烟草科技
煙草科技
연초과기
Tobacco Science & Technology
2015年
11期
47-52
,共6页
王颖%马玲玲%吕欣%赵德学%黄仲波
王穎%馬玲玲%呂訢%趙德學%黃仲波
왕영%마령령%려흔%조덕학%황중파
微生物%菌株%卷烟叶组%固态发酵%化学成分
微生物%菌株%捲煙葉組%固態髮酵%化學成分
미생물%균주%권연협조%고태발효%화학성분
Microorganism%Strain%Cigarette blend%Solid state fermentation%Chemical component
为研究单一菌株和复配菌株对卷烟叶组化学成分的影响,考察了固态发酵过程中3株微生物(酵母菌LBT1.0038,芽孢杆菌LBT1.0007和LBT1.0013)对卷烟叶组碳水化合物、含氮化合物、有机酸、氨基酸和石油醚提取物等主要化学成分的影响.结果表明:与对照叶组相比,用单一菌株和复配菌株发酵时,叶组的淀粉含量(质量分数,下同)均显著下降,且水溶性糖总量也呈下降趋势;叶组的总氮含量变化不显著,可溶性蛋白质含量下降,氨基酸总量升高.用单一菌株或低施加量复配菌株发酵时,叶组有机酸总量升高.用复配菌株发酵时,叶组的石油醚提取物含量显著增加.单一和复配菌株均对叶组主要化学成分有影响,但复配菌株对叶组化学成分的影响不呈现叠加效应,其中芽孢杆菌在降解蛋白质和淀粉等方面起主要作用,而酵母菌对叶组总氮和石油醚提取物有显著影响.
為研究單一菌株和複配菌株對捲煙葉組化學成分的影響,攷察瞭固態髮酵過程中3株微生物(酵母菌LBT1.0038,芽孢桿菌LBT1.0007和LBT1.0013)對捲煙葉組碳水化閤物、含氮化閤物、有機痠、氨基痠和石油醚提取物等主要化學成分的影響.結果錶明:與對照葉組相比,用單一菌株和複配菌株髮酵時,葉組的澱粉含量(質量分數,下同)均顯著下降,且水溶性糖總量也呈下降趨勢;葉組的總氮含量變化不顯著,可溶性蛋白質含量下降,氨基痠總量升高.用單一菌株或低施加量複配菌株髮酵時,葉組有機痠總量升高.用複配菌株髮酵時,葉組的石油醚提取物含量顯著增加.單一和複配菌株均對葉組主要化學成分有影響,但複配菌株對葉組化學成分的影響不呈現疊加效應,其中芽孢桿菌在降解蛋白質和澱粉等方麵起主要作用,而酵母菌對葉組總氮和石油醚提取物有顯著影響.
위연구단일균주화복배균주대권연협조화학성분적영향,고찰료고태발효과정중3주미생물(효모균LBT1.0038,아포간균LBT1.0007화LBT1.0013)대권연협조탄수화합물、함담화합물、유궤산、안기산화석유미제취물등주요화학성분적영향.결과표명:여대조협조상비,용단일균주화복배균주발효시,협조적정분함량(질량분수,하동)균현저하강,차수용성당총량야정하강추세;협조적총담함량변화불현저,가용성단백질함량하강,안기산총량승고.용단일균주혹저시가량복배균주발효시,협조유궤산총량승고.용복배균주발효시,협조적석유미제취물함량현저증가.단일화복배균주균대협조주요화학성분유영향,단복배균주대협조화학성분적영향불정현첩가효응,기중아포간균재강해단백질화정분등방면기주요작용,이효모균대협조총담화석유미제취물유현저영향.
In order to study the effects of single bacterium strain and mixed strains on the chemical components in a cigarette blend, the influences of three strains(Saccharomyces sp. LBT1.0038, Bacillus sp. LBT1.0007 and LBT1.0003)on the carbohydrates, nitrogenous compounds, organic acids, amino acids and petroleum ether extract in a cigarette blend during solid state fermentation were investigated. The results showed that: comparing with the control, the content of starch in a cigarette blend significantly decreased and that of total water soluble sugar decreased; total nitrogen content did not change significantly, while protein content decreased and total content of amino acids increased after fermentation with single strain or mixed strains. The total content of organic acids in a cigarette blend increased after fermentation with single strain or mixed strains at a low application rate. The content of petroleum ether extract increased significantly after fermentation with mixed strains. Both single and mixed strains affected the main chemical components in a cigarette blend, however, mixed strains did not present additive effects. Bacillus played an important role in the degradation of starch and protein, while Saccharomyces imparted significant effects on the total nitrogen and petroleum ether extract.