Lecture 14 -- Protein Transport and Secretion

Question 1

• SEC dependent pathway

- Twin-arginine pathway (TAT)

Answer 1

List the pathways only involved in translocation

Question 2

• Types I, II, IV, VI

- Type VII

Answer 2

List the pathways responsible for translocation and secretion in one step

Question 3

• Type II (uses TAT or SEC)

- Type V (SEC)

Answer 3

List the translocation linked secretion pathways (two steps)

Question 4

• allow for formation of cell surface structure (cell wall, cell membrane, capsule)
• nutrient acquisition
• pathogenic mechanisms (infection of host cells)
• competition with other bacteria

Answer 4

Why do bacteria export/secrete protiens?

Question 5

• Type I pilus
• Toxins/adhesins
• P-type pilus
• Curli
• OMPs/adhesins

Answer 5

Structures involved in virulence

Question 6

• siderophore receptors

- TonB-dependent iron-uptake receptors

Answer 6

Nutrient receptors

Question 7

• many exported/secreted proteins are hydrophilic

- for proper localization and regulation of release

Answer 7

Why do bacteria need mechanism of protein secretion

Question 8

Proteins that are translocated across the cytoplasmic membrane

Answer 8

Exported proteins

Question 9

Proteins translocated across the cytoplasmic membrane and subsequently transported across the entire cell envelope

Answer 9

Secreted proteins

Question 10

cytoplasmic membrane, cell wall, *capsule, environment

Answer 10

List the potential locations where proteins can end up in gram positive bacteria

Question 11

cytoplasmic membrane, periplasm, cell wall, *outer membrane, capsule, environment

Answer 11

List potential locations where proteins can be brought in gram negative and cutoff for secretion

Question 12

• protein folded in the cytoplasm (stays intracellularly)
• intrinsically disordered proteins (rare)
• unfolded proteins are exported/secreted
• folded proteins are exported/secreted

Answer 12

List the four pathways proteins can take after translation

Question 13

• targeting and sorting in the cytoplasm
• translocation through a channel/energy in the membrane
• maturation and release in the periplasm (and potential folding)

Answer 13

List the steps of translocation/what happens a each location

Question 14

• universal, most well studied mode of translocation
• proteins are in an unfolded state
• essential for viability (cannot be deleted from cell)
• all proteins have a signal sequence

Answer 14

SEC-dependent protein translocation

Question 15

• Co-translational

- Post-translational (chaperone dependent and independent)

Answer 15

What are the two modes of SEC mediated translocation

Question 16

• integral membrane protein in SEC pathway
• generates a gated pore (the channel)
• made up of many alpha helices
• essential

Answer 16

SecYEG

Question 17

• involved in the sorting and recognition of the signal peptide in the SEC pathway (binds preprotein)
• provides the energy for translocation (ATPase) (along with Ftsy)
• can act as a chaperone to stabilize the unfolded protein in the cytoplasm
• essential

Answer 17

SecA

Question 18

• protein being secreted in SEC pathway
• has signal sequence
• unfolded

Answer 18

Preprotein

Question 19

• GTPase provides the energy
• ribosome localizes to the membrane
• sorting and targeting (1) –> translocation (2) –> maturation (3)
• signal peptidase cleaves protein so folding can occur

Answer 19

Co-translational Sec Pathway

Question 20

• maintain proteins in an unfolded state
• bind the signal peptide in the cytosol or ribosome
• bind SecA

Answer 20

Function of chaperones

Question 21

• plug in place when these two proteins are not interacting

- plug opens when they interact

Answer 21

SecYEG-SecA complex

Question 22

• non-essential for SEC translocation but improves efficiency
• may help release the signal sequence from the SecYEG channel
• may help formation of SecYEG

Answer 22

SecDF-YajC

Question 23

negatively charged glutamic acid group interacts with positive charge, pulling the protein through (uses ATP)

Answer 23

PMF electrophoresis

Question 24

Lysine is negatively charged at the base and becomes positively charged with the addition of a hydrogen (cannot go back through the channel) – uses ATP

Answer 24

PMF proton ratchet

Question 25

• less common translocation system
• translocates folded proteins
• requires a signal sequence
• not essential but can affect proper cell function
• ATP independent (only driven by PMF)

Answer 25

Twin Arginine Translocation (TAT) System

Question 26

• forms pore structure through which proteins move
• interacts with the signal peptide and folded protein
• serves as the initial docking site of the signal peptide

Answer 26

Functions of TAT A, TAT B, and TAT C

Question 27

Only certain cofactors are found inside the cell

Answer 27

Why do proteins fold inside the cell?

Question 28

• Signal Peptidase I cleaves signal peptide

- Signal Peptidase II cleaves signal peptide from pre-lipoproteins

Answer 28

What happens after translocation?

Question 29

• charged n region with Arg/Lys, binds to heads of phospholipids
• hydrophobic h region that associates with acyl chains of phospholipids
• c region (BXZ) where b and z are small amino acids

Answer 29

Standard signal peptide components

Question 30

• n region
• h region
• c region (cleavage domain) “BXZ” where B is large hydrophobic and cysteine is +1

Answer 30

Lipoprotein signal peptide components

Question 31

• 1st is diacylation

- 2nd is acylation

Answer 31

steps for the addition of groups to cysteine

Question 32

• twin arginine RR

- longer and less hydrophobic than Sec signal sequence

Answer 32

TAT signal peptide components

Question 33

• donates for the diacylation from phosphatidylglycerol

Answer 33

Lgt

Question 34

• removes signal peptide for lipoproteins

Answer 34

Lsp

Question 35

• donates for the final acylation in lipoproteins

Answer 35

Lnt