1-42 Mutations and Proteins

Question 1

the ramachandran plot shows us

Answer 1

the possible dihedral angles that can be observed in a given amino acid sequence

Question 2

forces that restrict the forms that a protein can take on

Answer 2

protein structure works to maximize favorable charge-charge pairings

satisfy all hydrogen bonds

maximize van der Waals interactions

arrange hydrophobic residues such that they are not interacting directly with water.

All of these forces restrict the forms the protein can take on, influencing its folding heavily.

Question 3

alpha helices

Answer 3

Often contain stretches of hydrophobic residues and act as transmembrane domains.

Question 4

beta sheets

Answer 4

Alternating hydrophobic/hydrophilic residues make them the secondary structure of choice for the proteins of Gram-negatives’ porins; the hydrophobic parts face the membrane, and the hydrophilic parts line the inside of the channel.

Question 5

gram negative porin secondary structure

Answer 5

beta sheets

hydrophobic parts face membrane, hydrophilic line the channel

Question 6

reverse (beta) turn

Answer 6

tight turns in protein

usually contains proline

found in any protein sequence with sharp turns, including multi-pass transmembrane proteins

Question 7

loops

Answer 7

referred to as “irregular structure”.

frequently forms binding site for other proteins/substrate.

proteins can share similar scaffolding, different loops sequences give rise to different functions

Question 8

helix-turn-helix

Answer 8

motif found in homeodomains and other DNA binding proteins in all kingdoms of life

Question 9

zinc finger

Answer 9

motif that binds DNA less strongly than helix-turn-helix.

many are used together by transcription factors to bind DNA

Question 10

coiled-coil domain

Answer 10

extremely stable domains found in fibrous proteins like myosin. also observed as DNA-binding domains in trancription factors.

Question 11

problems with folding in vivo

overcome with?

Answer 11

while protein transitions between different intermediates, some intermediates have exposed hydrophobic residues that can interact with neighbors.

overcome with chaperone proteins which cover exposed hydrophobic regions and help folding happen more smoothly

Question 12

Hsp70

Answer 12

used for small proteins

binds proteins and covers exposed hydrophobic patches during folding

Question 13

Hsp60

Answer 13

for larger proteins

takes misfolded proteins into its hydrophobic cavity.

ATPase puts a tight cap on the cavity, which changes it’s conformation and reveals charged residues lining the cavity

the protein quickly sequesters its hydrophobic regions within the protein structure

Question 14

Hsp100

Answer 14

uses atp to disassemble harmful protein aggregates

Question 15

role of h-60 and hp70 is mainly to

Answer 15

prevent interactions that cause misfolding or aggregating

Question 16

triple A domain of HP100

Answer 16

uses ATP hydrolysis to thread protein into the cleavage center

Question 17

proteins frequently get mutated in the…

Answer 17

mitochondria - lots of oxidative damage

Question 18

how to treat CF and alzheimers?

Answer 18

enhance ATP rate to stimulate chaperaones

Question 19

treat cancer?

Answer 19

inhibit chaperones. cancer tends to overexpress chaperones

Question 20

protein degredation is regulated by..

Answer 20

ubiquitin/proeasome pathway. subunit will bind, eventually 4 wil link and signal cell degredation. uses enzyme ascade of e1, e2, 3e3.

4 ubiquitin attach, moves to proteosome

Question 21

three parts of proteosome

Answer 21

non-binding portion

Question 22

most proteins are degreaded by the..

Answer 22

ubiquitin-proteosome pathway..

Question 23

describe the proteosome uniquitin pathway

Answer 23

proteins covalently bound to ubiqutin by three enzyme system

1. activating enzyme (activates ubiq)
2. conjugating enzyme (transfers ubiq to protein)
3. ligating enzyme (bonds the ubiquitin to the protein)