BIOCHEMISTRY II >CUSTOM<
BIOCHEMISTRY II >CUSTOM<
17th Edition
ISBN: 9781337449014
Author: GARRETT
Publisher: CENGAGE C
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Chapter 32, Problem 9P
Interpretation Introduction

Interpretation:

The fraction of the receptor bonded with the hormone needs to be calculated.

Concept Introduction :

While considering the simple equilibrium binding of receptor to hormone the below equilibrium could be used:

  [HR][H]+[R]

Within this equilibrium, [HR] is representative of the hormone’s concentration receptor complex. [H] signifies the free hormone’s concentration while [R] signifies the noncomplexed receptor’s concentration. The equilibrium dissociation constant for this specific reaction could be found to be as:

  KD=[H][R][HR] ......(1)

Expert Solution & Answer
Check Mark

Answer to Problem 9P

  fbound=0.496

Explanation of Solution

The equilibrium equation can also be written as follows:

  KD=[H][R][HR]KD[HR]=[H][R][H]=[HTotal][HR] and [R]=[RTotal][HR]

After substituting,

BIOCHEMISTRY II >CUSTOM<, Chapter 32, Problem 9P

The quadratic equation to solve for the variables:

  [HR]=[HTotal]+[RTotal]+KD± ( [ H Total ]+[ R Total ]+ K D )24[ H Total][ R Total]2

Substituting in the initial hormone and receptor concentration gives:

  [HR]=[ H Total]+[ R Total]+KD± ( [ H Total ]+[ R Total ]+ K D ) 2 4[ H Total ][ R Total ]2         = 1nM+0.1nM+1nM± ( 1nM+0.1nM+1nM ) 2 4( 1nM )( 0.1nM )2         = 2.1nM± ( 2.1nM ) 2 0 .4nM 2 2         = 2.1nM± 4.1 nM 2 0.4n M 2 2

Since [HR] must be 0 when [HTotal] and [HTotal]

  [HR]=2.1nM± 4.01 nM 2 2         = 2.1nM±2.0025nM2         = 0.09752         = 0.0488 nM

To determine the fraction receptor bound divide [HR] by [RTotal]

  fbound=[HR][ R Total]        = 0.0488nM0.1nM        = 0.488

These calculations can be repeated for when the concentration of receptor is decreased to 0.33 nM.

  [HR]=[ H Total]+[ R Total]+KD± ( [ H Total ]+[ R Total ]+ K D ) 2 4[ H Total ][ R Total ]2         = 1nM+0.033nM+1nM± ( 1nM+0.033nM+1nM ) 2 4( 1nM )( 0.033nM )2         = 2.033nM± ( 2.033nM ) 2 0 .132nM 2 2         = 2.1nM± 4.133089 nM 2 0.132 nM 2 2

Taking the negative root again:

  [HR]=2.033nM± 4.001089 nM 2 2         = 2.033nM±2.003nM2         = 0.03272         = 0.0164 nM

Finding the fraction receptor bound gives:

  fbound=[HR][ R Total]        = 0.0164 nM0.033 nM        = 0.496

Conclusion

The fraction of the receptor bonded with the hormone is 0.496.

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