Post on 14-Jan-2016
transcript
Cellular Energy
Chemical Energy and ATP
Most cell processes use ATP for energy Do you get energy from eating sugar?
Yes? No?
All cells use ATP
ATP is a molecule that transfers energy How is ATP like money in your wallet?
ATP is used to: Build molecules Move materials
Structure of ATP
Energy is released when a phosphate group is removed from the molecule
ATP = Adenosine TRI-phosphate
ATP
When the third P is removed, energy is released
Unstable and easily removed for energy
ATP = ADP + P ADP = Adenosine DI-
phosphate
ATP and ADP
Questions
Where are molecules from food involved in the cycle of ADP to ATP?
Describe the relationship between energy stored in food and ATP.
How many ATP?
Carbohydrates offer easy ATP Carbs are not stored in the body
One glucose = 36 ATP molecules!
Proteins about the same as Carbs Not typically used for energy but to build
more proteins
Fats (lipids) offer the most ATP One triglyceride = 146 ATP molecules
How do plants eat?
They make their own food
Plants absorb energy from the sun and make sugars to break down for ATP
Chemosynthesis
Some species of bacteria use chemicals to make food
They break the food down for ATP
Solar Energy?
Calculators, homes and cars use energy from sunlight
Energy for people comes from ATP ATP comes from the breakdown of
sugars How are sugars made?
Photosynthetic organisms
Producers – organisms that produce the source of chemical energy for themselves and for other organisms Plants Bacteria Protists
Basic Food Chains
Animals eat plants = consumers Animals that eat other animals, bacteria
and fungi that decompose organisms Wolf eats rabbit, rabbits tissues supply
energy to wolf, tissues were built from plants, which made the sugars and other carbon-based molecules
Photosynthesis
Plant cells use sunlight energy to make organic compounds
Directly or indirectly, the energy for almost all organisms begins as sunlight
Sunlight and Radiant Energy
Ultraviolet Microwaves Visible light or Radio waves?
Plants absorb visible light
Where does it occur?
In the leaves!
Photosynthesis occurs in the chloroplast.
Anatomy of a chloroplast
chloroplast
stroma
grana (thylakoids)
Chloroplasts
Contain Thylakoids (flattened sacs) Have pigments in their membranes
Grana - Stacks of thylakoids Stroma - Fluid inside
chloroplast
chloroplast
stroma
grana (thylakoids)
Pigments
Chlorophyll Green pigment
Two forms - a and b Absorb blue and red light, reflect
green/yellow Accessory pigments - absorb and
reflect other colors Can only be seen in the fall of the year
Photosynthesis
General Equation
CO2 + H2O --> C6H12O6 + O2
Major Steps1. Absorb light energy§ Convert light energy into chemical energy§ Store chemical energy in sugars
CO2 in, O2 out
Stomates open - gas is exchanged H2O is lost, must be replaced by roots
Transpiration - H2O diffusion out of plants
Light-dependent Reactions
Step 1: Absorb sunlight, split water and transfer energy through the H+
2 H2O 4 H+ + O2
“Electron Transport Chain via Photosystems I and II”
Step 2: Transfer energy to ATP
“ATP Synthase”
Light-independent Reactions
Step 1: CO2 is converted into larger molecules using ATP from Light-dependent reactions
Step 2: The larger molecules are converted into Glucose – C6H12O6
“Calvin Cycle”
Why Respiration?
Movement Transport in cells Maintenance Nervous Signals Biosynthesis
Respiration
Release of energy by breaking down glucose
1 Glucose = 38 ATPs!!!!!!
General Equation
C6H12O6 + O2 --> H2O + CO2 + ATP
Life has options…
Aerobic - Uses Oxygen! Animals Plants
Anaerobic - Little or no oxygen! Some animals Yeast Bacteria
Major Steps of Aerobic Respiration
Glycolysis Kreb’s Cycle Electron Transport Chain
Glycolysis
Simple step in the cytoplasm Makes 2 ATPs! Glucose is cut in half! Yields two Pyruvate molecules
(3 carbons each)
Kreb’s Cycle
Occurs inside the mitochondria Pyruvate molecules get broken into CO2
and H+ Makes 2 more ATPs!
Electron Transport Chain
Occurs on the cristae (membrane) of the mitochondria
H+ transfer excess energy to ATP synthase
Excess H+ + O2 H2O
ATP Synthase
Enzyme responsible for: ADP to ATP and O2 to H2O
Cellular Respiration
Electron transportchain and oxidativephosphorylation
Chemical energy
Chemical energy (high-energy electrons)
GlucosePyruvicacid
Glycolysis
Mitochondrialcristae
Cytosolof cell
Via oxidativephosphorylation
H2O
Mitochondrion
Krebscycle
CO2
CO2
ATPATPATP
Fermentation
When you undergo heavy exercise, you force your muscles to use fermentation!
Large amounts of Oxygen for Aerobic Respiration cannot be stored in cells
Cells need energy, so they choose the alternate route!
Can you function without O2?
Glycolysis yields 2 ATP Glycolysis does not require Oxygen
Yes you can!! You just get a little bit of energy
Anaerobic Respiration
Two types Lactic Acid Fermentation
Yeast and bacteria, your muscles Alcoholic Fermentation
Without fermentation, glycolysis would not continue
Fermentation recycles the molecules that allow glycolysis to continue
Fermentation
A build-up of lactic acid?
That must burn! It does until you recovery breath,
this is why your body breathes hard for several minutes after you stop exercising
You are making up for the oxygen loss
The replenishment of oxygen allows the cells to remove the excess lactic acid
Food Diary
Write down all of the foods you ate in the last 24 hours
Now, cross out…
Lactic Acid Fermentation
What would life be like without: Cheese, bread and yogurt?
Bacteria and Mold Convert milk into cheese Make yogurt go sour
Alcoholic Fermentation
Some yeast and plants Begins at the same point of lactic acid
fermentation Used to produce
Bread, beer and wine
Microbes in our Digestive System?
Bacteria in your digestive tract rely on fermentation
Without them we would not fully digest food They allow us to absorb more nutrients from
food
All cells need chemical energy.
Processes that make food include: Photosynthesis Chemosynthesis
Processes that make energy include: Respiration (two types) Fermentation (two types)