Neon™ Transfection System 100 μL Kit

The Neon Transfection instrument (Cat. No. MPK5000 and MPK5000S) has been discontinued. The Neon consumables (Cat. No. MPK1025, MPK10025, MPK1096, MPK10096, and MPT100) will be discontinued on September 30, 2025 or while supplies last. Learn about the benefits of the new Neon NxT Electroporation System with improved usability, more protocols with plate setup, and connectivity.

Invitrogen™

Neon™ Transfection System 100 μL Kit

Name: Neon™ Transfection System 100 μL Kit
SKU: MPK10025
Price: 782.00 USD

The Neon™ Transfection System 100 μL Kit is designed specifically for use with the Neon™ Transfection System. Use this kitRead more

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Catalog Number	No. of Reactions
MPK10025	50 Reactions
MPK10096	96 x 2

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Catalog number MPK10025

Price (USD)

782.00

Each

Add to cart

No. of Reactions:

50 Reactions

Price (USD)

782.00

Each

Add to cart

The Neon™ Transfection System 100 μL Kit is designed specifically for use with the Neon™ Transfection System. Use this kit for transfection volumes of 100 μL, containing 5 × 10⁵–2 × 10⁶ adherent cells or 1 × 10⁶–5 × 10⁶ suspension cells. Cells that have been transfected using the included 100 μL Neon™ Tips are then ready to be washed and plated into a 6-well, 60 mm, or 10 cm culture dish, depending on your protocol.

For Research Use Only. Not for use in diagnostic procedures.

Specifications

ClassificationAnimal Origin-Free, Chemically Defined, Low-Protein, Xeno-Free, Reduced Growth Factors, Reduced Serum

Cell TypeStem Cells, Primary Cells, Hard-to-Transfect Cells

Format6-well Plate, 12-well Plate, 24-well Plate, 48-well Plate, 96-well Plate, Flasks

Sample TypePlasmid DNA, Synthetic siRNA

PromoterCMV

Transfection TechniqueElectroporation

For Use With (Equipment)Neon™ Transfection System

For Use With (Application)Transfection

No. of Reactions50 Reactions

Product LineNeon™

Product TypeTransfection System

Quantity25 x 2 Reactions

Serum CompatibleYes

Shipping ConditionRoom Temperature

Starting Material Amount2x10^4 - 6 x10^8 cells; Varies by cell type

System TypeNeon™ Transfection System

Volume (Metric) Sample100μl

Unit SizeEach

Contents & Storage

The Neon™ Transfection System 100 μL Kit comes with 10 mL resuspension buffer R, 10 mL resuspension buffer T, and 75 mL E2 electrolytic buffer in one box and 25 x 100μL reaction tips and 5 electroporation tubes in a separate box. Refer to the Neon™ Transfection System users manual for protocol instructions. Store the buffer box at 4°C and the tips & tubes box at room temperature.

Frequently asked questions (FAQs)

What are the common causes for low cell survival rate using the Neon device?

Here are possible causes for low transfection efficiency using the Neon device:

1. Sub-optimal electrical parameters
2.Poor plasmid quality such as endotoxin contamination
3 .Plasmid preparation containing high salt
4. Plasmid quantity too high
5. Cells are stressed or damaged
6. Using same Neon tip more than two times
7. Microbubbles in tip, causing arcing

Find additional tips, troubleshooting help, and resources within our Transfection Support Center.

What are the common causes for low transfection efficiency using the Neon device?

Here are possible causes for low transfection efficiency using the Neon device:

1. Sub-optimal electrical parameters
2. Plasmid preparation containing high salt
3. Plasmid larger than 10 kb
4. Plasmid concentration too low
5. Cells are stressed, damaged, or contaminated by Mycoplasma
6.Cell density too low or too high
7. Cells with high passage number

Find additional tips, troubleshooting help, and resources within our Transfection Support Center.

How should I determine siRNA transfection efficiency with the Neon Transfection System?

To determine the Neon transfection efficiency for siRNA, we recommend transfecting the cells with a fluorescent-labeled negative control siRNA (BLOCK-iT Fluorescent Oligo, Cat. No. 13750062) and measuring the transfection efficiency by the percentage of fluorescent-stained cells among viable cells. However, keep in mind that there is a caveat with this approach: the transfection efficiency determined by fluorescent-labeled negative control siRNA may over-estimate the transfection efficiency, as fluorescence detection with a microscope does not distinguish the siRNA that enters the cell from the siRNA that sticks to the cell membrane. To measure transfection efficiency more accurately, one needs to transfect the cells with a positive control siRNA such as the one that targets a house-keeping gene, and measure the knockdown of target RNA or protein.

Find additional tips, troubleshooting help, and resources within our Transfection Support Center.

How should I determine the cell viability and transfection efficiency with the Neon Transfection System?

Cell viability is the number of cells that are confirmed viable from a total cell population. Transfection efficiency is the number of cells that are successfully expressing your construct out of the total number of viable cells (i.e., GFP-positive cells).

Cell viability can be determined by staining cells with propidium iodide or by the trypan blue exclusion method. For adherent cells, cell detachment can be performed using Trypsin or TrypLE Express enzyme prior to staining. Transfection efficiency can be determined using a fluorescence microscope with filter settings appropriate for the detection of GFP (emission: 509 nm). Cells may be counted either by FACS or using the Countess Automated Cell Counter.

Find additional tips, troubleshooting help, and resources within our Transfection Support Center.

After Neon electroporation, what is the best time point for analysis of siRNA knockdown?

As the stability and half-life of various mRNAs and their protein products varies, it is important to empirically determine the best time points for assessing target knockdown. For example, it has been documented that in mammalian cells, mRNA half-life can range from minutes to days (Ross J, 1995, Microbiol Rev 59:423–450) while the half-life of protein products can range from less than a few minutes to several days. In general, the recommended time course ranges from 12 to 72 hours to knock down target mRNA and 24 to 96 hours to adequately knock down target proteins. We recommend measuring mRNA knockdown by qPCR at 8, 24, 48, 72, and 96 hours post-electroporation to determine the time point for maximum knockdown. Also, perform time-course analysis to determine protein knockdown by ELISA (more accurate) or immunoblotting (less accurate).

Find additional tips, troubleshooting help, and resources within our Transfection Support Center.

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