AI Article Synopsis
- HUB1 and HUB2 proteins work together in a complex to regulate chromatin, influencing developmental processes like flowering time and circadian rhythms.
- Mutants lacking these proteins showed reduced leaf area and altered flowering times, indicating potential disruption in regulatory gene function linked to HUB1-mediated histone modification.
- Additionally, interactions between HUB1 and SPEN3 suggest that histone monoubiquitination impacts both transcript elongation and pre-mRNA processing, highlighting the importance of HUB1 for SPEN3's role in generating specific antisense transcripts.
Article Abstract
HISTONE MONOUBIQUITINATION1 (HUB1) and its paralog HUB2 act in a conserved heterotetrameric complex in the chromatin-mediated transcriptional modulation of developmental programs, such as flowering time, dormancy, and the circadian clock. The KHD1 and SPEN3 proteins were identified as interactors of the HUB1 and HUB2 proteins with in vitro RNA-binding activity. Mutants in and had reduced rosette and leaf areas. Strikingly, in mutants, the flowering time was slightly, but significantly, delayed, as opposed to the early flowering time in the mutant. The mutant phenotypes in biomass and flowering time suggested a deregulation of their respective regulatory genes () and () that are known targets of the HUB1-mediated histone H2B monoubiquitination (H2Bub). Indeed, in the and mutants, the circadian clock period was shortened as observed by luciferase reporter assays, the levels of the α and β splice forms were altered, and the expression and H2Bub levels were reduced. In the mutant, the delay in flowering time was correlated with an enhanced expression, possibly due to an increased distal versus proximal ratio of its antisense transcript. Together with transcriptomic and double-mutant analyses, our data revealed that the HUB1 interaction with SPEN3 links H2Bub during transcript elongation with pre-mRNA processing at Furthermore, the presence of an intact HUB1 at the is required for SPEN3 function in the formation of the -derived antisense transcripts.
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| http://www.ncbi.nlm.nih.gov/pmc/articles/PMC6475378 | PMC |
| http://dx.doi.org/10.1073/pnas.1806541116 | DOI Listing |
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