Joo Yeol Kim scite author profile

These authors contributed equally to this work. SUMMARYCellulose is the most abundant biopolymer on Earth. Three cellulose synthases (CESA4, CESA7 and CESA8) are necessary for cellulose production in the secondary cell walls of Arabidopsis. Little is known about how expression of these CESA genes is regulated. We recently identified a cis-regulatory element (M46RE) that is recognized by MYB46, which is a master switch for secondary wall formation in Arabidopsis. A genome-wide survey of promoter sequences for the presence of M46REs led to the hypothesis that MYB46 may function as a direct regulator of all three secondary wall-associated cellulose synthase genes: CESA4, CESA7 and CESA8. We tested this hypothesis using several lines of experimental evidence. All three CESA genes are highly up-regulated by both constitutive and inducible over-expression of MYB46 in planta. Using a steroid receptor-based inducible activation system, we show that MYB46 directly activates transcription of the three CESA genes. We then used an electrophoretic mobility shift assay and chromatin immunoprecipitation analysis to confirm that MYB46 protein directly binds to the promoters of the three CESA genes both in vitro and in vivo. Furthermore, ectopic up-regulation of MYB46 resulted in a significant increase of crystalline cellulose content in Arabidopsis. Taken together, we have identified MYB46 as a transcription factor that directly regulates all three secondary wall-associated CESA genes. Yeast one-hybrid screening identified additional transcription factors that regulate the CESA genes. However, none of the putative regulators appears to be regulated by MYB46, suggesting the multi-faceted nature of transcriptional regulation of secondary wall cellulose biosynthesis.

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Identification of direct targets of transcription factor MYB46 provides insights into the transcriptional regulation of secondary wall biosynthesis

Kim

et al. 2014

Plant Mol Biol

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Secondary wall formation requires coordinated transcriptional regulation of the genes involved in the biosynthesis of the components of secondary wall. Transcription factor (TF) MYB46 (At5g12870) has been shown to function as a central regulator for secondary wall formation in Arabidopsis thaliana, activating biosynthetic genes as well as the TFs involved in the pathways. Recently, we reported that MYB46 directly regulates secondary wall-associated cellulose synthase (CESA4, CESA7, and CESA8) and a mannan synthase (CSLA9) genes. However, it is not known whether MYB46 directly activates the biosynthetic genes for hemicellulose and lignin, which are the other two major components of secondary wall. Based on the observations that the promoter regions of many of the secondary wall biosynthetic genes contain MYB46-binding cis-regulatory motif(s), we hypothesized that MYB46 directly regulates the genes involved in the biosynthesis of the secondary wall components. In this report, we describe several lines of experimental evidence in support of the hypothesis. Electrophoretic mobility shift assay and chromatin immunoprecipitation analysis showed that MYB46 directly binds to the promoters of 13 genes involved in lignin and xylan biosynthesis. We then used steroid receptor-based inducible activation system to confirm that MYB46 directly activates the transcription of the xylan and lignin biosynthetic genes. Furthermore, ectopic up-regulation of MYB46 resulted in a significant increase in xylose and a small increase in lignin content based on acetyl bromide soluble lignin measurements in Arabidopsis. Taken together, we conclude that MYB46 function as a central and direct regulator of the genes involved in the biosynthesis of all three major secondary wall components.

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AtC3H14, a plant‐specific tandem CCCH zinc‐finger protein, binds to its target mRNAs in a sequence‐specific manner and affects cell elongation in Arabidopsis thaliana

Kim

et al. 2014

The Plant Journal

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SUMMARYAtC3H14 (At1 g66810) is a plant-specific tandem CCCH zinc-finger (TZF) protein that belongs to the 68-member CCCH family in Arabidopsis thaliana. In animals, TZFs have been shown to bind and recruit target mRNAs to the cytoplasmic foci where mRNA decay enzymes are active. However, it is not known whether plant TZF proteins such as AtC3H14 function. So far, no mRNA targets of plant TZFs have been identified. We have obtained several lines of experimental evidence in support of our hypothesis that AtC3H14 is involved in post-transcriptional regulation of its target genes. Nucleic acid binding assays using [ 35 S]-labeled AtC3H14 protein showed that AtC3H14 could bind to ssDNA, dsDNA, and ribohomopolymers, suggesting its RNA-binding activity. RNA immunoprecipitation (RIP) assay identified several putative target RNAs of AtC3H14, including a polygalacturonase, a well-known cell wall modifying gene. RNA electrophoretic mobility shift assays (RNA-EMSA) were used to confirm the RIP results and demonstrate that the TZF domain of AtC3H14 is required for the target RNA binding. Microarray analysis of 35S::AtC3H14 plants revealed that many of the cell wall elongation and/or modification-associated genes were differentially expressed, which is consistent with the cell elongation defect phenotype and the changes in the cell wall monosaccharide composition. In addition, yeast activation assay showed that AtC3H14 also function as a transcriptional activator, which is consistent with the previous finding that AtC3H14 activate the secondary wall biosynthesis genes. Taken together, we conclude that AtC3H14 may play a key role in both transcriptional and post-transcriptional regulation.

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Joo Yeol Kim

MYB46 directly regulates the gene expression of secondary wall‐associated cellulose synthases in Arabidopsis

Identification of direct targets of transcription factor MYB46 provides insights into the transcriptional regulation of secondary wall biosynthesis

AtC3H14, a plant‐specific tandem CCCH zinc‐finger protein, binds to its target mRNAs in a sequence‐specific manner and affects cell elongation in Arabidopsis thaliana

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