Correlative microscopy, developed by Max Planck Institute (MPI) of Biochemistry, will be marketed and distributed by FEI; it includes a cryo-correlative stage for optical microscopes, and software
FEI and the Max Planck Institute (MPI) of Biochemistry have announced a collaboration on correlative microscopy that enables scientists to quickly and easily acquire high-resolution transmission electron microscope (TEM) images of molecular entities found using optical microscopy techniques.
Initial shipments are expected in the fourth quarter of 2008.
Precise coordinates for features of interest identified with optical techniques can be quickly transferred to the TEM, which can then navigate automatically to the specified location to acquire high-resolution images of the designated structure.
"Optical techniques, such as fluorescent probes, can identify and localize features of interest in biological specimens with extremely high sensitivity and specificity, but optical microscopy cannot resolve the feature's structure," said Professor Wolfgang Baumeister, director at the MPI of Biochemistry.
"The solution we are developing will allow researchers to use optical techniques to identify targets, then transfer the sample and grid coordinates to a TEM and automatically navigate to those targets to obtain high-resolution images, maintaining the sample in a frozen, hydrated state throughout the entire process".
"TEM can provide two-dimensional images and three-dimensional reconstructions of biological materials with nanometer-scale resolution, sufficient to resolve the tertiary and quaternary structure of proteins and essential features of other macromolecules and molecular complexes," said Matthew Harris, vice president and general manager of FEI's Life Sciences Division.
"However, without the localisation provided by optical techniques, finding those molecules is extremely difficult.
"Think of it as trying to find a particular string of glass beads in a barrel full of beads.
"With correlative microscopy, you can use techniques such as fluorescent markers to light up the string you are interested in, and then go back to the same location for a closer look with the TEM".
In addition to the commercial release of the cryo-correlative stage, MPI of Biochemistry and FEI will implement a unique programme designed to solicit participation from leading life science researchers in the further definition of correlative microscopy applications and methods.
Through participation in the programme, researchers will have access to a correlative stage for extended use in their own ongoing experimental programmes, thus affording the research community with opportunities to better understand the benefits of correlative microscopy as they help refine requirements for future solutions.
"We believe that the guidance we receive from user participants in this innovative development programme will significantly enhance the practical value of future correlative microscopy solutions.
"Our collaborative approach with MPI of Biochemistry and individual researchers demonstrates the importance FEI places on interaction with leaders in the field in the design of new products and methods," said Wim Voorhout, product marketing manager in FEI's Life Sciences Division.