hydrogenase

Active Site Structure , Catalytic Mechanism and Chemical Mimic of hydrogenase

镍铁氢化酶活性中心的结构、催化机理及化学模拟

The Analytical Method of Activity of Methane-producing Bacteria 's Hydrogenase

产甲烷菌的MV氢化酶活性分析法

Recent Advances on the Structure and Catalytic Mechanism of Hydrogenase

氢酶结构及催化机理研究进展

The Progress of Ni - Fe Hydrogenase Research

镍-铁氢酶的研究进展

EXPRESSION OF HYDROGENASE SYSTEM IN Rhizobium astragalus STRAIN 109

紫云英根瘤菌109菌株氢酶诱导表达

Characteristics and possible function of hydrogenase in a unicellular marine cyanobacterium

一种海生单细胞蓝藻的氢酶特点和功能探讨

Chemical mimic of the Fe-only hydrogenase active site is mainly discussed in this thesis .

因此，唯铁氢化酶活性中心的化学模拟是本论文的主要研究内容。

The soluble hydrogenase from C. Studies and Preparation of an Inactivated Hepatitis A Virus Vaccine

光合细菌C.甲型肝炎灭活疫苗的研究

In batch experiment , the additive made CH4 production increasing 12.55 % and hydrogenase activity 40.11 % .

在批量发酵中，这种复合添加剂使产甲烷量增加12.65%，氢化酶活力提高40.11%。

Several factors in the activity of nitrogenase , hydrogenase and hydrogen production , furthermore , the relation among the three ;

几种因子对固氮酶、吸氢酶和放氢活性的影响并探求三者之间的关联性；

Effect of nickel on hydrogenase activity in Rhizobium Arachis

镍对花生根瘤菌（Rhizobiumarachis）氢酶活性的影响

Primary Studies on Purification and Properties of Soluble Hydrogenase from Klebsiella oxytoca HP1

产酸克雷伯氏菌氢酶分离提纯与特性的初步研究

Time course of expression of hydrogenase activity showed that the derepression of hydrogenase activity depended on nickel .

氢酶活性表达的时间进程受镍的调节，氯霉素阻遏氢酶活性。

Expression of Hydrogenase System in Rhizobium astragalus Strain 109 : Promotive Effects of Nucleotide and Nicotinic Acid

紫云英根瘤菌109菌株吸氢的诱导表达&核苷、核苷酸与烟酸的促进效应

Chemical Mimic of the Fe-Only Hydrogenase Active Site

化学模拟唯铁氢化酶活性中心

Effect of fentanyl on gene expression of xanthine hydrogenase / xanthine oxidase in C6 glioma

芬太尼对C6胶质瘤细胞黄嘌呤氧化还原酶基因表达的影响

Studies on the Structures and Properties of the Complexes Containing Internal Bases of [ FeFe ] - Hydrogenase Active Site

含碱基[FeFe]氢化酶活性中心模型配合物的结构与性质研究

Studies on transference of hydrogenase genes of Rhizobium Arachis

根瘤菌吸氢酶基因转移的研究

A Modified Spectrophotometric Method for Measurement-of H_2-uptake Hydrogenase Activity

测定氢酶吸氢活性的光谱分析法

H2 production by reversible hydrogenase in green algae is a perfect approach of H2 production by photo-hydrolysis through solar energy .

绿藻可逆性氢酶制氢是太阳能光解水制氢的理想途径。

Symbiotic Nitrogen-fixing and Uptake Hydrogenase Activity in Acacia confusa

台湾相思结瘤固氮与吸氢酶活性研究

The Stabilization of Plasmid Carrying hup Genes and the Expression of H_2 uptake Hydrogenase in Klebsiella oxytoca

含hup基因的质粒在催娩克氏杆菌中的稳定性及吸氢酶的表达

Increased cellular permeability was reflected by increase in 51Cr-release rate and lactate de - hydrogenase ( LDH ) activity in culture supernatant .

内皮细胞~（51）Cr释放率、细胞上清液中乳酸脱氢酶（LDH）浓度升高，表明油酸引起细胞通透性升高；

The third , functional protein is isolated and primer of gene is designed by studying the sequence of amino acids for locating the gene of hydrogenase .

第三，分离纯化氢化酶蛋白并进行氨基酸测序，根据氨基酸顺序设计引物进行目的基因的克隆，或免疫抗体分离克隆目的基因。

These two strains have great potential in purification of waste water and production of CH4 , because they can utilize a few simple organic compounds and contain hydrogenase .

这两株光合细菌能利用多种简单有机物，并含有氢化酶，在废水净化及产甲烷方面有较广阔的应用前景。

Infusing 0.4g formaldehyde into rumens of sheep on herbage diet could lower the rumen proteinase and hydrogenase activities .

青刈期湖羊瘤胃每日灌注0.4g甲醛，能够减弱瘤胃蛋白酶和脱氢酶的活力。

Hydrogenase can uptake and reuse the H 2 produced by nitrogenase , which results in decreasing the loss of energy and increasing the efficiency of nitrogen fixation .

吸氢酶则能回收和利用固氮过程所放的H2，减少能量损失，从而提高共生固氮效率。

The activity of H2 production of Fe-only hydrogenase is 10-100 times as high as that of [ Ni-Fe ] hydrogenase .

其中，唯铁氢化酶的产氢活性是镍铁氢化酶的10-100倍。

Fe-only hydrogenase can catalyze the reduction of protons to molecular hydrogen and the oxidation of hydrogen to protons at extraordinarily high rates .

对铁氢化酶活性中心进行化学模拟将有可能产生出新型的产氢催化剂。

Because of the simple structure and high efficiency , biomimetic models related to the active site of the Fe-only hydrogenase are of particular interest to bioinorganic chemists .

因其独特的结构特征和高催化活性，唯铁氢化酶活性中心的结构和功能模拟引起了生物无机化学家们极大的兴趣。