Multiplexing Resource Center

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Welcome to our beginner's guide to multiplex technologies for antibody-based applications. Multiplexing is a powerful technique that allows researchers to simultaneously measure multiple parameters within a single experiment. This efficient and data-rich approach is revolutionizing various fields of biological and medical research. On this page, you'll find essential information about the basics of antibody-based multiplex technologies, including flow cytometry, western blot, imaging, and immunoassays. Whether you're new to these methods or looking to expand your knowledge, this guide will provide you with the foundational understanding you need to get started.

The benefit of multiplexing

Multiplexing techniques offer numerous advantages over traditional singleplex experiments. The ability to simultaneously analyze multiple targets within a single sample improves efficiency and productivity while helping reduce costs and enhancing data quality. When investigating complex biological pathways, it offers the opportunity to gain a deeper understanding of how a biological system responds to external stimuli. The simultaneous detection of multiple protein targets in one experiment helps reduce experimental variability and is an excellent choice when the sample volume is limited or when analyzing large sample sets. Selecting the right products from the start and careful experimental planning and design helps reduce time spent on optimization and troubleshooting and helps ensure the success of your experiment.

Advantages of multiplex versus singleplex

Increased efficiency—conduct multiple measurements in a single experiment, helping save time and resources
Cost-effectiveness—reduce the overall cost per data point by minimizing the number of separate experiments required
Enhanced data richness—obtain comprehensive datasets that help provide deeper insights into complex biological processes
Reduced sample volume—minimize the amount of sample needed for analysis, which is particularly beneficial when working with precious or limited materials

White paper: The power of multiplexing

Choosing the right multiplex technology: A beginner’s guide

Navigating the world of multiplex technologies can be daunting, especially for those who are new to the field. To help you get started, we've created a comprehensive selection table that compares the key aspects of four major multiplex technologies for protein and cell analysis: flow cytometry, western blot, imaging, and immunoassays. This table highlights essential parameters such as the principle of each technology, key applications, sample types, sensitivity, and more. By providing a side-by-side comparison, we aim to give you a clear understanding of the strengths and limitations of each method, enabling you to choose the most suitable technology for your research needs.

Parameter	Flow cytometry	Imaging	Immunoassay	Western Blot
Principle	Measures physical and chemical characteristics of cells/particles	Visualizes and quantifies cellular/ subcellular structures; detects morphological changes	Detects and quantifies specific biomolecules	Detects specific proteins in a sample via antibody binding
Key applications	Cell sorting, protein expression, cell health	Cellular localization, morphology studies, cell health analysis	Biomarker detection, disease diagnostics	Protein detection, expression analysis
Sample type	Cells, tissues, microorganisms, and other biomolecules	Fixed and live cells, tissues, multiwell plates, 3D models (e.g., spheroids, organoids)	Serum, plasma, cell lysates	Proteins, cell and tissue lysates
# of targets	1–40	1–8	1–80	1–5
Sensitivity	High	High	High	Medium to high
Quantitative	Yes	Yes	Yes	Yes
Required sample volume	100 µL of sample if the cell concentration is sufficiently high (1–10 million cells/mL)	EVOS Systems: Varies based on slide or dish size. CX7 Systems: 50–100 µL per well for 96-well plates. 6.3 µL per well for 384-well plates	25–50 µL for 96-well 6.3 µL for 384-well	From a few µL to up to 100 µL
Data analysis	Attune Software, FlowJo, FCS Express	Celleste Image Analysis Software, HCS Studio Cell Analysis Software, Amira Software for 3D analysis	ProcartaPlex Analysis App	iBright Analysis Software
Panel design tools	Free Panel Design Service, Panel Builder tool	SpectraViewer, Stain-iT Cell Staining Simulator	ProcartaPlex Panel Configurator	SpectraViewer with iBright light source and filter settings
	Learn more about flow cytometry solution	Learn more about cell imaging solutions	Learn more about multiplex immunoassay solutions	Learn more about multiplex western blot solutions

Flow cytometry solutions for multiplexing

Explore our versatile range of instruments, antibodies, assays, beads, and buffers, designed to support multiplexing-based research by enabling the simultaneous analysis of multiple targets with precision and efficiency.

Multiplex flow cytometry

Fluorescent western blot detection

Multiplex fluorescent western blotting helps provide accurate quantitative results, stable signals, and the ability to clearly evaluate multiple protein targets on a single blot, which makes this technique increasingly popular.

Multiplex western blot

Spatial multiplex imaging

Spatial biology enables the simultaneous detection of multiple target molecules within a single tissue. Explore our quick start guide to get started or evolve your immunohistochemistry and multiplex fluorescence in situ hybridization experiments into multi-biomarker imaging experiments.

Multiplex IHC

Multiplex immunoassays

Utilizing the sandwich principle of traditional ELISA with Luminex xMAP technology allows simultaneous detection and quantification of multiple analytes in a single sample, enhancing efficiency and data throughput. This advanced method leverages color-coded beads and fluorescent detection to help provide highly sensitive and accurate results.

Multiplex ELISA

Build your own multiplexing panels

To help simplify your research, we offer a suite of intuitive online tools designed to help you create custom multiplexing panels with ease. Whether you're working with flow cytometry, western blot, imaging, or immunoassays, our tools provide step-by-step guidance to help ensure you select the right markers and reagents for your experiments. Enhance your research efficiency and accuracy by leveraging our powerful online tools and take your experiments to the next level.