研究
[D].
无锡
:
江南大学
,2012.
[12] 摇 DELLEDONNE D,RIVETTI F,ROMANO U. Develop鄄
ments in the production and application of dimethylcar鄄
bonate[ J]. Applied Catalysis A鄄General, 2001, 221
(1 / 2): 241 - 251.
[13]摇 WANG D P,YANG B L,ZHAI X W,et al. Synthesis of
diethyl carbonate by catalytic alcoholysis of urea [ J].
Fuel Processing Technology, 2007, 88(8): 807 - 812.
[14]摇
顾国贤
.
酿造酒工艺学
:
第
2
版
[M].
北京
:
中国轻
工业出版社
, 1996.
[15]摇
王晓娟
,
王德良
,
傅力
,
等
.
降低发酵酒中尿素含量的
研究进展
[J].
酿酒科技
,2009,176(2):93 - 95.
WANG X J,WANG D L,FU L,et al. Research progress in
reducing urea content in fermenting wine[J]. Liquor鄄Mak鄄
ing Science and Technology,2009,176(2):93 -95.
[16]摇 KITAMOTO K, MIYAZAKI K, YAMAOKA H. Sake
brewing tests using Sake yeasts producing no urea in
Sake factories [ J ]. Brew Sot Japan, 1992, 87 ( 8 ):
602 - 607.
[17]摇 SCHEHL B,SENN T,LACHENMEIER D W,et al. Con鄄
tribution of the fermenting yeast strain to ethyl carbamate
generation in stone fruit spirits[J]. Applied Microbiolo鄄
gy and Biotechnology, 2007, 74(4): 843 - 850.
[18]摇 PARK H,SHIN M,WOO I. Antisense鄄mediated inhibi鄄
tion of arginase ( CAR1) gene expression in
Saccharo鄄
myces cerevisiae
[J]. Journal of Bioscience and Bioengi鄄
neering, 2001, 92(5): 481 - 484.
[19]摇 COULON J,HUSNIKJ I,INGLIS D L,et al. Metabolic
engineering of
Saccharomyces cerevisiae
to minimize the
production of ethyl carbamate in wine [ J ]. American
Journal of Enology and Viticulture, 2006, 57 ( 2 ):
113 - 124.
[20]摇 KODAMA S. Optimal conditions for effective use of acid
urease in wine[ J]. Journal of Food Science, 1996, 61
(3): 548 - 552.
[21]摇
周建弟
,
丁关海
,
郑志强
.
酸性脲酶分解黄酒中尿素
特性的研究
[J].
中国酿造
,2006,164(11):45 - 46.
ZHOU J D,DING G H,ZHENG Z Q. Study on enzymatic
characteristics of acid urease to hydrolyze urea in Chi鄄
nese rice wine [ J ]. China Brewing, 2006, 164 ( 11 ):
45 - 46.
[22]摇 MIRA DE ORDU譙A R,LIU S,PATCHETT M L,et al.
Ethyl carbamate precursor citrulline formation from argi鄄
nine degradation by malolactic wine lactic acid bacteria
[ J ]. FEMS Microbiology Letters, 2000, 183 ( 1 ):
31 - 35.
[23]摇
王晓娟
.
低产尿素黄酒酵母的选育及黄酒发酵工艺
研究
[D].
乌鲁木齐
:
新疆农业大学
,2009.
[24]摇
刘俊
,
赵光鳌
,
徐岩
.
黄酒中氨基甲酸乙酯直接减除
技术的研究
[J].
食品与生物技术学报
,2012,31(2):
171 - 176.
LIU J,ZHAO G A,XU Y. Directly removal of ethyl car鄄
bamate in Chinese rice wine[J]. Journal of Food Science
and Biotechnology,2012,31(2):171 - 176.
[25] 摇 KOBASHI K, TAKEBE S, SAKAI T. Urethane鄄hydro鄄
lyzing enzyme from
Citrobacter
sp. [ J]. Chemical and
Pharmaceutical Bulletin, 1990, 38(5): 1326 - 1328.
[26]摇
陈思妘
.
酒精发酵中高级醇的形成途径及影响因素
[J].
食品与发酵工业
,1981 (1):76 - 81.
[27]摇 YOSHIMOTO H,FUKUSHIGE T,YONEZAWA T,et al.
Genetic and physiological analysis of branched - chain
alcohols and isoamyl acetate production in
Saccharomy鄄
ces cerevisiae
[J]. Applied Microbiology and Biotechnol鄄
ogy, 2002, 59(4 / 5): 501 - 508.
[28]摇 YOSHIMOTO H,FUKUSHIGE T,YONEZAWA T,et al.
Pyruvate decarboxylase encoded by the PDC1 gene con鄄
tributes, at least partially, to the decarboxylation of al鄄
pha鄄ketoisocaproate for isoamyl alcohol formation in
Sac鄄
charomyces cerevisiae
[J]. Journal of Bioscience and Bi鄄
oengineering, 2001, 92(1): 83 - 85.
[29]摇
黄君成
,
肖机生
.
应用分子筛降低白酒中甲醇含量的
研究
[J].
中国酿造
,1990(4):33 - 34.
[30]摇
魏玉伟
,
王贤
.
吸附树脂在低度白酒处理中的应用
[J].
食品信息
, 2000(11):35 - 35.
[31] 摇
佚名
.
酒综合催陈的探讨
[ J ].
酿酒
, 1994 ( 4 ):
10 - 13.
[32]摇
胡文浪
.
黄酒工艺学
[M].
北京
:
中国轻工业出版社
,
1998(8):83 - 85.
[33]摇
赖樱花
,
李勇波
,
成坚
.
黄酒浑浊沉淀问题研究进展
[J].
中国食物与营养
,2011,17(4):44 - 47.
LAI Y H,LI Y B,CHENG J. Research progress of tur鄄
bidity and deposition of yellow rice wine[ J]. Food and
Nutrition in China,2011,17(4):44 - 47.
[34]摇
魏桃英
,
寿泉洪
,
唐国芳
.
谈黄酒的非生物浑浊和沉
淀
[J].
酿酒
,2009,36(4):56 - 57.
[35]摇
权美平
,
田呈瑞
.
黄酒混浊沉淀的原因及防止措施
[J].
晋东南师范专科学校学报
, 2004, 21 ( 2 ):
47 - 49.
QUAN M P,TIAN C R. The causes and preventing mea鄄
sures of yellow rice wine turbid and precipitate[J]. Journal
of Jindongnan Teachers College,2004,21(2):47 -49.
[36]摇
许丹丹
,
林海娃
,
焦新萍
,
等
.
黄酒质量安全风险因子
分析及有害物质的控制研究
[ J].
食品安全导刊
,
2015 (13):70 - 71.
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