Blastocyst Friendly XYClone®
As part of the Molecular, Cell and Developmental Biology Research Program at the Oklahoma Medical Research Foundation (OMRF), Dr. Ute Hochgeschwender, Stephanie Bui, and Peggy Hunnewell work to generate mutant mouse models for mental retardation. In addition, they are also involved in the technical issues of mutant mouse generation in the context of the Microinjection Core Facility.
Hunnewell and Bui first happened upon the XYClone® laser in an Internet search to find an alternative to the piezo drill for nuclear transfer. After receiving a demonstration of the XYClone® at their laboratory, they learned that the laser could also replace the sharp micropipettes they used for blastocyst injection. When comparing methods, they find that the “insertion of cells into the blastocysts cavity is easier with the XYClone® and causes less damage to the blastocysts” than with their old micropipette method.
While they are currently using the XYClone® primarily for blastocyst injection of embryonic stem cells, their goal is to use the XYClone® in their nuclear transfer protocol in place of the piezo drill. Before the XYClone® laser was released, the piezo drill was one of the only non-chemical zona breaching options available to laboratories. However, the piezo drill is not only difficult to use, but it also usually requires the use of mercury, an extremely hazardous substance. With the XYClone, operation is both easy and safe. The research team particularly likes the “precise targeting of the laser and the hands-free foot pedal” of the XYClone.
“the sales manager, Kathy Bradley, was outstanding; she came out to our lab to demo the XYClone, went out of her way to answer our questions, and then came back to install the system after we purchased it. We are confIDENT® that we will get help if we were to encounter a problem.”Ute Hochgeschwender, M.D.