Bärbel Huvermann scite author profile

The timing of the switch from vegetative to reproductive development is crucial for species survival. The plant-specific transcription factor and meristem identity regulator LEAFY (LFY) controls this switch in Arabidopsis, in part via the direct activation of two other meristem identity genes, APETALA1 (AP1) and CAULIFLOWER (CAL). We recently identified five new direct LFY targets as candidates for the missing meristem identity regulators that act downstream of LFY. Here, we demonstrate that one of these, the class I homeodomain leucine-zipper transcription factor LMI1, is a meristem identity regulator. LMI1 acts together with LFY to activate CAL expression. The interaction between LFY, LMI1 and CAL resembles a feed-forward loop transcriptional network motif. LMI1 has additional LFY-independent roles in the formation of simple serrated leaves and in the suppression of bract formation. The temporal and spatial expression of LMI1 supports a role in meristem identity and leaf/bract morphogenesis.

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The N‐terminal ATPase AT‐hook‐containing region of the Arabidopsis chromatin‐remodeling protein SPLAYED is sufficient for biological activity

Kwon

Bezhani

et al. 2006

The Plant Journal

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SummaryThe SNF2-like chromatin-remodeling ATPase SPLAYED (SYD) was identified as a co-activator of floral homeotic gene expression in Arabidopsis. SYD is also required for meristem maintenance and regulates flowering under a non-inductive photoperiod. SNF2 ATPases are structurally and functionally conserved from yeast to humans. In addition to the conserved protein features, SYD has a large unique C-terminal domain. We show here that SYD is present as two forms in the nucleus, full-length and truncated, with the latter apparently lacking the C-terminal domain. The ratio of the two forms of endogenous SYD differs in juvenile and in adult tissues. Furthermore, an SYD variant lacking the C-terminal domain (SYDDC) rescues the syd null mutant, indicating that the N-terminal ATPase AT-hook-containing region of SYD is sufficient for biological activity. Plants expressing SYDDC show molecular and morphological phenotypes opposite to those of the null mutant, suggesting that the construct results in increased activity. This increased activity is at least in part due to elevated SYD protein levels in these lines. We propose that the C-terminal domain may control SYD accumulation and/or specific activity in the context of the full-length protein. The presence of the C-terminal domain in rice SYD suggests that its role is probably conserved in the two classes of flowering plants.

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Bärbel Huvermann

The LEAFY target LMI1 is a meristem identity regulator and acts together with LEAFY to regulate expression ofCAULIFLOWER

The N‐terminal ATPase AT‐hook‐containing region of the Arabidopsis chromatin‐remodeling protein SPLAYED is sufficient for biological activity

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