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重組細胞
expressed in Aspergillus niger
品質等級
形狀
aqueous solution
enzyme activity
≥5000 LU/g
環保替代產品特色
Waste Prevention
Design for Energy Efficiency
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sustainability
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環保替代類別
儲存溫度
2-8°C
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相关类别
一般說明
假丝酵母脂肪酶或南极假丝酵母脂肪酶B是一种丝氨酸水解酶,属于α/β水解酶折叠类。它由Ser、His和Asp/Glu催化三元组组成,并具有仲醇结合口袋。在结构上,CALB以开放和封装两种构象存在并且活性部位使用小盖覆盖。共有10种脂肪酶与白色念珠菌相关。
我们致力于为您提供更环保的替代产品,以符合“绿色化学的12项原则”的一项或多项原则要求。该产品针对生物柴油研究进行了优化,可提高能效并防止浪费。有关详细信息,请参阅《Biofiles》的文章。
應用
使用假丝酵母脂肪酶:
- 制备金纳米颗粒(AuNPs)偶联物以用于生物物理研究
- 用于脂肪酶活力测定
- 固定化Immobead-350
生化/生理作用
假丝酵母脂肪酶或南极假丝酵母脂肪酶B是是仲醇对映体特有的。它具有广泛的工业应用。一般来说,脂肪酶催化三酰基甘油的合成和分解。南极假丝酵母脂肪酶B (CALB)经过界面激活,是一种广受欢迎的脂肪酶。
分析報告
液体的最低含量为5,000 LU/G
儲存類別代碼
10 - Combustible liquids
水污染物質分類(WGK)
WGK 1
閃點(°F)
Not applicable
閃點(°C)
Not applicable
其他客户在看
Journal of lipid research, 56(12), 2348-2358 (2015-10-09)
Lipases (EC 3.1.1.3) are ubiquitous hydrolases for the carboxyl ester bond of water-insoluble substrates, such as triacylglycerols, phospholipids, and other insoluble substrates, acting in aqueous as well as in low-water media, thus being of considerable physiological significance with high interest
Physicochemical Study of the Interaction between Gold Nanoparticles and Lipase from Candida sp.(CALB): Insights into the Nano-Bio Interface
Journal of the Brazilian Chemical Society, 30(10), 2231-2242 (2019)
Applied microbiology and biotechnology, 98(11), 4963-4973 (2014-01-29)
CalB of Pseudozyma aphidis (formerly named Candida antarctica) is one of the most widely applied enzymes in industrial biocatalysis. Here, we describe a protein with 66 % sequence identity to CalB, designated Ustilago maydis lipase 2 (Uml2), which was identified as
International journal of molecular sciences, 12(10), 7216-7237 (2011-11-11)
Lipases from microorganisms have multi-faceted properties and play an important role in ever-growing modern biotechnology and, consequently, it is of great significance to develop new ones. In the present work, a lipase gene from Candida albicans (CaLIP10) was cloned and
Infection and immunity, 75(10), 4710-4718 (2007-07-25)
The production of lipases can affect microbial fitness and virulence. We examined the role of the lipase 8 (LIP8) gene in the virulence of Candida albicans by constructing Deltalip8 strains by the URA-blaster disruption method. Reverse transcription-PCR experiments demonstrated the
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