• 한국식품위생안전성학회지
• /
• 제22권1호
• /
• pp.37-44
• /
• 2007

피틴산(Phytic acid)dms inositol hexaphosphate로서 식물성 식품 및 씨 중에 1-5%가량 존재하는 자연 항산화 물질로서 소화효소에 의해 쉽게 분해되지 않는다. 한편 인산염은 식육에서 품질개량제로 식육에서의 항균 효과에 대해서는 이미 여러 보고가 있으나 그 결과는 다양하다. 일반적으로 생육에서는 그 효능이 낮은데 이것은 생육에 존재하는 phosphatase의 작용에 의해 인산염들이 가수분해되기 때문이다. 한편 피틴산염은 열에 강하고 쉽게 분해되지 않으므로 생육이나 멸균 처리된 식육에서 공히 인산염들이 가지고 있는 항균효과를 기대할 수 있다. 본 실험에서는 선택배지에서 E. coli O157:H7에 대한 sodium phytate(STP), sodium pyrophosphate(SPP) 및 sodium tripolyphosphate(STPP)의 항균효과를 평가하였고,더불어 생육 및 가열 처리된 식육모델에서 E. coli O157:H7 접종 후에 항균 효과를 비교 평가하였다. 선택된 배지인 tryptic soy broth에서 E. coli O157:H7에 대한 항균 효과는 SPT, SPP 및 STPP의 0.05, 0.1, 0.5%의 세 가지 농도에서 농도에 의존적으로 유의성 있게 세균 증식을 억제시켰으며, 항균효과는 SPP에서 가장 강하게 나타났다. 생육인 닭고기, 돼지고기 및 소고기에 SPT, SPP 및 STPP를 각각 0.05, 0.1, 0.3 그리고 0.5%의 농도별로 첨가했을 때 E. coli O157:H7의 증식이 모두 유의성 있게 감소하였다 (p<0.05). 또한 가열 처리한 식육에서도 이러한 항균효과가 유의적으로 관찰되었으며(p<0.05), SPT는 SPP나 STPP보다 더 강한 항균효과를 보였다. 이러한 항균효과들은 가열처리된 식육보다 생육에서 더욱 강하게 나타났다. SPT, SPP 및 STPP의 첨가는 식육에서 pH를 증가시켰으며, STP의 첨가는 식육에서 soluble orthophosphate 유리에 영향을 주지 않았으나, SPP 및 STPP의 첨가는 식육에서 soluble orthophosphate의 유리를 증가시켰다. 이러한 결과로부터 피틴산염은 이미 알려진 인산염들보다 미약하나마 항균효과가 뛰어나며 더불어 축산식품의 첨가제로서 사용시 식품의 기능성 향상과 더불어 매우 유용하게 사용될 수 있을 것이다.

• Asian-Australasian Journal of Animal Sciences
• /
• 제27권2호
• /
• pp.237-246
• /
• 2014

Two experiments were conducted to evaluate the efficacy of feeding an Escherichia coli (E. coli) derived phytase to pigs fed P deficient, corn-soybean meal diets. In Exp. 1, one hundred and twenty crossbred piglets ($9.53{\pm}0.84$ kg) were allocated to one of five treatments which consisted of four low P diets (0.61% Ca, 0.46% total P and 0.24% non-phytate P) supplemented with 0, 500, 1,000, or 20,000 FTU/kg E. coli phytase as well as a positive control formulated to be adequate in all nutrients (0.77% Ca, 0.62% total P and 0.42% non-phytate P). The treatments were applied to six pens with four pigs per pen for 28 days. In Exp. 2, ten crossbred pigs ($19.66{\pm}1.16$ kg) fitted with ileal T-cannula were used in a nutrient balance study. The pigs were assigned to treatments similar to those used in Exp. 1 in a doubly replicated $5{\pm}4$ incomplete Latin square design (5 diets with 4 periods). Each period consisted of a 5-d adjustment period followed by a 3-d total collection of feces and urine and then a 2-d collection of ileal digesta. Supplementation with phytase linearly increased (p<0.05) weight gain, feed intake, feed efficiency, bone breaking strength and fat-free dry and ash bone weight. There were linear increases (p<0.01) in the apparent ileal digestibility (AID) of DM, GE, CP, Ca, total P, inositol hexaphosphate ($IP_6$) and some AA with increasing dose of E. coli phytase. Pigs fed 20,000 FTU/kg had a greater (p<0.05) AID of IP6 (80% vs 59% or 64%, respectively) than pigs fed diets with 500 or 1,000 FTU/kg phytase. There were linear increases (p<0.05) in the total tract digestibility of Ca, total P, Na, K, Mg, and Zn as well as in the retention of Mg and Zn with increased phytase dose. The retention and utilization of Cu, and the total tract digestibility of CP and Cu quadratic increased (p<0.05) with increased phytase dose. In conclusion, supplementation of 500 FTU of phytase/kg and above effectively hydrolyzed phytate in low-P corn-soybean diets for pigs. In addition, a super dose of phytase (20,000 FTU/kg) hydrolyzed most of the IP6 and consequently further improved mineral use, protein utilization and performance.

• BMB Reports
• /
• 제31권6호
• /
• pp.595-599
• /
• 1998

To investigate conformational information of a low oxygen affinity recombinant hemoglobin (rHb) containing $96Val{\rightarrow}Trp$ mutation at the ${\alpha}96$ position, we ave produced rHb (${\alpha}96Val{\rightarrow}Phe$) and rHb (${\alpha}96Val{\rightarrow}Tyr$), using the Escherichia coli expression system and site-directed mutagenesis. The oxygen affinity of rHb (${\alpha}96Val{\rightarrow}Phe$) is similar to that of human normal adult hemoglobin (Hb A). However, the oxygen affinity of rHb (${\alpha}96Val{\rightarrow}Tyr$) showed much lower oxygen affinity than Hb A which is similar to that of rHb (${\alpha}96Val{\rightarrow}Tyr$), providing an opportunity as a potential candidate for a hemoglobin-based blood substitute. Both rHb (${\alpha}96Val{\rightarrow}Phe$) and rHb (${\alpha}96Val{\rightarrow}Tyr)$ showed high cooperativity in oxygen binding. IH-NMR spectroscopy shows that both rHb (${\alpha}96Val{\rightarrow}Phe$) and rHb (${\alpha}96Val{\rightarrow}Tyr$) have very similar tertiary structure around the heme pockets and uaternary structure in the ${\alpha}_1/{\beta}_2$ subunit interface ompared to Hb A. The low oxygen affinity of rHb (${\alpha}96Val{\rightarrow}Tyr$) has been suggested to be due to a hydrogen bond caused by an extra hydroxyl group not present in rHb (${\alpha}96Val{\rightarrow}Phe$). However, investigation of the carbonmonoxy form of rHb (${\alpha}96Val{\rightarrow}Phe$) and (${\alpha}96Val{\rightarrow}Try$) in the presence of inositol hexaphosphate at low temperature suggests that low oxygen affinity of (${\alpha}96Val{\rightarrow}Try$) may arise from a mechanism different to that of rHb (${\alpha}96Val{\rightarrow}Trp$).

• 대한수의학회지
• /
• 제47권4호
• /
• pp.449-456
• /
• 2007

The approval of use of certain food-grade phosphates as food additives in a wide variety of meat products greatly stimulated research on the applications of phosphates in foods. Although phosphates have never been classified as antimicrobial agents, a number of investigators have reported that phosphates have antimicrobial activities. Phytic acid is a natural plant inositol hexaphosphate constituting 1-5% of most cereals, nuts, legumes, oil seeds, pollen, and spores. In this study, we investigated antibacterial activities of sodium phytate (SPT), sodium pyrophosphate (SPP), sodium tripolyphosphate (STPP) on Salmonella typhimurium in tryptic soy broth and in row meat media including chicken, pork and beef. SPY, SPP and STPP at the concentrations of 0.5 and 1% dose-dependently inhibited the growth of S. typhimurium in tryptic soy broth at various pHs. The antibacterial activities of SPT and STPP were the stronger than that of SPP. In chicken, pork, and beef, SPT, SPP and STPP at the concentrations of 0.1, 0.5 and 1.0% significantly inhibited the bacterial growth in a dose-dependant manner (p < 0.05). The antibacterial activities of SPT, SPP, and STPP were more effective in chicken than beef. SPT and STPP at the concentration of 1% reduced the bacterial count by about 2 log units. The addition of SPT, SPP and STPP at the concentration of 0.5% in meats increased the meat pHs by 0.28-0.48 units in chicken, pork, and beef. These results suggest that SPT and STPP were equally effective for the inhibition of bacterial growth both in TSB and meat media and that SPT can be used as an animal food additive for increasing shelf-life and functions of meats.