In living muscle, energy is stored as glycogen: glycogen to glucose to pyruvate
In dying muscle, lactic acid accumulates and lowers pH.
Within 24 hours after death
(1) glycogen -------> lactic acid
(2) muscle pH: 7.0 -------> 5.6 (because of lactic acid)
(3) muscle color: purple changes to bright red or pink (pH 7.0 -------> 5.6)
pH also is important in determining the water-holding capacity of meat, the ability of meat to retain its water during application of external forces such as cutting, heating, grinding, or pressing. There are three locations of water found in meat: bound (charged hydrophilic groups on the muscle proteins attract water, forming a tightly bound layer), immobilized (has less orderly molecular orientation toward the charged group), and free (held only by capillary forces, and their orientation is independent of the charged group). The following graph depicts the relationship between pH and water-holding capacity. Where water-holding capacity is the lowest is the isoelectric point, where the number of positively and negatively charged groups of the myofibrillar proteins is equal. Thus, the charges cancel out and no charge is available to hold the bound and immobilized water.
Long-term glycogen depletion (environmental)
Cause: Extended transport-hauling of pigs, without feeding, depletes muscle glycogen. Limited lactic acid production occurs postmortem
Solution: Feed and rest for 24 or 48 hr prior to slaughter.
Long-term glycogen or intermediate glycogen depletion (environmental and hereditary)
Cause: Beef Stress Syndrome, "Alarm" reaction of General Adaption Syndrome
Fright = fight or flight
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Glycogen concentration goes down.
Factors involved in this: exhaustion, exposure to cold, excitement, sex (bullock), sudden feed withdrawal, sickness, show steer.
Solution: Proper handling and prevention of stress best way to reduce incidence.
Short-term glycogen depletion (hereditary)
Cause: Hereditary: (1) swine susceptible to PSS (disease), and (2) swine susceptible to PSE (reaction to excitement or slow chilling).
PSE pork -- short-term glycogen depletion prior to death. Very rapid glycolysis due to excitement (antemortem) or due to holding on kill floor a long time before chilling (postmortem). pH reaches 5.2 in 2 hr postmortem.
Loss of color, firmness, water-holding capacity.
Solution: Decrease emphasis on selection for heavy muscle (highly related to degree of muscle). Now selecting for looser frames, less muscle expression.
| Muscle color | Glycogen at death | Glycogen at 24 hr | Lactate production | Ultimate muscle pH |
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Literal translation is "death stiffening". Rigor has three phases:
Delay phase -- while there is plenty of ATP in the muscle (complexed with Mg++), the muscle will remain in the relaxed state and no crossbridges between the thick and thin myofilaments will occur.
Onset phase -- As stores of ATP and Creatine Phosphate (CP is used to rephosphoryate ADP to ATP) are used up, rigor bonds between the thick and thin myofilaments are formed. As more bonds are formed, the muscle loses extensibility.
Completion -- When all of the CP is gone, the muscle has no way of regenerating ATP. Thus, full rigor mortis will set in.
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