Hwa Hyun Jeong scite author profile

In the original publication of the article, the number of a grant was published incorrectly as "a grant (PJ01532503 to J. H. Lee) from the Rural Development Administration (RDA), Republic of Korea". The correct grant number is "a grant (PJ01652303 to J. H. Lee) from the Rural Development Administration (RDA), Republic of Korea".Publisher's Note Springer Nature remains neutral with regard to jurisdictional claims in published maps and institutional affiliations.

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The Splicing Factor 1–FLOWERING LOCUS M Module Spatially Regulates Temperature-Dependent Flowering by Modulating FLOWERING LOCUS T and LEAFY Expression

Lee¹,

Lee²,

Jeong

et al. 2022

Preprint

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Alternative splicing mediated by various splicing factors is important for the regulation of plant growth and development. Our recent reports have shown that a temperature-dependent interaction between Arabidopsis thaliana splicing factor 1 (AtSF1) and FLOWERING LOCUS M (FLM) pre-mRNA introns controls the differential production of FLM-β transcripts at different temperatures, eventually resulting in temperature-responsive flowering. However, the molecular and genetic interactions between the AtSF1-FLM module and floral activator genes remain unknown. Here, we aimed to identify the interactions among AtSF1, FLM, FLOWERING LOCUS T (FT), and LEAFY (LFY) by performing molecular and genetic analyses. FT and TWIN SISTER OF FT (TSF) expression in atsf1-2 mutants significantly increased in the morning and middle of the night at 16 and 23 °C, respectively, under long-day conditions. In addition, ft mutation suppressed the early flowering of atsf1-2 and atsf1-2 flm-3 mutants and masked the temperature response of atsf1-2 flm-3 mutants, suggesting that FT is a downstream target gene of the AtSF1-FLM module. LFY expression significantly increased in the diurnal samples of atsf1-2 mutants and in the shoot apex regions of atsf1-2 ft-10 mutants at different temperatures. The chromatin immunoprecipitation (ChIP) assay revealed that FLM directly binds to the genomic regions of LFY but not of APETALA1 (AP1). Moreover, lfy mutation suppressed the early flowering of flm-3 mutants, suggesting that LFY is another target of the AtSF1-FLM module. Our results reveal that the AtSF1-FLM module spatially modulates temperature-dependent flowering by regulating FT and LFY expressions.

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Hwa Hyun Jeong

The splicing factor 1–FLOWERING LOCUS M module spatially regulates temperature-dependent flowering by modulating FLOWERING LOCUS T and LEAFY expression

Identification and functional characterization of TEOSINTE BRANCHED 1/CYCLOIDEA/PCF (TCP) transcription factor genes in Pak-choi (Brassica rapa ssp. chinensis)

Correction: Identification and functional characterization of TEOSINTE BRANCHED 1/CYCLOIDEA/PCF (TCP) transcription factor genes in Pak-choi (Brassica rapa ssp. chinensis)

Correction to: The splicing factor 1–FLOWERING LOCUS M module spatially regulates temperature-dependent flowering by modulating FLOWERING LOCUS T and LEAFY expression

The Splicing Factor 1–FLOWERING LOCUS M Module Spatially Regulates Temperature-Dependent Flowering by Modulating FLOWERING LOCUS T and LEAFY Expression

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