Explain the biochemical basis of rigor mortis, in terms of the interaction of actin and myosin; ie, wherein the contraction cycle is the muscle arrested? Explain the biochemical basis of rigor mortis, in terms of the interaction of actin and myosin; ie, wherein the contraction cycle is the muscle arrested? Explain the biochemical basis of rigor mortis, in terms of the interaction of actin and myosin; ie, wherein the contraction cycle is the muscle arrested?

Question

Biology

Landry

15 October, 10:46

Explain the biochemical basis of rigor mortis, in terms of the interaction of actin and myosin; ie, wherein the contraction cycle is the muscle arrested? Explain the biochemical basis of rigor mortis, in terms of the interaction of actin and myosin; ie, wherein the contraction cycle is the muscle arrested? Explain the biochemical basis of rigor mortis, in terms of the interaction of actin and myosin; ie, wherein the contraction cycle is the muscle arrested?

+2

Answers (1)

Know the Answer?

Rayan Harvey · Answer 1

Hydrolysis of ATP

Explanation:

The biochemical basis of rigor mortis in terms of the interaction between actin and myosin can be explained as the condition in which the muscle becomes arrested as ATP is unable to get hydrolyzed and this is basically the energy source that is needed for movement. Myosin head molecules becomes glued to actin filaments and the muscles become rigid in the absence of ATP. This condition peaks at 13 hours and then dissipates after 48 hours.