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NUCLEAR FACTOR Y transcription factors have both opposing and additive roles in ABA-mediated seed germination.


ABSTRACT: In the model organism Arabidopsis thaliana the heterotrimeric transcription factor NUCLEAR FACTOR Y (NF-Y) has been shown to play multiple roles in facilitating plant growth and development. Although NF-Y itself represents a multi-protein transcriptional complex, recent studies have shown important interactions with other transcription factors, especially those in the bZIP family. Here we add to the growing evidence that NF-Y and bZIP form common complexes to affect many processes. We carried out transcriptional profiling on nf-yc mutants and through subsequent analyses found an enrichment of bZIP binding sites in the promoter elements of misregulated genes. Using NF-Y as bait, yeast two hybrid assays yielded interactions with bZIP proteins that are known to control ABA signaling. Accordingly, we find that plants mutant for several NF-Y subunits show characteristic phenotypes associated with the disruption of ABA signaling. While previous reports have shown additive roles for NF-YC family members in photoperiodic flowering, we found that they can have opposing roles in ABA signaling. Collectively, these results demonstrated the importance and complexity of NF-Y in the integration of environmental and hormone signals.

SUBMITTER: Kumimoto RW 

PROVIDER: S-EPMC3602376 | biostudies-literature | 2013

REPOSITORIES: biostudies-literature

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NUCLEAR FACTOR Y transcription factors have both opposing and additive roles in ABA-mediated seed germination.

Kumimoto Roderick W RW   Siriwardana Chamindika L CL   Gayler Krystal K KK   Risinger Jan R JR   Siefers Nicholas N   Holt Ben F BF  

PloS one 20130319 3


In the model organism Arabidopsis thaliana the heterotrimeric transcription factor NUCLEAR FACTOR Y (NF-Y) has been shown to play multiple roles in facilitating plant growth and development. Although NF-Y itself represents a multi-protein transcriptional complex, recent studies have shown important interactions with other transcription factors, especially those in the bZIP family. Here we add to the growing evidence that NF-Y and bZIP form common complexes to affect many processes. We carried ou  ...[more]

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