林业科学
林業科學
임업과학
SCIENTIA SILVAE SINICAE
2010年
7期
120-128
,共9页
何跃君%岳永德%汤锋%郭雪峰%王进
何躍君%嶽永德%湯鋒%郭雪峰%王進
하약군%악영덕%탕봉%곽설봉%왕진
竹叶%挥发油%化学成分%抗氧化活性
竹葉%揮髮油%化學成分%抗氧化活性
죽협%휘발유%화학성분%항양화활성
bamboo leaves%essential oil%chemical compositions%antioxidant activity
采用水蒸气蒸馏法从黄金间碧竹、孝顺竹、毛竹和麻竹4种竹叶中提取挥发油,用气相色谱-质谱联用技术对4种竹叶挥发油化学成分进行分析和鉴定,共获得168个色谱峰,鉴定其中132种化学成分,并运用气相色谱面积归一化法确定各组分的相对含量;以TBHQ为对照品,采用DPPH法研究4种竹叶挥发油对自由基的清除作用.结果表明:采用水蒸气蒸馏法黄金间碧竹竹叶挥发油的得率最高(0.827%),而毛竹竹叶挥发油的得率仅为0.391%.4种竹叶挥发油的化学成分在含量和组成上不同,竹叶挥发油主要化学成分是3-甲基-2-丁醇,麻竹竹叶挥发油含量最高达到46.25%;其他主要化学成分有4-乙烯基-2-甲氧基-苯酚、己-2-烯醛、橙花叔醇、植物醇、苯乙醛、天竺葵醛、植酮、二氢猕猴桃内酯和异植物醇.4种竹叶挥发油均有较强的抗氧化活性,竹叶挥发油的抗氧化活性与挥发油的浓度呈正相关(r=0.91),其中黄金间碧竹竹叶挥发油的抗氧化活性最强(IC50=2.705mg·mL-1),孝顺竹竹叶挥发油抗氧化活性较低(IC50=3.442mg·mL-1).综合研究结果表明,竹叶挥发油具有较高的应用价值,可作为食品和药品的功能性组分进一步开发和利用.
採用水蒸氣蒸餾法從黃金間碧竹、孝順竹、毛竹和痳竹4種竹葉中提取揮髮油,用氣相色譜-質譜聯用技術對4種竹葉揮髮油化學成分進行分析和鑒定,共穫得168箇色譜峰,鑒定其中132種化學成分,併運用氣相色譜麵積歸一化法確定各組分的相對含量;以TBHQ為對照品,採用DPPH法研究4種竹葉揮髮油對自由基的清除作用.結果錶明:採用水蒸氣蒸餾法黃金間碧竹竹葉揮髮油的得率最高(0.827%),而毛竹竹葉揮髮油的得率僅為0.391%.4種竹葉揮髮油的化學成分在含量和組成上不同,竹葉揮髮油主要化學成分是3-甲基-2-丁醇,痳竹竹葉揮髮油含量最高達到46.25%;其他主要化學成分有4-乙烯基-2-甲氧基-苯酚、己-2-烯醛、橙花叔醇、植物醇、苯乙醛、天竺葵醛、植酮、二氫獼猴桃內酯和異植物醇.4種竹葉揮髮油均有較彊的抗氧化活性,竹葉揮髮油的抗氧化活性與揮髮油的濃度呈正相關(r=0.91),其中黃金間碧竹竹葉揮髮油的抗氧化活性最彊(IC50=2.705mg·mL-1),孝順竹竹葉揮髮油抗氧化活性較低(IC50=3.442mg·mL-1).綜閤研究結果錶明,竹葉揮髮油具有較高的應用價值,可作為食品和藥品的功能性組分進一步開髮和利用.
채용수증기증류법종황금간벽죽、효순죽、모죽화마죽4충죽협중제취휘발유,용기상색보-질보련용기술대4충죽협휘발유화학성분진행분석화감정,공획득168개색보봉,감정기중132충화학성분,병운용기상색보면적귀일화법학정각조분적상대함량;이TBHQ위대조품,채용DPPH법연구4충죽협휘발유대자유기적청제작용.결과표명:채용수증기증류법황금간벽죽죽협휘발유적득솔최고(0.827%),이모죽죽협휘발유적득솔부위0.391%.4충죽협휘발유적화학성분재함량화조성상불동,죽협휘발유주요화학성분시3-갑기-2-정순,마죽죽협휘발유함량최고체도46.25%;기타주요화학성분유4-을희기-2-갑양기-분분、기-2-희철、등화숙순、식물순、분을철、천축규철、식동、이경미후도내지화이식물순.4충죽협휘발유균유교강적항양화활성,죽협휘발유적항양화활성여휘발유적농도정정상관(r=0.91),기중황금간벽죽죽협휘발유적항양화활성최강(IC50=2.705mg·mL-1),효순죽죽협휘발유항양화활성교저(IC50=3.442mg·mL-1).종합연구결과표명,죽협휘발유구유교고적응용개치,가작위식품화약품적공능성조분진일보개발화이용.
The antioxidant capacity of essential oils obtained by steam distillation from four bamboo species of the Bambusa vulgaris, Bambusa multiplex, Phyllostachys pubescens, and Dendrocalamus latiflorus, were evaluated using the DPPH assays. The yield of oils from the leaves of the four species was variable with the greater amount obtained from Bambusa vulsraris(0.827%),and the least from Phyllostachys pubescens(0.39 1%).The chemical compositions in bamboo leaves were analyzed by GC-MS. The results showed that 168 chromatographic humps were gained. 132 kinds of composition were identified. The major volatile components detected and identified by GC-MS were also variable. A major volatile was 3-methyl-2-butanol, detected in four bamboo species(maximum in Dendrocalamus latiflorus at 46.25%).Other major components detected were 2-methoxy-4-vinylphenol, 2-hexenal,3,7,11-trimethyl-1,6,10-dodecatrien-3-ol,phytol,benzeneacetaldehyde, nonanal,6,10,14-trimethyl-2-pentadecanone,5,6,7,7a-tetrahydro-4,4,7a-trimethyl-2(4H)benzofuranone and isophytol. In the DPPH assays, strong antioxidant capacity was evident in all the oils but the concentration of essential oils. The data indicated that essential oils obtained from various bamboo leaves may play an important role in functional foods and in the preservation of pharmacologic products.