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황병호(Byung-Ho Hwang),조재현(Jae-Hyun Cho),함승시(Seung-Shi Ham),강하영(Ha-Young Kang) 한국식품영양과학회 2000 한국식품영양과학회지 Vol.29 No.1
침엽수 속의 대표적 수종인 소나무류 4수종의 유효성분을 분석한 결과, 비타민 A는 소나무가 다른 수종에 비해 비교적 많은 1534 IU로 나타났으며, 비타민 C는 해송에서 158 mg%로 나타났다. 지방산 분석에서는 4수종에서 19종이 분석되었으며, 필수 지방산인 linoleic aicd는 4수종에서 다량 분석되었고, 특히 리기다에서 23.86%로 높게 나타났다. 아미노산은 모두 17종이 분석되었으며 glutanic glutanic acid, leueine, arginine, aspartic acid 등의 아미노산이 다량 분석되었고, 이들 중에는 필수 아미노산도 다량함유되어 있었다. Rutin의 함량을 분석한 결과 해송 잎이 10.34%로 가장 높았으며, 잣나무 5.61%, 소나무 3.76% 그리고 리기다 1.35%로 분석되었다. 이상의 분석 결과 침엽수 4수종중 소나무에서 회분, 조단백질, 조지방, 비타민A 등의 함량이 높은 것으로 나타났으며, 또한 지방산과 필수 아미노산은 각각 해송과 잣나무에서 가장 많이 나타나고 있으며, 수종마다 각기 다른 특징을 가지고 있었다. 그러나 소나무잎의 일반 및 특수성분들이 보다 높게 분석되었으므로 건강식품개발을 위해서는 풍부한 원료자원면이나 식품영양학측면에서 소나무 잎이 가장 적절하다고 생각되며, 이들의 자료는 우선 솔잎가공식품 분야와 임산화학의 기초자료로서의 활용이 기대된다. Chemical components such as vitamins, fatty acids, amino acids and rutins in the leaves of the Pinus densiflora Sieb. et Zucc., Pinus koraiensis Sieb. et Zucc., Pinus rigida Mill., Pinus thunbergii Parl. were analyzed. The vitamin A content in the P. densiflora and vitamin C content in the P. thunbergii were obtained more than the others. Oleic acid, linolenic acid, palmitic acid and lauric acid were the major fatty acids among 19 fatty acids detected in 4 kinds of pinus leaves and the only essential fatty acid of linolenic acid was also identified. The major amino acids were glutamic acid, leucine, arginine and aspartic acid among 17 kinds of amino acids detected in the pinus leaves and the amount of essential amino acids was 47.6% in P. densiflora. The highest amount of rutin was 10.34% in P. thunbergii.
황병호(Byung-Ho Hwang),이태성(Tae-Seong Lee) 한국산림바이오에너지학회 2003 산림바이오에너지 Vol.22 No.3
붉은싸리버섯(Ramaria formosa(Fr.) Quel)의 독성 또는 하제성분을 분석키 위하여 시료를 메탄올로 3회 반복 추출한 후 2회 필터링하여 분석 시료로 하였으며 GC와 GC-MS를 이용하여 Libraries Search 방법으로 그 성분을 분석하였다. 그 결과, (1) methyl-hexadecanoate, (2) methyl-9,12-octadecadienoate,(3)methyl-cis-9-octa decenoate, (4) methyl-octadecanoate, (5) 4-hexyl-2,5-dihydro-2,5-dioxo-3-furanacetic acid 등 다섯 가지의 화합물이 분석 되었으며, 다량성분인 (5)번째 화합물은 하제유발물질이라 생각되며, 앞으로 동물실험을 통하여 변비나 하제물질에 대한 건강식품이나 하제약품개발을 기대할 수 있을 것이다. To elucidate chemical strvacture of Ramaria formosa(Fr.) Quel was extracted with methanol for 72 hours, and then filtered twice. The extractive compounds were analyzed by the Libaries Search method, using GC and GC-MS Spectrometry. As a result, the five different compounds were analyzed, such as (1) methyl-hexadecanoate, (2) methyl-9,12-octadecadienoate, (3) methyl-cis-9-octadecenoate, (4) methyl-octadecanoate, and (5) 4-hexyl-2,5-dihydro-2,5-dioxo-3- furanacetic acid. The large quantity of compound, 4-hexyl-2,5-dihydro-2,5-dioxo-3-furanacetic acid, is expected that through experiments on animals the compound will be a potential agent which can be developed as a health food to relieve constipation or a laxative medicine.
황병호(Byung-Ho Hwang) 한국산림바이오에너지학회 2004 산림바이오에너지 Vol.23 No.1
The word of lignin is derived from the Latin word “ligum” meaning wood. Lignin is complex polymer consisting of coniferyl alcohol, sinapyl alcohol and p-coumaryl alcohol 단위 and has an amorphous, three dimensional network structure which is hard to be hydrolyzed by acid. Lignin is found in the cell wall of plants lignified. The mode of polymerization of these alcohols in the cell wall lead to a heterogeneous branched and cross-linked polymer in which phenyl propane units are linked by carbon-carbon and carbon-oxygen bonds. This polymerization of precursors, p-coumaryl alcohol, coniferyl alcohol and sinapyl alcohol to lignin is formed by enzymic dehydrolyzation. The reaction is initiated by an electron transfer which results in the formation of resonance-stabilized phenoxy radical. The combination of these radicals produces a variety of dimers, trimers and oligomers and so on.<br/> Lignin research has been divided into basic and practical application field. The basic studies contains biosynthesis, chemical structure, distribution in the cell wall and reactivity by reductants, oxidants and organic solvents. The application research will be approached the reaction of lignin in various pulp making involving pulp bleaching and its effect on pulp qualities. Lignin also will be studied for the production of fine chemicals, polymer products and the conservation into an energy source like petroleum oil because the amount of lignin produced in pulp making process is more than 51,000,000 tons per year in the world.<br/> Both basic and application research must lay emphasis on the development for the utilization of lignin and the pulping process. But these researches can not be completed without understanding lignin structure containing functional groups.<br/> Therefore, this paper was focused on the review of lignin formulation which has been studied since 1948 in chronological order. This review was based on monomers, dimers, trimers and tetramers of phenyl propane unit structures which were isolated and identified by different methods from various wood.