Litcius/Paper detail

Recent advances in the chromatin-based mechanism of FLOWERING LOCUS C repression through autonomous pathway genes

Jinseul Kyung, Myeongjune Jeon, Ilha Lee

2022Frontiers in Plant Science18 citationsDOIOpen Access PDF

Abstract

Proper timing of flowering, a phase transition from vegetative to reproductive development, is crucial for plant fitness. The floral repressor FLOWERING LOCUS C ( FLC ) is the major determinant of flowering in Arabidopsis thaliana . In rapid-cycling A. thaliana accessions, which bloom rapidly, FLC is constitutively repressed by autonomous pathway (AP) genes, regardless of photoperiod. Diverse AP genes have been identified over the past two decades, and most of them repress FLC through histone modifications. However, the detailed mechanism underlying such modifications remains unclear. Several recent studies have revealed novel mechanisms to control FLC repression in concert with histone modifications. This review summarizes the latest advances in understanding the novel mechanisms by which AP proteins regulate FLC repression, including changes in chromatin architecture, RNA polymerase pausing, and liquid–liquid phase separation- and ncRNA-mediated gene silencing. Furthermore, we discuss how each mechanism is coupled with histone modifications in FLC chromatin.

Topics & Concepts

Flowering Locus CBiologyChromatinPsychological repressionHistoneGeneticsGeneRepressorArabidopsisGene silencingLocus (genetics)Cell biologyTranscription factorGene expressionMutantPlant Molecular Biology ResearchPlant Gene Expression AnalysisPlant Reproductive Biology
Recent advances in the chromatin-based mechanism of FLOWERING LOCUS C repression through autonomous pathway genes | Litcius