Transfectamine mRNA转染试剂 货号60030-AAT Bioquest荧光染料

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Transfectamine mRNA转染试剂

Transfectamine mRNA转染试剂

Transfectamine mRNA转染试剂    货号60030 货号 60030 存储条件 在2-8度冷藏保存, 避免光照
规格 500 ul 价格 2388
Ex (nm) Em (nm)
分子量 溶剂 Water
产品详细介绍

简要概述

Transfectamine mRNA 转染试剂是一种功能强大且用途广泛的转染试剂,旨在将更高量的 mRNA 引入真核细胞,或者更具体地说,引入动物细胞。它在各种贴壁和悬浮细胞系(包括难以转染的细胞)中提供高转染效率。不需要核摄取,这导致比 DNA 转染更快的蛋白质表达,而没有基因组整合的风险。 Transfectamine™ mRNA 转染试剂的低毒性可提高转染细胞的活力。 Transfectamine™ mRNA 转染试剂不需要特殊培养基,与大多数商业转染试剂相比更易于使用。

产品说明书

样品实验方案

简要概述

1.准备转染细胞
2.制备Transfectamine mRNA转染试剂-RNA 混合物
3.将Transfectamine mRNA转染试剂-RNA 混合物添加到细胞培养物中
4.过夜培养细胞
5.用合适的方法分析转染效率

 

细胞准备

1.在转染时将细胞培养至 ~ 90% 汇合。
2.转染前更换新鲜培养基。例如,6 孔板每孔更换 2 mL 培养基,10 cm 板更换 6 mL 培养基。

 

工作溶液配制

1.Transfectamine mRNA转染试剂-RNA 混合物
2.将 2.5 µg mRNA 与 200 µL 无血清培养基混合。
3.在步骤 1 中加入 7.5 µL Transfectamine mRNA转染试剂。
4.混匀并在室温下孵育 20 分钟。
注意:Transfectamine mRNA转染试剂与 mRNA 的比例需要针对不同的细胞系进行优化。 通常,Transfectamine mRNA转染试剂 (µL) 与 mRNA (µg) 的比率 =(3 至 5 µL)至 1 µg。

6孔板样品方案

组分 6孔板(每孔)
新鲜培养基 2ml
纯化的mRNA -2.5ug
无血清培养基 200ul
Transfectamine mRNA转染试剂 -7.5ul

 

操作步骤

1.转染方案

1.1将Transfectamine mRNA转染试剂 – mRNA 混合物加入培养板并培养过夜。
注意:重组蛋白表达可以在转染后的8小时内检测到。 转染后约24小时可观察到最大表达水平。

Transfectamine mRNA转染试剂    货号60030

图 1. HeLa 细胞中的转染效率比较(上图)和细胞毒性比较(下图)。 HeLa 细胞在 6 孔板中培养至~90% 汇合。 2.5 µg mRNA 分别用 Lipofactamin MessengerMAX 和Transfectamine mRNA转染试剂转染。 转染后 18 小时,使用带有 FITC 通道的荧光显微镜(上图)拍摄图像。 Lipofactamin MessengerMAX 和Transfectamine mRNA转染试剂的转染效率相似。用Transfectamine mRNA转染试剂转染的细胞看起来比用 Lipofatamin MessengerMAX 转染的细胞健康得多(下图)。

 

参考文献

A Systematic Study of Unsaturation in Lipid Nanoparticles Leads to Improved mRNA Transfection In Vivo.
Authors: Lee, Sang M and Cheng, Qiang and Yu, Xueliang and Liu, Shuai and Johnson, Lindsay T and Siegwart, Daniel J
Journal: Angewandte Chemie (International ed. in English) (2021): 5848-5853

A synthetic mRNA cell reprogramming method using CYCLIN D1 promotes DNA repair generating improved genetically stable human induced pluripotent stem cells.
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Journal: Stem cells (Dayton, Ohio) (2021)

CD40 signaling augments IL-10 expression and the tolerogenicity of IL-10-induced regulatory dendritic cells.
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Journal: PloS one (2021): e0248290

Expediting in vitro characterization of mRNA-based gene therapies via high-content fluorescent imaging.
Authors: Vigil, Toriana N and Zhang-Hulsey, Diana and Santos, Jose Luis and Patrick Hussmann, G
Journal: Analytical biochemistry (2021): 114259

LipoParticles: Lipid-Coated PLA Nanoparticles Enhanced In Vitro mRNA Transfection Compared to Liposomes.
Authors: Ayad, Camille and Libeau, Pierre and Lacroix-Gimon, Céline and Ladavière, Catherine and Verrier, Bernard
Journal: Pharmaceutics (2021)

Live-cell Imaging of Single-Cell Arrays (LISCA) – a Versatile Technique to Quantify Cellular Kinetics.
Authors: Reiser, Anita and Woschée, Daniel and Kempe, Simon Maximilian and Rädler, Joachim Oskar
Journal: Journal of visualized experiments : JoVE (2021)

Location of a single histidine within peptide carriers increases mRNA delivery.
Authors: He, Jiaxi and Xu, Songhui and Leng, Qixin and Mixson, A James
Journal: The journal of gene medicine (2021): e3295

PEGylation of poly(amine-co-ester) polyplexes for tunable gene delivery.
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Journal: Biomaterials (2021): 120780

Preclinical evaluation of CD8+ anti-BCMA mRNA CAR T cells for treatment of multiple myeloma.
Authors: Lin, Liang and Cho, Shih-Feng and Xing, Lijie and Wen, Kenneth and Li, Yuyin and Yu, Tengteng and Hsieh, Phillip A and Chen, Hailin and Kurtoglu, Metin and Zhang, Yi and Andrew Stewart, C and Munshi, Nikhil and Anderson, Kenneth C and Tai, Yu-Tzu
Journal: Leukemia (2021): 752-763

Sustained release of PKR inhibitor C16 from mesoporous silica nanoparticles significantly enhances mRNA translation and anti-tumor vaccination.
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说明书
Transfectamine mRNA转染试剂.pdf