Effects of temperature and additives on the stability of actomyosin extracted from skeletal muscle of Israeli carp, Cyprinus carpio nudus, were studied by analyzing free SH-group, ATP-sensitivity and Ca-ATPase activity. The used additives were sucrose, sorbitol, Na-glutamate and L-cysteine. Furthermore, the denaturation constant($K_D$), protective effect(${Delta}E/M$) and the other thermo-dynamic parameters on protein denaturation are systematically discussed. The actomyosin showed $4.12{sim}4.68 mg/ml$ in protein concentration, $2.63{sim}2.93\%$ in ribonucleic acid to the protein, $1:2.20{sim}2.63$ in the binding ratio of myosin and actin, $4.33{sim}5.26\%$ in fat content, 109.78 in ATP-sonsitivity, $0.159{sim}0.201;{mu}M-Pi/min/mg-protein$ in Ca-ATPase activity and $3.3{sim}3.4M/10^5$g-protein in free SH-group content. The first-order rate plots were obtained on the decrease of Ca-ATPase activity and ATP-sensitivity with an increase in temperature, while the free SH-group was increased to $60^{circ}C$ and decreased rapidly above the temperature. The half-life of Ca-ATPase activity on the actomyosin Ca-ATPase was 280 min at $12^{circ}C$, 125 min at $20^{circ}C$, 55 min at $30^{circ}C$ and 13 min at $40^{circ}C$, and activation energy, activation enthalpy, activation entropy and free energy of the proteins at $20^{circ}C$ wene 5,395 cal/mole, 4,814 cal/mole, -40.42 e.u. and 17,626 cal/mole, respectively. The protective effect of the additives on the actomyosin Ca-ATPase showed that the most effective material is $3\%$ sorbitol and followed in the order of $8\%$ Na-glutamate, $1\%$ sucrose and $1\%$ L-cysteine. The actomyosin was more stable at $-30^{circ}C$ than at $0^{circ}C$ and $-20^{circ}C$. and when the additives were used in the low temperature storage, $8\%$ Na-glutamate was the most effective. $3\%$ sorbitol, $1\%$ sucrose and $1\%$ L-cysteine was to become lower in the order.