點針細胞電穿孔儀

產品簡介

       WPI公司最新上市的點針細胞電穿孔儀是一款簡單、通用的細胞膜或細胞壁的穿透設備， 可用于將DNA、iRNA等遺傳信息物質注入胚胎細胞以及植入前期的哺乳動物胚胎中，可在不撕裂或破壞細胞膜的情況下，實現小創傷、不留痕跡 、精確的膜穿透。

產品特征

● 觸摸屏顯示：電阻式觸摸屏，戴手套也可方便使用; 儀器操作模式：腳踏開關控制注射或觸摸屏手動注射控制 ;
● 直觀的用戶界面;占用空間小;
● 參數設置：通過觸摸屏或旋鈕調節頻率和電壓; 電穿孔程序：四種用戶可編程程序;
● 警示音：可調音頻連續音表示有效探頭; 計數顯示：注射計數器指示注射總次數;
● 通用性：電極支架與大多數常見操縱器兼容; 高存活率：小鼠胚胎雙細胞期注射后約80-85% 存活率;

裝在倒置顯微鏡下的點針細胞電穿孔儀?？梢约嫒軼PI公司SYS-PV830，艾本德公司的FemtoJet注射系統。

這是一個典型的微注射裝置，使用MICRO-ePORE™、一個INV-101倒置顯微鏡和一個PV830氣動皮升操作泵。

產品用途

● 微量注射到卵母細胞和植入前期的哺乳動物胚胎, 包括將CRISPR-Cas9試劑注射到雙細胞胚胎的細胞質中;
● 原核嚙齒動物受精卵微量注射;
● 斑馬魚中的基因沉默;
 

江西某高校斑馬魚中心使用第二代原型機在斑馬魚尾鰭注入Morphilinos。

參考文獻

[1] Allocation of cells to inner cell mass and trophecto

-derm lineages in preimplantation mouse embryos. Dev Biol. 1982, 90(2):352-62. PMID: 7075865

https://www.ncbi.nlm.nih.gov/pubmed/7075865

[2] Cell fate, morphogenetic movement and population kinetics of embryonic endoderm at the time of germ layer formation in the mouse.

Development. 1987, 101(3):627-52. PMID:3502998

https://www-ncbi-nlm-nih.gov.myaccess.library. utoronto.ca/pubmed/3502998

[3] Specific interference with gene function by double

-stranded RNA in early mouse development.

Nat Cell Biol. 2000, 2(2):70-5. PMID:10655585

https://www.ncbi.nlm.nih.gov/pubmed/10655585

[4] Early lineage segregation between epiblast and pri

-mitive endoderm in mouse blastocysts through the Grb2-MAPK pathway.

Dev Cell. 2006 May; 10(5):615- 24. PMID:16678776

https://www.ncbi.nlm.nih.gov/pubmed/16678776

[5] Use of luciferase chimaera to monitor PLCzeta exp

-ression in mouse eggs. Methods Mol Biol. 2009; 518:17-29. PMID:19085135

https://www.ncbi.nlm.nih.gov/pubmed/19085135

[6] Position- and Hippo signaling-dependent plasticity during lineage segregation in the early mouse embryo. Elife. 2017 Feb 22; 6. pii: e22906. PMID: 28226240

https://www.ncbi.nlm.nih.gov/pubmed/28226240

[7] Efficient generation of targeted large insertions by microinjection into two-cell-stage mouse embryos. Nature Biotechnology 2018, 36(7):632-637. PMID: 29889212 https://www.ncbi.nlm.nih.gov/pubmed/29889212

[8] Glycolysis-Independent Glucose Metabolism Disti

-nguishes TE from ICM Fate during Mammalian Embryogenesis.

Developmental Cell 2020, 53, 9–26 https://doi.org/10.1016/j.devcel.2020.02.015