The Gallios is known for its' cutting edge technology and proven performance. This instrument has fantastic detection capabilities, allowing users to visualise particles down to 0.404mm in diameter. The sensitivity and resolution of the Gallios means it can detect a variety of dyes and wavelengths. It has a customised forward scatter so users will achieve an accurate size measurement. User friendly software and fast, accurate processing allows researchers to conduct experiments efficiently.

• 10 fluorescence detectors
• 3 lasers
• High speed data collection

The flexible design of the Paradigm enables users to perform an array of applications. Multiple cartridges allow for the detection of luminescence, fluorescence intensity, time resolved fluorescence, absorbance and fluorescence polarisation. Easy-to-use software and help tools assist researchers by reducing their setup time and speeding up their research. The Paradigm caters for any changes in detection needs by allowing users to perform a range of applications on the one machine.

This user-friendly device delivers precise, quantitative real-time PCR results. It collects and saves data from all filters in every run, without relying on a computer or plate set-up. Researchers can perform high resolution melt analysis and analyse data from multiple perspectives. This instrument features innovative software that is unique to the StepOne and can be used with confidence by both new and experienced researchers.

• Perform fast PCR reactions in under 40mins
• Fast system with plug and play assays

The software available with the BioRad iQ5 real-time PCR System allows users to perform a variety of applications, including analysing gene expression of multiple genes from the same plate. The flexibility of the software also provides users with enhanced data collection and data analysis options, allowing users to have a comprehensive view of their assay results. Researchers can also easily generate publication quality graphs, tables and reports.

• Five user-changeable filter sets which support most fluorophores
• Powerful thermal gradient saves optimisation time
• Performs fast PCR which reduces a researchers time to achieving results

The design simplicity of the RotorGene 6000 ensures maintenance is kept to a minimum, so users can focus on their research rather than waste time on the upkeep of their instrument. Air-driven heating and cooling allows for fast reactions. Greater sample-to-sample variation can also be observed. The powerful real-time software included with this instrument means it is equipped for:

• High resolution melt analysis (HRM)
• Real-time amplification
• End-point analysis
• Nucleic acid concentration measurement

This instrument accommodates a variety of applications, including:

• Western blots
• Cell-based imaging
• Tissue imaging
• Protein arrays, and more

Users attain clear and accurate data, as there is no loss of weak bands due to overexposure. Multiplex detection enables simultaneous two-colour target analysis and eliminates error. Direct detection means that no film, darkroom or messy substrates are necessary.

Used to monitor disease progression, cell trafficking and gene expression patterns in living animals, the Xenogen is the most versatile and advanced in vivo imaging system available. This instrument features advanced fluorescence and bioluminescence imaging. Spectral unmixing tools allow the user to separate signals from multiple fluorescent reporters within the same animal.

• 3D molecular imaging
• Transmission and reflectance imaging
• In Vivo and In Vitro imaging

More than 65 000 levels of grayscale resolution allows for accurate x-ray density measurement. The fully automated lens and filter systems available in this instrument together with its high resolution make it the best digital resolution available in cabinet x-ray systems.

With excellent sensitivity, this machine is used for cell imaging, single molecule analysis, and imaging minute structures (such as DNA). Offering capabilities beyond conventional imaging, the Confocal allows for Fluorescence Correlation Spectroscopy (FCS) and Image Correlation Spectroscopy (RICS). Researchers can use up to ten dyes simultaneously enabling them to look deeper into cells and tissues (e.g. brain tissue).

• Creates detailed, high-contrast images
• Capture light released by a single plane of a sample
• More stable conditions for living cells mean live cell imaging results are more accurate

Known for its outstanding optics, the Zeiss Axio Imager has high resolution and excellent contrast. From single image acquisition to image analysis, researchers use this instrument for a range of imaging functions.

• Fantastic for fluorescence imaging
• Great for detecting parasites, bacteria or virus aggregates