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![Page 1: Photsynthesis/Respiration. Radiant energy carbohydrates Respiration How energy flows through the ecosystem Photosynthesis Heterotrophs Autotrophs heat.](https://reader035.fdocuments.us/reader035/viewer/2022081504/56649f505503460f94c72c64/html5/thumbnails/1.jpg)
Photsynthesis/Respiration
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Radiant energycarbohydrates
Respiration
How energy flows through the ecosystem
Photosynthesis
HeterotrophsHeterotrophs
Autotrophs
heat
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How organisms get energy
1. Autotrophs: able to produce own glucose – Ex: plants, algae, cyanobacteria– Also called: producers
2. Heterotrophs: must take in glucose from outside source
– Ex: animals, fungus, most bacteria, protozoans
– Also called: consumers
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Why is food so important?• The energy from carbon based molecules (food) is
needed to re-charge ADP (adenosine di-phosphate) to ATP (adenosine tri-phosphate) molecules
• ATP provides energy for ALL metabolic reactions.
Adenine Ribose 3 Phosphate groups
Adenosine
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Adenine
3 phosphates
ATP Adenosine Tri-Phosphate
Ribose
Adenosine
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ADP and ATP• To get energy out of ATP, the bond
between the last two phosphate groups is broken.
ADP ATP
Energy
EnergyAdenosine diphosphate (ADP) + Phosphate Adenosine triphosphate (ATP)
Partiallychargedbattery
Fullychargedbattery
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Importance of energy
• Cells need energy to be able to carry out important metabolic functions to sustain life.
– Ex: Active transport, cell division, movement of flagella or cilia, and the production, transport, and storage of proteins
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Endosymbiotic Theory
•Lynn Margulis proposed that certain organelles evolved from a symbiotic relationship between a host cell and early prokaryotes. This is supported by observation & data.
•Mitochondria were chemosynthetic aerobic prokaryotes
•Chloroplasts were photosynthetic prokaryotes
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Photosynthesis
• The process autotrophs use to make glucose sugars from carbon dioxide, water, and light energy
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Photosynthesis and Respiration are complementary cycles
6CO2 + 6H2O → C6H12O6 + 6O2
C6H12O6 + 6O2 → 6CO2 + 6H2O
Energy inSunlight
Energy outATP
Enzymes
Enzymes
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Where and how are sugars made?Light Energy
Chloroplast
CO2 + H2O Sugars + O2
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Pigments
• Chlorophyll is a pigment, a molecule that can absorb light energy.
• Unused light is reflected.
• What is the color of the wavelength least used by chlorophyll?
Absorption of Light byChlorophyll a and Chlorophyll b
V B G YO R
Chlorophyll b
Chlorophyll a
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Photosynthesis pigments
• A. chlorophyll a (reflects light green)
• B. chlorophyll b(reflects dark green)
• C. xanthophyll(reflects yellow)
• D. carotenoid(reflects orange)
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Chromatography
• The process of separating colored solutions to determine the number of pigments in the solution
• The smaller and more soluble the pigment the further it is carried by the solvent
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Photosynthesis is an endergonic reaction…”energy in”1. Light dependent reaction
2. Calvin cycle
ChloroplastLight
Sugars
CO2
Light-Dependent Reactions
CalvinCycle
NADPH
ATP
ADP + P
NADP+
Chloroplast
H20
O2
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Transferring of electronsfrom one molecule to the next
• Electrons are negatively charged
OIL RIG
• Oxidation Is Losing electrons
• Reduction Is Gaining electrons
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Step 1: Light dependent reaction
HydrogenIon Movement
Photosystem II
InnerThylakoidSpace
ThylakoidMembrane
Stroma
ATP synthase
Electron Transport Chain Photosystem I ATP Formation
Chloroplast
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Light dependent reaction
• Pigments (chlorophyll) inside of the chloroplasts are arranged into photosystems (PS II and PS I).
• Photosystems absorb sunlight.
• Electrons become energized and help to produce ATP & NADPH.
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Step 1: LightDependent reactions• location:
grana of chloroplast
• Photosystem II: – energized chlorophyll splits water into
Oxygen (released) and Hydrogen (carried by NADP to be used later)
• Photosystem I: – energized chlorophyll makes ATP (to be
used later)
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Light Dependent reactions
• The products of the light reactions will move on to the Calvin cycle:
• ATP
• NADPH
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Step 2: Calvin cycle
ChloropIast
CO2 Enters the Cycle
Energy Input
5-CarbonMoleculesRegenerated
Sugars and other compounds
6-Carbon SugarProduced
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Calvin Cycle
• Location: stroma (fluid) of chloroplast
• CO2 is “fixed” meaning it is attached to other molecules in the stroma. Eventually sugar molecules are released from the cycle.
• Products: Glucose (sugar/food) is made (from 6 turns of cycle)
6CO2 + 6H2O C6H12O6 + 6O2
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Calvin cycle
• ATP and NADPH supply the energy needed to change the CO2 taken in by plants into a 6 carbon sugar molecule.
glucose
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What happens to the sugar?
• Plants can store the sugar in roots or stems (ex: potatoes, turnips, carrots, sugar cane)
• Heterotrophs such as humans must eat or consume (ex. Carrots, potatoes) foods in order to make ATP by cellular respiration.
• Sugars & starches are used to make ATP by cellular respiration as needed.
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• ALL living organisms need and use energy.
• Therefore ALL organisms need ATP
• ALL organisms plants and animals, fungi, bacteria and protists re-charge their ADP into ATP through respiration
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Photosynthesis and Respiration are complementary cycles
6CO2 + 6H2O → C6H12O6 + 6O2
C6H12O6 + 6O2 → 6CO2 + 6H2O
Energy inSunlight
Energy outATP
Enzymes
Enzymes
Endergonic - Photosynthesis
Exergonic - Respiration
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Cellular respirationReleases energy for cell metabolism
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Photosynthesis and Respiration are complementary cycles
6CO2 + 6H2O → C6H12O6 + 6O2
C6H12O6 + 6O2 → 6CO2 + 6H2O
Energy inSunlight
Energy outATP
Enzymes
Enzymes
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Two types of respiration
• Aerobic respiration: Organisms that require oxygen use aerobic respiration to make ATP but switch to fermentation when oxygen is not available.
• Anaerobic respiration: Organisms that live without oxygen use anaerobic respiration to make ATP and die in the presence of oxygen.
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Where cell respiration takes place
• Prokaryotes: cell membrane
• Eukaryotes: mitochondria organelle
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Overview of cellular respiration& fermentation
Glucose
Glycolysis Krebs cycle
Electrontransport
Fermentation (without oxygen)
Alcohol or lactic acid
Step 1 Step 2 Step 3
fermentation
This is an exergonic reaction
2 ATP
2 ATP
34 ATP
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Aerobic Respiration is an exergonic reaction…”energy out”
Mitochondrion
Glucose Glycolysis
Cytoplasm
Pyruvic acid
Electrons carried in NADH
Krebs Cycle
Electrons carried in
NADH and FADH2 Electron
Transport Chain
MitochondrionCO2
O2
H2O2 2 34
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Steps of aerobic respiration1. Glycolysis
2. Krebs cycle
3.1 Electron transport chain
3.2 ATP synthase (Oxidative Phosphorylation)
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Step 1: Glycolysis
• Glucose molecules are broken down into two molecules of pyruvic acid.
Glucose
To the electron transport chain
2 Pyruvic acid
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– Location: cytoplasm (outside mitochondria)• Anaerobic stage (occurs without oxygen)
– Glucose (6C) is split into two Pyruvates (3C) by the force of 2 ATP molecules
– Products: Hydrogen is saved by NAD+ to be used later & 4 ATP (net gain of 2) are produced
GLYCOLYSIS
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Step 2: Krebs or Citric Acid cycle
• Pyruvates are altered to produce NADH and FADH2, electron carriers.
• CO2 is created here
Citric Acid Production
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• Location: mitochondria
(fluid matrix)• Carbon compounds join &
break apart several times during the cycle, releasing lots of CO2
• Products: small amount of ATP & large amount of NADH and FADH2 (used later)
Krebs Cycle
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Step 3: Electron transport chain
Electron TransportHydrogen Ion Movement
ATP Production
ATP synthase
Channel
Inner Membrane
Matrix
Intermembrane Space
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• Location: mitochondria (cristae, inner membrane)
• Energy from Hydrogen atom’s electrons is utilized to change ADP into ATP
• Hydrogen ions (H+) ultimately joins oxygen to make water as a waste product
Electron transport chain (ETC) &
Oxidative Phosphorylation
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Electron transport chain
• NADH and FADH2 supplies the electron needed to start the ETC.
• Hydrogen ions (protons) are pumped into the inner membrane space.
• The protons flow through the ATP-making enzyme (ATP synthase), activating the enzyme to add a phosphate group to ADP to make ATP.
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What happens if there is no oxygen available and the organism is aerobic?
1. Glycolysis
2. Fermentation: lactic acid or alcohol
Glucose Pyruvic acid
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Alcoholic Fermentation (anaerobic respiration)
• Without enough oxygen present, an “alternate route” is taken, producing other products & much less ATP
• In yeast: Alcohol and CO2 are produced
• Ex: in bread-making & the alcohol industry
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Alcohol industry
• Yeast undergo alcohol fermentation when they do not have oxygen to make ATP.
• The alcohol industry uses specific yeast to convert fruit sugars into alcohol.
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Lactic Acid Fermentation (anaerobic respiration)
• Without enough oxygen present, an “alternate route” is taken, producing other products & much less ATP
• In muscles: lactate is produced
• Causes sore muscles
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Sore muscles• When a person exercises,
the muscle cells use up oxygen faster than a person can breathe in.
• The muscle cells need O2 to make ATP.
• The cells perform lactic acid fermentation instead producing lactic acid in the cells and when in higher concentrations, makes muscles feel sore.
US Swim Team members 2004
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Difference in Fermentation
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water
oxygen
Hydrogen
NADP ATP
Light
CO2
glucose
Photosynthesis
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glucose
Glycolysis
Krebs cycle
Electron transport
CO2
oxygen
water
3 C comp
NADH
38ATP
Cell Respiration
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ATP Review
1. What is ATP?
2. What is ADP?
3. What changes ATP to ADP?
4. How do we recharge ADP to ATP?
5. What energy source is needed by heterotrophs in order to recharge the ADP to ATP?
6. What is phosphorylation?