A Companion Cell–Dominant and Developmentally Regulated H3K4 Demethylase Controls Flowering Time in Arabidopsis via the Repression of FLC Expression

Flowering time relies on the integration of intrinsic developmental cues and environmental signals. FLC and its downstream target FT are key players in the floral transition in Arabidopsis. Here, we characterized the expression pattern and function of JMJ18, a novel JmjC domain-containing histone H3...

Descripción completa

Detalles Bibliográficos
Autores principales: Yang, Hongchun, Han, Zhifu, Cao, Ying, Fan, Di, Li, Hong, Mo, Huixian, Feng, Yi, Liu, Lei, Wang, Zheng, Yue, Yanling, Cui, Sujuan, Chen, She, Chai, Jijie, Ma, Ligeng
Formato: Online Artículo Texto
Lenguaje:English
Publicado: Public Library of Science 2012
Materias:
Research Article
Acceso en línea:https://www.ncbi.nlm.nih.gov/pmc/articles/PMC3334889/
https://www.ncbi.nlm.nih.gov/pubmed/22536163
http://dx.doi.org/10.1371/journal.pgen.1002664
_version_ 1782230699687804928
author Yang, Hongchun
Han, Zhifu
Cao, Ying
Fan, Di
Li, Hong
Mo, Huixian
Feng, Yi
Liu, Lei
Wang, Zheng
Yue, Yanling
Cui, Sujuan
Chen, She
Chai, Jijie
Ma, Ligeng
author_facet Yang, Hongchun
Han, Zhifu
Cao, Ying
Fan, Di
Li, Hong
Mo, Huixian
Feng, Yi
Liu, Lei
Wang, Zheng
Yue, Yanling
Cui, Sujuan
Chen, She
Chai, Jijie
Ma, Ligeng
author_sort Yang, Hongchun
collection PubMed
description Flowering time relies on the integration of intrinsic developmental cues and environmental signals. FLC and its downstream target FT are key players in the floral transition in Arabidopsis. Here, we characterized the expression pattern and function of JMJ18, a novel JmjC domain-containing histone H3K4 demethylase gene in Arabidopsis. JMJ18 was dominantly expressed in companion cells; its temporal expression pattern was negatively and positively correlated with that of FLC and FT, respectively, during vegetative development. Mutations in JMJ18 resulted in a weak late-flowering phenotype, while JMJ18 overexpressors exhibited an obvious early-flowering phenotype. JMJ18 displayed demethylase activity toward H3K4me3 and H3K4me2, and bound FLC chromatin directly. The levels of H3K4me3 and H3K4me2 in chromatins of FLC clade genes and the expression of FLC clade genes were reduced, whereas FT expression was induced and the protein expression of FT increased in JMJ18 overexpressor lines. The early-flowering phenotype caused by the overexpression of JMJ18 was mainly dependent on the functional FT. Our findings suggest that the companion cell–dominant and developmentally regulated JMJ18 binds directly to the FLC locus, reducing the level of H3K4 methylation in FLC chromatin and repressing the expression of FLC, thereby promoting the expression of FT in companion cells to stimulate flowering.
format Online
Article
Text
id pubmed-3334889
institution National Center for Biotechnology Information
language English
publishDate 2012
publisher Public Library of Science
record_format MEDLINE/PubMed
spelling pubmed-33348892012-04-25 A Companion Cell–Dominant and Developmentally Regulated H3K4 Demethylase Controls Flowering Time in Arabidopsis via the Repression of FLC Expression Yang, Hongchun Han, Zhifu Cao, Ying Fan, Di Li, Hong Mo, Huixian Feng, Yi Liu, Lei Wang, Zheng Yue, Yanling Cui, Sujuan Chen, She Chai, Jijie Ma, Ligeng PLoS Genet Research Article Flowering time relies on the integration of intrinsic developmental cues and environmental signals. FLC and its downstream target FT are key players in the floral transition in Arabidopsis. Here, we characterized the expression pattern and function of JMJ18, a novel JmjC domain-containing histone H3K4 demethylase gene in Arabidopsis. JMJ18 was dominantly expressed in companion cells; its temporal expression pattern was negatively and positively correlated with that of FLC and FT, respectively, during vegetative development. Mutations in JMJ18 resulted in a weak late-flowering phenotype, while JMJ18 overexpressors exhibited an obvious early-flowering phenotype. JMJ18 displayed demethylase activity toward H3K4me3 and H3K4me2, and bound FLC chromatin directly. The levels of H3K4me3 and H3K4me2 in chromatins of FLC clade genes and the expression of FLC clade genes were reduced, whereas FT expression was induced and the protein expression of FT increased in JMJ18 overexpressor lines. The early-flowering phenotype caused by the overexpression of JMJ18 was mainly dependent on the functional FT. Our findings suggest that the companion cell–dominant and developmentally regulated JMJ18 binds directly to the FLC locus, reducing the level of H3K4 methylation in FLC chromatin and repressing the expression of FLC, thereby promoting the expression of FT in companion cells to stimulate flowering. Public Library of Science 2012-04-19 /pmc/articles/PMC3334889/ /pubmed/22536163 http://dx.doi.org/10.1371/journal.pgen.1002664 Text en Yang et al. http://creativecommons.org/licenses/by/4.0/ This is an open-access article distributed under the terms of the Creative Commons Attribution License, which permits unrestricted use, distribution, and reproduction in any medium, provided the original author and source are properly credited.
spellingShingle Research Article
Yang, Hongchun
Han, Zhifu
Cao, Ying
Fan, Di
Li, Hong
Mo, Huixian
Feng, Yi
Liu, Lei
Wang, Zheng
Yue, Yanling
Cui, Sujuan
Chen, She
Chai, Jijie
Ma, Ligeng
A Companion Cell–Dominant and Developmentally Regulated H3K4 Demethylase Controls Flowering Time in Arabidopsis via the Repression of FLC Expression
title A Companion Cell–Dominant and Developmentally Regulated H3K4 Demethylase Controls Flowering Time in Arabidopsis via the Repression of FLC Expression
title_full A Companion Cell–Dominant and Developmentally Regulated H3K4 Demethylase Controls Flowering Time in Arabidopsis via the Repression of FLC Expression
title_fullStr A Companion Cell–Dominant and Developmentally Regulated H3K4 Demethylase Controls Flowering Time in Arabidopsis via the Repression of FLC Expression
title_full_unstemmed A Companion Cell–Dominant and Developmentally Regulated H3K4 Demethylase Controls Flowering Time in Arabidopsis via the Repression of FLC Expression
title_short A Companion Cell–Dominant and Developmentally Regulated H3K4 Demethylase Controls Flowering Time in Arabidopsis via the Repression of FLC Expression
title_sort companion cell–dominant and developmentally regulated h3k4 demethylase controls flowering time in arabidopsis via the repression of flc expression
topic Research Article
url https://www.ncbi.nlm.nih.gov/pmc/articles/PMC3334889/
https://www.ncbi.nlm.nih.gov/pubmed/22536163
http://dx.doi.org/10.1371/journal.pgen.1002664
work_keys_str_mv AT yanghongchun acompanioncelldominantanddevelopmentallyregulatedh3k4demethylasecontrolsfloweringtimeinarabidopsisviatherepressionofflcexpression
AT hanzhifu acompanioncelldominantanddevelopmentallyregulatedh3k4demethylasecontrolsfloweringtimeinarabidopsisviatherepressionofflcexpression
AT caoying acompanioncelldominantanddevelopmentallyregulatedh3k4demethylasecontrolsfloweringtimeinarabidopsisviatherepressionofflcexpression
AT fandi acompanioncelldominantanddevelopmentallyregulatedh3k4demethylasecontrolsfloweringtimeinarabidopsisviatherepressionofflcexpression
AT lihong acompanioncelldominantanddevelopmentallyregulatedh3k4demethylasecontrolsfloweringtimeinarabidopsisviatherepressionofflcexpression
AT mohuixian acompanioncelldominantanddevelopmentallyregulatedh3k4demethylasecontrolsfloweringtimeinarabidopsisviatherepressionofflcexpression
AT fengyi acompanioncelldominantanddevelopmentallyregulatedh3k4demethylasecontrolsfloweringtimeinarabidopsisviatherepressionofflcexpression
AT liulei acompanioncelldominantanddevelopmentallyregulatedh3k4demethylasecontrolsfloweringtimeinarabidopsisviatherepressionofflcexpression
AT wangzheng acompanioncelldominantanddevelopmentallyregulatedh3k4demethylasecontrolsfloweringtimeinarabidopsisviatherepressionofflcexpression
AT yueyanling acompanioncelldominantanddevelopmentallyregulatedh3k4demethylasecontrolsfloweringtimeinarabidopsisviatherepressionofflcexpression
AT cuisujuan acompanioncelldominantanddevelopmentallyregulatedh3k4demethylasecontrolsfloweringtimeinarabidopsisviatherepressionofflcexpression
AT chenshe acompanioncelldominantanddevelopmentallyregulatedh3k4demethylasecontrolsfloweringtimeinarabidopsisviatherepressionofflcexpression
AT chaijijie acompanioncelldominantanddevelopmentallyregulatedh3k4demethylasecontrolsfloweringtimeinarabidopsisviatherepressionofflcexpression
AT maligeng acompanioncelldominantanddevelopmentallyregulatedh3k4demethylasecontrolsfloweringtimeinarabidopsisviatherepressionofflcexpression
AT yanghongchun companioncelldominantanddevelopmentallyregulatedh3k4demethylasecontrolsfloweringtimeinarabidopsisviatherepressionofflcexpression
AT hanzhifu companioncelldominantanddevelopmentallyregulatedh3k4demethylasecontrolsfloweringtimeinarabidopsisviatherepressionofflcexpression
AT caoying companioncelldominantanddevelopmentallyregulatedh3k4demethylasecontrolsfloweringtimeinarabidopsisviatherepressionofflcexpression
AT fandi companioncelldominantanddevelopmentallyregulatedh3k4demethylasecontrolsfloweringtimeinarabidopsisviatherepressionofflcexpression
AT lihong companioncelldominantanddevelopmentallyregulatedh3k4demethylasecontrolsfloweringtimeinarabidopsisviatherepressionofflcexpression
AT mohuixian companioncelldominantanddevelopmentallyregulatedh3k4demethylasecontrolsfloweringtimeinarabidopsisviatherepressionofflcexpression
AT fengyi companioncelldominantanddevelopmentallyregulatedh3k4demethylasecontrolsfloweringtimeinarabidopsisviatherepressionofflcexpression
AT liulei companioncelldominantanddevelopmentallyregulatedh3k4demethylasecontrolsfloweringtimeinarabidopsisviatherepressionofflcexpression
AT wangzheng companioncelldominantanddevelopmentallyregulatedh3k4demethylasecontrolsfloweringtimeinarabidopsisviatherepressionofflcexpression
AT yueyanling companioncelldominantanddevelopmentallyregulatedh3k4demethylasecontrolsfloweringtimeinarabidopsisviatherepressionofflcexpression
AT cuisujuan companioncelldominantanddevelopmentallyregulatedh3k4demethylasecontrolsfloweringtimeinarabidopsisviatherepressionofflcexpression
AT chenshe companioncelldominantanddevelopmentallyregulatedh3k4demethylasecontrolsfloweringtimeinarabidopsisviatherepressionofflcexpression
AT chaijijie companioncelldominantanddevelopmentallyregulatedh3k4demethylasecontrolsfloweringtimeinarabidopsisviatherepressionofflcexpression
AT maligeng companioncelldominantanddevelopmentallyregulatedh3k4demethylasecontrolsfloweringtimeinarabidopsisviatherepressionofflcexpression

Ejemplares similares