@article {Drapek214957, author = {Colleen Drapek and Erin E. Sparks and Peter Marhavy and Tonni G. Andersen and Jessica H. Hennacy and Niko Geldner and Philip N. Benfey}, title = {Minimum requirements for reprogramming and maintaining cell fate in the Arabidopsis root}, elocation-id = {214957}, year = {2017}, doi = {10.1101/214957}, publisher = {Cold Spring Harbor Laboratory}, abstract = {Changes in gene regulation during differentiation are governed by networks of transcription factors. To identify the minimal network for endodermal differentiation in the Arabidopsis root, we asked what transcription factors are sufficient to program a non-native cell-type into endodermis. Our results show the transcription factors SHORTROOT and MYB36 have limited ability to reprogram a non-native cell-type (the epidermis) and that this reprogramming is reversible in the absence of additional cues. The stele-derived signaling peptide CIF2 stabilizes SHORTROOT-induced reprogramming. The outcome is a partially impermeable barrier deposited in the sub-epidermal cell layer that has a transcriptional signature similar to endodermis. The trans-differentiation mechanism depends on the expression of genes downstream in the gene regulatory network but is independent of SHORTROOT movement. These results highlight a non cell-autonomous induction mechanism for endodermis that resembles differentiation in many animal systems.One Sentence Summary SHORTROOT and CIF2 combined can induce and stabilize an endodermis in sub-epidermal cells and do so in a non cell-autonomous manner.}, URL = {https://www.biorxiv.org/content/early/2017/11/08/214957}, eprint = {https://www.biorxiv.org/content/early/2017/11/08/214957.full.pdf}, journal = {bioRxiv} }