Countess 3 FL Automated Cell Counter

Dual fluorescence and brightfield cell counting

The Invitrogen Countess 3 FL Automated Cell Counter has fluorescence capabilities with two easily interchangeable fluorescent light cubes selected from 14 spectrum-spanning options. The Countess 3 FL instrument can count cells and measure viability in fluorescent mode as well as brightfield, while also reporting fluorescent protein expression, apoptosis, transfection efficiency, and cell viability using fluorescent reagents in as few as 30 seconds. With the utilization of artificial intelligence during development, our team has applied deep-learning neural network algorithms to generate highly accurate cell counts, even for the most challenging cell sample types.

Fluorescence cell counting also allows the use of fluorescence-based cellular assays that offer more specificity with complex samples by using fluorescent cellular stains or fluorescently tagged cells.

Countess 3 FL Automatic Cell Counter features

The Countess 3 FL instrument shares common features with the Countess 3 model: It is accurate, precise, fast, simple, and automated; it offers viability measurement and single-cell data across a wide variety of cell lines; it is compatible with reusable slides; and it has optional software to support 21 CFR Part 11 compliance for electronic records. In addition, its fluorescence capabilities open up additional options and applications.

Fluorescence applications

Advanced viability, apoptosis, transfection efficiency, fluorescent protein expression, and more.

Interchangeable LED light cubes

Extend your choice of fluorescent proteins and dyes beyond GFP and RFP

Optimized Ready Count reagents

Designed for the Countess 3 FL cell counter

Fluorescence counting applications

In addition to counting cells, the fluorescence capabilities of the Countess 3 FL instrument are often used to assess cell viability, apoptosis, transfection efficiency, and fluorescent protein expression. But the applications extend to any cellular parameters that are autofluorescent or can be labeled using fluorescent dyes. You’ll find data illustrating cell culture quality control, CAR-T cell screening, CRISPR-Cas9 editing efficiency, and other fluorescence applications in Sample Data.

Cell viability. Assessing cell viability is a key step in daily cell culture and is required for accurate and efficient downstream processing. The Countess 3 FL fluorescence options offer a sensitive and specific viability check that can be performed quickly and easily prior to downstream sample analysis.

Although trypan blue is widely used for viability assessment in brightfield cell counting, it can alter cell morphology in certain cases. For example, when dead mouse PBMCs are stained with trypan blue, they can expand and sink to a different focal plane than live cells, complicating accurate detection and counting. As a fluorescence alternative, Invitrogen ReadyCount Green/Red Viability Stain contains acridine orange and propidium iodide (AO/PI) in an optimized combination. Fluorescent staining provides great sensitivity and greater specificity of live/dead status in a mixed cell population without altering the morphology of the cell.

Viability measurement using fluorescence

Murine PBMCs were stained with ReadyCount Green/Red Viability Stain and counted with the Countess 3 FL Automated Cell Counter. In fluorescence mode, this reagent’s pre-optimized AO/PI mixture results in greater live/dead specificity. Dead cells (38%) are stained red by the PI and are detected with the Texas Red 2.0 light cube, while all nucleated cells (99%) fluoresce green with the AO dye and are detected with the GFP 2.0 light cube.

Apoptosis detection

U2OS (human osteosarcoma epithelial) cells were incubated with 4 µM staurosporine to induce apoptosis, labeled with CellEvent Caspase 3/7 Green Detection Reagent and SYTOX Deep Red Nucleic Acid Stain, and counted on a Countess 3 FL Cell Counter equipped with GFP 2.0 and Cy5 2.0 light cubes. Analysis identified apoptotic (green, 83%), dead (red, 32%), and “dying” (teal, 16%) cells. Percentages sum to more than 100% because the 16% of cells that express both stains are counted in all three categories.

Apoptosis detection. Fluorescent stains can target different aspects and stages of apoptosis, such as plasma membrane alterations (Annexin V), mitochondrial changes (JC-1), or caspase activation (Caspase 3/7). Pairing one of these with a viability stain on the Countess 3 FL can identify apoptotic as well as live and dead cells.

Transfection efficiency. Assessing the percentage of cells successfully transfected or transduced in a population is critical for research. Commonly, transfection or transduction is paired with a fluorescent protein reporter such as GFP. The Countess 3 FL Automated Cell Counter, loaded with your choice of light cubes, offers a quick and simple method to easily obtain transfection efficiency data.

Transfection efficiency

Jurkat cells were transfected with a GFP expression vector. (left) Cells can be seen adhered to the vessel in this image captured on an EVOS M5000 Imaging System. (right) Cells were trypsinized and counted on a Countess 3 FL Cell Counter equipped with an EVOS GFP light cube. Analysis showed that 50% of cells were transfected successfully.

“We compared to a hemocytometer and the Countess II always obtained very close results. The fluorescent measurements are a great tool for us to quantify the % transfection and transduction efficiency in our experiments. The light cubes used to detect fluorescence are very easy to switch out when more than two fluorescence sources are needing to be detected. The automatic focusing is very effective and accurate with the option to manually focus.”

David Waynar,

Santa Cruz Biotechnology

See more sample data from the Countess 3 FL cell counter

EVOS LED light cubes

With the fluorescence capabilities of the Countess 3 FL Automated Cell Counter, you can easily visualize fluorescent proteins and perform apoptosis or proliferation assays in your cell culture room.

The Countess 3 FL instrument has two optional fluorescence channels, which will detect fluorescent colors determined by the insertion of individual light cubes. With 14 interchangeable light cubes to choose from, the Countess 3 FL instrument is not limited to detection of cells expressing GFP and RFP.

The Invitrogen EVOS LED light cubes that power these fluorescence applications on the Countess 3 FL provide more than 50,000 hours of brilliant (yet adjustable) illumination that remains constant with minimal degradation over time. Cost-efficient, environmentally friendly, and spectrally optimized, EVOS LED light cubes are designed for precise control, minimal maintenance, and exceptional reliability.

Each cube contains an LED, illuminating optics, and filters. Light cubes are user-interchangeable and automatically detected by the Countess 3 FL system for plug-and-play ease.

Tip: Light cubes are not included with the Countess 3 FL cell counter to allow customization based on dyes and fluorescent proteins used.

Choose light cubes with spectra that match the dyes and counting applications you want to use. Light cubes are easy to swap in and out and can be purchased at any time to meet new application requirements. A wide range of dyes is supported.

Although many researchers choose GFP and RFP for fluorescent protein detection, there are 14 different EVOS LED Light Cube choices. DAPI is a traditionally used nuclear dye. The table shows common dyes detected by seven popular light cubes.

Suppose you are interested in measuring both apoptosis and viability of cells in a population. You can use an apoptosis indicator that measures caspase activation, such as CellEvent Caspase-3/7 Green Detection Reagent along with the EVOS GFP 2.0 light cube. Additionally, use a viability dye such as SYTOX Red Dead Cell Stain with the EVOS Cy5 2.0 light cube to measure dead cells that have progressed past apoptosis. This staining combination, along with the two EVOS light cubes, offers a fast and simple multiplex method to obtain apoptosis and viability data.

Seven popular light cubes and their common compatible dyes

Cat. No.	Light cube	Excitation (nm)	Emission (nm)	Common compatible dyes/fluorescent proteins
AMEP4950	DAPI 2.0	357/44	447/60	DAPI, Hoechst, NucBlue, Alexa Fluor 350, BFP
AMEP4951	GFP 2.0	470/22	525/50	GFP, Alexa Fluor 488, SYBR Green, FITC, Calcein, Fluo-4, MitoTracker Green, pHrodo Green
AMEP4954	YFP 2.0	500/24	542/27	EYFP, acridine orange (+DNA)
AMEP4952	RFP 2.0	531/40	593/40	RFP, Alexa Fluor 546, Alexa Fluor 555, Cy3, PE, dTomato, MitoTracker Orange, Rhodamine Red, SYTOX Orange
AMEP4955	Texas Red 2.0	585/29	628/32	Texas Red, Alex Fluor 568, Alexa Fluor 594, MitoTracker CMXRos, mCherry, pHrodo Red, Cy3.5, CellTracker Red CMTPX
AMEP4956	Cy5 2.0	628/40	692/40	Cy5, Alexa Fluor 647, Alexa Fluor660, DRAQ5
AMEP4967	Cy7	710/40	809/81	Cy7, IRDye™ 800CW, DyLight 750

See the entire line of compatible light cubes

Browse the list of compatible fluorescent dyes

Optimized ReadyCount reagents

Fluorescence staining can provide rich data on cells, especially in heterogeneous samples, but commercial stains can be difficult to mix, titrate, and apply for optimal performance. Invitrogen ReadyCount reagents are bench-stable fluorescent stains that are pre-optimized for use with Countess 3 FL Automated Cell Counter.

ReadyCount reagents can be used to stain specific nucleated cells within mixed populations, reducing complexity and improving count-to-count and sample-to-sample reproducibility when matched to the appropriate EVOS light cube. Simply mix 10 µL of cell sample with 10 µL of stain, pipet the solution into a Countess chamber or reusable slide, and insert the slide into the instrument.

ReadyCount Red Dead Cell Stain

Heat-killed Jurkat cells stained with ReadyCount Red Dead Cell Stain, imaged with Texas Red light cube, confirming dead cell detection.

This reagent stains dead cells and can be detected with an EVOS RFP 2.0 or Texas Red 2.0 light cube.

ReadyCount Blue Nuclear Stain

Live Jurkat cells stained with ReadyCount Blue Nuclear Stain, imaged with DAPI light cube, confirming live cell detection.

This reagent stains nucleic acids and can be detected with an EVOS DAPI 2.0 light cube.

ReadyCount Green/Red Cell Viability Stain is an optimized AO/PI mixture that stains nucleated cells green and dead cells red, and will fluoresce and be counted when used with EVOS GFP and Texas Red light cubes. Cells are shown at (left) 1.0x magnification and (right) 4.0x magnification.

For example, ReadyCount Green/Red Cell Viability Stain is an optimized mix of acridine orange and propidium iodide (AO/PI), which are standard stains for nucleated cells and viability, respectively. Even in peripheral blood mononuclear cell (PBMC) samples, which are notoriously difficult to count using trypan blue, AO/PI stains allow the discrimination of red blood cells (RBCs), platelets, and debris.

Ordering information

For an illustration of ReadyCount Green/Red Viability Stain see Fluorescence counting applications above.

Videos and demos

View more Countess 3 FL videos and demos

Cell counter specifications

Technical specifications	Processing time: <30 seconds
	Sample concentration range: 1 x 10⁴–1 x 10⁷ cells/mL
	Particle diameter range: ~4–60 µm
	Cell diameter range: ~4–60 µm
	Required sample volume: 10 μL
	USB drive: 32 GB (FAT32-, exFAT-, or NTSF-compatible)
	Optics: 5 megapixel camera, 2.5X optical magnification
Physical characteristics	Instrument dimensions:
	9" (W) x 5½" (D) x 9" (H); 228.6 mm (W) X 139.7 mm (D) x 228.6 mm (H)
	Weight: 8 lbs; 17.6 kg
Counting area	Area: 2.26 mm x 1.69 mm (3.82 mm²)
Included with instrument	USB drive for storing and transferring data to your computer
	Countess Disposable Slide Holder
	Countess Reusable Slide Holder
	Countess Cell Counting Chamber Slides (Qty 50)
	Power cord and 4 plug adaptors to accommodate most countries
	Quick reference card (QRC)
Sold separately	Countess Reusable Slide
	High-Power USB Wi-Fi Module (dongle)
	Countess Cell Counting Chamber Slides
	Trypan Blue Stain
	Countess SAE Software Solution
	Countess 3 Cell Counting Standard Slide