1) mixed culture
混合培养物
1.
Compared with pure culture, mixed culture of phenol degraders exhibited higher degrading activity for phenol, chlrophenol and nitrophenol.
对 受苯酚污染的地 表水生物修复技术 作了有关基础研 究,结果表明:分离获 得的菌株 S P1 , S P2能利用苯酚作为唯一碳源和能源⒚与单一菌株相比,降解菌的混合培养物对苯 酚、氯 酚和硝基酚均具有较高的降解活性⒚酚降解过程受多因子的影响⒚应用流加培养技术获得菌体浓度为 0。
2) mixed culture
混合培养
1.
Comparison of composition of cellulase from monoculture of Trichoderma with mixed culture with yeast or Aspergillus;
木霉及其混合培养酵母和曲霉产生的纤维素酶系的比较研究
2.
Study on the conditions and growth relationships of mixed culture of multi-strains;
多菌种微生物混合培养的条件及生长关系研究
3.
It was found that the ability of flocculating kaolin suspension by the culture broth produced by mixed culture of the two strains in the proportion of 1∶1 was higher than that of pure culture of either strain.
将两株絮凝剂产生菌分别纯培养及以体积比1∶1比例混合培养,发现混合培养发酵液对高岭土悬浊液的絮凝效果优于各菌株的纯培养发酵液。
3) multi strain co cultivation
混合菌培养
4) mixtrophicus liquid
混合培养液
5) mixotrophic culture
混合营养培养
1.
The mixotrophic culture of Spirulina platensis at different concentrations of Glu as nitrogen source was investigated.
通过在Zarrouk培养基中添加不同浓度的谷氨酸(Glu)对螺旋藻进行混合营养培养,研究了不同浓度的Glu对螺旋藻的生长、叶绿素、蛋白质含量以及光合作用的影响。
2.
Characteristics of both growth processes and effect factors on their growths were compared and analyzed,and a method for estimation of heterotrophic growth fraction in mixotrophic culture was presented.
本文在 4 升小型发酵罐上对钝顶螺旋藻光合自养和混合营养生长过程进行研究, 比较和分析了两种生长过程的特点和影响生长的因素, 同时还完成了在混合营养培养中螺旋藻异养生长能力估算方法的研究。
3.
The effects of sodium glutamine with different concentrations on mixotrophic culture of S.
13倍;在3g/L葡萄糖浓度下,考察不同浓度的谷氨酸钠对螺旋藻混合营养培养的影响,以干重、叶绿素及藻胆蛋白含量、藻液的污染程度为主要指标,得出1。
6) mixotrophic
[miksə'trɔfik]
混合营养培养
1.
Mixotrophic Cultivation of Synechocystis sp. PCC 6803 in an Enclosed Photobioreactor;
集胞藻6803在封闭式光生物反应器中的混合营养培养
2.
Mixotrophic Cultivation of Synechocystis sp. PCC6803 in an Enclosed Photobioreactor and Its Physiology;
集胞藻6803封闭式光生物反应器混合营养培养及其生理学研究
3.
Measurements of chlorophyll fluorescence kinetics from dark_starved cells, light_grown cells and mixotrophic cells of Synechocystis sp.
PCC 6 80 3)混合营养生长影响进行了分析 ,集胞藻 6 80 3混合营养培养的生长速率显著高于光自养培养的原因可能在于一是外源葡萄糖没有抑制反而是促进了混合营养细胞的光自养生长 ,二是呼吸基质向质醌库提供电子 ,使光合机构的能量转化加强 ,从而促进了集胞藻6 80 3细胞的利用葡萄糖的合成代谢。
补充资料:光混合营养培养
分子式:
CAS号:
性质: 用光作为能源、能同时利用二氧化碳和有机物(如蔗糖)作为碳源的培养。
CAS号:
性质: 用光作为能源、能同时利用二氧化碳和有机物(如蔗糖)作为碳源的培养。
说明:补充资料仅用于学习参考,请勿用于其它任何用途。
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