O2
*We will not discuss the dark reactions further in BIO201, we will
focus on the light reactions
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Pathway for electron transport in chloroplast thylakoids
H2O PSII PQ ctyb6/f PC PSI NADP+
H2O O2 + H+
e-
NADP+ + H+ NADPH
e-
PQ is plastoquinone. It is a lipid
PC is Plastocyanin. It is a peripheral protein
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Photophosphorylation produces NADPH and ATP. Why?
Light Reactions of Photosynthesis
To give to the Dark Reactions to help make carbohydrates
1. The energy from the sun is used to set up a H+ gradient
with high H+ inside thylakoids
2. When H+ flow out (through the CFo/CF1), ATP is made in the stroma
The initial e- donor is H2O and the final e- acceptor is NADP+
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Stages of e- flow in photosynthesis:
1. Photolysis. PSII uses light energy to split water in the lumen. This produces three important products:
H2O 2H+ + ½ O2 + 2e-
2. Pass e- from PSII to PSI. The energy generated helps to increase the [H+] in the lumen
3. Pass e- from PSI to NADP+. Produces NADPH
For the H+ gradient
For mitochondria, us and others things
For e- transport
Where do the electrons come from to start this e- transport?
water