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Histone acetylation is directly related to gene expression. In yeast, the acetyltransferase general control nonderepressible-5 (GCN5) targets histone H3 and associates with transcriptional co-activators alteration/deficiency in activation-2 (ADA2) and alteration/deficiency in activation-3 (ADA3) in complexes like SAGA. Arabidopsis thaliana has two genes encoding proteins, designated ADA3a and ADA3b, that correspond to yeast ADA3. We investigated the role of ADA3a and ADA3b in regulating gene expression during flowering time. Specifically, we found that knock out mutants ada3a-2 and the double mutant ada3a-2 ada3b-2 lead to early flowering compared to the wild type plants under long day (LD) conditions and after moving plants from short days to LD. Consistent with ADA3a being a repressor of floral initiation, FLOWERING LOCUS T (FT) expression was increased in ada3a mutants. In contrast, other genes involved in multiple pathways leading to floral transition, including FT repressors, players in GA signaling, and members of the SPL transcriptional factors, displayed reduced expression. Chromatin immunoprecipitation analysis revealed that ADA3a affects the histone H3K14 acetylation levels in SPL3, SPL5, RGA, GAI, and SMZ loci. In conclusion, ADA3a is involved in floral induction through a GCN5-containing complex that acetylates histone H3 in the chromatin of flowering related genes.
Stylianos Poulios; Despoina Dadarou; Maxim Gavriilidis; Niki Mougiou; Nestoras Kargios; Vasileia Maliori; Amy Hark; John Doonan; Konstantinos Vlachonasios. The Transcriptional Adaptor Protein ADA3a Modulates Flowering of Arabidopsis thaliana. Cells 2021, 10, 904 .
AMA StyleStylianos Poulios, Despoina Dadarou, Maxim Gavriilidis, Niki Mougiou, Nestoras Kargios, Vasileia Maliori, Amy Hark, John Doonan, Konstantinos Vlachonasios. The Transcriptional Adaptor Protein ADA3a Modulates Flowering of Arabidopsis thaliana. Cells. 2021; 10 (4):904.
Chicago/Turabian StyleStylianos Poulios; Despoina Dadarou; Maxim Gavriilidis; Niki Mougiou; Nestoras Kargios; Vasileia Maliori; Amy Hark; John Doonan; Konstantinos Vlachonasios. 2021. "The Transcriptional Adaptor Protein ADA3a Modulates Flowering of Arabidopsis thaliana." Cells 10, no. 4: 904.
Transcription of protein-encoding genes starts with forming a pre-initiation complex comprised of RNA polymerase II and several general transcription factors. To activate gene expression, transcription factors must overcome repressive chromatin structure, which is accomplished with multiprotein complexes. One such complex, SAGA, modifies the nucleosomal histones through acetylation and other histone modifications. A prototypical histone acetyltransferase (HAT) known as general control non-repressed protein 5 (GCN5), was defined biochemically as the first transcription-linked HAT with specificity for histone H3 lysine 14. In this review, we analyze the components of the putative plant SAGA complex during plant evolution, and current knowledge on the biological role of the key components of the HAT module, GCN5 and ADA2b in plants, will be summarized.
Konstantinos Vlachonasios; Stylianos Poulios; Niki Mougiou. The Histone Acetyltransferase GCN5 and the Associated Coactivators ADA2: From Evolution of the SAGA Complex to the Biological Roles in Plants. Plants 2021, 10, 308 .
AMA StyleKonstantinos Vlachonasios, Stylianos Poulios, Niki Mougiou. The Histone Acetyltransferase GCN5 and the Associated Coactivators ADA2: From Evolution of the SAGA Complex to the Biological Roles in Plants. Plants. 2021; 10 (2):308.
Chicago/Turabian StyleKonstantinos Vlachonasios; Stylianos Poulios; Niki Mougiou. 2021. "The Histone Acetyltransferase GCN5 and the Associated Coactivators ADA2: From Evolution of the SAGA Complex to the Biological Roles in Plants." Plants 10, no. 2: 308.
Olive tree growth and reproduction are severely affected by temperature extremes, compromising fruit yield. In that aspect, the olive varieties “Koroneiki” and “Mastoidis” were employed in a mild cold stress experiment, imitating night frost incidents to assess their biochemical, physiological and reproductive functions in relation to genotype. The physiological performance of the stressed plants was not significantly altered, suggesting that both cultivars were well adapted to mild cold night stress. The biochemical response of the plants, regarding antioxidant enzymes, H2O2 and TBARS accumulation, confirmed that both cultivars could cope with the stress applied. The mRNA levels of the PPO gene, which participates in hydroxytyrosol biosynthesis and plant defense, were elevated after 24-h stress at 0 °C, in both cultivars with “Mastoidis” plants exhibiting higher levels for a longer period. Three more genes involved in hydroxytyrosol biosynthesis upregulated their expression levels as a response to cold stress. The numerous plant phenology aspects measured reinforced the conclusion that both cultivars responded to the stress applied. The results of the present study may contribute to better understanding olive tree adaptive responses to low temperature events, an abiotic stress condition that is often present in an open plantation, thus assisting farmers on breeding and cultivar selection.
Niki Mougiou; Boushra Baalbaki; Georgios Doupis; Nektarios Kavroulakis; Stylianos Poulios; Konstantinos Vlachonasios; Georgios Koubouris. The Effect of Low Temperature on Physiological, Biochemical and Flowering Functions of Olive Tree in Relation to Genotype. Sustainability 2020, 12, 10065 .
AMA StyleNiki Mougiou, Boushra Baalbaki, Georgios Doupis, Nektarios Kavroulakis, Stylianos Poulios, Konstantinos Vlachonasios, Georgios Koubouris. The Effect of Low Temperature on Physiological, Biochemical and Flowering Functions of Olive Tree in Relation to Genotype. Sustainability. 2020; 12 (23):10065.
Chicago/Turabian StyleNiki Mougiou; Boushra Baalbaki; Georgios Doupis; Nektarios Kavroulakis; Stylianos Poulios; Konstantinos Vlachonasios; Georgios Koubouris. 2020. "The Effect of Low Temperature on Physiological, Biochemical and Flowering Functions of Olive Tree in Relation to Genotype." Sustainability 12, no. 23: 10065.