NAC1 Maintains Root Meristem Activity by Repressing the Transcription of <i<E2Fa</i< in <i<Arabidopsis</i<

Root meristem is a reserve of undifferentiated cells which guide root development. To maintain root meristem identity and therefore continuous root growth, the rate of cell differentiation must coordinate with the rate of generation of new cells. The <i<E2 promoter-binding factor a</i< (...
Ausführliche Beschreibung

Gespeichert in:

Autor*in:	Chuantian Xie [verfasserIn] Zhaojun Ding [verfasserIn]

Format:	E-Artikel
Sprache:	Englisch

Erschienen:	2022

Schlagwörter:	root meristem NAC1 E2Fa endoreduplication

Übergeordnetes Werk:	In: International Journal of Molecular Sciences - MDPI AG, 2003, 23(2022), 20, p 12258
Übergeordnetes Werk:	volume:23 ; year:2022 ; number:20, p 12258

Links:	Link aufrufen Link aufrufen Link aufrufen Journal toc Journal toc

DOI / URN:	10.3390/ijms232012258

Katalog-ID:	DOAJ020928653

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callnumber-first	Q - Science
author	Chuantian Xie
spellingShingle	Chuantian Xie misc QH301-705.5 misc QD1-999 misc root misc meristem misc NAC1 misc E2Fa misc endoreduplication misc Biology (General) misc Chemistry NAC1 Maintains Root Meristem Activity by Repressing the Transcription of <i<E2Fa</i< in <i<Arabidopsis</i<
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topic_title	QH301-705.5 QD1-999 NAC1 Maintains Root Meristem Activity by Repressing the Transcription of <i<E2Fa</i< in <i<Arabidopsis</i< root meristem NAC1 E2Fa endoreduplication
topic	misc QH301-705.5 misc QD1-999 misc root misc meristem misc NAC1 misc E2Fa misc endoreduplication misc Biology (General) misc Chemistry
topic_unstemmed	misc QH301-705.5 misc QD1-999 misc root misc meristem misc NAC1 misc E2Fa misc endoreduplication misc Biology (General) misc Chemistry
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title	NAC1 Maintains Root Meristem Activity by Repressing the Transcription of <i<E2Fa</i< in <i<Arabidopsis</i<
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title_full	NAC1 Maintains Root Meristem Activity by Repressing the Transcription of <i<E2Fa</i< in <i<Arabidopsis</i<
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title_sort	nac1 maintains root meristem activity by repressing the transcription of <i<e2fa</i< in <i<arabidopsis</i<
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title_auth	NAC1 Maintains Root Meristem Activity by Repressing the Transcription of <i<E2Fa</i< in <i<Arabidopsis</i<
abstract	Root meristem is a reserve of undifferentiated cells which guide root development. To maintain root meristem identity and therefore continuous root growth, the rate of cell differentiation must coordinate with the rate of generation of new cells. The <i<E2 promoter-binding factor a</i< (<i<E2Fa</i<) has been shown to regulate root growth through controlling G1/S cell cycle transitions in <i<Arabidopsis thaliana</i<. Here, we found that NAC1, a member of the NAM/ATAF/CUC family of transcription factors, regulated root growth by directly repressing the transcription of <i<E2Fa</i<. Loss of <i<NAC1</i< triggers an up-regulation of the <i<E2Fa</i< expression and causes a reduced meristem size and short-root phenotype, which are largely rescued by mutation of <i<E2Fa</i<. Further analysis showed that NAC1 was shown to regulate root meristem by controlling endopolyploidy levels in an E2Fa-dependent manner. This study provides evidence to show that NAC1 maintains root meristem size and root growth by directly repressing the transcription of <i<E2Fa</i< in <i<Arabidopsis</i<.
abstractGer	Root meristem is a reserve of undifferentiated cells which guide root development. To maintain root meristem identity and therefore continuous root growth, the rate of cell differentiation must coordinate with the rate of generation of new cells. The <i<E2 promoter-binding factor a</i< (<i<E2Fa</i<) has been shown to regulate root growth through controlling G1/S cell cycle transitions in <i<Arabidopsis thaliana</i<. Here, we found that NAC1, a member of the NAM/ATAF/CUC family of transcription factors, regulated root growth by directly repressing the transcription of <i<E2Fa</i<. Loss of <i<NAC1</i< triggers an up-regulation of the <i<E2Fa</i< expression and causes a reduced meristem size and short-root phenotype, which are largely rescued by mutation of <i<E2Fa</i<. Further analysis showed that NAC1 was shown to regulate root meristem by controlling endopolyploidy levels in an E2Fa-dependent manner. This study provides evidence to show that NAC1 maintains root meristem size and root growth by directly repressing the transcription of <i<E2Fa</i< in <i<Arabidopsis</i<.
abstract_unstemmed	Root meristem is a reserve of undifferentiated cells which guide root development. To maintain root meristem identity and therefore continuous root growth, the rate of cell differentiation must coordinate with the rate of generation of new cells. The <i<E2 promoter-binding factor a</i< (<i<E2Fa</i<) has been shown to regulate root growth through controlling G1/S cell cycle transitions in <i<Arabidopsis thaliana</i<. Here, we found that NAC1, a member of the NAM/ATAF/CUC family of transcription factors, regulated root growth by directly repressing the transcription of <i<E2Fa</i<. Loss of <i<NAC1</i< triggers an up-regulation of the <i<E2Fa</i< expression and causes a reduced meristem size and short-root phenotype, which are largely rescued by mutation of <i<E2Fa</i<. Further analysis showed that NAC1 was shown to regulate root meristem by controlling endopolyploidy levels in an E2Fa-dependent manner. This study provides evidence to show that NAC1 maintains root meristem size and root growth by directly repressing the transcription of <i<E2Fa</i< in <i<Arabidopsis</i<.
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title_short	NAC1 Maintains Root Meristem Activity by Repressing the Transcription of <i<E2Fa</i< in <i<Arabidopsis</i<
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up_date	2024-07-03T17:50:55.947Z
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NAC1 Maintains Root Meristem Activity by Repressing the Transcription of <i<E2Fa</i< in <i<Arabidopsis</i<

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