fumarase

基本解释富马酶

网络释义

1)fumarase,富马酶2)fumarate hydratase,富马酶3)Fumaric acid,富马酸4)fumarate,富马酸5)fumaric acid(FA),富马酸(FA)6)Zinc Fumarate,富马酸锌7)fumarate,富马酸酯8)calcium fumarate,富马酸钙9)fumarase,富马酸酶10)Ammonium fumarate,富马酸铵

用法和例句

Quick detection of fumaric acid in Rhizopus oryzae fermentation broth using KMnO_4 titration;

应用KMnO_4滴定法快速检测米根霉发酵液中富马酸含量

Study on synthesis and mechanism of modified rosin resin by fumaric acid;

富马酸改性松香树脂的合成

Synthesis and Crystal Structures of Tetraethyl Ammonium Inclusion Complex with Urea, Fumarate and Water Molecules as Anionic Host Lattice Building;

尿素-富马酸根-水分子为主体晶格的四乙基铵离子包合物的合成与晶体结构

The growth rate of maleic anhydrite and fumarate from 2001 to 2003 are respectively 20.

2001~2003年我国顺酐、富马酸生产能力增长速度分别为20。

Synthesis of Zinc Fumarate in One Reactor from Maleic Anhydyide under the Presence of Complex Catayst;

顺酐一釜法催化合成富马酸锌

Synthesis of zinc fumarate by solid phase reaction under microwave irradiation;

微波辐射固相法合成富马酸锌

The property and development of fumarates, suah as mono - fu-marate, asymmetric fumarate ,multi - function fumarate etc.

综述了富马酸单酯、非对称富马酯、多功能富马酸酯等几类富马酸衍生物的开发及特性研究现状,并指出了其应用前景。

The purpose of this thesis is to synthesize fumarate which is of high performance, broad-spectrum, low toxicity and low hypersusceptibility .

α,β—不饱和羰基结构是防腐剂发挥抗菌作用的功能基团,富马酸酯即是一种含该官能团的广谱、高效、低毒的抗菌防腐剂。

The calcium fumarate was used as substrate to produce calcium malate directly.

运用生物反应分离耦合原理 ,以富马酸钙为底物 ,采用游离延胡索酸酶 ,直接转化生成苹果酸钙。

It was very important to study the dissolution behaviors for substrate calcium fumarate and product calcium malate.

采用反应分离耦合技术以富马酸钙为底物生产L-苹果酸是目前该产品生产的最佳方式,因此,研究该工艺过程中底物富马酸钙与产物苹果酸钙的溶解行为显得十分重要。

Study on the Production of L-Malic Acid by Bioconversion(Ⅰ) Screening of Fumarase Producing Strain;

生物转化法生产L-苹果酸的研究(Ⅰ)──富马酸酶产生菌株的筛选

Homology three-dimensional structure modeling of fumarase from Rhizopus oryzae and its analysis;

米根霉富马酸酶三维结构的同源建模与分析

The immobilized cells containing high fumarase activity were obtained by using modified polyvinyl alcohol (PVA) gel.

经摇瓶复筛 ,得到一株富马酸酶活力较高的ZG - 4菌株 。

最新行业英语

行业英语