Upload
sheena-anthony
View
227
Download
4
Tags:
Embed Size (px)
Citation preview
Photosynthesis and Photosynthesis and RespirationRespiration
Chapter 5Chapter 5
Key Terms• Photosynthesis- the process where plants convert
light energy (sun) into chemical energy (glucose, starch)
• Respiration- the process where chemical energy (glucose) is broken down into ATP (adenosine triphosphate)
• Autotroph- organisms that can make their own organic compounds
• Heterotroph- organisms that must eat other organic compounds
Transfer of energy to ATP• This is similar to burning gasoline to get the
energy from it. • Our mitochondria will “burn” sugar and turn it into
ATP. Our cells will then use the ATP to do work.• ATP is a nucleotide that has the ability to store
energy in its bonds• ATP will be broken down into ADP + P and then
recycled back into ATP when we eat.
PHOTOSYNTHESIS• Happens in three stages-
– 1. energy is captured from the sun– 2. Light energy is converted into ATP and
NADPH– 3. ATP, NADPH, and CO2 are used to
make organic compounds such as glucose, sucrose and starch
Photosynthesis
QuickTime™ and a decompressor
are needed to see this picture.
Overall Equation• 6CO2 + 6H2O + light C6H12O6 +
6O2
QuickTime™ and a decompressor
are needed to see this picture.
Stage 1 Light AbsorptionLight is found as wavelengths of
electromagnetic spectrum- ROYGBV
Pigments- light-absorbing substances
Chlorphyll- absorbs all but green
Carotenoids- absorb all but orange
The colors we see are the wavelengths that are being reflected by a pigment
Light absorption
QuickTime™ and a decompressor
are needed to see this picture.
Oxygen production
• Sunlight is absorbed by thylakoids- disk-shaped structures that contain chlorophyll
• This energy “excites” electrons which cause the breakdown of water molecules
• Water is split into 3 parts– 2 H+ ions– Oxygen molecules– 2 electrons
• The electrons replace those lost by energy absorption• Oxygen is waste• The 2 H+ ions will be used later
Electron Transport Chain I• The electrons that have been freed from H2O
are absorbed by molecules called PHOTOSYSTEM II
• They accumulate and leave and are absorbed by an ELECTRON ACCEPTOR
• They travel through an ELECTRON TRANSPORT CHAIN where they slowly release energy to ATP synthase
• ATP synthase uses the energy to produce ATP
ELECTRON TRANSPORT CHAIN II
• The “spent” electrons arrive at PHOTOSYSTEM I and are “excited” again by light energy
• The electron accumulate again and are accepted by a second ELECTRON ACCEPTOR
• The electron travel down a second ELECTRON TRANSPORT CHAIN where they provide the energy to join NADP+ and the 2H+ ions that were released earlier
QuickTime™ and a decompressor
are needed to see this picture.
SO FAR• At this point we have USED
– Light energy– H2O
• We have also MADE– Oxygen as waste
• Since this part of photosynthesis must have light in order to work it is called LIGHT DEPENDENT PHASE
CALVIN CYCLE• Also called the “LIGHT-
INDEPENDENT” phase
• “carbon-dioxide” fixation- transferring CO2 into organic compounds.
• ATP and NADPH that were made earlier will be used during this phase
Calvin Cycle steps• 3 CO2 join with RuBP (ribulose biphosphate)• This forms 3 6-Carbon molecules that immediately
split to form 6 3-carbon molecules called PGA• PGA uses the energy from 6 ATP and 6 NADPH to
be converted into 6 PGAL• 5 PGA use 3 ATP and are converted back to RuBP.
The 1 remaining PGAL is used to make organic compounds
• Since only 3 of the 6 CO2 are used, the Calvin Cycle must go through twice
• The result is a 6 carbon organic molecule - glucose
QuickTime™ and a decompressor
are needed to see this picture.
Factors that affect photosynthesis
• There reaches a point where so much sunlight is absorbed that photosynthesis cannot happen any faster. Think of a car that reaches it’s top speed.
• Water loss happens too fastQuickTime™ and a
decompressorare needed to see this picture.
Cellular Respiration• Key Terms
– Aerobic- with oxygen present– Anaerobic- without oxygen present– Glycolysis- splitting of sugar– NADH-– FADH2– Kreb’s Cycle-– Fermentation
Aerobic Respiration
QuickTime™ and a decompressor
are needed to see this picture.
Stages of Respiration• Glycolysis- splitting of sugar that happens in
the cytoplasm• Aerobic Respiration-
– Kreb’s Cycle– Electron Transport Chain
• Anaerobic Respiration– Either Alcoholic Fermentation or Lactic Acid
Fermentation
Glycolysis• Occurs in cytoplasm
• 1 glucose is split into 2 Pyruvate molecules
• This uses 2 ATP but produces 4 ATP and 2 NADH
• The net gain from glycolysis is 2 ATP
QuickTime™ and a decompressor
are needed to see this picture.
KREB’S CYCLE• If O2 is present then the pyruvate will enter the
mitochondria and proceed through a series of events– This immediately makes 1 NADH molecule and pyruvate is
converted into Acetyl Co-enzyme A (ACoA)
• At the end of the cycle three molecules are made for every ACoA– 1 ATP– 3 NADH– 1 FADH2
• Since 2 pyruvate are made during glycolysis Kreb’s Cycle must happen twice.
QuickTime™ and a decompressor
are needed to see this picture.
Electron Transport Chain• NADH and FADH2 will lose electrons
and H+ ions and will be converted into ATP
• This is similar to ATP production in photosynthesis
• For every NADH= 3 ATP• For every FADH2= 1 ATP
ATP Production• 2 NADH from glycolysis = 6 ATP• 2NADH from ACoA = 6 ATP• 6 NADH from Kreb’s cycle= 18 ATP• 2 FADH2 from Kreb’s cycle= 4 ATP• 2 ATP from Kreb’s cycle• Electron Transport will yield up to 34 ATP + 2
ATP from Kreb’s + 2 ATP from Glycolysis = 38 ATP
ATP PRODUCTION
QuickTime™ and a decompressor
are needed to see this picture.
Anaerobic respiration• Still begins with glycolysis• If oxygen is ABSENT then the pyruvate made
will not enter Kreb’s cycle to recycle NAD+• Instead the pyruvate enters one of two
fermentation processes– Lactic acid fermentation– Alcoholic fermentation
Lactic acid fermentation• Pyruvate will be converted into an ion
of LACTIC ACID
• If muscles operate without oxygen then lactic acid will build up in the muscles causing soreness
QuickTime™ and a decompressor
are needed to see this picture.
Alcoholic fermentation• Pyruvate may enter alcoholic fermentation in other
organisms• Pyruvate will be converted into alcohol and CO2• Organisms such as bacteria and fungi such as
yeasts perform this type of fermentation.• We use these actions to produce wine, beer,
sourdough, breads, and ethanol• In both types of fermantation- no further ATP is
made after glycolysis
QuickTime™ and a decompressor
are needed to see this picture.
Efficiency of ATP production
• The total amount of ATP made from glycolysis is 2
• Both types of fermentation will yield no further ATP
• Aerobic respiration will yield up to another 36 ATP
• Aerobic respiration is obviously the more efficient process
What does all this mean?• The food that we eat is broken down
(digested) into simple molecules- carbohydrates, lipids, proteins.
• These are absorbed by our cells and respiration starts. So all that food we eat will be used to recharge ADP + P into ATP
• ATP is the rechargable batteries that our cell use to do work. When the batteries run low we eat to do respiration to recharge them.
• If we do not use all the energy then it will be stored in cells called fat cells.