Protein Degredation

Question 1

Besides just mutated or erroneous proteins, the degradation of cellular proteins that are no longer required, and the elimination of certain regulatory proteins is essential for normal

Answer 1

Cellular function

Question 2

The ubiquitin/proteasome pathway (UPP) is dependent on

Answer 2

Energy

Question 3

in the UPP pathway, the targeted protein is marked for degredation by attachment to the protein

Answer 3

Ubiquitin

Question 4

Degradation of the ubiquinated protein occurs in a compartmentalized protease called the

Answer 4

Proteasome

Question 5

The most efficient way to terminate a biological effect is to degrade the protein that performs that

Answer 5

Function

Question 6

Permits the removal of damaged proteins, facilitates growth and tissue remodeling, and offers a rapid response to stress and infection

Answer 6

Protein degradation

Question 7

The breakdown of proteins that generates amino acids for use in new protein synthesis and intermediates for the synthesis of other metabolites

Answer 7

Proteolysis (protein turnover)

Question 8

The proteolytic enzymes involved in specific and non-specific protein degradation share which two key features?

-saves intracellular proteins

Answer 8

1. ) expressed as zymogens

2. ) compartmentalized

Question 9

Compartmentalizing the proteolytic enzymes does what?

Answer 9

Spares other cellular proteins

Question 10

Refers to the time it takes for a protein to lose 50% of activity

Answer 10

Functional half-life

Question 11

The hydrolytic activities of the proteasome exist inside a chambered barrel that is assembled from a stack ofq

Answer 11

Four seven subunit protein rings

Question 12

Before substrates enter the inner sanctum of the proteasome, they are first unfolded by an

Answer 12

ATP-dependent unfolding machine

Question 13

Unlike digestive and lysosomal proteolysis, degradation by the proteasome is

Answer 13

Energy-dependent

Question 14

Which three properties regulate proteolysis?

Answer 14

1. ) Zymogen precursors
2. ) Compartmentilization
3. ) pH

Question 15

Another restriction that ensures that some proteases are active only in the correct location is their strict requirement for

Answer 15

Low pH for optimal activity

Question 16

A compartmentalized proteolytic organelle

Answer 16

Lysosome

Question 17

A tumor suppressor protein that is degraded by the UPP

Answer 17

p53

Question 18

Proteases that always degrade the same class of protein. The key feature is that the protein was not damaged, but it simply was no longer required by the cell

Answer 18

Specific degradation

Question 19

A sporadic and unscheduled degradation of proteins, such as the dietary proteins, by proteases with a broad cleavage specificity

Answer 19

Non-specific Degredation

Question 20

Since we want some proteins to only be active for a short amount of time, we could only express them when they are needed, or when they are not needed we could mark them for degradation with a

Answer 20

Post translational modification

Question 21

A pathway for targeting proteins with a very high degree of specificity

Answer 21

The ubiquitin/proteasome system (UPS)

Question 22

To mark them for degradation by the proteasome, substrates are post-translationally conjugated to a small protein called

Answer 22

Ubiquitin (Ub)

Question 23

The most conserved protein known to man

-no known genetic mutations

Answer 23

Ubiquitin

Question 24

Substrates are typically targeted by ubiquitin after a post-translational modification such as

Answer 24

Phosphorylation or hydroxylation

Question 25

Substrate-specificity in the UPS is accomplished by forming unique combinations of targeting factors. The substrate-targeting factors are known as

Answer 25

Ub-conjugating enzymes (E2) and Ub-protein ligases (E3)

Question 26

Refers to the distinct targeting complexes that can be assembled from this large set of proteins.

-Each unique E2/E3 complex is likely to have only one or a few substrates to which they attach Ub

Answer 26

Combinatorial Diversity

Question 27

Has a highly compact structure (fist w/ extended thumb) and 7 lysine residues on the surface

-a highly reactive carboxy terminus is accessible

Answer 27

Ubiquitin

Question 28

Ubiquitin is always expressed as a fusion protein (Ub’s in tandem, or fused to specific ribosomal proteins) and is inactive until it is

Answer 28

Hydrolyzed to mono-Ub

Question 29

Ubiquitin has a compact structure with a reactive carboxy terminus that participates in all

Answer 29

Covalent interactions

Question 30

The lysine residues on the surface of Ub can be ligated to additional

Answer 30

Ub’s

Question 31

When multiple Ub’s are attached to a substrate in the form of a chain, it can form a high-affinity hydrophobic interaction with the

Answer 31

Proteasome

Question 32

A single Ub does not bind the proteasome because the hydrophobic patch on its surface is not sufficient to form a

Answer 32

High-affinity interaction

Question 33

Neighboring ubiquitins form intramolecular hydrophobic interactions that yield a highly compact multi-Ub chain with a large hydrophobic surface that forms a high-affinity interaction with the

Answer 33

Proteasome

Question 34

A significant reason for expression Ub as a fusion protein is to block the

Answer 34

Reactive carboxy terminus

Question 35

What are the three key enzymes that promote the attachment of ubiquitin to to proteolytic substrates?

Answer 35

1. ) Ub activating enzyme (E1)
2. ) Ub-conjugating enzyme (E2)
3. ) Ub-protein ligase (E3)

Question 36

Mediates the transfer of Ub from E1 to either E3 or substrate

Answer 36

E2

Question 37

The Ub-protein ligase (E3) attaches the Ub to substrate via an

Answer 37

Isopeptide bond

Question 38

The carboxy terminus of Ub is generated by proteolysis and ends with the covalent residues

Answer 38

RGG

Question 39

Ub is released from the fusion protein following hydrolysis by

Answer 39

Ub-carboxy terminal hydrolases (UCH)

Question 40

In the formation of a multi-Ub chain, a lysine residue in the first Ub becomes covalently linked to the carboxy-terminus of the second Ub by an

Answer 40

Isopeptide bond

Question 41

The formation of the hydrophobic stripe, which is required to interact with the proteasome, requires a minimum of

Answer 41

4 linked Ubs

Question 42

Ub contains 7 lysine residues. The resulting chain
of ubiquitins can target a substrate to the proteasome, if the linkage involves

-If it is attached to a different residue, the potential conformation and biological effect could be very different

Answer 42

Lysine-48

Question 43

Free mono-Ub is activated in an ATP dependent reaction by an enzyme called

Answer 43

E1

Question 44

The bond between Ub and E1 is a

Answer 44

Thioester bond

Question 45

Ub is transferred from E1 to E2 and then to E3 in a

-Only the ubiquination of E1 requires ATP

Answer 45

Thioester cascade

Question 46

The difference between a peptide and an isopeptide bond is that while a peptide bond involves an α-amino group, an isopeptide bond involves an

Answer 46

ε-amino group

Question 47

Can cleave and release Ub from a substrate

Answer 47

Ub processing enzymes

Question 48

Activates the carboxy terminus of Ub, forms a noncovalent interaction with Ub-adenylate, and forms a thioester bond with Ub

Answer 48

E1

Question 49

Receives Ub via a trans esterification reaction from E1

-Associate with E3 enzymes

Answer 49

E2

Question 50

What are the two types of E3 enzymes?

Answer 50

1. ) Ring E3’s

2. ) Hect E3’s

Question 51

Differ from RING E3’s because they have the ability to form a thioester bond with Ub and so they don’t have to bind E2

Answer 51

Hect E3’s

Question 52

Can cleave the isopeptide bonds that link Ub to protein substrates, and Ub that is assembled into multiubiquitin chains

Answer 52

Ub-processing proteases (Ubp)

Question 53

The bond between Ub and substrate is an

Answer 53

Isopeptide bond

Question 54

Following interaction with the proteasome, multi-ubiquinated proteins are de-ubiquinated and unfolded. This reaction is coupled, since failure to remove the Ub results in

Answer 54

Inhibition of degradation

Question 55

The formation of a hydrophobic stripe is the primary determinant for promoting interaction with the

Answer 55

Proteasome

Question 56

Important for DNA repair, but does not promote degradation by the proteasome

Answer 56

Multi-ubiquitination through lysine 63

Question 57

Short chains assembled through Lysine 63 promote translocation of plasma membrane proteins to the

Answer 57

Lysosome for degradation

Question 58

The recognition of the substrate and the degradation of the substrate are spatially and temporally separable events in the

Answer 58

UPS

Question 59

A multisubunit and multicatalytic chambered protease in which substrate binding and substrate degradation are carried out by specialized sub-complexes

Answer 59

Proteasome

Question 60

In the Proteasome, which complex:

1. ) Recognizes the substrate
2. ) Degrades the substrate

Answer 60

1. ) 19S complex

2. ) 20S complex

Question 61

Contains three distinct proteolytic activities:

1. ) Chymotrypsin-like
2. ) Trypsin-like
3. ) PGPH

Answer 61

20S subunit (The catalytic core particle)

Question 62

A barrel -like structure generated by a stack of four rings (α on top and bottom, 2β in middle)

Answer 62

20S subunit

Question 63

Identical, and contain the catalytic subunits

Answer 63

β -subunits

Question 64

Form a densely packed mat of overlapping loops that prevent entry into the 20S catalytic chamber

Answer 64

α-subunits

Question 65

Three proteins in the β-subunits have the hydrolytic activity and exist as

Answer 65

Zymogens

Question 66

Cellular proteins are not hydrolyzed unless they are first recognized by the

-unfolds and translocates the proteins (requires ATP)

Answer 66

19S subunit

Question 67

The α and β rings dimerize. One α/β dimer associates with another α/β dimer in a reaction that is mediated by a chaperone called

Answer 67

Ump1 (degraded upon activation of proteolytic sites)

Question 68

One of the key properties of the 19S particle is that it contains receptors that enabled it to only bind to particles containing

-Prevents unmarked proteins from being degraded

Answer 68

Multi-Ub chains

Question 69

The affinity between the proteasome and multi-Ub chains increases from

Answer 69

4Ub to 8UB (but not 8Ub to 16Ub)

Question 70

Associated with deubiquitinating enzymes that can dismantle multi-Ub chains from substrates

Answer 70

19S particle

Question 71

The 19S particle contains a ring of 6 non-redundant ATPases that

Answer 71

Unfold substrates to be degraded

Question 72

Regulates the axial channel and binds regulatory proteins

Answer 72

19S particle

Question 73

Two 19S particles attach to each end of the 20S complex to form a dumbbell-shaped complex called the

Answer 73

26S proteasome

Question 74

The efficiency of multi-step events is often improved by physically restricting the path of the reactants and products, through a mechanism termed

Answer 74

Channeling

Question 75

The specificity of the proteasome is conferred entirely by the

Answer 75

19S subunit

Question 76

A DNA repair protein that binds XPC in the nucleotide excision repair pathway

-mutations can lead to XP

Answer 76

Rad23

Question 77

Ub proteins do not bind the 20S particle. Instead, they bind the

Answer 77

19S regulatory particle

Question 78

Immune cells express a specialized proteasome, which generates fragments of proteins that can be expressed on MHC class I and II molecules, forming antigens. These are called

Answer 78

Immunoproteasome

Question 79

In the immunoproteasome, the 19S particle is replaced with

-contributes to recognition of distinct types of substrates

Answer 79

PA28

Question 80

In the immunoproteasome, the three beta with the hydrolytic activity are

Answer 80

Replaced

Question 81

Generates peptides of the correct length and hydrophobicity to be placed in a cleft present in the extracellular domain of MHC molecules.

Answer 81

Immunoproteasomes altered cleavage properties

Question 82

What are the four mechanisms of regulation from protein degradation?

Answer 82

1. ) Allosteric control
2. ( Role of ATP hydolysis
3. ) Recycling and peptide release
4. ) Combinatorial diversity

Question 83

The process of protein hydrolysis by the proteasome has been termed

Answer 83

‘bite-and-chew’

Question 84

Polypeptide chains that enter the 20S chamber are first attacked by the

-generates large fragments

Answer 84

Chymotryptic activity

Question 85

High concentration of the large chymotryptic fragments allosterically inhibits further translocation of the polypeptide into the

Answer 85

Catalytic chamber

Question 86

During this allosteric inhibition, what begins to chew up the chymotryptic fragments?

Answer 86

Trypsin and PGPH

Question 87

The process whereby the 26S proteasome dissociates into the 19S and 20S subunits after each cycle of protein degradation, releasing the degradation products

Answer 87

‘chew-and-spew’

Question 88

p53 tummor suppressor is degraded by the

-prevents cells from exercising proper checkpoint control during the cell cycle

Answer 88

Human Papilloma Virus (HPV) E6 protein

Question 89

The variant of HPV that causes cancer does so because it expresses an altered viral E6 protein that can alter the substrate targeting properties of

Answer 89

E3

Question 90

E6AP is termed a

Answer 90

Hect E3 ligase

Question 91

Form a thioester linkage with Ub, and also interacts with an E2 enzyme

Answer 91

Hect E3 ligase

Question 92

Constitutively degraded in normal oxygenated tissues

Answer 92

Hif1 transcription factor

Question 93

Required for activating expression of a number of genes that respond to hypoxia

-degraded in normal cells becayse the tissues are well oxygenated

Answer 93

Hif1

Question 94

Mutations in the F-box protein of the SCF E3 Ligase (a RING E3 ligase) can prevent

Answer 94

Hif1 degradation

Question 95

A major fraction of solid sarcomas in the kidney and pancreas are due to the stabilization of

Answer 95

Hif1 due to F-box substitution

Question 96

The inflammatory response defines a cellular reaction to insult and injury. The central player in this response is the transcription factor

-initially synthesized as a large precursor

Answer 96

NFκB

Question 97

The first role for the proteasome is to process NFκB. The resulting processed and mature polypeptide
(p65) assembles into a dimer with another protein p50/p65, to form the active

Answer 97

NFκB transcription factor

Question 98

However, p50/p65 can be sequestered in the cytoplasm by the inhibitory molecule

Answer 98

IκBα

Question 99

Cell injury results in the activation of a kinase, called the Iκ kinase (IκK), in a mechanism that requires a functional ubiquitin-conjugation pathway. The activated IκK phosphorylates IκBα, which prevents it from

Answer 99

Sequestering p50/p65

Question 100

Specific E2/E3 factors recognize phosphorylated IκBα and promote its degradation by the

Answer 100

Proteasome

Question 101

Specific E2/E3 factors recognize phosphorylated IκBα and promote its degradation by the proteasome. This results in the release of p50/p65, which can now enter the nucleus and activate transcription of

Answer 101

Stress-responsive genes

Question 102

Required for activating a DNA damage response

Answer 102

Proteasome

Question 103

A proteasome subunit that can bind multiubiquitin chains

Answer 103

Ataxin-3

Question 104

If ataxin-3 undergoes trinucleotide repeats, the result is

Answer 104

Machodo-Joseph disease

Question 105

Failure to degrade hypoxia inducible transcription factor Hif1 causes

Answer 105

Von hippel-Lindau (VHL) syndrome

Question 106

Under normoxia conditions, Hif1 is targeted by

-requires Rbx1

Answer 106

VHL