Tolls T N, Shovers J, Sandine W E, Elliker P R
Appl Microbiol. 1970 Apr;19(4):649-57. doi: 10.1128/am.19.4.649-657.1970.
Diacetyl removal from beer was studied with whole cells and crude enzyme extracts of yeasts and bacteria. Cells of Streptococcus diacetilactis 18-16 destroyed diacetyl in solutions at a rate almost equal to that achieved by the addition of whole yeast cells. Yeast cells impregnated in a diatomaceous earth filter bed removed all diacetyl from solutions percolated through the bed. Undialyzed crude enzyme extracts from yeast cells removed diacetyl very slowly from beer at its normal pH (4.1); at a pH of 5.0 or higher, rapid diacetyl removal was achieved. Dialyzed crude enzyme extracts from yeast cells were found to destroy diacetyl in a manner quite similar to that of diacetyl reductase from Aerobacter aerogenes, and both the bacterial and the yeast extracts were stimulated significantly by the addition of reduced nicotinamide adenine dinucleotide (NADH). Diacetyl reductase activity of four strains of A. aerogenes was compared; three of the strains produced enzyme with approximately twice the specific activity of the other strain (8724). Gel electrophoresis results indicated that at least three different NADH-oxidizing enzymes were present in crude extracts of diacetyl reductase. Sephadex-gel chromotography separated NADH oxidase from diacetyl reductase. It was also noted that ethyl alcohol concentrations approximately equivalent to those found in beer were quite inhibitory to diacetyl reductase.
利用酵母和细菌的全细胞及粗酶提取物对啤酒中的双乙酰去除进行了研究。双乙酰乳酸链球菌18 - 16的细胞在溶液中破坏双乙酰的速率几乎与添加全酵母细胞所达到的速率相同。浸渍在硅藻土滤床中的酵母细胞能从渗过该滤床的溶液中去除所有双乙酰。未透析的酵母细胞粗酶提取物在啤酒正常pH值(4.1)下从啤酒中去除双乙酰的速度非常慢;在pH值为5.0或更高时,能快速去除双乙酰。发现酵母细胞透析后的粗酶提取物以与产气气杆菌双乙酰还原酶非常相似的方式破坏双乙酰,并且添加还原型烟酰胺腺嘌呤二核苷酸(NADH)能显著刺激细菌和酵母提取物。比较了四株产气气杆菌的双乙酰还原酶活性;其中三株产生的酶的比活性约为另一株(8724)的两倍。凝胶电泳结果表明,双乙酰还原酶粗提取物中至少存在三种不同的NADH氧化酶。葡聚糖凝胶色谱法将NADH氧化酶与双乙酰还原酶分离。还注意到,与啤酒中发现的乙醇浓度大致相当的乙醇浓度对双乙酰还原酶有很强的抑制作用。