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Transformation of Energy
Energy is the ability to do work.
8.1 How Organisms Obtain Energy
Cellular Energy
Thermodynamics is the study of the flow and transformation of energy in the universe.
Chapter 8
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Laws of Thermodynamics
First law—energy can be converted from one form to another, but it cannot be created nor destroyed.
8.1 How Organisms Obtain Energy
Cellular Energy
Second law—energy cannot be converted without the loss of usable energy.
Chapter 8
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Autotrophs and Heterotrophs
Autotrophs are organisms that make their own food.
8.1 How Organisms Obtain Energy
Cellular Energy
Heterotrophs are organisms that need to ingest food to obtain energy.
Chapter 8
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Metabolism
All of the chemical reactions in a cell
8.1 How Organisms Obtain Energy
Cellular Energy
Photosynthesis—light energy from the Sun is converted to chemical energy for use by the cell
Cellular respiration—organic molecules are broken down to release energy for use by the cell
Chapter 8
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ATP: The Unit of Cellular Energy (adenosine triphosphate)
ATP releases energy when the bond between the second and third phosphate groups is broken, forming a molecule called adenosine diphosphate (ADP) and a free phosphate group.
8.1 How Organisms Obtain Energy
Cellular EnergyChapter 8
ATP
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Overview of Photosynthesis
Photosynthesis occurs in two phases.
Cellular Energy
Light-dependent reactions
Light-independent reactions
8.2 Photosynthesis
Chapter 8
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Phase One: Light Reactions
The absorption of light is the first step in photosynthesis.
Cellular Energy
Chloroplasts capture light energy.
8.2 Photosynthesis
Chapter 8
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Electron Transport
Light energy (excites electrons in photosystem II and also) causes a water molecule to split, releasing an electron into the electron transport system (source of energy for the reactions to occur H+ (a proton), which helps in the production of ATPO2 as a waste product (which we kinda like)
Cellular Energy
8.2 Photosynthesis
Chapter 8
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The excited electrons move from photosystem II to an electron-acceptor molecule in the thylakoid membrane.
The electron-acceptor molecule transfers the electrons along a series of electron-carriers to photosystem I.
Cellular Energy
8.2 Photosynthesis
Chapter 8
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Cellular Energy
8.2 Photosynthesis
Photosystem I transfers the electrons to a protein called ferrodoxin.
Ferrodoxin transfers the electrons to the electron carrier NADP+, forming the energy-storing molecule NADPH.
Chapter 8
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Cellular Energy
8.2 Photosynthesis
Phase Two: The Calvin Cycle
In the second phase of photosynthesis, called the Calvin cycle, energy is stored in organic molecules such as glucose.
Chapter 8
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Cellular EnergyChapter 8
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Cellular Energy
8.2 Photosynthesis
Six CO2 molecules combine with six 5-carbon compounds to form twelve 3-carbon molecules called 3-PGA.
The chemical energy stored in ATP and NADPH is transferred to the 3-PGA molecules to form high-energy molecules called G3P.
Chapter 8
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Cellular Energy
8.2 Photosynthesis
Two G3P molecules leave the cycle to be used for the production of glucose and other organic compounds.
An enzyme called rubisco converts the remaining ten G3P molecules into 5-carbon molecules called RuBP.
These molecules combine with new carbon dioxide molecules to continue the cycle.
Chapter 8
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Cellular Energy
8.2 Photosynthesis
Alternative Pathways
C4 plants
CAM plants
Chapter 8
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The Importance of Pigments
Light absorbing pigments in plants are found in the thylakoid membranes of chloroplasts
There are several kinds of chlorophyll that each absorb a different wavelength of light (why could this be important?)
In addition there are other accessory pigments such as carotenoids that absorb light
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The importance of the Thylakoid structure
The thylakoid has a stacked structure to allow more surface area and thus a more efficient energy transfer during the electron transport.
The folded structure provides the space needed to hold large numbers of electron-transporting molecules AND the protein complexes called PHOTOSYSTEMS (remember them, 1 & 2)
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Chemiosmosis
This is the process in which ATP is made in conjunction with electron transport
Chemiosmosis is the mechanism by which ATP is produced as a result of the flow of electrons down a concentration gradient
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SO….
The water molecule going into electron transport gives its electrons to photosystem II (to make NADP into NADPH) and the H+ (proton) to make ATP (from ADP)
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Overview of Cellular Respiration
Organisms obtain energy in a process called cellular respiration.
8.3 Cellular Respiration
Cellular Energy
The equation for cellular respiration is the opposite of the equation for photosynthesis.
Chapter 8
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8.3 Cellular Respiration
Cellular Energy
Cellular respiration occurs in two main parts.
Glycolysis
Aerobic respiration
Chapter 8
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Anaerobic versus Aerobic
Anaerobic processes do not require oxygen
The first stage of cellular respiration is glycolysis, it is an anaerobic process
Aerobic processes require oxygen
respiration includes the Krebs cycle and electron transport
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Glycolysis
Glucose is broken down in the cytoplasm through the process of glycolysis.
8.3 Cellular Respiration
Cellular Energy
Two molecules of ATP and two molecules of NADH are formed for each molecule of glucose that is broken down.
Chapter 8
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Glycolysis (breakdown)
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Krebs Cycle
Glycolysis has a net result of two ATP and two pyruvate.
8.3 Cellular Respiration
Cellular Energy
Most of the energy from the glucose is still contained in the pyruvate.
The series of reactions in which pyruvate is broken down into carbon dioxide is called the Krebs cycle.
Chapter 8
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The Krebs Cycle
Is also called:
Tricarboxylic acid cycle (TCA)
or
The Citric Acid Cycle
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8.3 Cellular Respiration
Cellular Energy
The net yield from the Krebs cycle is six CO2 molecules, two ATP, eight NADH, and two FADH2.
Chapter 8
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8.3 Cellular Respiration
Cellular Energy
Electron Transport
Final step in the breakdown of glucose
Point at which ATP is produced
Produces 24 ATP
Chapter 8
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8.3 Cellular Respiration
Cellular Energy
Anaerobic Respiration
The anaerobic pathway that follows glycolysis
Two main types
Lactic acid fermentation
Alcohol fermentation
Cellular Respiration
Chapter 8
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Fermentation• There are two kinds of fermentation
• Fermentation is breaking down sugar without oxygen
• In one type sugar breaks down into lactic acid
C6H12O6 2 H+ + 2 C3H5O3-
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Lactic Acid Fermentation
• This is done by your muscles when the demand for ATP is high, but you are low in oxygen. (while working out) This can cause soreness in the muscles.
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Alcoholic Fermentation
• sugar breaks down into carbon dioxide and ethanol
• C6H12O6 2 CO2 + 2 C2H5OH
• Ethanol is the active ingredient in wine, beer and spirits.
• The Carbon Dioxide produced in this manner can be used to allow bread to rise
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