Abstract
ABSTRACTZebrafish is a powerful model organism for in vivo live imaging. However, protein visualization relies to this date on the overexpression of fluorescently tagged proteins from a specific promoter which very often does not recapitulate endogenous patterns of expression and dynamics. Tagging proteins in the endogenous locus is not widely used in the field due to its technical inefficiency and difficulty. Here we developed a knock-in reporter line for the Foxo1a transcription factor by inserting an EGFP-pA cassette in frame at the C-terminal generating a fusion protein. Foxo1a has been involved in the regulation of many biological processes regarding metabolism, stress response, longevity, cell differentiation and others and its functions are conserved from invertebrates to vertebrates. Using in-vivo live imaging at early developmental stages, we validated the expression in the cardiovascular network, CNS, olfactory epithelium, spinal cord, retina, skeletal muscle, and myocardium. Our line opens the way for imaging studies aiming to characterize the expression and localization of this transcription factor in a tissue and context specific manner. Also, the knock-in line can be used in combination with other modern techniques to determine the transcriptional targets of Foxo1a, many of which remain unknown.
Publisher
Cold Spring Harbor Laboratory