SemOpenAlex |

SemOpenAlex

Matches in SemOpenAlex for { <https://semopenalex.org/work/W2907573216> ?p ?o ?g. }

Showing items 1 to 100 of ±154 with 100 items per page.

W2907573216 endingPage "51" @default.
W2907573216 startingPage "37" @default.
W2907573216 abstract "In plants, seasonal inputs such as photoperiod and temperature modulate the plant’s internal genetic program to regulate the timing of the developmental transition from vegetative to reproductive growth. This regulation of the floral transition involves chromatin remodeling, including covalent modification of histones. Here, we report that HIGH EXPRESSION OF OSMOTICALLY RESPONSIVE GENE 15 (HOS15), a WD40 repeat protein, associates with a histone deacetylase complex to repress transcription of the GIGANTEA (GI)-mediated photoperiodic flowering pathway in Arabidopsis (Arabidopsis thaliana). Loss of function of HOS15 confers early flowering under long-day conditions because elevated GI expression. LUX ARRHYTHMO (LUX), a DNA binding transcription factor and component of the Evening Complex (EC), is important for the binding of HOS15 to the GI promoter. In wild type, HOS15 associates with the EC components LUX, EARLY FLOWERING 3 (ELF3), and ELF4 and the histone deacetylase HDA9 at the GI promoter, resulting in histone deacetylation and reduced GI expression. In the hos15-2 mutant, the levels of histone acetylation are elevated at the GI promoter, resulting in increased GI expression. Our data suggest that the HOS15–EC–HDA9 histone-modifying complex regulates photoperiodic flowering via the transcriptional repression of GI." @default.
W2907573216 created "2019-01-11" @default.
W2907573216 creator A5002819680 @default.
W2907573216 creator A5026717649 @default.
W2907573216 creator A5041051764 @default.
W2907573216 creator A5051335255 @default.
W2907573216 creator A5052649021 @default.
W2907573216 creator A5077038657 @default.
W2907573216 creator A5077105281 @default.
W2907573216 creator A5083671453 @default.
W2907573216 creator A5087311125 @default.
W2907573216 date "2019-01-01" @default.
W2907573216 modified "2023-10-15" @default.
W2907573216 title "HOS15 Interacts with the Histone Deacetylase HDA9 and the Evening Complex to Epigenetically Regulate the Floral Activator <i>GIGANTEA</i>" @default.
W2907573216 cites W1586207706 @default.
W2907573216 cites W1721627070 @default.
W2907573216 cites W1945516621 @default.
W2907573216 cites W1965815273 @default.
W2907573216 cites W1967008937 @default.
W2907573216 cites W1969097053 @default.
W2907573216 cites W1969149846 @default.
W2907573216 cites W1972896270 @default.
W2907573216 cites W1978957247 @default.
W2907573216 cites W1980418450 @default.
W2907573216 cites W1983289412 @default.
W2907573216 cites W1985600167 @default.
W2907573216 cites W1993862105 @default.
W2907573216 cites W1995815904 @default.
W2907573216 cites W1997747909 @default.
W2907573216 cites W2002557067 @default.
W2907573216 cites W2004487815 @default.
W2907573216 cites W2006324678 @default.
W2907573216 cites W2007897769 @default.
W2907573216 cites W2010897775 @default.
W2907573216 cites W2019072238 @default.
W2907573216 cites W2024257093 @default.
W2907573216 cites W2030132680 @default.
W2907573216 cites W2033295584 @default.
W2907573216 cites W2036028864 @default.
W2907573216 cites W2044895168 @default.
W2907573216 cites W2046971770 @default.
W2907573216 cites W2047858731 @default.
W2907573216 cites W2053682208 @default.
W2907573216 cites W2057294415 @default.
W2907573216 cites W2061403715 @default.
W2907573216 cites W2071903046 @default.
W2907573216 cites W2079416395 @default.
W2907573216 cites W2093762216 @default.
W2907573216 cites W2094112540 @default.
W2907573216 cites W2096173343 @default.
W2907573216 cites W2099322584 @default.
W2907573216 cites W2100768173 @default.
W2907573216 cites W2103883828 @default.
W2907573216 cites W2104574963 @default.
W2907573216 cites W2108137105 @default.
W2907573216 cites W2117301946 @default.
W2907573216 cites W2120570104 @default.
W2907573216 cites W2125528087 @default.
W2907573216 cites W2135518907 @default.
W2907573216 cites W2139454454 @default.
W2907573216 cites W2140019714 @default.
W2907573216 cites W2140688829 @default.
W2907573216 cites W2144885812 @default.
W2907573216 cites W2146183734 @default.
W2907573216 cites W2149402795 @default.
W2907573216 cites W2152239989 @default.
W2907573216 cites W2159181072 @default.
W2907573216 cites W2160061988 @default.
W2907573216 cites W2162607489 @default.
W2907573216 cites W2166202788 @default.
W2907573216 cites W2166639411 @default.
W2907573216 cites W2167657290 @default.
W2907573216 cites W2183656084 @default.
W2907573216 cites W2227226154 @default.
W2907573216 cites W2508663626 @default.
W2907573216 cites W2554831526 @default.
W2907573216 cites W2560227945 @default.
W2907573216 cites W2594133253 @default.
W2907573216 cites W2683702698 @default.
W2907573216 cites W2802463455 @default.
W2907573216 cites W2803811225 @default.
W2907573216 cites W4255174589 @default.
W2907573216 doi "https://doi.org/10.1105/tpc.18.00721" @default.
W2907573216 hasPubMedCentralId "https://www.ncbi.nlm.nih.gov/pmc/articles/6391688" @default.
W2907573216 hasPubMedId "https://pubmed.ncbi.nlm.nih.gov/30606777" @default.
W2907573216 hasPublicationYear "2019" @default.
W2907573216 type Work @default.
W2907573216 sameAs 2907573216 @default.
W2907573216 citedByCount "59" @default.
W2907573216 countsByYear W29075732162019 @default.
W2907573216 countsByYear W29075732162020 @default.
W2907573216 countsByYear W29075732162021 @default.
W2907573216 countsByYear W29075732162022 @default.
W2907573216 countsByYear W29075732162023 @default.
W2907573216 crossrefType "journal-article" @default.
W2907573216 hasAuthorship W2907573216A5002819680 @default.
W2907573216 hasAuthorship W2907573216A5026717649 @default.
W2907573216 hasAuthorship W2907573216A5041051764 @default.