Role of VIN3-LIKE 2 in facultative photoperiodic flowering response in Arabidopsis |
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Authors: | Dong-Hwan Kim Sibum Sung |
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Affiliation: | Section of Molecular Cell and Developmental Biology; Institute for Cellular and Molecular Biology; University of Texas at Austin; Austin, TX USA |
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Abstract: | In Arabidopsis, expression of FLC and FLC-related genes (collectively called FLC clade) contributes to flowering time in response to environmental changes, such as day length and temperature, by acting as floral repressors. VIN3 is required for vernalization-mediated FLC repression and a VIN3 related protein, VIN3-LIKE 1/VERNALIZATION 5 (VIL1/VRN5), acts to regulate FLC and FLM in response to vernalization.1–3 VIN3 also exists as a small family of PHD finger proteins in Arabidopsis, including VIL1/VRN5, VIL2/VEL1, VIL3/VEL2 and VIL4/VEL3. We showed that the PHD finger protein, VIL2, is required for proper repression of MAF5, an FLC clade member, to accelerate flowering under non-inductive photoperiods. VIL2 acts together with POLYCOMB REPRESSIVE COMPLEX 2 (PRC2) to repress MAF5 in a photoperiod dependent manner.Key words: photoperiod, chromatin, floweringThe decision to flower is critical to the survival of flowering plants. Thus, plants sense environmental cues to initiate floral transition at a time that both ensures and optimizes their own reproductive fitness. Using a model plant, Arabidopsis thaliana, genetic studies have shown that the regulation of floral transition mainly consists of four genetic pathways: the inductive photoperiod pathway, the autonomous pathway, the vernalization pathway and the gibberellin pathway.4 In Arabidopsis, these four flowering pathways eventually merge into a group of genes called floral integrators, including FLOWERING LOCUS T (FT), SUPPRESSOR OF OVEREXPRESSION OF CONSTANS 1 (SOC1) and LEAFY (LFY). Based on the response to specific photoperiod conditions, the flowering behaviors of plants can be classified into three groups: long day (LD), short day (SD) and day neutral response.5,6 Depending on the requirement of day length, plants show either obligate or facultative responses. For example, henbane, carnation and ryegrass are obligate long day (LD) flowering plants which flower under increasing inductive photoperiod but do not flower at all under non-inductive photoperiod.5 On the other hand, plants including Arabidopsis, wheat, lettuce and barley, are considered to be facultative flowering plants. Thus, these plants exhibit early flowering under LD and late-flowering under non-inductive short days (SD). Studies on photoperiodic flowering time mainly focus on the inductive LD-photoperiod pathway in Arabidopsis. |
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