Eastern!white!pine,! Plantmetabolism
Transcript of Eastern!white!pine,! Plantmetabolism
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Plant metabolism Chapter 4, pp. 56-‐63
Lecture Outline: Intro to metabolism and energy Photosynthesis converts solar energy to chemical energy of food Structure and funcAon of chloroplasts Chlorophyll is the light-‐absorbing pigment in plant chloroplasts The light reac+ons convert solar energy to the chemical energy of ATP and NADPH The Calvin cycle uses the chemical energy of ATP and NADPH to make sugar from CO2 Cellular respira6on breaks down food to create usable energy for the cell in the form of ATP Structure and funcAon of mitochondria The 3 phases of cellular respiraAon: glycolysis, Kreb’s cycle and the electron transport chain
Eastern white pine, Pinus strobus
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Biofuels: Using enzymes to make corn ethanol
A vial of enzymes for cellulosic ethanol producAon. Denmark-‐based company Novozyme
enzyme = a protein catalyst used for a specific chemical reacAon Corn ethanol producAon has tradiAonally used enzymes to break down starch (e.g., from corn kernel) to make ethanol. The future à Cellulosic ethanol using enzymes to break down cellulose (e.g., from cornstalks) to make ethanol.
hUp://harvestpublicmedia.org
Link to NYT story on Blackboard.
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Enzyme 1 Enzyme 2 Enzyme 3 D C B A
Reaction 1 Reaction 3 Reaction 2 Starting molecule
Product
Metabolism – all chemical reacAons in an organism
A, B, C = REACTANTS D = PRODUCT
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Forms of energy
Energy is the capacity to cause change 1. Kine+c energy – energy of moAon
– eg., thermal energy or light – light powers photosynthesis
2. Poten+al energy – energy possessed by maUer due to its locaAon or structure – eg., chemical energy stored in bonds of molecules – chemical energy in food powers cellular respira4on
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Understanding photosynthesis will help build more efficient
photovoltaic panels
“The photosyntheAc system of plants is nature’s most elaborate nanoscale biological machine. It converts light energy at unrivaled efficiency of more than 95 percent compared to 10 to 15 percent in the current man-‐made solar technologies. In order to capture that efficiency in solar energy technology, we must first tackle the basic science of photosynthesis by understanding the chemistry behind its ultra-‐efficient energy conversion process in nature.”
K. V. Lakshmi, assistant professor of chemistry and chemical biology at Rensselaer Polytechnic InsAtute in Troy, NY
www.uslpv.com
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Cyanobacteria (“blue green algae”), 3.5 billion year old photosyntheAc
prokaryotes
Oscillatoria www.ucmp.berkeley.edu
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glucose* Solar energy + 6 CO2 + 6 H2O C6 H12 O6 + 6 O2
Photosynthesis = The conversion of light energy to chemical energy that is stored in
sugars or other organic compounds CO2 gains electrons and ���
becomes sugar
H2O is split, loses ���electrons and releases oxygen
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glucose* Solar energy + 6 CO2 + 6 H2O C6 H12 O6 + 6 O2
sugar has lots of poten+al energy because of its chemical structure
Photosynthesis = The conversion of light energy to chemical energy that is stored in
sugars or other organic compounds CO2 gains electrons and ���
becomes sugar
H2O is split, loses ���electrons and releases oxygen
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5 µm
Parenchyma cell
Stomata CO2 O2
Chloroplast
Meso- phyll
Vein Leaf cross section Leaves are the
plant’s major photosyntheAc
organ
Leaves contain mesophyll 4ssue and parenchyma cells containing
many chloroplasts
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Overview of photosynthesis
Light reacAons Calvin cycle
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Light
H2O
Chloroplast
Light Reactions
NADP+
P ADP
i +
ATP
NADPH
O2
Thylakoid
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The “energy currency” of the cell:
Sunlight is an energy source that is hard to spend in the cell. It’s kind of like having a really big bill in your pocket: you’re rich, but you can’t use it!
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The “energy currency” of the cell:
By contrast, the molecules ATP and NADPH are easily spent, like pocket change: chemical bond energy stored in these molecules is easily released, making these molecules quick sources of energy for cellular reactions.
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Light
H2O
Chloroplast
Light Reactions
P ADP
i +
ATP
NADPH
O2
Calvin Cycle
CO2 Thylakoid
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Light
H2O
Chloroplast
Light Reactions
NADP+
P ADP
i +
ATP
NADPH
O2
Calvin Cycle
CO2
[CH2O] (sugar)
Thylakoid
“spent currency”
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Granum
Reflected light
Absorbed light
Light
Chloroplast
Transmitted light
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light-‐absorbing “head” of molecule
in chlorophyll a CH3
CHO in chlorophyll b Pigments like chlorophyll absorb light of certain wave-‐lengths • the other
wavelengths are reflected or transmiUed
• this is why leaves are green
chlorophyll
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The light reac6ons convert light energy from the sun to the
chemical energy of ATP and NADPH
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Photosystems -‐ complexes of proteins and chlorophyll that absorb light energy
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Light
H2O
Chloroplast
Light Reactions
NADP+
P ADP
i +
ATP
NADPH
O2
Thylakoid
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glucose* Solar energy + 6 CO2 + 6 H2O C6 H12 O6 + 6 O2
Photosynthesis = The conversion of light energy to chemical energy that is stored in
sugars or other organic compounds CO2 gains electrons and ���
becomes sugar
H2O is split, loses ���electrons and releases oxygen
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Details of light reac+ons in the thylakoid membranes of the chloroplast
1. Light is absorbed by chlorophyll pigments in the photosystem II, releasing electrons.
2. H2O is split, releasing a constant stream of electrons and O2 as a byproduct
3. Electrons release energy as they are passed from photosystem II to photosystem I via an electron transport chain. This energy is used to make ATP.
4. The electrons are passed to electron carrier molecule NADPH
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Mill (electron transport chain
in living cells) makes ATP
e–
NADPH e–
e– e–
e–
e– ATP
e–
Photon
Photon
Mechanical analogy for the light reacAons
(e-‐ = electron)
Photosystem II Photosystem I
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Light
H2O
Chloroplast
Light Reactions
NADP+
P ADP
i +
ATP
NADPH
O2
Thylakoid
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Details of light reac+ons in the thylakoid membranes of the chloroplast
1. Light is absorbed by chlorophyll pigments in the photosystem II, releasing electrons.
2. H2O is split, releasing a constant stream of electrons and O2 as a byproduct
3. Electrons release energy as they are passed from photosystem II to photosystem I via an electron transport chain. This energy is used to make ATP.
4. The electrons are passed to electron carrier molecule NADPH
5. NADPH holds onto the electrons and bring them to the Calvin cycle (where sugars are made).
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Light
H2O
Chloroplast
Light Reactions
NADP+
P ADP
i +
ATP
NADPH
O2
Calvin Cycle
CO2
[CH2O] (sugar)
Thylakoid
“spent currency”
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The Calvin cycle is a series of carbon fixa+on reac+ons • CO2 is “fixed” (i.e., bonded) to an
organic compound • the chemical energy of
ATP and NADPH from the light reacAons is used to make sugar from CO2
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Ribulose bisphosphate (RuBP)
3-Phosphoglycerate
(Entering one at a time)
Rubisco enzyme
Input CO2
P
3 6
3
3
P
P P P
1. Carbon fixa+on -‐ rubisco enzyme “fixes” CO2 with RuBP (a 5-‐C molecule)
carbon phosphorus P
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Ribulose bisphosphate (RuBP)
3-Phosphoglycerate
Short-lived intermediate
Phase 1: Carbon fixation
(Entering one at a time)
Rubisco
Input CO2
P
3 6
3
3
P
P P P
ATP 6
6 ADP
P P 6
1,3-Bisphosphoglycerate 6
P
P 6
6 6 NADP+
NADPH
i
Phosphoglyceraldehyde (PGAL)
1 P Output PGAL
(sugar)
Glucose and other organic compounds
Calvin Cycle 2. PGAL (sugar)
producAon
carbon phosphorus P
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Ribulose bisphosphate (RuBP)
3-Phosphoglycerate
Short-lived intermediate
Phase 1: Carbon fixation
(Entering one at a time)
Rubisco
Input CO2
P
3 6
3
3
P
P P P
ATP 6
6 ADP
P P 6 1,3-Bisphosphoglycerate
6
P
P 6
6 6 NADP+
NADPH
i
Phase 2: Reduction
PGAL
1 P Output PGAL (sugar)
Glucose and other organic compounds
Calvin Cycle
3
3 ADP
ATP
5 P
PGAL
3. Regenera6on of RuBP so the cycle can start again
carbon phosphorus P
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Carbon fixaAon and climate change
hUp://data.giss.nasa.gov
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Lecture Review, Chap 4 Metabolism • What is metabolism? • What is an enzyme? How does an enzyme facilitate metabolism
in the cell? • What is energy? Describe the 2 kinds of energy. What is the
energy molecule of the cell produced by the light reacAons of photosynthesis?
• Describe the structure and funcAon of a chloroplast. • What is a pigment? What is the most important pigment in
photosynthesis? • What are the major inputs and products of the light reacAons? • What are the major inputs and products of the Calvin cycle? • What role do electrons play in producing energy needed to make
sugar from CO2?