When the fruit fly turns into colourless you’ll be able to use imaging techniques not only to view its internal organs but to generate 2D and 3D images of the entire fly.’ Using OPT pictures in this way allows scientists to visualise where and the way the products of selected genes can be found in the fly. These patterns of gene expression, because they are known, will help to determine genes that control elements of the central anxious system and so provide detailed information about the mind. Bleaching of the exoskeleton to eliminate the colour also allows pictures to become generated using other microscopic techniques that rely on penetration of light. Dr O’Connell concluded: ‘This research is not merely limited to the study of conditions like Alzheimer’s but can also be used to study fly anatomy.Investigators from sciences outside traditional biology fields are encouraged to apply. Proposed studies should be at the hypothesis-powered level. Priority will be directed at proposals that address underfunded regions of brain tumor research. Of particular interest because of this first round of financing are proposals pertaining to meningioma or oligodendroglioma, nevertheless, other research topics are also invited. Eligible experts include advanced post-doctoral trainees, junior faculty, and principal investigators who’ve not received funding at the same as NIH RO1, or higher level.