XelPleX - Multiplex Label-free molecular interaction made easy

Overview

XelPleX is a high-performance and fully automated instrument for the analysis of label-free biomolecular interactions in a multiplex format.

The array-based format of the sensor chips allows you to monitor up to several hundreds interactions simultaneously and to accelerate your research.

The optimized fluidic system is designed to give you full kinetic profiles within minutes and help you make the right decisions quickly and with confidence.

XelPleX is powered with EzSuite, our new software suite for simple use and advanced data analysis.

Features

Automated SPR imaging system for label-free assays:

  • Multiplex Detection of several hundred interactions
  • Label-Free protein, peptide, DNA samples
  • Real-Time monitoring of kinetic curves
  • Difference Image Display giving you a direct view of reactions as the experiment unfolds
  • Fast Total Assay Time - typical assays in less than 10 minutes
  • Temperature control
  • Sample recycling for maximum binding
  • Sample recovery function
  • Direct subtraction of the negative control

Manufactured by HORIBA Scientific

Specifications

  • Sample volume: typically 200 μL
  • Sample concentration: 150 ng/mL (100-1000 kDa) to 5 μg/mL (4-20 kDa)
  • Sample molecular weight: ≈150 Da
  • Limit of detection: 5 pg/mm2

Accessories

SPRi-Continuous Flow Microspotter™ (SPRi-CFM)

The SPRi-CFM is an automatic printer that uses flow deposition for printing biomolecules. Samples are cycled over the surface and captured from solution, leading to higher biomolecule density, better spot uniformity and improved assay sensitivity.

SPRi-Arrayer

SPRi-Arrayer is an automatic, compact and portable apparatus. It prints DNA, oligonucleotides, proteins, bacterial clones and other materials with low cross contamination.

Manual SPRi-Arrayer

The Manual SPRi-Arrayer is a manual, compact and easy-to-use tool for printing molecules. It is a good start in microarray assays before scaling up to automatic printing.