Search Thermo Fisher Scientific
Search Thermo Fisher Scientific
We’ve consolidated our extensive library of cell transfection protocols and citations into a single, easy-to-use tool. Narrow the results by cell type, cell line, payload, transfection product, or type of document. You’ll see a list of protocols and their efficiencies.
The transfection protocols and citations tool contains resources specific to a multitude of cell lines and types, including HeLa cells, CHO cells, Jurkat cells, and many others. Protocols and citations have also been categorized according to desired product (e.g., Lipofectamine or Neon electroporation system) and payload, allowing you to easily narrow your search to the cell culture transfection protocol most applicable to your experiment.
Find protocols that have been optimized for efficiency, viability, and reproducibility in your cell line. Cell lines available in this tool include, but are not limited to, the following.
Cell type | Source |
---|---|
A549 | Human lung carcinoma |
ACHN | Human renal cancer |
C6 | Rat glioma |
Caco-2 | Human colorectal adenocarcinoma |
CHO-K1 | Hamster ovary |
COS-7 | Monkey kidney fibroblast |
D3 | Mouse embryonic stem cells |
HCT-116 | Human colon carcinoma |
HEK 293 | Human embryonic kidney |
HeLa | Human cervical carcinoma |
HepG2 | Human liver carcinoma |
HL60 | Human lymphoblast |
HT29 | Human colon adenocarcinoma |
HT-1080 | Human fibrosarcoma |
HUVEC | Human umbilical vein cord |
IMR-90 | Human embryonic lung |
Jurkat | Human T-cell leukemia |
K-562 | Human myelogenous leukemia |
LNCap | Human prostate cancer |
MCF-7 | Human breast cancer |
MDA-MB-231 | Human breast adenocarcinoma |
MDA-MB-435 | Human breast adenocarcinoma |
Molt-4 | Human T lymphoblast |
NCI-H460 | Human large cell lung cancer |
NHFF | Human diploid somatic fibroblast |
NIH-3T3 | Mouse embryonic fibroblast |
NTera2 | Human embryonic carcinoma stem cell |
PC-3 | Human prostate adenocarcinoma |
PC12 | Rat neuronal |
SK-BR3 | Human breast carcinoma |
SK-MEL-28 | Human malignant melanoma |
SK-OV-3 | Human ovarian adenocarcinoma |
THP-1 | Human monocytic leukemia |
Transfection products from Thermo Fisher Scientific are designed for highly efficient and reproducible results. Explore protocols designed for use with specific products, including:
AAV-MAX transfection kit | Lipofectamine CRISPRMAX reagent |
Expi293 Expression System | Lipofectamine LTX reagent |
ExpiCHO Expression System | Lipofectamine MessengerMAX reagent |
ExpiSF Expression System | Lipofectamine RNAiMAX reagent |
FreeStyle MAX Reagent | Lipofectamine Stem reagent |
Invivofectamine 3.0 reagent | LV-MAX transfection kit |
Lipofectamine 2000 reagent | Neon Transfection System |
Lipofectamine 3000 reagent | Xenon Electroporation System |
Thermo Fisher Scientific offers a complete collection of transfection reagents with exceptional performance for the delivery of DNA, siRNA, Invitrogen Stealth RNAi, and Invitrogen BLOCK-iT RNAi vectors, in traditional or difficult-to-transfect cell lines. Refer to the Seven Steps to RNAi Success when planning RNAi experiments.
Use the Transfection Protocols & Citations tool to find the RNAi and siRNA protocols that you need, and explore Lipofectamine RNAiMAX reagent for advanced and efficient delivery of siRNA (see general transfection protocol using Lipofectamine RNAiMAX reagent).
The transfection concentration of a Stealth RNAi or siRNA duplex is determined by dividing the number of moles of siRNA used by the final volume of the transfection (i.e. starting medium volume + transfection mixture volume). Using a 24-well plate, we typically transfect 0.5-5 pmol of siRNA in a 100 µL transfection mix to 500 µL of medium in each well to give a 1 to 10 nM final concentration. If transfecting in triplicate, make 400 µL of 5x transfection mix by adding 0.1–1 µL of the 20 µM stock to 399 µL of Gibco Opti-MEM. Then add 100 µL of this transfection mix to each of your wells. (20 µM Stealth RNAi or siRNA = 20 pmol/µL)
When co-transfecting plasmids and siRNA, use the appropriate plasmid transfection protocol. The siRNA component usually adds negligible nucleic acid mass and can be ignored. Find appropriate transfection protocols for plasmid vector transfection using the Transfection Protocols & Citations tool.
The Neon Transfection System offers an innovative electroporation method, helping you achieve high transfection efficiency in difficult-to-transfect cells, including immune, primary, and stem cells.
Using the Transfection Protocols & Citations tool, find Neon Electroporation System-specific protocols. These protocols include general information about the cell line or primary cell, electroporation parameters used, transfection efficiency and survival rate achieved, and brightfield and fluorescence microscopy images of the cells following electroporation.
For Research Use Only. Not for use in diagnostic procedures.