Conditional effects of the epigenetic regulator JUMONJI 14 in Arabidopsis root growth. Cattaneo, P., Graeff, M., Marhava, P., & Hardtke, C. S. Development, 146(23):dev183905, December, 2019.
Conditional effects of the epigenetic regulator JUMONJI 14 in Arabidopsis root growth [link]Paper  doi  abstract   bibtex   
Methylation of lysine 4 in histone 3 (H3K4) is a post-translational modification that promotes gene expression. H3K4 methylation can be reversed by specific demethylases with an enzymatic Jumonji C domain. In Arabidopsis thaliana, H3K4-specific JUMONJI (JMJ) proteins distinguish themselves by the association with an F/Y-rich (FYR) domain. Here, we report that jmj14 mutations partially suppress reduced root meristem size and growth vigor of brevis radix (brx) mutants. Similar to its close homologs, JMJ15, JMJ16 and JMJ18, the JMJ14 promoter confers expression in mature root vasculature. Yet, unlike jmj14, neither jmj16 nor jmj18 mutation markedly suppresses brx phenotypes. Domain-swapping experiments suggest that the specificity of JMJ14 function resides in the FYR domain. Despite JMJ14 promoter activity in the mature vasculature, jmj14 mutation affects root meristem size. However, JMJ14 protein is observed throughout the meristem, suggesting that the JMJ14 transcript region contributes substantially to the spatial aspect of JMJ14 expression. In summary, our data reveal a role for JMJ14 in root growth in sensitized genetic backgrounds that depends on its FYR domain and regulatory input from the JMJ14 cistron.
@article{cattaneo_conditional_2019,
	title = {Conditional effects of the epigenetic regulator {JUMONJI} 14 in {Arabidopsis} root growth},
	volume = {146},
	issn = {0950-1991},
	url = {https://doi.org/10.1242/dev.183905},
	doi = {10.1242/dev.183905},
	abstract = {Methylation of lysine 4 in histone 3 (H3K4) is a post-translational modification that promotes gene expression. H3K4 methylation can be reversed by specific demethylases with an enzymatic Jumonji C domain. In Arabidopsis thaliana, H3K4-specific JUMONJI (JMJ) proteins distinguish themselves by the association with an F/Y-rich (FYR) domain. Here, we report that jmj14 mutations partially suppress reduced root meristem size and growth vigor of brevis radix (brx) mutants. Similar to its close homologs, JMJ15, JMJ16 and JMJ18, the JMJ14 promoter confers expression in mature root vasculature. Yet, unlike jmj14, neither jmj16 nor jmj18 mutation markedly suppresses brx phenotypes. Domain-swapping experiments suggest that the specificity of JMJ14 function resides in the FYR domain. Despite JMJ14 promoter activity in the mature vasculature, jmj14 mutation affects root meristem size. However, JMJ14 protein is observed throughout the meristem, suggesting that the JMJ14 transcript region contributes substantially to the spatial aspect of JMJ14 expression. In summary, our data reveal a role for JMJ14 in root growth in sensitized genetic backgrounds that depends on its FYR domain and regulatory input from the JMJ14 cistron.},
	number = {23},
	urldate = {2022-05-02},
	journal = {Development},
	author = {Cattaneo, Pietro and Graeff, Moritz and Marhava, Petra and Hardtke, Christian S.},
	month = dec,
	year = {2019},
	pages = {dev183905},
}
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