Supplementary Materials
Supplementary Materials for:
Citation: W. Li, Y. Zhou, X. Liu, P. Yu, J. D. Cohen, E. M. Meyerowitz, LEAFY Controls Auxin Response Pathways in Floral Primordium Formation. Sci. Signal. 6, ra23 (2013).
LEAFY Controls Auxin Response Pathways in Floral Primordium Formation
Wuxing Li, Yun Zhou, Xing Liu, Peng Yu, Jerry D. Cohen, Elliot M. Meyerowitz*
*Corresponding author. E-mail: meyerow{at}caltech.edu
This PDF file includes:
- Fig. S1. Phenotypic analysis of the pid-102 allele, lfy pid double mutant plants, and response of lfy-5 pid-8 shoot apex pin structures to exogenous auxin treatment.
- Fig. S2. Effect of inducible overexpression of LFY on flower development.
- Fig. S3. Effect of LFY overexpression on the Venus-N7 reporter of auxin signaling in roots.
- Fig. S4. Relative expression of LFY, PID, IAA1, IAA17, IAA29, TAA1, and TAR2 genes in lfy-5 and dexamethasone-treated p35S::GVG-6XUAS::LFY plants.
- Fig. S5. Live imaging of the LFY reporter and the auxin signaling reporter DR5 in SAMs of wild-type and lfy-5 plants.
- Table S1. Venus-N7 signal intensity in primordial cell nuclei in wild-type and lfy-5 plants.
- Table S2. List of primers used in this study.
Technical Details
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Citation: W. Li, Y. Zhou, X. Liu, P. Yu, J. D. Cohen, E. M. Meyerowitz, LEAFY Controls Auxin Response Pathways in Floral Primordium Formation. Sci. Signal. 6, ra23 (2013).