利用慢速旋转、侧流管（STLV）生物反应器增强小鼠胚胎干细胞的心脏分化。

Enhanced cardiac differentiation of mouse embryonic stem cells by use of the slow-turning, lateral vessel (STLV) bioreactor.

机构信息

BioTalentum Ltd., Aulich Lajos u. 26, Gödöllö, Hungary.

出版信息

Biotechnol Lett. 2011 Aug;33(8):1565-73. doi: 10.1007/s10529-011-0614-8. Epub 2011 Apr 8.

Abstract

Embryoid body (EB) formation is a common intermediate during in vitro differentiation of pluripotent stem cells into specialized cell types. We have optimized the slow-turning, lateral vessel (STLV) for large scale and homogenous EB production from mouse embryonic stem cells. The effects of inoculating different cell numbers, time of EB adherence to gelatin-coated dishes, and rotation speed for optimal EB formation and cardiac differentiation were investigated. Using 3 × 10(5) cells/ml, 10 rpm rotary speed and plating of EBs onto gelatin-coated surfaces three days after culture, were the best parameters for optimal size and EB quality on consequent cardiac differentiation. These optimized parameters enrich cardiac differentiation in ES cells when using the STLV method.

摘要

胚状体 (EB) 的形成是多能干细胞体外分化为特化细胞类型的常见中间产物。我们已经对慢转、侧管 (STLV) 进行了优化，以便从小鼠胚胎干细胞大规模且均匀地产生 EB。研究了接种不同细胞数量、EB 附着到涂有明胶的培养皿上的时间以及旋转速度对 EB 形成和心脏分化的最佳影响。使用 3×10(5)个细胞/ml、10rpm 旋转速度和培养三天后将 EB 接种到涂有明胶的表面上，是获得随后心脏分化的最佳 EB 大小和质量的最佳参数。当使用 STLV 方法时，这些优化参数可增加 ES 细胞中的心脏分化。

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利用慢速旋转、侧流管（STLV）生物反应器增强小鼠胚胎干细胞的心脏分化。

Enhanced cardiac differentiation of mouse embryonic stem cells by use of the slow-turning, lateral vessel (STLV) bioreactor.

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