Protocols and Guidelines
General Good Practices for Flow Cytometry and Cell Sorting
- Always follow the safety guidelines
- Always validate your antibodies before use
- Titrate your antibodies (and any other reagents) to maximize the resolution of your staining
- Verify specificity of your antibodies
- Block Fc receptors and dye-mediated binding when applicable
- Optimize PMT voltages to maximize assay performance
- Include viability dye in your experiments.
- Include all relevant controls every time
- Unstained sample (technical control for sample prep, “universal negative” for compensation)
- Compensation controls (single stained cells or beads)
- Gating controls for multicolor panels (FMOs)
- Biological comparison controls (e.g. unstimulated or wild type reference sample)
- Data standardization controls (QC beads or aliquoted reference sample)
Basic Instructions and Advice for Your Experiments
You should always start by determining the number of positive cells in your least frequent cell population that you want to analyze (or sort) and then back calculate from there to estimate the amount of starting material needed for your assay. So if your rarest population of interest has an expected frequency of e.g. 1 in 1,000 (0.1%) and you want to have 100 positive events in that gate then you need to analyze a minimum of 100,000 total cells.
But note that you probably have lost some cells during your staining protocol and part of the sample volume cannot be analyzed (~100 µL dead volume in the instrument/tubes) so it would be safest to start with at least half a million cells per sample and have a final suspended volume of no less than 200 µL in your FACS tube. And you need the same half a million cells per tube also for your single stain/FMO controls! Furthermore, if you are performing cell sorting take into account that the sorting efficiency can sometimes be as low as 50% as some positive cells “traveling together with others” are intentionally put to the waste tank (depending on your sort settings) to guarantee the purity of the collected population. So you may need to again double the amount of starting material if you have a difficult sample with lots of debris and aggregates.
- Flow cytometry requires homogenous single cell suspensions. Check sample quality (and viability) under a light microscope before running your experiment. Samples with visible aggregates should never be put in the instrument.
- Cell clumps and other aggregates will clog the instrument and interrupt your experiment
- Debris and dead cells may affect the speed and accuracy of your flow analysis and purity/recovery of your cell sorts
- Always strain your cells; we recommend using 35 µm filter cap FACS tubes
- Highly aggregating cell types may even require restraining in the middle of long sample runs.
- Shapiro’s First Law of Flow Cytometry: “A 51 µm Particle CLOGS a 50 µm Orifice!”
- Serum free conditions, divalent cation chelation by EDTA (1-5 mM) and/or DNAse treatment (200 µg/mL) may reduce cell aggregation.
- Typical cell concentration is 1-10 million cells per mL and minimum recommended sample volume 200-300 µL
Typical FACS buffers consist of Ca/Mg free PBS with little protein (and sometimes other additives) to improve cell viability, decrease unspecific staining, and avoid sticking to plastic surfaces. Suspending cells in culture media is usually not recommended due to relatively high autofluorescence, poor pH buffering in typical flow conditions and presence of adhesion promoting components.
- Start with PBS containing 0.5% BSA (or 1-2% FBS) and optimize as needed
- Cell analyzers should use rigid (5 mL) polystyrene tubes to ensure good seal with the instrument O-ring; AriaII cell sorter can use either polystyrene or polypropylene tubes (5 mL or 15 mL)
- The following tubes are known to work with our instruments but other brands and types may also be used:
- 5 mL FACS tubes with 35 µm filter caps (Corning, cat#352235)
- 5 mL FACS tubes with snap caps (Corning, cat#352054)
- 15 mL conical tubes (Corning, cat#352096)
The goal of panel design is to optimize assay resolution by creating bright positive populations while minimizing spreading of the negatives (see also compensation controls and FMO controls).
- Know your instrument’s optical configuration and fluorophore spectra
- Divide fluorophores across multiple lasers and distant emission ranges
- Put bright fluorophores on rare cells/low expression markers, dim fluorophores on abundant cells/highly expressed markers
- Put high spillover fluorophores on mutually exclusive markers
- Use a single dump channel to exclude undesired populations
- Single stain controls must be as bright or brighter than actual samples
- But signal must remain in linear range
- Background (=autofluorescence) of negatives and positives must match
- The two populations must be similar type of cells or beads
- The fluorophores in controls and samples must be identical
- Tandem dyes must come from same vial
- Treat controls like samples (fix/perm, staining process, storage etc.)
- Collect enough events in both negative and positive populations
- Heat kill cells, induce the desired phenotype, use capture beads instead of stained cells etc. to get clear positive population for rare events.
Common sorting rules:
- The nozzle size should be at least 5 times greater than cell diameter
- Total event rate (including debris and dead cells) should be no more than 1/4 of drop frequency
Our default settings for all cell sorts using AriaII are: 100 µm nozzle, 20 psi pressure and 30 kHz drop frequency. You can typically expect ≥80% sorting efficiency and ≥90% purity when running ≤5 million total cells per hour using purity mask setting.
- Non-homogenous samples, debris and faster flow rate often decrease the sorting efficiency and the purity of the recovered populations.
- Observed cell recovery (manual count under light microscope) may be significantly lower than instrument reported sort efficiency if e.g. drop delay is poorly calibrated, cells die during sorting process (pH and pressure changes, drying on tube wall) or cells are lost in downstream processing steps(tube and buffer changes)
- Recovery volume is 3 mL (of PBS) per 1 million cells
- On special request we can speed up the sorting process using 70 µm nozzle (mostly for lymphocytes) or improve side stream quality using 130 µm nozzle (for unusually large cells).
External Resources
We have collected here links to many external online flow cytometry resources including panel building tools, technical tutorials, on-demand webinars and much more.
- BD Biosciences – https://www.bdbiosciences.com/en-us/resources/bd-spectrum-viewer
- Cytek – https://spectrum.cytekbio.com/
- ThermoFisher Scientific – https://www.thermofisher.com/order/fluorescence-spectraviewer
- Fluorescent Protein Database – https://www.fpbase.org/spectra/
Please note that not all fluorophores are included in every online tool; the core facility does not endorse any specific products or brands.
All our instruments are in the EasyPanel and FluoroFinder panel builder tools.
- AI generated complete panel with option to manually optimize as desired – EasyPanel
- Manually match markers to fluorophores from a given list – FluoroFinder
There are a wide variety of established laboratory protocols and training videos available online. Use them to your advantage!
Detailed laboratory protocols for flow cytometry
- ThermoFisher Scientific – https://www.thermofisher.com/us/en/home/references/protocols/cell-and-tissue-analysis/flow-cytometry-protocol.html
- Bio-Rad – https://www.bio-rad-antibodies.com/flow-cytometry-protocols-procedures.html
Online tutorials and other resources for flow cytometry
- Flow Cytometry Basics Guide (Bio-Rad) – https://www.bio-rad-antibodies.com/introduction-to-flow-cytometry.html
- Introduction to Flow Cytometry (BD Biosciences) – https://www.bdbiosciences.com/en-us/support/training/e-learning-courses
- Molecular Probes School of Fluorescence – https://www.thermofisher.com/us/en/home/life-science/cell-analysis/cell-analysis-learning-center/molecular-probes-school-of-fluorescence.html
- MACS Academy (Miltenyi Biotec) – https://www.miltenyibiotec.com/US-en/resources/macs-academy/on-demand-webinars-and-tutorials.html
- Chromocyte collection of online resources – https://www.chromocyte.com/educate
- CytoU webinars – https://learning.isac-net.org/
- FlowJo software tutorials – https://www.flowjo.com/learn/flowjo-university/flowjo
- Purdue Cytometry Discussion List- http://www.cyto.purdue.edu/hmarchiv/index.htm
- Expert Cytometry blog and youtube channel – https://expert.cheekyscientist.com/blog/, https://www.youtube.com/channel/UCdVW5fDLxx75nblr9NVtCTA
Our service center has dedicated data analysis stations available in both of our locations giving you free access to FlowJo, Kaluza and Diva software. These and many other options are also available to download on your own computer, often with 30-day free trial.
Some major commercial platforms (30-day free trial):
- FlowJo – https://www.flowjo.com/solutions/flowjo
- Kaluza – https://www.beckman.com/flow-cytometry/software/kaluza
- FCS Express – https://denovosoftware.com/
- Cytobank – https://www.cytobank.org/platform.html
- OMIQ – https://www.omiq.ai/
- WinList – https://www.vsh.com/products/winlist/index.asp
Some less known alternatives (cheap or free):
- Weasel – https://frankbattye.com.au/Weasel/index.html
- Floreada – https://floreada.io/analysis
- FlowTex – https://www.flowtex.org/
- International Society for Advancement of Cytometry (ISAC) – https://isac-net.org/