PERPETUAL FLOWERING2 coordinates the vernalization response and perennial flowering in Arabis alpina

0502542 - ÚEB 2019 RIV GB eng J - Journal Article
Lazaro, A. - Zhou, Y. - Giesguth, M. - Nawaz, Kashif - Bergonzi, S. - Pečinka, Aleš - Coupland, G. - Albani, M. C.
PERPETUAL FLOWERING2 coordinates the vernalization response and perennial flowering in Arabis alpina.
Journal of Experimental Botany. Roč. 70, č. 3 (2019), s. 949-961. ISSN 0022-0957. E-ISSN 1460-2431
Institutional support: RVO:61389030
Keywords : ap2 * apetala2 * flc * flowering locus c * juvenility * pep1 * pep2 * perennial * perpetual flowering 1 * vernalization
OECD category: Plant sciences, botany
Impact factor: 5.908, year: 2019

The floral repressor APETALA2 (AP2) in Arabidopsis regulates flowering through the age pathway. The AP2 ortholog in the alpine perennial Arabis alpina, PERPETUAL FLOWERING 2 (PEP2), was previously reported to control flowering through the vernalization pathway via enhancing the expression of another floral repressor PERPETUAL FLOWERING 1 (PEP1), the ortholog of Arabidopsis FLOWERING LOCUS C (FLC). However, PEP2 also regulates flowering independently of PEP1. To characterize the function of PEP2, we analyzed the transcriptomes of pep2 and pep1 mutants. The majority of differentially expressed genes were detected between pep2 and the wild type or between pep2 and pep1, highlighting the importance of the PEP2 role that is independent of PEP1. Here, we demonstrate that PEP2 activity prevents the up-regulation of the A. alpina floral meristem identity genes FRUITFUL (AaFUL), LEAFY (AaLFY), and APETALA1 (AaAP1), ensuring floral commitment during vernalization. Young pep2 seedlings respond to vernalization, suggesting that PEP2 regulates the age-dependent response to vernalization independently of PEP1. The major role of PEP2 through the PEP1-dependent pathway takes place after vernalization, when it facilitates PEP1 activation both in the main shoot apex and in axillary branches. These multiple roles of PEP2 in the vernalization response contribute to the A. alpina life cycle.
Permanent Link: http://hdl.handle.net/11104/0294448