Pioneering publication reports first ratiometric, single-protein red fluorescent pH sensor in live neurons Andor Technology
The importance that intracellular pH plays in cell biology is highlighted in a new paper published by the American Chemical Society. Written by a group of researchers from Harvard Medical School led by Professor Gary Yellen, it reports the engineering of the first ratiometric, single-protein red fluorescent sensor of pH, called pHRed, and its use to image intracellular pH in live neuronal cells.
Using Andor’s Revolution DSD spinning disk confocal technology, the team also established the unique capability of pHRed to be used in simultaneous measurements of intracellular ATP and pH because of its spectral compatibility with a second ratiometric ATP sensor, GFP-based Perceval. Further, the team showed that pHRed provides a new tool for imaging pH in thick samples and in vivo when imaged by two-photon FLIM (fluorescence lifetime imaging microscopy).
“Sensitivity to pH is a critical problem for GFP-based sensors and can cause severe artefacts if not taken into account,” says Dr Yellen. “Our multicolour imaging experiment illustrates the value of pHRed in providing a simultaneous pH signal. This can be used to correct the pH sensitivity of a green sensor and optical sectioning with excitation ratio-imaging enables access to intracellular compartments and organelles.
“We chose the Andor Revolution DSD structured illumination system because of its speed, flexibility and price. This spinning disk system is compatible with a range of non-laser light and filters are user-selectable to suit individual applications. Compared to expensive, maintenance-heavy, laser-based instrumentation, the DSD is ideal for individual laboratories. In eliminating the need to share with other research groups, the DSD allowed us to optimise the experimental set-up and experimental scheduling,” he adds.
“This is an important scientific achievement and builds on the increasing interest in genetically encoded fluorescent indicators (GEFIs) for live cell microscopy,” according to Dr Mark Browne, Director of Systems at Andor. “The use of the Revolution DSD for simultaneous two parameter ratio excitation imaging in live neurons really highlights the instrument’s flexibility. We are delighted that Professor Yellen’s group chose Andor as its partner in this work”.
Full story - http://www.andor.com/company/news/?docID=1257
16 January 2012
