Syngene reports a new study which demonstrates that Dyversity, its automated 2D gel imager, can capture high quality 2D protein gel images significantly faster than the leading laser scanner
The study carried out in association with researchers at the University of Cambridge involved imaging 2D protein gels (18x16cm) stained with Cy3 using both Syngene's Dyversity imaging system fitted with a 6.3megapixel camera and Cy dye lighting module and the Typhoon 9400 laser scanner from GE Healthcare.
The researchers found the systems produced identical dynamic range, linearity, sensitivity and image quality.
The main difference between them was images were acquired by Dyversity in less than a minute, ten times quicker than the laser scanner.
Unlike a laser scanner, Dyversity images the whole gel simultaneously so scan times are not dependent on sample size but on the exposure time required to achieve the right sensitivity.
Using Dyversity's 8x8 binning capability, the researchers found they could pre-scan Cy3 dyed gels in two seconds and generate images of them in less than 60 seconds.
Using Typhoon, the researchers found the pre-scan to check for saturation took two minutes and the scan time was eight minutes so capturing images of each Cy3 dyed gel was a ten minute process.
With Typhoon, they also showed that scan times scaled linearly with gel size, so for a 24x18cm gel, image capture took around three times longer.
Similar results were obtained when both instruments were used to image Cy5 and Cy2 stained gels.
Laura Sullivan, Syngene's divisional manager, commented: "We are delighted with the impressive results of this study because it demonstrates that CCD based systems can rapidly generate images of 2D protein gels without compromising on image accuracy".
"Dyversity can process ten gels in the time it takes a laser scanner to read just one and can easily capture a range of gel sizes, making Dyversity a must have for labs that want to increase the throughput of their proteomics research."