1.
Establishment of Highly Efficient Regeneration System with Thin Cell Layer of Lily Scale
百合鳞片薄层细胞培养高效再生体系的建立
2.
High Efficient System Establishment Through Thin Cell Layer Culture and Preliminary Studies on Genetic Transformation Application in Citrus Sinensis (L.) Osbeck Cutter Valencia ;
‘卡特’夏橙薄层细胞培养高频再生体系建立及转基因应用初探
3.
A layer of cells one cell thick, grown in a culture.
单细胞层生长于培养细胞组织中的一细胞厚的细胞层
4.
In Vitro Culture of Trophoblast Giant Cells from Bovine Placentomes
牛胚胎滋养层巨细胞的体外分离培养
5.
Effects of Different Feeder Layers to Human Keratinocytes Proliferation in Vitro;
不同细胞滋养层对人角朊细胞体外培养的影响
6.
Establishment of human trophoblasts culture method and primary studies on entry of HBsAg into human trophoblasts;
人滋养层细胞培养方法的建立与HBsAg进入滋养层细胞的初步研究
7.
Culture of human embryonic cells by using human dermal fibroblasts as feeder cells
以人皮肤成纤维细胞作为饲养层细胞培养人胚胎干细胞
8.
Co-culture of Mouse Embryos with Human Decidua Monolayer Cells;
鼠胚与人早孕蜕膜单层细胞的共培养
9.
A Counting Method for Monolayer Cells Attached to Culture Plate in Situ
培养板单层贴壁细胞的原位计数方法
10.
Establishment of Culture System Without Feeder Cells of Rabbit Limbal Stem Cells in Vitro;
兔角膜缘干细胞体外无饲养层培养体系的建立
11.
Establishment of feeder layer- and serum-free culture system of human embryonic stem cells
人胚胎干细胞无血清无饲养层培养体系的建立
12.
Effect of Feeder Layers and Exogenous Cell Factors on in Vitro Culture of Chicken Primordial Germ Cells
饲养层及细胞因子对鸡PGCs体外培养的影响
13.
Culture of Mouse Embryonic Stem Cells and Their Biological Features Without Feeder Layer Cells
小鼠胚胎干细胞无饲养层培养及其生物学特性
14.
Study on Culturing Spermatonial Stem Cells of Mice Fed with NIH-3T3 Cells of Trangene GDNF;
以转GDNF基因的NIH-3T3细胞为饲养层培养小鼠精原干细胞的研究
15.
Culture of Cryopreserved Spermatogonial Stem Cells with Sertoli Cells as Feeder Layer
以支持细胞为饲养层培养冻存后大鼠精原干细胞研究
16.
Isolation,culture and identification of murine embryonic stem cells of Kunming species
以间充质干细胞为饲养层分离培养昆明小鼠胚胎干细胞
17.
Effect of densities of feeder layer for isolation and culturing of Kunming white mouse embryonic stem cells
饲养层细胞的接种密度对分离培养胚胎干细胞的影响
18.
Conclusion Three-dimension cultured cells show more biological activity than those by monolayer culture.
结论立体培养的细胞较单层培养者具有更大的生物学活性。