lecture 13 - protein activation & inhibition 1

Question 1

What are some common compounds that may inhibit or activate proteins?

Answer 1

hormones, neurotransmitters, drugs, toxins, poisons

Question 2

What are the common steps in protein activation or inhibition?

Answer 2

Substance travels from source, binds to protein, activation/inhibition, changes to cellular response due to functional change

Question 3

What are protein receptors?

Answer 3

Cellular proteins that control chemical signalling between and within cells

Question 4

What is the difference between enzymes and receptors in terms of active sites?

Answer 4

Enzymes generally have 1, while receptors can have several

Question 5

What is the difference between enzymes and receptors in terms of what they bind?

Answer 5

Enzymes bind substrates while receptors bind ligands

Question 6

What is the difference between enzymes and receptors in terms of release of the bound substance?

Answer 6

Enzymes change substrate into product, while receptors release ligands unchanged

Question 7

Where are receptors and enzymes found in a cell?

Answer 7

Membrane bound or free in cytosol

Question 8

What are the 3 main classes of receptor?

Answer 8

Ligand-gated ion channels, G Protein Coupled Receptors (GPCR), Receptor tyrosine Kinase (RTK)

Question 9

What is the name for a chemical that binds to a receptor?

Answer 9

A ligand

Question 10

Where are endogenous ligands produced?

Answer 10

Inside the body

Question 11

Where are exogenous ligands produced?

Answer 11

Outside the body, e.g. drugs and toxins

Question 12

What are the 3 types of receptor signalling used by locally-produced chemical substances?

Answer 12

Synaptic, paracrine, autocrine

Question 13

What type of receptor signalling is used by chemical substances produced at a distant site to the receptor (i.e. hormones)?

Answer 13

Endocrine

Question 14

What is synaptic signalling?

Answer 14

The presynaptic cell produces a chemical that is received by a specific post-synaptic cell that expresses the receptor

Question 15

What is paracrine signalling?

Answer 15

A cell produces a chemical that is received by receptors on a number of neighbouring cells

Question 16

What is autocrine signalling?

Answer 16

A cell excretes a chemical that is received by receptors expressed on the same cell

Question 17

What is endocrine signalling?

Answer 17

A cell produces a chemical, it is transported via the blood stream, and is received by a distant cell expressing the appropriate receptor

Question 18

Where are the majority of receptors found, and why?

Answer 18

The outer cell membrane, so they can act as sensors of the extracellular environment without the ligands having to pass into the cell

Question 19

What is ligand specificity?

Answer 19

Receptors and ligands have specificity, so only certain ligands match the corresponding receptor’s binding pocket

Question 20

What is the name for a ligand that is able to bind to and activate a receptor?

Answer 20

An agonist

Question 21

How do agonists activate receptors?

Answer 21

They bind, the receptors undergoes a conformational change

Question 22

What happens when a membrane receptor has been a activated by an agonist ligand?

Answer 22

Active receptor starts a chain of events where messengers are passed on thorough the cell via signal transduction

Question 23

What is the name for a ligand that binds to a receptors and prevents activation by an agonist?

Answer 23

Antagonist

Question 24

What is an antagonist ligand?

Answer 24

A ligand that binds to a receptor and blocks agonist binding to inhibit signal transduction

Question 25

What is the signal transduction mechanism of adrenaline in the lungs?

Answer 25

Adrenaline acts as an agonist to activate the B-adrenergic receptor (GPCR), resulting in signal transduction that causes bronchodilation

Question 26

What is the signal transduction mechanism of insulin?

Answer 26

Insulin acts as an agonist to activate an insulin receptor (a RTK), resulting in signal transduction and then glucose uptake

Question 27

What receptor does adrenaline act on to cause bronchodilation?

Answer 27

beta-adrenergic (a GPCR)

Question 28

What type of receptor is beta-adrenergic

Answer 28

GPCR

Question 29

What receptor does insulin act on to increase glucose uptake?

Answer 29

Insulin receptor

Question 30

What type of receptor is an insulin receptor?

Answer 30

RTK receptor