Cycle 3: Thermodynamics & Membranes

Question 1

what is kinetic energy?

Answer 1

energy possessed by an object because it is in motion

Question 2

What is chemical energy?

Answer 2

energy stored in bond of atoms/molecules

Question 3

What is potential energy?

Answer 3

stored energy due to its position or chemical structure

Question 4

What is a covalent bond?

Answer 4

interaction between negatively charged electrons and positively charged nuclei of atoms in the molecule

Question 5

What is an isolated system?

Answer 5

does not exchange matter or energy with its surroundings

Question 6

What is a closed system?

Answer 6

can exchange energy but not matter with surroundings

Question 7

What is an open system?

Answer 7

both energy and matter can be exchanged with surroundings ex ocean

Question 8

What is the first law of thermodynamics?

Answer 8

energy can be transformed or transferred but it cannot be created or destroyed

Question 9

What is the second law of thermodynamics?

Answer 9

the entropy of a system and the surroundings will increase – energy and matter will always become more spread out - everything breakdown

Question 10

What is entropy?

Answer 10

tendency of energy to become dispersed or spread out - “energy spreading to become more disorderly”

Question 11

What are the four potential levels of protein structures?

Answer 11

primary, secondary, tertiary, and quaternary structure

Question 12

Why it is the less oxygen molecules = more oxidized state?

Answer 12

oxygen has a strong electron affinity so there is not much free energy because oxygen make electrons less accessible

Question 13

What is the relationship between free energy and molecule state?

Answer 13

high free energy = reduced state (more hydrogen)

low free energy = oxidized state (more oxygen)

Question 14

What are the reduced molecules?

Answer 14

sugars, fats, amino acids, nucleotides

Question 15

what do autotrophs do?

Answer 15

uses sunlight energy and converted oxidized form of molecules to reduced form

Question 16

what do heterotrophs do?

Answer 16

uses reduced form (takes in sugar) releases oxidized form (produces CO2)

Question 17

What type of system are living things?

Answer 17

open systems – take in energy and matter from surroundings

Question 18

what form of matter and energy are used by autotrophs?

Answer 18

energy - light from sun
matter - CO2

Question 19

what form of matter and energy are used by heterotrophs?

Answer 19

carbon for sugar

Question 20

Do cells have high or low entropy?

Answer 20

cells are islands of low entropy (they are more organized)

Question 21

Does the system’s surroundings have high or low entropy?

Answer 21

very high entropy - disorganized, – heat and waste released from cell

Question 22

What is free energy?

Answer 22

G, energy available to do work (and get low entropy)

Question 23

What are endergonic reactions?

Answer 23

positive change in free energy (∆G) - not spontaneous reactions, requires energy to make reactions go

Question 24

What are exergonic reactions?

Answer 24

negative change in free energy (-∆G) - SPONTANEOUS reactions - no energy needed for reaction to occur on its own

Question 25

How do molecules show entropy?

Answer 25

more reduced form has more of the same atom in one molecule = low entropy (ex. C6H12O6 –> 6 carbons in one molecule)

more oxidized form has many of the same molecules = high entropy (ex. 6CO2 –> 6 carbons spread out)

Question 26

How do states of matter show entropy?

Answer 26

solid = more organized = low entropy

gas = more disorder = high entropy

Question 27

How does free energy, enthalpy, and entropy relate?

Answer 27

∆G=∆H-T∆S

Question 28

what does spontaneous reaction mean?

Answer 28

reaction goes on its own, but not necessarily fast

Question 29

How do enzymes work?

Answer 29

makes spontaneous and non spontaneous reaction go faster

Question 30

How do enzymes work is exergonic reactions?

Answer 30

in exergonic (spontaneous) reactions (∆G <0) –> going from more free energy to less free energy

Question 31

Hw do enzymes work in endergonic reactions?

Answer 31

goes from less free energy to more free energy, so energy input is needed because enzymes can’t make a substrate have more energy (they don’t give free energy)

Question 32

Why does life need enzymes?

Answer 32

increase rate of reaction without adding heat (no denaturation, so reaction proceeds at optimal temp)

Question 33

What is the activation energy?

Answer 33

kinetic barrier - certain amount of free energy that must be reached in order to transition from products to reactants

Question 34

What do enzymes do in a reaction? What does an enzyme not go

Answer 34

changes the part of reaction and lowers the activation energy
–> changes kinetics = how fast the reaction going
–> doesn’t change thermodynamics (amount of free energy) b/c reactants start at the same ∆G and products end at the same ∆G

Question 35

Do reactants or products have more free energy?

Answer 35

can be either. reactants for exergonic and products for endergonic

Question 36

how is the activation energy reached in terms of energy?

Answer 36

activate substrate through energy coming from system (ex motion/kinetic energy) NOT adding ATP

Question 37

At what point in the reaction is it spontaneous?

Answer 37

when activation energy is reached – at transition conformation the reaction goes by itself

Question 38

What is the result of having the EA barrier?

Answer 38

some spontaneous reactions take very long

Question 39

what do enzymes do to number of molecules in the reaction?

Answer 39

increases rate of # of molecules getting to transition state

Question 40

What does an enzyme do to the SUBSTRATE to lower the EA and reach transition state?

Answer 40

enzyme forces the substrate ion mimicking the transition state conformation

Question 41

What are the three interactions that the enzyme does to the substrate to reach transition state?

Answer 41

precise orientation of two substrate

charge interaction

conformational strain

Question 42

what type of reaction is protein folding?

Answer 42

exergonic - SPONTANEOUS reaction
–> proteins fold to correct conformation on its own without ATP

Question 43

What is Anfinsen’s dogma of protein folding? what experiment was done to prove it?

Answer 43

folded protein is 100% active

protein is unfolded by introducing urea which has hydrogens that compete to hydrogen bond with amino acid in proteins

causes protein to unfold = denatured

urea removed

protein refolds on its own = 100% active

shows that proteins don’t need additional energy – spontaneous

Question 44

how does free energy differ through protein folding?

Answer 44

polypeptides (unfolded proteins) have highest free energy

proteins have the lowest free energy (native)

Question 45

how can proteins be reversed and denatured?

Answer 45

adding other compounds (urea) or adding heat

Question 46

What do chaperone proteins do for protein folding?

Answer 46

slightly unfolds polypeptides that have been denatured so they can spontaneously refold (ex. HSP)

Question 47

what is a characteristic of the enzyme structure?

Answer 47

flexible –> change conformation to fit the substrate –> called INDUCED FIT

Question 48

what is the catalytic cycle of enzyme?

Answer 48

attaches to substrate

changes substrate conformation

releases product

enzyme picks up another molecule

Question 49

what is the active site?

Answer 49

where the enzyme binds with the substrate and is a pocket that is the product of protein folding

Question 50

how can you determine where the active site is?

Answer 50

cannot be determined from primary sequence –> must look at protein folding because active site is a “pocket”

Question 51

What is the phospholipid structure? Which parts are hydrophilic and hydrophobic? polar/nonpolar?

Answer 51

hydrophilic/polar: choline, phosphate group, glycerol

hydrophobic/nonpolar: lipid tails

Question 52

How are transmembrane proteins arranged on cell membrane?

Answer 52

non polar, hydrophobic AA are inside the chain so they end up in the lipid layer

polar, hydrophobic AA are on the outside of peptide chain, so they stick out of the membrane on each side

Question 53

Which molecules use simple or facilitated diffusion? Which need energy for active transport?

Answer 53

simple: non polar molecules (O2, CO2, N2) & small polar, uncharged molecules (H2O, glycerol)

facilitated: large, uncharged molecules (glucose) , ions

all need energy for active transport

Question 54

Which proteins go through secretory pathway?

Answer 54

proteins that leave cell or sit on plasma membrane (ie channelrhodopsin)

Question 55

What does the signal peptide do? Where does it come from? What does it’s sequence look like?

Answer 55

transcribed and translated sequence on N side of protein that tells the cell that it must go through the secretory pathway

sequence is highly conserved so it is something found in primary sequence

Question 56

What are the steps of signal peptide removal?

Answer 56

1. signal recognition particle (SRP) protein recognizes signal peptide on the peptide chain forming from mRNA
2. SRP takes the complex (ribosome, mRNA, peptide chain) to the ER

** protein stops being synthesized

3. enzyme in ER that will cut the signal peptide
4. protein continues translation and is released in ER lumen

Question 57

What does the transport protein on plasma membrane do for facilitated molecules?

Answer 57

shields molecules/ions from hydrophobic core

Question 58

What is the connection between ∆G, entropy, and transport across the membrane?

Answer 58

exergonic process from high to low concentration increases entropy (more disorder inside cell)

endergonic for active transport

Question 59

What are the components of the ABC transporter? What are the functions?

Answer 59

ATP-binding cassette transporter is an active transport protein

Transmembrane domain (within the membrane - specialized for different molecules to enter/leave)
ATP-binding domain (inside cell - not specialized)

Question 60

How can a pore/channel be specific for certain molecule?

Answer 60

PRIMARY SEQUENCE – transporters fold in a specific shape and protein’s amino acids interact with substrate differently

Question 61

Given the primary sequence of a protein how can you determine if its an Integral membrane protein?

Answer 61

hydrophobic: 7 transmembrane domains

Question 62

What is Cystic fibrosis and the function of CFTR?

Answer 62

CFTR mutation to ∆F508 which is a gene for ABC-transporter where the protein doesn’t fold correctly

Question 63

Fate of the deltaF508 form of CFTR?

Answer 63

∆F508 never goes to plasma membrane, it remains in ER at get degraded by proteosome

Question 64

What is the result of cystic fibrosis and disfunction of CFTR transporter?

Answer 64

mucus dries poor gas exchange and infection because CFTR can’t allow ABC transporter to pump chloride which will then pump water

Question 65

What was the experiment showing ∆f508 form is actually functional?

Answer 65

express ∆F508 on artificial membrane to see it it would be functional if it made it to the plasma membrane
-add ATP and Cl- inside artificial cell to see if Cl- would be pumped out

this showed that it was functional, just down regulated

Question 66

What is the role of the chaperone protein HSP90 in folding of ∆F508 form and WT?

Answer 66

detect misfiling which doesn’t allow ∆F508 to go to plasma membrane

Question 67

What is the Relationship of temperature on membrane fluidity?

Answer 67

high temp = more viscous = saturated hydrocarbon tails (all tail are lined up)

low temp = fluid = unsaturated hydrocarbons tails with kink (spaces for membranes to pass through)

Question 68

Why is it important to maintain proper fluidity for import/export, electron transport?

Answer 68

too fluid = fall apart

too rigid = no diffusion/transport nutrients

Question 69

What is the Role of desaturases in fatty acid biosynthesis?

Answer 69

when temperatures are low, enzyme is secreted to cause kinks in hydrocarbons with double binds

Question 70

What processes explain the shape of the growth vs temp curve?

Answer 70

increase temp = increase collisions = increase enzyme activity = increase growth rate

Question 71

How is the tertiary structure different in enzyme hexokinase different for extremophiles?

Answer 71

low temp: weaker tertiary structure = weak bonding interactions

high temp: strong bonding interactions to keep molecules together

** amino acids are different in the part that keeps the molecule tighter, not the active site

Question 72

What is primary protein structure?

Answer 72

AA sequence forming polypeptide

– AA subunits going covalently (peptide bond)

Question 73

What is secondary structure protein/

Answer 73

twists and turns of AA chain
- hydrogen bonds between hydrogen and electronegative atom - O, N, C

Question 74

What is Tertiary structure?

Answer 74

folding of AA chain into 3D shape
- ionic bonds
- hydrogen bonds
- hydrophobic interactions (aq endir forces together)
- disulphide bridges (2S)

allows conformational changes

Question 75

What is Quaternary structure?

Answer 75

sometimes present, arrangement of polypeptide chains in protein that is formed by more that one chain