한국수산과학회지 (Korean Journal of Fisheries and Aquatic Sciences)
- 제15권4호
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- Pages.263-270
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- 1982
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- 0374-8111(pISSN)
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- 2287-8815(eISSN)
수종해조의 단백계수와 in vitro Digestibility
Nitrogen Conversion Factors and in vitro Protein Digestibility of some Seaweeds
- Ryu Hong-Soo (National Gunsan Fisheries College) ;
- SATTERLEE Lowell D. (Univ. of Nebraska-Linocoln) ;
- LEE Kang-Ho (National Fisheries Univ. of Pusan)
- 발행 : 1982.11.01
초록
해중의 영양학적인 기초자료를 얻기 위하여 multi-enzyme system을 이용한 체외소화율과 아미노산분석을 기초로 한 단백질수를 측정하였다. 김 (P. tenera)의 체외소화율은
In an attempt to evaluate the nutritional quality of seaweed protein, the effects of heat treatment on the in vitro digestibility and trypsin inhibitor content in seaweed were determined. In this study, the nitrogen-to-protein conversion factors were also calculated on the basis of quantitative amino acid data. The results are as follows : 1. The in vitro protein digestbilty of red seaweeds (P. teoera anc P. suborbiculata) were ranged from 78.5 to 82.2, and green seawerd (E. linza) and brown seaweeds showed value under 80 in vitro digestibility. In general, trypsin inhibitor contents in brown seaweed were higher (0.33-0.54 mg/g) than those of red seaweeds (0.26-0.39 mg/g). And it is noted that the lowest trypsin inhibitor content was shown in green seaweed (E. linza) in spite of lowest in spite digestibility (78.5). 2. The in vitro protein digestibility of sun dried laver (P. tenera) was increased with cooling time (microwave heating), but it was not significant. Hot plate cooking raised the in vitro digestibility from 81. 1 to 84.5. The influence pot cooking time on trypsin inhibitor content was inversely proportional to in vitro digestibility. 3. Computed nitrogen factor, based on amino acid content (Factor method) and Kjeldahl nitrogen content (Kjeldahl mettled), were 5.83 (H. fusiforme)- 6.52 (P. tencra) as Factor method and 5.40 (U. pinnatifida)-6.29 (P. tenera) as Kjeldahl method. Individual value for each nitrogen conversion factor differed by species, especially in brown seaweeds. The best estimate of the protein content of seaweed can be calculated, from multiplying the summed amino acid content by conversion factor (Factor method).
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