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1)  encapsulation-dehydration
包埋脱水法
1.
Cryopreservation of Nitzschia closterium minutissima by encapsulation-dehydration;
包埋脱水法冰冻保存小新月菱形藻
2.
Cryopreservation of Two Diatoms by Encapsulation-dehydration ——How Does the Pre-culture Influence onAlgal Viability After Cryopreservation;
包埋脱水法冰冻保存两种硅藻——预培养对包埋脱水法冰冻保存两种硅藻存活率的影响
3.
Cryopreservation of clonal gametophytes of Undaria pinnatifida by encapsulation-dehydration;
包埋脱水法冷冻保存裙带菜配子体克隆的研究
2)  encapsulation-dehydration
包埋-脱水法
1.
The free living conchocelis of Porphya yezoensis Ueda were preserved in normal temperature and normal low temperature by using encapsulation-dehydration method.
用包埋-脱水法在常温和常低温下保存条斑紫菜自由丝状体,探讨了温度、光(暗)和含水量等因素对存活率的影响。
2.
Dunaliella salina was preserved by encapsulation-dehydration under normal temperature and low temperature.
用包埋-脱水法在常温和低温保存盐生杜氏藻(Dunaliella salina),探讨了温度、光暗和含水量等因素对存活率的影响。
3)  imbedment, embedment
埋置[法];包埋,埋封
4)  occluded water
包埋(藏)水
5)  embed method
包埋法
1.
With alginate and chitosan-alginate as a carrier,the research is conducted into the effects of pH and temperature through glucoamylase immobilized by embed method and embed-crossedlinked method,their optimum pH value and optimum action temperature are same that they were 4.
6,包埋法制得的固定化酶的机械强度和稳定性比包埋-交联法制得的固定化酶的差。
2.
The cooperation between sodium alginate embed method and the experiment which was applied to chemical sewage treatment was also reviewed.
笔者着重阐述正在进行的海藻酸钠包埋法及对应用于化工废水处理试验进行了比较。
6)  entrapping method
包埋法
1.
In this paper,the characters of different carriers used in entrapping method are introduced in detail,the different effects of such carriers applied in sewage disposal are compared and analyzed,finally the spectrum of application of entrapping method is summarized.
较详细介绍了包埋法固定化微生物技术中不同种类包埋载体的特点,比较分析了不同载体的使用对污水生物处理效果的影响,指出了包埋法的应用范围。
补充资料:包埋培养
分子式:
CAS号:

性质:细胞固定化培养的一种。首先用于微生物发酵,具有保护性强、可重复使用、易于连续操作、生长速度快、产品较纯等优点。对于动物细胞,无论是悬浮和贴壁生长的细胞都适用。细胞生长密度高,抗剪切力和抗污染能力强。对悬浮培养的细胞常用海藻酸钙包埋,对贴壁生长的细胞常用胶原包埋。包埋培养的操作步骤简单,条件温和,细胞和多聚物或单体混合,随着凝胶的形成,细胞嵌入多聚物的网格中。有许多多聚物可采用,如聚丙烯酰胺、聚氨酯、海藻酸盐、卡拉胶、琼脂糖等,故通常可选择合适的系统,使细胞处于活性状态。它也存在一些缺点,如扩散限制,并非所有细胞都能接触最佳基质浓度。由于大分子基质不能渗透通过多聚物网格,因而有一些物质被排斥在外。

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