Which statement is true about Ka and Kd?

Unlock all questions

This demo includes only 20 questions. Upgrade to access hundreds of questions, flashcards, exam simulations, and disable ads.

Full question bankExam simulationsFlashcards
From $9.99Unlock all

Prepare for the Drug Action Exam. Study with multiple choice questions and detailed explanations to boost your comprehension. Evaluate your readiness and excel on your exam!

Multiple Choice

Which statement is true about Ka and Kd?

Explanation:
In binding equilibria, Ka and Kd correspond to opposite directions of the same process: Ka is the association constant, defined as Ka = [LR]/([L][R]), while Kd is the dissociation constant, defined as Kd = [L][R]/[LR]. They are reciprocals (Ka = 1/Kd). This means that a higher Ka (or a lower Kd) reflects tighter binding between ligand and receptor. Occupancy, or the fraction of receptors bound, depends on both Ka (or Kd) and the actual ligand concentration, via f = [LR]/[Rtot] = [L]/([L] + Kd). So the true statement is that Ka measures association and Kd measures dissociation; they are not both dissociation, and they do not directly measure occupancy.

In binding equilibria, Ka and Kd correspond to opposite directions of the same process: Ka is the association constant, defined as Ka = [LR]/([L][R]), while Kd is the dissociation constant, defined as Kd = [L][R]/[LR]. They are reciprocals (Ka = 1/Kd). This means that a higher Ka (or a lower Kd) reflects tighter binding between ligand and receptor. Occupancy, or the fraction of receptors bound, depends on both Ka (or Kd) and the actual ligand concentration, via f = [LR]/[Rtot] = [L]/([L] + Kd). So the true statement is that Ka measures association and Kd measures dissociation; they are not both dissociation, and they do not directly measure occupancy.

More Multiple Choice Questions
Subscribe

Get the latest from Examzify

You can unsubscribe at any time. Read our privacy policy