• Journal of Nutrition and Health
• /
• 제30권5호
• /
• pp.465-477
• /
• 1997

The purpose of this article is to know the effects on bowel function of the kind of fiber and the amount of fiber in SD-rats. To do this experiment, we select of $\alpha$-cellulose as n insoluble cellulose source and alginic acid and pectin as soluble cellulose source. The rats diets contained callolose camcentrations of 1.0%, 3.6%, 6.0% and 10.0%. After that, we raised the SD-rats for 4weeks and measured the amount of food intake, body weight, the food effciency ratio, the length of liver and stomach the weight of the intestines, the transit time through the intestines, pH in feces, and the amount of bile acid and Ca, Mg, pp. 1) The amount of food intake was 15.75-31.00g/day. It was highest in the 10.0% cellulose group and the lowest in the 3.6% and 6.0% alginic acid group (p<0.05). The body weights of rats were 277.50-349.809. It was highest in the 1.0% pectin group and lowest in the 3.6% alginic acid group, 6.0% cellulose group, and 10.0% pectin group. It had differences according to the content fiber and the kind of dietary(p<0.01). The food efficiency ratio was (p<0.01). The higher the content of dietary fiber, the lower the calory and the food efficiency ratio. 2) Transit time was 446.0-775.0 minutes and it showed signidicant ifferences according to the content and kind of dietary fiber(p<0.01). It was long in the 1.0% cellulose group and 1.0% pectin group but short in the 10.0% alginic acid group. As the content of dietary fiber increased, the transit time through the intestines was shortened. The length of small intestine was 101.03-120.40cm and there were no difference cegardloss of the content and kind of fiber. The length of the large intestine was 20.92-25.42cm and there were significant differences according to the content and kind of the fiber. High-fiber diets resulted in increases in the length of the large intestine. 3) The weight of the liver was 8.68-10.96g and there were no differences according to the content and kind of fiber. The weight of stomach was 1.28-1.74g and there were no differences resulting from the kind of dietary fiber, but it was highest in the 10.0% alginic acid group. The weight of the small intestine was 5.52-8.04g with no difference resulting from to the kind of fiber. It was highest in the 10.0% the alginic acid group and lowest in the 1.0% alginic acid group(p<0.05). The weight of large intestine was 2.50-3.30g with no differences related to the kind of dietary fiber. It was heaviest in the 6.0% and 10.0% alginic acid groups and in the 10.0% pectin group with differences related to the content of fiber(p<0.05). 4) The pH of the feces was 5.82-6.86 according to the kind of dietary fiber, alginic acid group was high at 6.66, the cellulose group was 6.26. but the pectin group was low at 6.30. There were difference according to the content of fiber, but no consistency. The content of bile acid was 6.25-34.77umol per 1g of dry feces. According to the kind of dietary fiber, the alginic acid group was low at 12.91umol, cellulose group was 18.64umol and, the pectin group was the highest at 27.78umol(p<0.001). Based on the content of dietary fiber, alginic acid group was low at 1.0%, but high at 3.6% pectin group(p<0.001). 5) The amount of feces was 1.00-5.10g/day. The weight of rat feces was 2.23g/day in the alginic acid goup, 2.75g/day in the cellulose group, and 1.82g/day in the pectin group. According to the content of fiber, cellulose group was high at 10.0% but alginic acid group was 1.0%, and there were significant difference according to the dietary fiber. The more the content of fiber, the more increase the content of feces in alginic acid, cellulose and pectin group. The content of Ca in the feces was 80.10-207.82mg/1g of dry feces. In the dietary fiber, alginic acid group was 193.08mg, cellulose group was 87.5mg, pectin group was 138.16mg. In the content of fiber, alginic acid group was high at 1.0% and 3.6% but low at 10.0% of Pectin group. The content of Mg was 19.15-44.72mg/1g of dry feces. According to the kind of dietary fiber, alginic acid group was 35.33mg, cellulose group was 23.60mg, and pectin was 36.93mg. According to the content of fiber, pectin group was high at 1.0% and low at 10.0% of cellulose group. The content of P was 1.65-4.65mg/1g of dry feces. According to the kind of dietary fiber, alginic acid group 2.23mg/g dry feces, cellulose group was 2.29mg/g, pectin group wa 4.08mg/g dry feces. In the content of fiber, pectin group was high at 6.0% and low at 6.0% alginic acid group, but there were significant difference among the analysis value. The conetnt of Ca and MG was higher in soluble alginic acid group and pectin group than in insoluble cellulose group. The high the content of the dietary fiber, the lower the food efficiency ratio and the short the transit time through intestine with the increase of the length of large intestin as well as the higher level of the stomach, the small intestine and the large intestine. According to the content of the dietary fiber, the amount of the feces, Ca, Mg and P was increased but the length the small intestin, the weight of liver, pH of the feces and the amount of bile acid showed no differences and consistency.

• Preventive Nutrition and Food Science
• /
• 제7권3호
• /
• pp.317-319
• /
• 2002

Exo-polygalacturonase (EPG) from Rhizopus sp. was applied to the extraction of alginic acid from sea mustard to increase extraction yield. EPG digestion was examined under distinct conditions within temperatures from $25^{\circ}C$ to 5$0^{\circ}C$, pH 5 to 9, and treatment times from 0 to 36 hr. The optimal conditions fur alginic acid extraction with EPG were: pH 7.0 at 3$0^{\circ}C$ for 24 hrs. The EPG hot water extraction yield was 3.4 times higher yield than hot water extraction alone. Using EPG to extract alginic acid from sea mustard should be considered a viable alternative to conventional extraction, with the advantage of reducing hazardous wastes such as strong acid and alkali solutions.

• 한국식품영양과학회지
• /
• 제36권7호
• /
• pp.902-907
• /
• 2007

감마선 조사가 alginic acid와 ${\lambda}$-carrageenan의 물리적 특성 변화에 미치는 영향을 알아보기 위해 3, 5, 7, 10, 20, 100 kGy의 감마선을 alginic acid와 ${\lambda}$-carrageenan 용액에 조사하여 분자량, 점도, 색도의 변화를 측정하였다. Alginic acid 수용액의 0${\sim}$100 kGy범위의 감마선 처리는 약 1,600 kDa에서 4.5 kDa까지 저분자화를 가져왔고, ${\lambda}$-carrageenan 수용액은 1,300 kDa에서 4.5 KDa까지 분자량이 감소하는 결과를 보였다. 점도 측정 결과 alginic acid의 경우 29.4 cP에서 조사선량에 비례하여 감소하였으며 20 kGy 조사구에서는 1.23 cP로 낮아졌다. ${\lambda}$-Carrageenan은 23.1 cP에서 1.02 cP로 조사선량이 증가할수록 점도는 감소하였다. 명도는 alginic acid는 조사구가 비조사구보다 높게 나타났으며 ${\lambda}$-carrageenan은 높거나 유사하게 나타났다. 적색도는 alginic acid와 ${\lambda}$-carrageenan 모두 선량에 비례하여 감소하였으며, 황색도는 100 kGy 조사구에서 비조사구에 비해 매우 높게 나타났다. 이상의 결과로 alginic acid와 ${\lambda}$-carrageenan 용액에 감마선을 조사할 경우 20 kGy 미만의 저선량에서 조사선량이 증가할수록 분자량과 점도가 유의성있게 감소하였으며, 100 kGy의 고선량 조사를 제외하고는 갈변이 일어나지 않아 감마선 조사가 alginic acid와 ${\lambda}$-carrageenan의 저분자화에 매우 유용한 방법으로 사용될 수 있을 것으로 사료된다.

• 한국수산과학회지
• /
• 제17권5호
• /
• pp.391-397
• /
• 1984

The seasonal and portional variation in the composition of uronic acid of alginic acid from Eckionia cava was investigated. The sample was collected from the coast of Ieechun Illkwangmyun, Yangsangun, Kyungnam, Korea, in the period of January to December in 1982. In seasonal variation of the content of alginic acid, the range of variation was larger in the frond than in the stipe, It was the highest content in between February to April, and the lowest in between August to October, and the content was more in the stipe than in the frond. The uronic acid ratio(M/G ratio) was varied seasonaly in a relationship with the variation of the alginic acid content. The maximum M/G ratio appeared in the period of December to March and minimum May to August, and the average values of the M/G ratios in the periods were 3.08, 2.64 in the frond and 2.91, 1.39 in the stipe, respectively. Additively a year mean values were 3.22 in the frond and 2.18 in the stipe.

• 한국식품과학회지
• /
• 제27권1호
• /
• pp.86-91
• /
• 1995

알긴산이 가지는 여러가지 물성적 특성 및 기능적 특성으로 식품에 널리 이용되고 있으나 상핀 점도와 용해도 때문에 그 이용 범위가 제한적이다. 이러한 알긴산을 보다 광범위하게 식품에 이용하기 위해서 알긴산의 특성을 어느 정도 유지하면서 용해도를 높이고, 점도를 저하시킨 부분 분해 알긴산의 제조와 특성을 실험하였다. 사용된 알긴산 분해효소는 pH 8.0, 온도 $37^{\circ}C$, 0.5 M NaCl 첨가 조건에서 최대 분해 활성을 나타내었다. 기질과 반응하는 부분 정제 효소(220.4 g/ml)의 농도는 2%(v/v)가 적절하였다. 반응 알긴산 농도에 관계없이 반응시간 10분으로 알긴산이 가지고 있는 점도 80%정도가 저하되었고, 60분 이내에 90% 이상의 점도가 떨어졌다. 분해에 의한 환원당 생성량을 측정하여 본 결과, 반응 60분까지는 큰 변화가 없었으나, 그 이후에는 환원당이 크게 증가하였다. 분해 시간에 따라 얻어진 알긴산들의 가용 농도는 반응 알긴산의 농도가 1.0%와 1.5%의 경우 10분 정도의 분해만으로도 10% 농도까지 용해할 수 있었고, 반응 알긴산 농도가 2.0%인 경우는 10분간의 분해로 7%까지 녹일 수 있었다. 알코올 침전도를 알아본 결과, 2.5% 시판 알긴산은 알코올 농도 3%일 때 침전을 시작하여 알코올 농도 30%일 때 22%, 알코올 농도 50%에서 대부분의 알긴산이 침전하였다. 부분 분해 알긴산의 경우는 알코올 농도 30%일 때 침전하기 시작하여 알코올 농도 70%일 때 85% 정도의 알긴산이 침전되었다. $Ca^{2+}$이온과의 반응성은 시판 알긴산과 마찬가지로 종류에 관계없이 부분 분해 알긴산의 농도가 높아짐에 따라 반응성도 커지는 것으로 나타났다.

• 한국수산과학회지
• /
• 제54권2호
• /
• pp.145-151
• /
• 2021

When manufacturing Alaska pollack Gadus chalcogrammus surimi for 3D printing, it examined the characteristics of physical properties and sensuality by adding polysaccharides alginic acid [0, 1, 2, 3% (w/w)]. As a result of the color value of surimi by adding alginic acid, it showed that the lightness of heated surimi containing 2% (w/w) alginic acid was the highest and ∆E value was the lowest. In the changes in physical properties, the heated surimi of 3% (w/w) alginic acid content showed the lowest values of hardness, springiness, cohesiveness, gumminess, chewiness and resilience, but the highest adhesiveness. In the case of fried surimi, its hardness, cohesiveness, gumminess, chewiness and resilience were the lowest at the content of 3% (w/w) alginic acid. After 7 days of cold storage, the hardness, gumminess, and chewiness of heated surimi with an alginic acid content of 2% (w/w) were significantly higher, and fried surimi was also the same. In the results of the sensory evaluation, there were significant differences according to the alginic acid content in hardness and fishy smell, and as the alginic acid content increased, it felt more fishy smell, resulting in poor preference.

• 한국식품과학회지
• /
• 제30권4호
• /
• pp.823-826
• /
• 1998

Na-alginate에 등량의 ascorbic acid를 섞은 후 물을 가하여 알긴산 4%용액을 만든 다음 $121^{\circ}C$에서 $20{\sim}30$분간 가열하여 상대점도 1.05, pH 3.2의 whitish-yellow color의 불투명한 알긴산 가수분해물을 얻었으며, 이 알긴산 가수분해물은 nutrient broth에 0.1% 첨가(가수분해물속의 알긴산의 양을 기준하여)로 어묵의 주요 부패균인 Bacillus sp.의 증식을 억제시킬 수 있었다. 가수분해물 0.3% 첨가 제품은 pH 6.7이었고, 0.5% 첨가 제품은 pH 6.6으로서 무첨가 제품의 pH 7.4 보다는 약간 낮았다. 첨가제품은 약간 구수한 맛(고구마 맛과 유사)을 내었다. 제품의 탄력을 파단강도로 측정한 결과 가수분해물의 첨가량이 증가할수록 저하되는 것으로 나타났다. 제품의 색상은 가수분해물의 첨가량이 증가함에 따라 황색화되었으므로 0.3% 이상의 첨가는 곤란하였다. 어묵의 제조시 가수분해 물을 0.3% 첨가하고 $30^{\circ}C$에서 저장하였을 때 가수분해 물을 첨가하지 않은 제품에 비해 1일 가량 보존기간이 연장되었고, $20^{\circ}C$ 저장시에는 2일이, $15^{\circ}C$에서 저장하였을 때는 4일 가량 보존기간이 연장되는 것으로 나타났다.

• 한국수산과학회지
• /
• 제25권3호
• /
• pp.181-188
• /
• 1992

미역, 다시마 등 해조류의 주성분으로 알려진 알긴산(sodium alginate)을 0, 3, 6 및 $9\%$가 되도록 조제한 사료를 사용하여 Sprague-Dawley(SD) 웅성 흰쥐$(150\pm10g)$에 16주간 사육한 다음, 용량별 알긴산의 투여가 체중 변화와 간장의 세포막 성분으로서 미토콘드리아 및 마이크로솜 획분중의 과산화지질의 함량(malondialdehyde; n mole/mg protein) 및 과산화지표로서 peroxidizability index, 콜레스테롤과 인지질의 함량변화, 이에 따른 인지질 함량에 대한 콜레스테롤 함량의 비(Ch/Ph molar ratio), 그리고 간장의 세포막의 구성지방산 조성 등에 미치는 영향을 검토하여 몇 가지 유의성 있는 결과를 얻었다. 알긴산의 용량별$(0,\;3,\;6,\;9\%)$ 투여에 의한 체중 증가를 대조군의 136.5g을 $100\%$로 하여 비교하여 보면 3, 6 및 $9\%$의 알긴산 첨가군은 각각 $89.6\%,\;70.2\%,\;50.6\%$로 체중 증가가 유의성 있게 감소하고 있었다. 혈액과는 달리 미토콘드리아 및 마이크로 솜의 두 획분이 다같이 $6-9\%$의 알긴산 첨가군이 과산화지질의 함량을 아주 효과적으로 감소하고 있었으며, 과산화지표로서 peroxidizability index도 과산화지질의 함량과 거의 유사한 경향을 나타내고 있었다. 알긴산 무첨가의 대조군$(100\%)$ 대비 알긴산 첨가군$(3,\;6,\;9\%)$의 콜레스테롤의 함량을 비교하여 보면 미토콘드리아 획분에서는 각각$87.0\%\;, 77.5\%,\;72.3%$로, 그리고 마이크로솜 획분에서는 각각 $87.4\%\;, 68.0\%,\;68.1%$로 유의성 있게 감소하였으며, 인지질의 함량은 마이크로솜 획분에서만 $3-6\%$의 알긴산 첨가군이 유의성 있게 감소하였다. 따라서 인지질에 대한 콜레스테롤의 비(Ch/Ph molar ratio)는 두 획분에서 다같이 $3-6\%$의 알긴산 첨가군이 유의성 있게 감소하고 있음을 알 수 있었다. 총지방산의 함량은 알긴산의 첨가량에 따라 유의성 있게 감소하였고, 리놀산의 함량은 $3-6\%$의 알긴산 첨가군에서 유의성 있게 증가하였으며 (p<0.005), 리놀산에 대한 아리키돈산의 비(Ara/Lino ratio)는 $3-6\%$의 알긴산 첨가군에서 현저히 감소하였다. 따라서 이상의 데이타의 결과에서 본다면 알긴산의 투여가 노화과정에 있어서 생리적 변화를 효과적으로 조절할 수 있다는 사실을 암시하고 있었다.

• 유기물자원화
• /
• 제15권4호
• /
• pp.107-114
• /
• 2007

다당류의 일종인 알긴산을 이용한 중금속 제거에 관한 연구가 수행되어졌다. 알긴산은 pH 4에서 480mg/g의 납 이온을 흡착하였으며 이것은 다른 생물흡착제에 비해서 약 2배 정도의 높은 흡착능이다. 납 이온에 대한 등온흡착선을 묘사하기 위하여 Langmuir model 식을 이용하였으며 실험결괴는 모델식에서 얻어진 결과와 잘 부합되었다. 온도가 증가함에 따라서 흡착능은 증가하였으며 이는 알긴산과 납 이온의 흡착은 흡열반응임을 보여준다. 납 이온의 흡착에 대한 알칼리 금속(칼슘, 마그네슘 이온)의 영향은 거의 없었으며 대부분의 흡착은 30분 내에 이루어졌다. 구리, 수은, 스트론튬, 세슘 과 같은 다른 금속 이온에 대한 흡착능도 조사되었다.

• 한국수산과학회지
• /
• 제2권1호
• /
• pp.71-82
• /
• 1969

The present investigations were carried out with the purpose of making clear the fundamental features of the seasonal variations in chemical composition of the brown algae. Three species of samples, Ecklonia cava, Sargassum sagamianum and Hizikia fusiforme have been analyzed monthly for their contents of total ash, crude protein, alginic acid, mannitol, and laminarin over a year period. Three kinds of samples were collected from the same locality, situated on the southern coast of the Che-ju Island, from September 1966 to August 1967. In addition, the comparative analysis was made on fronds and stipes of the plant for their chemical composition. The results obtained are summarized as follows: 1, In general, the three species examined underwent a similar mode of seasonal variation, and no essential difference was detected among them. 2. The chemical composition of the plant exhibited a considerable difference between the species. The content of total ash in H. fusiforme was remarkably higher than those in the two other species respectively. The alginic acid content was relatively high in S. sagamianum and low in H. fusiforme. The contents of crude protein, mannitol and laminarin were appreciably high in E. cava and low in H. fusiforme in general. 3. The most outstanding feature in the seasonal variation was that, in general, the total ash, crude protein, and alginic acid contents were at a maximum in the winter months while laminarin and mannitol contents were at a minimum. The converse was true in summer. Total ash-Maximum values were observed from December to February and minimum from August till October. Crude Protein-All species exhibited maxima in January and February, and minima from August to October. Alginic acid-Maximum contents occured from January to March and minimum from September to November. Mannitol-The maximum content of mannitol was In May and lune and minimum in January, February and March. Leminerin-Maximum content was in September and October, and minimum in January and February. 4. The wide seasonal variation in chemical constitution occured in the fronds, but the stipes showed a slight seasonal variation. In the chemical composition, the stipe was high in alginic acid, low in mannitol and laminarin. The reverse was in the frond.