利用微生物种群共生共培养来研究木薯淀粉的生物降解性。
The biodegradability of tapioca starch was studied by using micropopulation symbiotic cocultures.
从共培养到转化植株的获得只需6—7周。
共培养时间的确定。
共培养培养基中添加乙酰丁香酮可提高转化频率。
It was beneficial to add acetosyringone into cocultivation medium for improving transformation frequency.
结论嗅鞘细胞与大鼠尾状核神经元共培养可促进神经元生长。
Conclusions: OECs promote the growth of the co-cultured rat caudate nucleus neurons.
结合微流控技术,在同一基底上也可以达到多种细胞的共培养。
In combination with the microfluidic system, adhesion of multiple types of cells on a same substrate can be carried out.
倒置显微镜观察和透射电镜观察共培养后ADSC的形态变化。
The shape of ADSC before and after coculture was observed by inverted microscope and transmission electron microscope.
分别用小鼠、大鼠、猪的卵丘细胞与小鼠pno和NO进行了共培养。
Mouse PNO and NO were cultured with cumulus cells isolated from mouse, rat and swine, respectively.
方法:在FN包被组和共培养组分别移入胚泡观察并统计粘附率和铺展率。
Methods: The blastocysts were cultured in the plates of FN-coated or co-cultured with human decidual cells, then we observed the influences on the attachment and outgrowth of mouse blastocysts.
方法建立RPE与抗原特异性T淋巴细胞系和静止淋巴细胞之间的共培养系统。
Methods Co culture systems of RPE cells with antigen specific t lymphocyte lines and resting t lymphocytes were established in vitro.
结果表明,采用传统方法和共培养的方法并添加细胞因子均能分离获得类ES细胞。
The results indicated that ES like cells were both derived from the traditional method and co culture in medium with cell growth factors.
添加EGF,采用共培养方式成熟的卵母细胞,GSH含量高,超微结构更加健康。
There were high GSH concentration and healthy ultrastructure in EGF-added and coculture medium.
共培养的施万细胞和神经干细胞可以 3种方式接触生长 :1 胞体与胞体接触 ;
Co cultured Schwann cells and neural stem cells have grown to touch together in following manner:1. Body touch body;
最后,将纯化的生精细胞单独培养,同时还将纯化的生精细胞与支持细胞进行共培养。
Then, spermatogenic cells were purified. At last, the high purity spermatogenic cell was cultured single and with sertoli cell, respectively.
以CC培养基作为共培养后抗性愈伤筛选的基本培养基有利于抗性愈伤组织的筛选培养。
The CC medium was an efficient selectable medium for screening hygromycin resistant calli after co cultivation.
目的:研究兔活性骨组织在共培养条件下对同种骨髓基质细胞来源成骨细胞黏附特性的影响。
AIM: To investigate the effects of rabbit living bone tissue by co-culture on adhesion characteristics of homogeneous osteoblasts from bone marrow stromal cell.
为了能有效地杀除共培养后残余的农杆菌和筛选转化体,测定了青菜对5种抗生素的敏感性。
For effective elimination of Agrobacterium and screen of transformed cells after co-cultivation, sensitivity of cabbage cultured in vitro to 5 antibiotics was testes.
方法应用T细胞与皮肤组织体外共培养的方法检测银屑病T细胞对表皮通过时间产生的影响;
Methods Skin was cultivated in organ with T lymphocytes to investigate the effect of psoriatic T lymphocytes on epidermal turnover time.
经包装获得较高滴度的病毒上清,以共培养的方式感染5-氟尿嘧啶预刺激的小鼠骨髓细胞。
FACS analysis demonstrated that about 25% of murine 5 FU prestimulated bone marrow cells could be infected after cocultivation with producing cells in vitro .
方法采用破骨细胞与骨片的体外共培养法和显微摄片、显微光密度仪扫描及计算机图像分析技术。
Methods Rabbit's osteoclastes were coincubated with bone slices and microphotographed, microdensitometric scanned and analyzed by computer image analysis system.
通过共培养的方法,研究了亚历山大藻和赤潮异弯藻种群竞争关系对UV B辐射增强的响应变化。
The responses of the interspecific competition between Alexandrium tamarense and Heterosigma akashiwo to UV-B radiation enhancement was studied by co-culture method.
在生物膜系统中通过引种和共培养复合菌群后,生物膜微生态系统较活性污泥微生态系统更加稳定。
In the system of bio-film, micro-ecology of bio-film was more stable than activated sludge's after introduction-culture and co-operation compound bacterium.
作为研究生导师,她共培养了30余名硕士博士生。近年发表50余篇文章,并参编主编几本著作。
She has guided more than 30 graduated students and published more than 50 papers and wrote some books.
结果表明:玉米小斑病菌C小种可采用PDA培养基与寄主叶片连续共培养的方法提高产孢量和致病力;
The results showed that Bipolaris maydis race C might improve spores production and pathogenicity by culturing on PDA medium with fresh leaves constantly;
目的:通过人输卵管上皮细胞共培养体系及EGF作用,探讨输卵管上皮及egf对受精卵体外发育的影响。
Objectives: to know the effect of human oviductal epithelial cells system and EGF on the vitro development of mouse embryos, according to the role of human oviductal epithelial cells system and EGF.
在细胞培养的基底表面运用化学修饰,改变其对蛋白质和细胞的吸附特性,可以良好地控制不同细胞的共培养。
Using surface chemistry to change the substrate's ability to promote attachment of the proteins and cells, co-cultures of different types of cells can be achieved.
在含复合诱导成份的特殊共培养条件下,农杆菌能识别和大量附着到小麦悬浮细胞表面,并形成大量的纤维丝。
In a special medium containing complex-induced components, Agrobacteria were capable of recognizing and attaching to the surface of wheat cells, thus forming large amount of cellulose fibrils.
在含复合诱导成份的特殊共培养条件下,农杆菌能识别和大量附着到小麦悬浮细胞表面,并形成大量的纤维丝。
In a special medium containing complex-induced components, Agrobacteria were capable of recognizing and attaching to the surface of wheat cells, thus forming large amount of cellulose fibrils.
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