Kinases, Phosphatases, and GTPases

Question 1

protein kinases

similar to GEF

Answer 1

enzymes that transfer a phosphate group onto a target protein; thereby changing protein function from inactive to active

similar to GEF

Question 2

protein kinase steps

Answer 2

(1) protein kindse binds ATP as well as the target protein
(2) transfers a phosphate group
(3) the phosphorylated protein and the remaining ADP are released from the protein kinase

Question 3

phosphorylated protein

Answer 3

can be acivated, deactivated, or can act as a signle for other proteins to pass the single on

Question 4

phosphatease

similar to GAP

Answer 4

removes the phosphate group from a target phosphorylated protein

similar to GAP

Question 5

phosphorylation

figure A

Answer 5

reversible protein modification that is regulated by a balance of kinase and phosphatease activity

figure A

Question 6

protein kinase classification

Answer 6

phosphorylates (1) tyrosine, (2) serine, or (3) threonine; however serine and threonine kinases are often grouped into one category

Question 7

GTPases (GTP-binding proteins)

Answer 7

enzymes that bing to GTP and hyrdolyse it to GDP; when bound to GTP → active conformation; when in bound to GDP → inactive state

Question 8

GTPase steps

Answer 8

(1)

Question 9

Ras protein

figure B

Answer 9

in GTP-bound form → activates and stimulates protein phsophorylations in the cell; most of the time is in inactive form waiting for signal to exchange GDP for GTP

figure B

Question 10

GAP (GTPase-activating protein)

similar to a protein phosphatase

Answer 10

binds to Ras protein to hydrolyze its bound GTP to GDP

similar to a protein phosphatase

Question 11

GEF (guanine nucleotide exchange factor)

similar to protein kinase

Answer 11

binds to GDP-Ras and causes Ras to release its GDP; the Ras binding site is then immidatly filled by a GTP molecule; thus the GEF indirectly activates Ras protein

similar to a protein kinase