Lecture 3

Question 1

what is the most abundant macromolecule in the cell

Answer 1

proteins
have functions
most abundant groups

Question 2

are protein structures mostly the same

Answer 2

no incredible diversity between protein structures
diff protein = diff structure

Question 3

what does structure conformation mean

Answer 3

function

Question 4

diverse strcutures of proteins lead to

Answer 4

Multiple functions

Question 5

what do cell building blocks do - proteins

Answer 5

Provide shape and structure

Question 6

what functions do proteins undertake

Answer 6

enzymes catalyze cell chemical reactions
membrane proteins form communication channels = transmembrane proteins, communication (er to golgi, nucleus to cytoplasm)
transport of cargo and mechanical forces

Question 7

how important are proteins

Answer 7

very

Question 8

what are the main functional components in cells

Answer 8

proteins

Question 9

how do proteins acquire function

Answer 9

by folding into a 3d conformation

Question 10

what does folding of proteins provide

Answer 10

physical stability and functional surfaces

Question 11

what does sequence of aas determine

Answer 11

sequence of aas of a protein determine its structure, function and localization
allows proteins to interact with other macromolecules

Question 12

describe central dogma - proteins

Answer 12

nucleic acids function as linear polymers
nucleic acid – DNA –> transcription –> RNA –> translation by ribosomes= all in a line, no function yet, must get 3d conformation state

Question 13

what are proteins

Answer 13

sequence of aas
polymers made of 20 different amino acids - monomers

Question 14

what is a polymer

Answer 14

peptide chain

Question 15

describe amino acid general formula

Answer 15

alpha carbon with covalent bonds
amino group
carboxyl group (acidic)
Hydrogen
side chain or functional group = R
at ph 7, both amino and carboxyl groups are ionized (NH3+ and COO-)

Question 16

describe R

Answer 16

Commonly one of 20 diff side chains

Question 17

name the chemical characteristics of the side chains

Answer 17

hydrophobic, polar or charged (acidic or basic - neg or pos)
small or large
Covalently linked into polypeptides, - alpha carbon

Question 18

name polar aas

Answer 18

asparagine
glutamine
serine
threonine
tyrosine

Question 19

describe peculiarities of polar aas

Answer 19

r groups form h bonds
glutamine = extra methylene group, amide chain
asparagine = amide chain
serine = hydroxide group
threonine = hydroxide group
tyrosine = ring, not as hydrophilic so this one is the least polar, hydroxide group *H bonding

Question 20

name the 5 charged aas to ph 7 and a feature of the R groups

Answer 20

3 basic R = pos charged = lysine, arginine, histidine
2 acidic R = neg charged = aspartate, glutamate

r groups allows for electrostatic/ionic interactions between basic and acidic aas, if pos and neg together

Question 21

describe peculiarities of charged aas

Answer 21

lys vs arg vs his = his has ring, pos charge of chemical group not as big, not as easy to form polar and ionic interactions, his nitrogens have a weak affinity for an H and are only partly pos at neutral ph

asp vs glutamate = glu has extra methylene

Question 22

name 10 hydrophobic nonpolar aas

Answer 22

alanine
valine
proline
phenylalanine
glycine
cysteine
leucine
isoleucine
methionine
tryptophan

Question 23

describe peculiarities of hydrophobic aas

Answer 23

proline = conformations
glycine = smaller, hydrophobic aa = inside, fits everywhere,
cysteine = covalent bonds with other cysteine= disulfide bond, covalent v strong, sulfhydryl group
tryptophan = hydrophobic aas, some noncovalent, not perfect, not as nonpolar as others, bc nh group, H little bit polar= some H bonding

Question 24

describe hydrophobic aas - features

Answer 24

interact through the hydrophobic interactions - exclusion of water molecules
disulfide bonds can form between 2 cysteine side chains in proteins - NEVER in cytosol since reducing environment - low nadp+ and nadph, only in er lumen and exterior of cells

Question 25

what are polypeptides made by

Answer 25

covalent bonds

Question 26

what are aas joined by

Answer 26

joined together by amide linkage = peptide bond

Question 27

describe peptide bonds

Answer 27

peptide bonds in backbone of polypeptide = uncharged but polar

Question 28

what do the side chains of a polypeptide determine

Answer 28

charge and hydrophobicity of a polypeptide

Question 29

what can side chains and backbone do

Answer 29

both side chains and backbone can form noncovalent contacts with other aas
polypeptide bond = polar
condensation reaction

Question 30

describe polypeptide backbone

Answer 30

planar
cannot rotate
rotation around bonds to central carbon (alpha) is possible
polypeptide backbone has limited freedom of rotation
some rotation angles between aas (residues) in a polypeptide are preferred

Question 31

is there flexibility in aa chain

Answer 31

yes, 2 single bonds allow rapid rotation so long aa chains are v flexible
not part of polypeptide backbone tho
partial double bond character = not able to rotate

Question 32

what do proteins contain

Answer 32

only L amino acids
can have L or D = optical isomers but only L in aas

Question 33

describe what configuration peptide bonds occur in

Answer 33

trans configuration always for all aas EXCEPT P (PROLINE)
trans highly favoured for all other aas, cis configuration highly disfavoured since steric clash

Question 34

DESCribe why proline peptide bonds not in trans formation

Answer 34

closed ring structure so doesnt matter much if trans or cis configuration
trans = slightly favoured
cis = slightly disfavoured
both still steric clash a bit

Question 35

what participates in noncovalent bonding

Answer 35

side chains and backbone

Question 36

what stabilizes structure

Answer 36

interactions between residues of a polypeptide

Question 37

name non covalent interactions and describe a bit

Answer 37

Hydrogen bonds
van der waals interactions - transient dipoles between all atoms, all have these, sometimes e- move and make small interactions
ionic bonds - between pos and neg charge
hydrophobic interactions - exclusion of water

Question 38

describe hydrophobic interactions

Answer 38

no h bonds, forced to interact with water= among themselves, make cages
since inside aa = hydrophobic so cannot make h bonds with hydrophobic, so water interacts with itself
becomes one big salvation cage, entropically favourable in one cage = ΔS >0

Question 39

what is covalent interaction between cysteines

Answer 39

disulfide bonds

Question 40

which proteins have disulfide bonds

Answer 40

secretory proteins often have covalent disulfide bonds between cysteine side chains
Extracellular proteins inside secretory organelles
disulfides reinforce structure

Question 41

which proteins do not have disulfide bonds

Answer 41

cytosolic proteins normally do not have disulfide bonds
cytosol, nucleus, mitochondria

Question 42

what interactions happen between disulfide cysteine bonds

Answer 42

intramolecular and intermolecular interactions

Question 43

what is order of how proteins fold

Answer 43

linear aa sequence = primary structure –> polypeptide backbone –> folding –> 2d confirmation: tertiary structure, very diverse

Question 44

how many levels of organization contribute to protein structure

Answer 44

4

Question 45

describe secondary structure

Answer 45

local conformation patterns
polypeptide bonds important
results from h bonding between N-H and C=O groups in polypeptide backbone
many diff aas can form them
stretches of polypeptides adopts regular and repeating arrangements of the polypeptide backbone and position of side chains
common structures = alpha helices and beta sheets

Question 46

describe secondary structure - alpha helix

Answer 46

single polypeptide chain twist around on itself
backbone is coiled
h bonds between carbonyl and amine hydrogen formed every 4 peptide bonds in each turn of helix backbone = stabilizes
side chains point outwards always face out

Question 47

describe secondary structure - beta sheets

Answer 47

Neighbouring segments of the polypeptide backbone
backbone is extended almost straight - parallel and antiparallel backbones
several strands pack sideways into a beta sheet
h bonds between backbone strands
side chains on alternate sides
v rigid structure
2 types = anti parallel - to c and n terminals, parallel - all towards c terminals

Question 48

describe tertiary structure

Answer 48

complete 3 d arrangement of the polypeptide
secondary structure elements packed against each other to form the tertiary structure
hydrophobic contacts between secondary elements = into cages and aa that are polar/charged noncovalent bonding and gives it structure
long range contacts between residues that are far apart in the primary sequence

Question 49

describe loops of tertiary structure

Answer 49

flexible loops = not all proteins engaged in secondary structure, intrinsically disordered regions
loops have no regular secondary structure and can be flexible
important for post trans mods

Question 50

describe quaternary structure

Answer 50

assembly of multiple polypeptides (subunits) into a final protein
interactions between subunits very stable
dimer = 2 polypeptide subunits
timer, tetramer, 5-mer, 6-mer etc
oligomer = many subunits
ex = nuclear pore complex

Question 51

name ways to visualize proteins

Answer 51

polypeptide backbone
ribbon diagram = polypeptide backbone only but with secondary structure
stick diagram = includes AA R chains, side chains
space filling model = with mass of atoms

Question 52

what are domains

Answer 52

independently folded unit within a protein
proteins can have multiple domains
diff domains in protein often have diff functions
independent function
maintains tertiary structure on its own

Question 53

give examples of domains or things with domains

Answer 53

hsp 70 = 2 domains
transcription factor
transcription activation domain
dna binding domain

Question 54

what are domain combos

Answer 54

some conserved domains are found in many diff proteins in combo with other domains

Question 55

describe modular domains

Answer 55

modular domains form reversible, specific, non covalent contacts with other molecules
other proteins - diff from quaternary structure
lipids, carbs, rna, dna, other cofactors

Question 56

describe polypeptide length - most human polypeptides

Answer 56

100-800 aas long or from 12kda - 90 kda molecular weight

Question 57

describe polypeptide length - domains

Answer 57

50-200 aas long

Question 58

what do long proteins have

Answer 58

multiple domains
rich in domains

Question 59

what do many biological functions require

Answer 59

noncovalent protein interactions

Question 60

describe specific protein interactions

Answer 60

only Certain molecular surfaces are bound
lock and key - noncovalent bonding

Question 61

describe transient protein interactions

Answer 61

often transient interactions = form and break apart quickly
thermal motion means all molecules are constantly moving, tumbling and colliding
inside = transient interactions, depends on concentration and equilibrium, less abundant = less interactions
depends on binding equilibria

Question 62

describe sequence similarity

Answer 62

sequences of diff polypeptides can be compared with each other to align identical (same aa, sequence) and similar amino acids (same properties, characteristics)

Question 63

what does sequence similarity indicate

Answer 63

homology (serves a function) indicated evolutionary conservation

Question 64

what does homology suggest

Answer 64

common structure or function

Question 65

what happens when polypeptides do not have any sequence similarity

Answer 65

they are considered to be divergent

Question 66

give ex of sequence similarity

Answer 66

homo vs apis
Valine vs alanine = both hydrophobic so similar sequence, so weak similarity
tyrosine vs phenylalanine =same structure but tyrosine has hydroxyl, so strong similarity

Question 67

what are protein families

Answer 67

family is a set of proteins or domains which have homologous sequences and structures

Question 68

describe protein families

Answer 68

often have related functions - similar domain structure function
Organism can have several proteins from same family
proteins from a family can be found in diff organisms - conserved by evolution

Question 69

describe homologous domains and not homologous

Answer 69

human hsp 70 atpase domain, temp depends on protein, survival VS e coli hsp 70 atpase domain = homologous, very important and conserved function. z domains almost identical
ecoli hsp70 vs ecoli arsenite transport atpase subunit = not homologous since diff functions

Question 70

what are proteins - summary

Answer 70

polymers made of 20 diff aas

Question 71

what are the types of aas and why - summary

Answer 71

4 types = hydrophobic, polar, basic, acidic
based on chemical properties - functional group of their side chain

Question 72

what do aas bind through - summary

Answer 72

a peptide bond
sequence of aa determines the folding of the protein into functional 3d structures

Question 73

what do the aa peptide bond and side chain engage in - summary

Answer 73

both engage in non covalent interactions to form the secondary, tertiary and quaternary structures

Question 74

what does side chain determine - summary

Answer 74

R determines the proteins charge, polarity, hydrophobicity and interactions with other molecules/function

Question 75

are some aas similar - summary

Answer 75

some aas are similar and provide homology among protein members of the same family or proteins conserved through evolution