配对
体细胞
电熔
体细胞核移植
克隆(编程)
细胞融合
化学
细胞生物学
细胞
生物
物理
材料科学
生物化学
计算机科学
胚胎
冶金
基因
程序设计语言
胚胎发生
量子力学
超导电性
胚泡
作者
Yidi Zhang,Han Zhao,Zhenlin Chen,Han‐Xiong Li,Hanjin Huang,Yun Qu,Yaowei Liu,Mingzhu Sun,Dong Sun,Xin Zhao
出处
期刊:Lab on a Chip
[Royal Society of Chemistry]
日期:2024-01-01
卷期号:24 (23): 5215-5224
被引量:1
摘要
Somatic cell nuclear transfer (SCNT), referred to as somatic cell cloning, is a pivotal biotechnological technique utilized across various applications. Although robotic SCNT is currently available, the subsequent oocyte electrical activation/reconstructed embryo electrofusion is still manually completed by skilled operators, presenting challenges in efficient manipulation due to the uncontrollable positioning of the reconstructed embryo. This study introduces a robotic SCNT-electrofusion system to enable high-precision batch SCNT cloning. The proposed system integrates optical tweezers and microfluidic technologies. An optical tweezer is employed to facilitate somatic cells in precisely reaching the fusion site, and a specific polydimethylsiloxane (PDMS) chip is designed to assist in positioning and pairing oocytes and somatic cells. Enhancement in the electric field distribution between two parallel electrodes by PDMS pillars significantly reduces the required external voltage for electrofusion/electrical activation. We employed porcine oocytes and porcine fetal fibroblasts for SCNT experiments. The experimental results show that 90.56% of oocytes successfully paired with somatic cells to form reconstructed embryos, 76.43% of the reconstructed embryos successfully fused, and 70.55% of these embryos underwent cleavage. It demonstrates that the present system achieves the robotic implementation of oocyte electrical activation/reconstructed embryo electrofusion. By leveraging the advantages of batch operations using microfluidics, it proposes an innovative robotic cloning procedure that scales embryo cloning.
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