Disruption of the histone acetyltransferase GCN5 and the transcriptional coactivator ADA2b affect trichome density in Arabidopsis thaliana

GCN5 is a histone acetyltransferase that is well-conserved in eukaryotic species and has been shown to play roles in global histone modification and gene expression. The transcriptional coactivator ADA2 works with GCN5 and other regulators in these processes (Candau et al. 1997; Grant et al. 1997);...

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Hauptverfasser:	Kotak, Jenna, Kendig, Ashley, Cann, Kelly, Shaffer, Joshua, Hark, Amy T, McCain, Elizabeth R
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creator	Kotak, Jenna Kendig, Ashley Cann, Kelly Shaffer, Joshua Hark, Amy T McCain, Elizabeth R
description	GCN5 is a histone acetyltransferase that is well-conserved in eukaryotic species and has been shown to play roles in global histone modification and gene expression. The transcriptional coactivator ADA2 works with GCN5 and other regulators in these processes (Candau et al. 1997; Grant et al. 1997); in Arabidopsis thaliana the functional paralog is referred to as ADA2b (Hark et al. 2009). Pleiotropic phenotypes of plants with T-DNA insertions at these loci were first reported fifteen years ago (Vlachonasios et al. 2003; Bertrand et al. 2003). Since then, we and others have sought to understand the roles of GCN5 and ADA2b in specific developmental pathways. We recently reported that rosette leaf trichomes display altered ploidy and branching morphology in gcn5 and ada2b mutants (Kotak et al. 2018). This suggests that these chromatin factors impact later steps in trichome morphogenesis (Hulskamp 2004). The data reported here suggest that GCN5 and ADA2b also affect trichome initiation. Using scanning electron microscopy to visualize trichomes on rosette leaves (Fig. 1A), we determined that the number of trichomes on the first true leaf is increased in ada2b-1 as well as gcn5 mutant backgrounds (Fig. 1B). On the second rosette leaf, a similar effect was seen in plants homozygous for the hypomorphic gcn5-1 allele while in gcn5-6 where the catalytic domain of GCN5 is disrupted, there was no distinguishable difference in trichome number (Fig. 1B). When looking at the second rosette leaf in ada2b-1 plants, trichome number was increased in the mutant background. However, counting total number of trichomes does not take into account leaf size. In cases in which we did not detect an obvious increase in total number of trichomes, there is a significant increase in trichome density (Fig. 1C).
doi_str_mv	10.17912/micropub.biology.000174
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The transcriptional coactivator ADA2 works with GCN5 and other regulators in these processes (Candau et al. 1997; Grant et al. 1997); in Arabidopsis thaliana the functional paralog is referred to as ADA2b (Hark et al. 2009). Pleiotropic phenotypes of plants with T-DNA insertions at these loci were first reported fifteen years ago (Vlachonasios et al. 2003; Bertrand et al. 2003). Since then, we and others have sought to understand the roles of GCN5 and ADA2b in specific developmental pathways. We recently reported that rosette leaf trichomes display altered ploidy and branching morphology in gcn5 and ada2b mutants (Kotak et al. 2018). This suggests that these chromatin factors impact later steps in trichome morphogenesis (Hulskamp 2004). The data reported here suggest that GCN5 and ADA2b also affect trichome initiation. Using scanning electron microscopy to visualize trichomes on rosette leaves (Fig. 1A), we determined that the number of trichomes on the first true leaf is increased in ada2b-1 as well as gcn5 mutant backgrounds (Fig. 1B). On the second rosette leaf, a similar effect was seen in plants homozygous for the hypomorphic gcn5-1 allele while in gcn5-6 where the catalytic domain of GCN5 is disrupted, there was no distinguishable difference in trichome number (Fig. 1B). When looking at the second rosette leaf in ada2b-1 plants, trichome number was increased in the mutant background. However, counting total number of trichomes does not take into account leaf size. 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Using scanning electron microscopy to visualize trichomes on rosette leaves (Fig. 1A), we determined that the number of trichomes on the first true leaf is increased in ada2b-1 as well as gcn5 mutant backgrounds (Fig. 1B). On the second rosette leaf, a similar effect was seen in plants homozygous for the hypomorphic gcn5-1 allele while in gcn5-6 where the catalytic domain of GCN5 is disrupted, there was no distinguishable difference in trichome number (Fig. 1B). When looking at the second rosette leaf in ada2b-1 plants, trichome number was increased in the mutant background. However, counting total number of trichomes does not take into account leaf size. 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Using scanning electron microscopy to visualize trichomes on rosette leaves (Fig. 1A), we determined that the number of trichomes on the first true leaf is increased in ada2b-1 as well as gcn5 mutant backgrounds (Fig. 1B). On the second rosette leaf, a similar effect was seen in plants homozygous for the hypomorphic gcn5-1 allele while in gcn5-6 where the catalytic domain of GCN5 is disrupted, there was no distinguishable difference in trichome number (Fig. 1B). When looking at the second rosette leaf in ada2b-1 plants, trichome number was increased in the mutant background. However, counting total number of trichomes does not take into account leaf size. In cases in which we did not detect an obvious increase in total number of trichomes, there is a significant increase in trichome density (Fig. 1C).</abstract><pub>microPublication Biology</pub><pmid>32550424</pmid><doi>10.17912/micropub.biology.000174</doi><oa>free_for_read</oa></addata></record>
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subjects	New Finding Phenotype Data
title	Disruption of the histone acetyltransferase GCN5 and the transcriptional coactivator ADA2b affect trichome density in Arabidopsis thaliana
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