醋杆菌

超甜玉米中重氮营养醋杆菌的PCR检测研究

Detection of Acetobacter diazotrophicus in super - sweet maize by PCR

重氮营养醋杆菌Pal5在超甜玉米上的应用效果初报

Effect of Acetobacter diazotrophicus Pal_5 on Super Sweet Corn

利用引物1440和AD对超甜玉米植株重氮营养醋杆菌Pal5进行PCR扩增，以检测Pal5是否定殖于玉米植株体内。

The Acetobacter diazotrophicus Pal 5 existing in the tissue of maize was detected by PCR method with primers 1440 and AD.

VA菌根菌与重氮营养醋杆菌双接种对超甜玉米生长的影响

Effect of VA mycorrhizal fungi and Acetobacter diazotrophicus on the growth of super sweet corn

BC纳米纤维由接种在含糖培养基上的木醋杆菌在最佳培养环境中代谢而获得。

In which , BC nanofibers were metabolized by Acetobacter xylinum in granular sugar culture media at the optimum cultivation condition .

同时证实了木醋杆菌可在PDMS（聚二甲基硅氧烷）制作的微流控芯片中良好的生长，表明通过微流控芯片可调控纤维素的定向排列。

It was also confirmed that the acetobacter xylinum can grow well in the micro-fluidic chip made of PDMS .

木醋杆菌静态培养生产细菌纤维素的研究

Study on bacterial cellulose production by static culture of Acetobacter xylinum

发酵条件对木醋杆菌合成细菌纤维素影响的研究进展

Effects of Fermentation Conditions on Biosynthesis of Bacteria Cellulose by Acetobacter xylinum

巴氏醋杆菌产乙醛脱氢酶的培养基优化酿酒酵母产乙醛脱氢酶发酵条件的研究

Study on the Fermentation Conditions for Aldehyde Dehydrogenase Production by Saccharomyces cerevisiae

产细菌纤维素能力较强的微生物是木醋杆菌。

Acetobacter xylinum has strong bacteria cellulose - producing capability .

木醋杆菌ITS序列分析及产纤维素条件的研究

Analysis of its sequence in Acetobacter xylinum and research the condition of production fibre

醋杆菌产纤维素发酵培养基的优化细菌纤维素合成动力学模型的构建

Study on Medium for Bacterial Cellulose - producing Strain Constructing Kinetics Model for Bacterial Cellulose Producing

该方法可用于超甜玉米中重氮营养醋杆菌Pal5的检测。

This method can be used to detect Pal 5 in the plant of super-sweet maize .

细菌纤维素是由醋酸杆菌属、根瘤菌属、土壤杆菌属、八叠球菌属等的某些细菌在一定条件下产生的，其中最有代表性的细菌是木醋杆菌。

Bacterial cellulose was synthesized by bacteria belonging to the genera Acetobacter , Rhizobium , Agrobacterium , and Sarcina , etc.

选择木醋杆菌为实验菌种，研究各种发酵培养条件和培养基成分对其合成细菌纤维素的影响规律，确定了最佳工艺条件。

The influences of fermentation conditions and substrate components on bacterial cellulose produced by Acetobacter xylinum is studied in this paper .

总之，本文建立控制木醋杆菌定向运动的方法，成功实现细菌纤维素分泌过程的有序微纳组装。

In summary , we established a method to ensure the directional movement of A. xylinum and realized ordered assembly of bacterial cellulose .

目前已经发现有九个菌属可以产生细菌纤维素，其中以醋酸杆菌属的木醋杆菌产纤维素能力最强。

It was found that nine bacterial can produce bacterial cellulose , among them the wood acid bacilli cellulose has the most effective produtivity .

采用盆栽方法通过对甘蔗、甘薯组培苗和玉米幼苗进行重氮营养醋杆菌的接种，研究了重氮营养醋杆菌对这3种植物生长的影响。

An investigation was carried out to test the influence of Acetobacter diazotrophicus ( ABD ) on growth of maize , sugarcane and sweet potato .

该文通过微波辐射技术水解淀粉，并将淀粉水解液作为碳源应用于巴氏醋杆菌纤维素的微生物合成，探索出其最适培养基成分为淀粉水解液20%；蛋白胨15%；

The biosynthesis of bacterial cellulose by Acetobacter pasteurianum using starch hydrolysate produced by microwave irradiation as a carbon source was investigated in this paper .

热带醋杆菌对养殖水体和罗非鱼生理功能的影响载菌蒙脱石的构建及其在罗非鱼养殖中的应用研究

Studies on the Effects of Acetobacter Tropicalis in Aquarium and Physiological Characteristics in Nile Tilalpia ; Preparation of Probiotic-Loaded Montmorillonite and Its Application in Tilapia Culture

对分离菌株的特性进行了研究，并将其中的木醋杆菌用于冬枣醋饮料的研制。

It is suggested that the isolated strains of A1 have the highest ability to produce acid , thus it was choosen for the deep study and the research of winter jujube vinegar .

测定了木醋杆菌合成细菌纤维素的持水性能及对金属离子的吸附性，结果表明合成产物具有极好的吸水持水特性，对Cu2+有较强的吸附性能。

Water-holding property of bacterial cellulose and its adsorption to mental cations are tested in this paper , the results indicate that the product has excellent water-holding property and strong adsorption to Cu2 + .