Biochemistry

Question 1

what happens to melting temperature of lipid membrane as you increase hydrocarbon chain length?

Answer 1

melting temperature increases

Question 2

what does cholesterol do for lipid membrane fluidity?

Answer 2

it prevents it from being packed in to tightly, but also prevents it from being too loose

Question 3

what is the ideal state for the lipid membrane?

Answer 3

liquid-crystalline

Question 4

if you increase the number of double bonds in hydrocarbons of lipid membrane fatty acids, what happens to the melting temperature?

Answer 4

melting temperature decreases

Question 5

what color is hemotaxin and what does it stain?

Answer 5

pink, protein

Question 6

what color is eosin and what does it stain?

Answer 6

blue, DNA

Question 7

what happens in sickle cell anemia?

Answer 7

a valine is put in place of a glutamate, creating a hydrophobic spot in the hemoglobin protein which causes it to congregate with the hydrophobic spots on other hemoglobin proteins to form fibers that then distort the RBC and prevent oxygen transport

Question 8

what happens in osteogenesis imperfecta?

Answer 8

switch aspartate for glycine in collagen - so you can’t make collagen fibers

Question 9

what happens in testicular feminization?

Answer 9

you can’t form zinc fingers because you lose a cysteine that typically coordinates a zinc ions, without this, you can’t bind to DNA and transcribe genes that lead to the production of male secondary sex characteristics

Question 10

what is the pKa of aspartate? what is it’s charge at neutral pH?

Answer 10

4.0, negative

Question 11

what is the pKa of glutamate? what is it’s charge at neutral pH?

Answer 11

4.0, negative

Question 12

what is the pKa of histidine? what is it’s charge at neutral pH?

Answer 12

6.0, neutral

Question 13

what is the pKa of cysteine? what is it’s charge at neutral pH?

Answer 13

8.4, neutral

Question 14

what is the pKa of tyrosine? what is it’s charge at neutral pH?

Answer 14

10.5, neutral

Question 15

what is the pKa of lysine? what is it’s charge at neutral pH?

Answer 15

10.5, positive

Question 16

what is the pKa of arginine?what is it’s charge at neutral pH?

Answer 16

12.5, positive

Question 17

what is the pKa of the carboxy terminal end? what is it’s charge at neutral pH?

Answer 17

2.0, negative

Question 18

what is the pKa of the amino terminal end? what is it’s charge at neutral pH?

Answer 18

9.5, positive

Question 19

what is special about glycine?

Answer 19

it is super flexible

Question 20

what is special about serine?

Answer 20

it is often present in the active sites of digestive proteins. it has a very high pka but can dissociate depending on what other amino acids it is surrounded by

Question 21

what is special about cysteine?

Answer 21

it can form disulfide bonds between amino acids chains - these will bury into the center of the protein because they are hydrophobic; they are the nucleophiles in caspases, and they coordinate metal ions

Question 22

what is special about methionine?

Answer 22

useful for radioactive dating

Question 23

what is special about proline?

Answer 23

it is good for bending and is very rigid

Question 24

what is special about phenylalanine?

Answer 24

it has a benzene ring so it can stack

Question 25

what is special about tyrosine?

Answer 25

it is a phosphorylation site and can act as a nucleophile; absorbs UV light

Question 26

what is special about tryptophan?

Answer 26

it absorbs UV light and has some polarity - so it will be found at the transition between hydrophobic and hydrophilic entities

Question 27

what is special about histidine?

Answer 27

it is a good buffer, can be a hydrogen donor or acceptor (acid or base)

Question 28

which two amino acid atoms make up the psi angle?

Answer 28

the alpha carbon and C’

Question 29

which two amino acid atoms make up the phi angle?

Answer 29

the alpha carbon and the nitrogen

Question 30

which atom in amino acids do the phi and psi angles flank?

Answer 30

the alpha carbon (the one with the R group attached to it)

Question 31

what are helix-loop-helix motifs?

Answer 31

two alpha helices connected by a a strand of amino acids - it functions to bind calcium ions

Question 32

what are helix-turn-helix motids?

Answer 32

two alpha helices connected by a very short strand of amino acids; it functions to bind DNA, inserting one helix into the major groove of DNA and turn transcription on or off

Question 33

what are leucine zipper motifs?

Answer 33

they function to dimerize two alpha helices so that they can go on to bind DNA (so the motif itself is not directly involved in DNA binding, it simply facilitates it) every seventh leucine binds

Question 34

what are zinc finger motifs?

Answer 34

they involve coordination f zinc by two cysteines and two histidines; functions as a DNA binder - present in a lot of transcription factors

Question 35

glycosylation: what amino acids does it occur on and what is its function?

Answer 35

get N-glycosylation on asparagine and O-glycosylation on the OH of serine or threonine
functions to target proteins for secretion and involved in folding

Question 36

lipid attachement: what amino acids does it occur on and what is its function?

Answer 36

palmitoylation occurs on cysteine and myristoylation occurs on Nterminal end of glycine
functions to attach proteins to lipid membrane (weakly though)

Question 37

phosphorylation: what amino acids does it occur on and what is its function?

Answer 37

occurs on serine, threonine, and tyrosine

functions to regulate protein activity

Question 38

acetylation: what amino acids does it occur on and what is its function?

Answer 38

occurs on lysine and on the N terminus of proteins;

alters DNA characteristics by binding to histones and prevents degradation

Question 39

carboxylation: what amino acids does it occur on and what is its function?

Answer 39

occurs on glutamate (so get two carboxy terminals)

functions in calcium ion binding

Question 40

hydroxylation: what amino acids does it occur on and what is its function?

Answer 40

occurs on proline

functions to permit maturation and secretion of collagen

Question 41

selenocysteine: what amino acids does it occur on and what is its function?

Answer 41

made from serine - contains selenium instead of sulfure in cysteine
functions in enzyme catalytic activity

Question 42

what are cofactors?

Answer 42

inorganic metal ions that aid in enzymatic activity - either help in substrate binding or have a critical role in catalysis

Question 43

what are coenzymes?

Answer 43

organic or metalloorganic molecules that help enzymes in substrate binding or catalytic activity

Question 44

what does thiamine pyrophosphate do?

Answer 44

it’s functional group is a reactive carbon and it transfers an aldehyde

Question 45

what does coenzyme A do?

Answer 45

it’s functional group is a thiol and it transfers an acyl group.

Question 46

what does pyroxidal phosphate do?

Answer 46

its function group is an aldehyde and it transfers an amino group

Question 47

what does NAD+ do?

Answer 47

its function group is a reactive carbon and it transfers a hydride ion