Prokaryotic Protein Secretion Systems

Question 1

True or false, not all protein secretion systems require energy

Answer 1

False, they all do

Question 2

What is placed onto most proteins needed to be secreted by the cell?

Answer 2

N-terminus signal peptides

Question 3

What does each signal peptidase do?

Answer 3

SP1 - cleaves off the signal peptide of almost all proteins

SP2 - cleaves off the signal peptide of Lipo Proteins

Question 4

Are signal peptides conserved molecules?

Answer 4

No, but there are three conserved area’s.

Question 5

Explain the three conserved area’s of signal peptides

Answer 5

1) (+) N region terminus (n region)
2) hydrophobic core (h region)
3) (-) C Terminus which is also hydrophilic (c region)

Question 6

Explain Lipoprotein signal peptides

Answer 6

• also have c, n , h region
• has a LIPO box region which contains a positive cysteine group
• this cysteine group must be lipid modified before the SP is cleaved
• is monitored by SP 2

Question 7

where are signal peptides cleaved in lipoproteins?

Answer 7

just before the fatty acid cysteine that is apart of the LIPO box

Question 8

Explain the SEC dependent pathway

Answer 8

• proteins needed to be secreted are made as precursor proteins with a N - terminal signal peptide
• signal peptides delay the folding of the protein
• chaperone proteins maintain the unfolded precursor
• Translocon in PM transfers the protein through the PM and uses SP 1 or 2 to cleave signal peptide

Question 9

What is the GSP?

Answer 9

General secretion pathway. This is the same thing as SEC dependent pathway

Question 10

How far can the GSP get a protein?

Answer 10

only through the PM and into the periplasm

Question 11

What is the SEC system?

Answer 11

The system to get a protein into the periplasm

Question 12

What is SecB?

Answer 12

the cytoplasmic chaperone protein that keeps the precursor protein unfolded and stable

Question 13

What is SecA?

Answer 13

just an ATPase that provides energy for export

Question 14

What proteins form the channel complex to secrete the new protein?

Answer 14

Sec Y, E, G

Question 15

What is Post-translational secretion?

Answer 15

Entire protein is synthesized before translocation. E.g the Brauns lipo protein in gram negative cells

Question 16

What is Co-translational secretion?

Answer 16

synthesis occurs at the same time as secretion

Question 17

What part of the protein enters the Sec pathway first?

Answer 17

the N terminus in most pathways. This is because the signal peptide is located on it. If the signal peptide was some how on the C - terminus then Co-translational secretion is impossible.

Question 18

What is the high affinity SecA binding site?

Answer 18

Sec Y and Sec E of the channel

Question 19

Explain what the type 2 secretion system achieves and what it secretes?

Answer 19

• type 2 secretion gets proteins past the periplasm and through the Outer Membrane
• uses SEC SYSTEM to get proteins into periplasm therefore sec dependent
• many pathogens use Type 2 to secrete toxins, proteases, and lipase’s

Question 20

Most of the the Type 2 secretion proteins are OMP’s. T or F

Answer 20

false, most are PM integral proteins

Question 21

What is the only component in the OM for type 2 secretion?

Answer 21

Secretin

Question 22

How does the type 2 secretion system get proteins out of OM (3)

Answer 22

• secretin forms pore in OM
• Several integral proteins form and miniature type IV pilus called a piston
• addition of subunits and extraction of subunits extends and pulls back piston to shove out protein through Secretin

Question 23

what are pseudopilins?

Answer 23

integral proteins homologous to type IV pili. There are 5 involved in type 2 secretion. These form the actual piston

Question 24

Explain what Type 1 secretion system achieves? (3)

Answer 24

• exports proteins as a complete protein through both the PM and OM
• therefore SEC INDEPENDENT
• proteins have signal on C terminus therefore this is always post-translational secretion

Question 25

What is ABC / ATP binding cassette secretion?

Answer 25

same thing as TYPE 1 secretion

Question 26

True or false, the C terminus signal in type 1 secretion is never cleaved off

Answer 26

True, unlike signal peptides on N - terminus

Question 27

What are the three components of type 1 secretion pathways?

Answer 27

• ATP cassette binding protein
• MFP (membrane fusion protein)
• OMP

Question 28

what does the cassette binding protein do? what is its composition?

Answer 28

• type 1
  It is comprised of NBD (nucleotide binding domain) and is fused to the PM.
• IT IS RESPONSIBLE FOR PROTEIN SPECIFICITY and provides energy

Question 29

what does the MFP do?

Answer 29

• type 1
  Short cytoplasmic domain and large N terminal periplasmic domain
  upon ATP cassette protein binding, it connect the OM with the PM allowing a protein to skip the periplasm.

Question 30

What does the OMP do?

Answer 30

• is generated upon initial interaction of ABC protein and substrate
• forms water filled pore for protein to leave through

Question 31

What protein discovered the type 1 secretion system?

Answer 31

Hemolysin of E. coli

Question 32

explain the 3 components of the hemolysin type 1 secretion pathway

Answer 32

HylB - ABC protein
HlyD - MFP
TolC - OMP compartment

hemolysin is coined HlymA and has a 50AA C terminal signal

Question 33

What secretion system makes proteins go from cytoplasm directly to another cytoplasm? What is normally transported like this?

Answer 33

• (TTSS) Type 3 secretion is sec independent and has no periplasm intermediate!!
• normally pathogen virulence proteins are translocated like this

Question 34

how does TTSS accomplish its translocation of proteins?

Answer 34

Uses a needle complex NC with structural similarities to the basal body of flagella. Roughly 70 nm long

Question 35

Explain the needle complex in type 3 secretion. How many proteins involved?

Answer 35

• 30 proteins 8 being homologous to basal body of flagella
• At the tip of the needle is a a complex that forms a pore in prey cells
• proteins pass through the needle in a semi unfolded state because the pore is so thin

Question 36

How does the cell know a protein is going through TTSS?

Answer 36

• the N - terminus does not have a signal peptide, but it must have at least 12 N-terminal amino acids.
• middle residues of roughly 50-150AA’s are chaperone binding and targeting to TTSS
• the rest of the AA’s have effector activity often altering transduction pathways in the host

Question 37

What is conjugation?

Answer 37

Transfer of genetic info from one bacteria to another via direct contact.

Question 38

explain type 4 secretion system purpose

Answer 38

it secretes proteins and transfers DNA vi conjugation. It is sec independent

Question 39

explain the purpose of type 5 secretion system

Answer 39

• proteins that go through this system are called autotransporters
• they are SEC Dependent pathways
• protein has 3 domains

Question 40

Explain the 3 domains of autotransporters

Answer 40

N terminal domain contains signal peptide
middle domain contains effector region
Conserved C terminal domain which is able to form its own pore in the OM