1) enzymatic reduction
酶促还原反应
1.
S)-2-Acetoxyltridecane, which is the aggregation pheromone of Drosophila Mulleric and the sex pheromone component of the pea midge (Contarinia pisi), was synthesized from ethyl acetoacetate by enzymatic reduction with bakers yeast in the presence of ethyl chloroacetate as a key step.
我们曾以 1 -苯砜基 - 2 -丙酮为原料经酶促还原反应合成了目标产物 ,此法尽管合成路线短 ,光学产率较高 ,但反应原料不易购得 ,且使用两摩尔比的正丁基锂使反应操作难度加大 。
2) bioenzymatic reductive reacton
生物酶促还原反应
3) Bioenzyme Catalysis reachon
生物酶还原反应
4) Enzymatic reaction
酶促反应
1.
Biodegradation characteristics and enzymatic reaction kinetics of phenanthrene-degrading bacteria.;
菲降解菌的降解特性及酶促反应动力学研究
2.
Study on enzymatic reaction conditions of glucoamylase from Rhizopus oryzae;
米根霉糖化酶酶促反应条件的研究
3.
Enzyme membrane reactor can create favorable thermodynamics and kinetics by combining the high selectivity of enzymatic reaction and high efficiency of membrane separation process, and thus possesses the following main features: high reaction and mass transfer rates, mild reaction condition, high selectivity, and smooth continuous operation and automation, low operation and equipment cost.
酶膜反应器把酶促反应的专一性和膜分离过程高效融合,创造出有利的过程热力学和动力学,因而具有反应和传质速度快、条件温和、选择性高、易于连续化和自动化、操作和设备成本低等特点。
5) enzyme-catalyzed reaction
酶促反应
1.
In this paper, two mathematical models for thermokinetics of a single-substrate enzyme-catalyzed reaction in titration period and in the stopped-titration reaction period, respectively, have been developed, by using titration calorimetry.
用滴定量热法分别建立了滴定期和停滴反应期单底物酶促反应热动力学的数学模型。
2.
Kinetics of single-substrate enzyme-catalyzed reactions in batch reactor (BR) using thermokinetic method were investigated , and the influence of product competitive inhibition on these models was discussed in details.
用热动力学法研究了间歇反应器中单底物酶促反应动力学,并详细讨论了产物竞争性抑制作用对反应速率的影响。
补充资料:酶促反应
分子式:
CAS号:
性质:指借特定的经一定程度纯化的酶(必要时需加特定的辅酶或辅因子)在一定的条件下将底物(作用物)催化转化为产物的各种化学反应。许多因素如酶浓度、底物浓度、PH值、温度、激活剂、抑制剂能影响酶促反应速度。
CAS号:
性质:指借特定的经一定程度纯化的酶(必要时需加特定的辅酶或辅因子)在一定的条件下将底物(作用物)催化转化为产物的各种化学反应。许多因素如酶浓度、底物浓度、PH值、温度、激活剂、抑制剂能影响酶促反应速度。
说明:补充资料仅用于学习参考,请勿用于其它任何用途。
参考词条