Creatine Phosphate/Kinase

Question 1

How long can we sustain a contraction for in our muscles based purely on the amount of ATP present?

Answer 1

About 1 second

Question 2

How can we get ATP from Creatine Phosphate?

Answer 2

Creatine Kinase converts creatine phosphate into creatine and ATP. Creatine phosphate acts as a buffer for demands for phosphate.

Question 3

In what cells is CK in particularly high concentrations?

Answer 3

Creatine kinase (CK) is probably present in all cells but is present in particularly high concentrations in muscle cells and brain cells.

Question 4

When cells rich in CK die, where does the CK go? Why is this relevant?

Answer 4

It is released into the circulation, therefore we can use it as a marker for cell damage.

Question 5

Why do brain and muscle cells need a lot of ATP?

Answer 5

Brain and muscle cells need lots of ATP as they use a lot of energy and in quick bursts and so ATP is needed to quickly restore ion concentrations/equilibrium.

Question 6

What are the three isoenzymes of CK called?

Answer 6

Three dimeric isoenzymes of creatine kinase are known in humans. The two different subunits M and B provide the following isoenzymes: MM, MB and BB.

Question 7

Where is MB found?

Answer 7

Only in the heart, forming about 15% of it. The rest is all MM.

Question 8

Where is BB NOT found?

Answer 8

The heart.

Question 9

How can we separate the three isoenzymes of CK?

Answer 9

Electrophoresis

Question 10

Which isoenzyme of CK moves the furthest towards the negative electrode?

Answer 10

MM