ATP and Cellular Respiration
What are the parts of ADP?
adenine, ribose, 2 phosphate groups
What are the parts of ATP?
adenine, ribose, 3 phosphate groups
What does ADP stand for?
adenosine diphosphate
What does ATP stand for?
adenosine triphosphate
what are the reactants for ATP?
adp and phosphate
Why do our cells need to constantly break down and synthesize ATP/constant cycle?
b/c our cells constantly need energy to function and constantly do biological processes
Why can't we just use glucose for energy without ATP middleman?
because there would be so much energy released if the bonds broke that the body would be overwhelmed, and it is less efficient of an energy carrier compared to ATP, so the transfer would be inefficient and the cells would only get little amounts of energy. The cell also has to recognize the form of energy. Cells don't recognize glucose, but they do recognize energy in the form of ATP.
What does the breakdown of ATP into ADP+P supply energy for +specifically when?
biological processes ATP and water react to form ADP + P, this reaction provides the energy for many different cellular processes
Anaerobic Respiration
cell respiration occurring without oxygen
Inside each cell, what is there a constant cycle of?
constant cycle of synthesis and breakdown of ATP
what does mitochondria do to glucose?
converts the energy in glucose into a usable form (ATP)
What process makes ATP and water from ADP+P?
dehydration synthesis
what stage do NADH and FADH2 oxidize (lose electrons) becoming NAD+ and FAD+
electron transport chain
which stage of respiration makes the most ATP?
electron transport chain
in which stage of respiration does oxygen come into play?
electron transport chain hydro atoms carrying electrons are joined to oxygen, making water (oxygen like babysitter for extra energy carriers w lots of energy)
laws of energy
every energy transferred ormation is inefficient energy cannot be created nor destroyed (law of conservation of energy) but can transform from one type to another heat is produced whenever energy is transformed from one type to another
Why do we need to eat?
food provides us w energy- it provides our bodies with macromolecules that we can break down into monomers with the help of digestive enzymes. we can digest food into monosaccharides to get energy
how do the cells in your body get glucose for cellular respiration?
from food molecules (carbs, fats, proteins)
reduction
gain of electrons
What are the three stages of aerobic cellular respiration?
glycolysis, krebs cycle, electronic transport system
Where do we get energy from to do our biological processes?
hydrolysis of ATP
Where is chem energy?
in our food
energy transfer is...
inefficient (not all energy transferred from hydrolysis of ATP)
cristae
inner membrane of mitochondria
parts of mitochondria
inner membrane, outer membrane, cristae, matrix function bc different compartments allow different reactions to happen
inputs and outputs- krebs cycle
inputs: Acetyl-CoA (made from pyruvate) outputs: 6CO2, 2 ATP, electron carriers- NADH (8) and FADH2 (2)
inputs and outputs- electron transport system
inputs: NADH, FADH2, oxygen (that we take in) outputs: LOTS of ATP (not 100% efficient but 34 if), water
inputs and outputs- glycolysis
inputs: glucose, 2 ATP (need energy to start) outputs: 2 pyruvate molecules (splitting of six carbon glucose), 4 ATP (net gain of 2), 2 NADH
inputs and outputs- after glycolysis before krebs
inputs: pyruvic acid outputs: carbon dioxide, NADH, Acetyl Co-A (comes off) ***each makes one
If there is no glucose or less glucose, how does it affect ATP?
less energy
oxidation
loss of electrons
where does cellular respiration primarily take place?
mitochondria
why do we need to breathe all day and night?
need to bring in oxygen to react with glucose need to get rid of carbon dioxide as a product of the reaction
explain why your body gets warmer when you are physically active
not all energy is used to do work (free energy), some is transferred to thermal energy (heat)- inefficient
What biological macromolecule is ATP an example of?
nucleic acid
coupled reactions
one reaction provides the energy for another, represented by arrows (breakdown of ATP provides energy for muscle contraction)
Why do our bodies need energy?
our bodies need to function in order to stay alive: transport communication movement to grow
after glycolysis before krebs
pyruvic acid can't enter the krebs cycle converting pyruvic acid to Acetyl Co-A (2 carbon mol) moving to mitochondria out of cytoplasm
ATP-ADP energy...
released
example of a real life item that shows example of energy type transfer
roller coaster going up a hill-potential, at top- most potential, drop-kinetic
Free Energy
similar to kinetic energy, energy that is available to DO WORK
Chemical Energy
similar to potential energy, energy that is stored in chemical bonds (break bonds to release energy)
ADP-ATP energy...
stored
Energy
the ability to do work
What are calories and how do they relate to cellular respiration?
the amt of energy in a particular serving size of food (measure of energy)- how much can be released during a process of cellular respiration
Where do cells get the energy to make ATP from ADP+P and why do we need it?
the breakdown of glucose/glycolysis need energy to force negative/ like charges of phosphate groups together
What is ATP?
the primary energy carrier for all living organisms
Aerobic Respiration
the process in which glucose (food molecules) are turned into usable energy for the cell (ATP). This process REQUIRES OXYGEN
Where does all energy come from?
the sun/sunlight
What do our cells use energy for?
to grow, divide, defend against diseases, change shape, and move
how does the cell first use the energy released when glucose is broken down?
to make AtP from ADP (using energy to join phosphate groups together)
How does ATP relate to cellular respiration?
usable form of energy glucose is converted to
Glycolysis
1st stage of aerobic respiration splitting of glucose purpose= to split glucose into smaller molecules that are required occurs in cytoplasm of eukaryotic and prokaryotic cells
Krebs or Citric Acid Cycle
2nd stage of aerobic respiration purpose: to create energy carrying molecules that can be used to generate ATP in the electronic transport chain occurs in matrix of mitochondria
how many times does the krebs cycle and the pre krebs cycle happen
2x each
electron transport chain
3rd stage of aerobic respiration purpose: to capture energy from electrons in NADH and FADH2 to make ATP occurs in inner membrane layer of mitochondria
ATP hydrolysis occurs in blank cells...
ALL cells all need to constantly actively transport, synthesize molecules, and move and contract molecules
Using ATP
ATP is broken down into ADP + P to provide the energy for most biological processes. (Hydrolysis + energy released from breaking of bonds)
Why is ATP compared to currency?
ATP is compared to currency because: It changes chem energy into free energy and is then useful It converts glucose into a form of energy that the body can recognize (like conversion of money in foreign country) Cells have to pay 'debt'- some energy converted to heat energy/not used
What does ATP do that makes it so efficient at converting energy?
ATP uses little pockets that use and break down glucose one at a time so the body isn't overwhelmed with energy
equation of cellular respiration
C6H12O6 + 6O2 --> 6CO2 + 6H2O + ATP
Making ATP
During cellular respiration, energy from the breakdown of glucose is used to make ATP from ADP + P (Dehydration synthesis + need energy to bond 2nd and 3rd phosphate groups)
What are the big ideas of energy?
Energy cannot be created nor destroyed. Energy can be transformed from one type to another. Every energy transformation is inefficient.
what are the electron carriers
FADH and NADH- go to electronic transport chain/system (electrons have lots of energy**)
Why does a cell need to constantly break down and synthesize ATP?
Our cells are constantly carrying out cellular respiration to make ATP and using ATP to provide the energy for biological processes
Cell Respiration
a decomposition pathway that provides the energy cells need to function a series of reactions that release energy as they break down sugars and other substances to CO2 and H20 each step in this decomposition is catalyzed by an enzyme
