Chameleon (Cytbow)
Ubiquitous expression of nuclear-blueFP, replaced by expression of eYFP or tdTomato or mCerulean, after CRE-mediated recombination
Summary & Utility
The Chameleon chicken line provides a major opportunity for lineage tracing using several approaches. Chameleon carries a transposon vector with a complex transgene array that results in ubiquitous expression of nuclear-blueFP, which is replaced by expression of eYFP or tdTomato or mCerulean after Cre-mediated recombination1. TAT-Cre recombinase can be applied to living Chameleon transgenic embryos in ovo or in EASY culture by applying bead soaked in TAT-Cre, directly via pipetting or by injection into the circulation1. In this way, it is possible to fate map tissues1,2,3 for example the neural crest, limb bud mesenchyme or skin. There is also the potential for Chameleon transgenic embryos to be used for tracking virus infection by viral delivery of Cre. Cre expression may also be introduced by electroporation of Cre expression plasmids or by crossing with a second, Cre-expressing transgenic line.
Line origin
The Chameleon line is a relatively recent addition to our reporter lines, generated at the Roslin Institute, as described in Oh et al. (2024)1. The line was generated by transfection of primordial germ cells with a transposon vector carrying the complex Cytbow transgene, kindly provided by Livet, Loulier and colleagues4. A line was selected with a single copy of the transposon inserted. Hens from this line are sterile, so we have been unable to breed birds homozygous for this insertion, resulting in the provision of eggs that are 50% Cytbow and 50% wildtype (Hy-Line). The original funding for the generation of this line was provided by the Wellcome Trust (grant number: WT094182AIA).
If you use the Chameleon line in your research please reference; Oh, J.D.H., Freem, L., Saunders, D.D., McTeir, L., Gilhooley, H., Jackson, M., Glover, J.D., Smith, J., Schoenebeck, J.J., Lettice, L.A. , Sang, H.M. and Davey, M.G. (2024) Insights into digit evolution from a fate map study of the forearm using Chameleon, a new transgenic chicken line. Development, 202340.
Publications
- Oh, J.D.H., Freem, L., Saunders, D.D., McTeir, L., Gilhooley, H., Jackson, M., Glover, J.D., Smith, J., Schoenebeck, J.J., Lettice, L.A. , Sang, H.M. and Davey, M.G. Insights into digit evolution from a fate map study of the forearm using Chameleon, a new transgenic chicken line. Development, 202340 (2024).
- Davey, M. G., Balic, A., Rainger, J., Sang, H. M. & McGrew, M. J. Illuminating the chicken model through genetic modification. Int. J. Dev. Biol. 62, 257–264 (2018).
- Ho, W. K. W. et al. Feather arrays are patterned by interacting signalling and cell density waves. PLoS Biol. 17, (2019).
- Loulier, K. et al. Multiplex cell and lineage tracking with combinatorial labels. Neuron 81, 505–520 (2014).