Please use this identifier to cite or link to this item: http://hdl.handle.net/2440/51659
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Type: Journal article
Title: Sexual and Apomictic Seed Formation in Hieracium Requires the Plant Polycomb-Group Gene fertilization independent endosperm
Author: Macedo Rodrigues, J.
Tucker, M.
Johnson, S.
Hrmova, M.
Koltunow, A.
Citation: Plant Cell, 2008; 20(9):2372-2386
Publisher: Amer Soc Plant Physiologists
Issue Date: 2008
ISSN: 1040-4651
1532-298X
Statement of
Responsibility: 
Julio C.M. Rodrigues, Matthew R. Tucker, Susan D. Johnson, Maria Hrmova and Anna M.G. Koltunow
Abstract: A Polycomb-Group (PcG) complex, FERTILIZATION INDEPENDENT SEED (FIS), represses endosperm development in Arabidopsis thaliana until fertilization occurs. The Hieracium genus contains apomictic species that form viable seeds asexually. To investigate FIS function during apomictic seed formation, FERTILIZATION INDEPENDENT ENDOSPERM (FIE), encoding a WD-repeat member of the FIS complex, was isolated and downregulated in sexual and apomictic Hieracium species. General downregulation led to defects in leaf and seed development, consistent with a role in developmental transitions and cell fate. PcG-like activity of Hieracium FIE was also supported by its interaction in vitro with the Arabidopsis CURLY LEAF PcG protein. By contrast, specific downregulation of FIE in developing seeds of sexual Hieracium did not result in autonomous endosperm proliferation but led to seed abortion after cross-pollination. Furthermore, in apomictic Hieracium, specific FIE downregulation inhibited autonomous embryo and endosperm initiation, and most autonomous seeds displayed defective embryo and endosperm growth. Therefore, FIE is required for both apomictic and fertilization-induced seed initiation in Hieracium. Since Hieracium FIE failed to interact with FIS class proteins in vitro, its partner proteins might differ from those in the FIS complex of Arabidopsis. These differences in protein interaction were attributed to structural modifications predicted from comparisons of Arabidopsis and Hieracium FIE molecular models.
Keywords: Asteraceae; Seeds; Homeodomain Proteins; Arabidopsis Proteins; Repressor Proteins; Two-Hybrid System Techniques; Reverse Transcriptase Polymerase Chain Reaction; Gene Expression Regulation, Developmental; Gene Expression Regulation, Plant; Protein Binding; Molecular Sequence Data; Polycomb-Group Proteins
Description: Copyright © 2008 American Society of Plant Biologists
RMID: 0020083419
DOI: 10.1105/tpc.108.059287
Appears in Collections:Agriculture, Food and Wine publications

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