摘要
介绍了乙醛酸的性质,制备方法及应用,并对其市场前景作了展望。
出处
《武汉化工》
1997年第3期16-18,24,共4页
同被引文献16
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6M. S. Payne,K. L. Petrillo, J. E. Gavagan et al. High-level production of spinach glycolate oxidase in the methylotrophic yeast Pichia pastoris :engineering a biocatalyst[ J ]. Gene, 1995,167,(1-2) :215~219.
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7G. Gellissen and M. Piontek et al. Recombinant Hansenula polymorpha as a biocatalyst: coexpression of the spinach glycolate oxidase (GO)and the S. cerevisiae catalase T (CTT1) gene[J].Appl-Microbiol-Biot echnol, 1996,46, (1): 46~54.
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8M. S. Payne、K. L. Petrillo and J. E. Gavagan et al. Engineering Pichia pastoris for biocatalysis: co-production of two active enzymes[ J ]. Gene, 1997,194, (2): 179~182.
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9J. E. Seip、S. k. Fanger and J. E. Gavagan et al. Biocatalytic Production of Glyoxylic Acid[J ]. J. Org. Chem, 1993,58:2253-2259.
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10J. E. Gavagan、S. K. Fager and J. E. Seip et al. Glyoxylic Acid Production Using Microbial Transformant Catalysts[J]. J. Org.Chem, 1995,60: 3957~3963.
二级引证文献3
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1褚道葆,何建国,侯源源,徐迈,王树西,王建,查龙武,张雪娇.乙二醛在Ti/纳米TiO_2-Pt修饰电极上的电催化氧化[J].物理化学学报,2009,25(7):1434-1438. 被引量:4
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2梁咏思,沈凯佳,范许云,韩武洋,李天明.利用CRISPRi技术构建乙醛酸生物合成Corynebacterium glutamicum工程菌[J].食品科学,2021,42(2):170-176. 被引量:1
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3罗莎,黄璐瑶,殷勤,张钰莹,赵燕,张智胜.菠菜乙醇酸氧化酶的酶学特性及同工酶电泳分析[J].华北农学报,2019,34(1):156-164. 被引量:1
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1俞继华.巯基乙酸的开发和利用[J].武汉化工,1999(2):17-19.
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2李娟,张锡兰,郭泉辉.甲醇下游产品的开发和利用[J].河南化工,2011,28(1):25-28. 被引量:5
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3崔小明.丙醛的开发和利用[J].武汉化工,1997(4):6-8. 被引量:1
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4张亨.异丁醛及其衍生产品的开发和利用[J].化学推进剂与高分子材料,2001(6):18-20. 被引量:2
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5杨林森.顺酐及其衍生物的开发和利用[J].辽宁化工,1990,19(6):39-43.
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6崔小明.乙酰丙酸的开发和利用[J].武汉化工,1998(3):20-21.
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7施其祥.碎玻璃在工业中的开发和利用[J].中国玻璃,2001,26(6):18-22. 被引量:1
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8崔小明.氯丙烯及其衍生产品的开发和利用[J].江苏氯碱,2000(2):6-8.
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9崔小明.氯丙烯及其衍生产品的开发和利用[J].氯碱工业,2000,36(5):17-19. 被引量:6
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10崔小明.氯丙烯及其衍生产品的开发和利用[J].石家庄化工,2000(4):1-4.
