cellular respiration. energy and life 8-1 page 201
DESCRIPTION
The sun is the original source of energy for all living things. To live and perform life functions all organisms need… Autotrophs Able to make their own food using the sun’s energy. Heterotrophs Get their energy from feeding on autotrophs or other heterotrophs.TRANSCRIPT
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Cellular Respiration
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Energy and Life8-1
Page 201
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The sun is the
original source of
energy for all living
things.
To live and perform life functions all organisms need…
Autotrophs
Able to make their own food using the sun’s energy.
Heterotrophs
Get their energy from feeding on autotrophs or
other heterotrophs.
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The food eaten must be turned into a chemical form to be used for life processes.
Adenosine Triphosphate (ATP)the main chemical compound that cells use
to store and release energy
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• Energy from ATP powers:- active transport across cell membranes- synthesis of proteins & nucleic acids- responses to chemicals at the cell surface - can even be used to produce light
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ATP is made up 3 parts:– adenine – 5-carbon sugar called ribose– three phosphate groups
adenine ribose phosphate groups
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• Phosphate groups are the key to ATPs ability to store and release energy.
• Energy is stored in the bond between the 2nd and 3rd phosphate.
adenine
ribose
phosphate groups
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When the 3rd phosphate breaks off it is called
ADP (adenosine diphosphate)
adenine
ribose
phosphate groups
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• Breaking the chemical bond between the 2nd & 3rd phosphate RELEASES energy.
adenine
ribose
phosphate groups
ATPADP
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• Adding the chemical bond between the 2nd and 3rd phosphate STORES energy.
• Breaking the chemical bond between the 2nd & 3rd phosphate RELEASES energy.
adenine
ribose
phosphate groups
ADPATP
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ADP ATP
Energy
EnergyAdenosine diphosphate (ADP) + Phosphate Adenosine triphosphate (ATP)
Partiallychargedbattery
Fullychargedbattery
• Most cells have only a small amount of ATP, enough to last them for a few seconds of activity.
• ATP’s ability to “recharge” is very important to its usefulness.
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• ATP is great for transferring energy, not good for long term energy storage.
– A single molecule of glucose stores 90 times the chemical energy of one molecule of ATP.
• Cells regenerate ATP from ADP as needed.
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Figure 9–2 Cellular Respiration: An OverviewFigure 9–2 Cellular Respiration: An OverviewElectrons carried in NADH
Glucose
Cytoplasm
Glycolysis
Pyruvic acid
Krebs Cycle
Mitochondrion
Electrons carried in
NADH and FADH2 Electron
Transport Chain
Mitochondrion
Cellular Respiration
Net gain of 2 ATP
Net gain of 34 ATPTotal ATP molecules formed during cellular respiration = 36 ATP
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CELLULAR RESPIRATION
6O2 + C6H12O6 6CO2 + 6H2O + Energy
Oxygen + Glucose Carbon + Water + Energy (ATP) Dioxide
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Where did that glucose come from?
?
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CELLULAR RESPIRATION
After glycolosis, there are two possible pathways depending on the presence or absence of O2
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Chemical Pathways of Cellular Respiration
Glucose
Glycolysis Krebs cycle
Electrontransport
Fermentation (without oxygen)
Alcohol or lactic acid
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CELLULAR RESPIRATION If oxygen is present aerobic respiration will
begin
If oxygen is not present anaerobic respiration will occur
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After Glycolysis cont.If oxygen is not present one of two types of anaerobic respiration or Fermentation takes place;
Alcoholic Fermentation Lactic Acid Fermentation
Requires NADH to convert pyruvic acid into lactic acid
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The Krebs CycleIf oxygen is present aerobic respiration begins
The Krebs Cycle begins when the two molecules of pyruvic acid produced in glycolysis enter the Mitochondria and with the help of enzymes form Citric Acid. As a result the Krebs cycle is also referred to as the Citric Acid
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The Krebs Cycle cont.
Energy Extraction;The citric acid is broken down into carbon compounds and the following are released;
2 ATP 6 molecules of CO2Electron carriers
(NADH and FADH2 )
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The Krebs Cycle cont.
Citric Acid Production
Mitochondrion
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Electron Transport Chain The electron transport chain uses the high-energy
electrons (donated electron carriers NADH and FADH2) from the Krebs cycle to convert ADP into ATP.
High-energy electrons from NADH and FADH2 are passed along the electron transport chain (carrier proteins).
An enzyme at the end of the electron transport chain combines electrons with hydrogen ions and oxygen to form water.
Oxygen is the final electron acceptor. Releases 6H2O and 32 molecules of ATP
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Cellular Respiration
Total ATP produced= 36