Role of chromatin modification and remodeling in stem cell regulation and meristem maintenance in Arabidopsis

Cell- or tissue-specific chromatin modification, remodeling, and long-range chromatin interactions are crucial for regulating genes involved in stem cell activity, meristem maintenance, and development in Arabidopsis. Abstract In higher plants, pluripotent stem cells reside in the specialized microe...

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Published inJournal of experimental botany Vol. 71; no. 3; pp. 778 - 792
Main Authors Singh, Sharmila, Singh, Alka, Singh, Archita, Mahima, Yadav, Sandeep, Bajaj, Ishita, Kumar, Shailendra, Jain, Ajay, Sarkar, Ananda K
Format Journal Article
LanguageEnglish
Published UK Oxford University Press 23.01.2020
Subjects
Arabidopsis - growth & development
Arabidopsis Proteins - metabolism
Chromatin Assembly and Disassembly
Gene Regulatory Networks
Homeodomain Proteins - metabolism
Meristem - physiology
Plant Proteins - metabolism
Stem Cell Niche - physiology
chromatin remodeling
meristem
chromatin modification
Arabidopsis
epigenetic regulation
plant stem cells
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Abstract Cell- or tissue-specific chromatin modification, remodeling, and long-range chromatin interactions are crucial for regulating genes involved in stem cell activity, meristem maintenance, and development in Arabidopsis. Abstract In higher plants, pluripotent stem cells reside in the specialized microenvironment called stem cell niches (SCNs) harbored at the shoot apical meristem (SAM) and root apical meristem (RAM), which give rise to the aerial and underground parts of a plant, respectively. The model plant Arabidopsis thaliana (Arabidopsis) has been extensively studied to decipher the intricate regulatory mechanisms involving some key transcriptions factors and phytohormones that play pivotal roles in stem cell homeostasis, meristem maintenance, and organ formation. However, there is increasing evidence to show the epigenetic regulation of the chromatin architecture, gene expression exerting an influence on an innate balance between the self-renewal of stem cells, and differentiation of the progeny cells to a specific tissue type or organ. Post-translational histone modifications, ATP-dependent chromatin remodeling, and chromatin assembly/disassembly are some of the key features involved in the modulation of chromatin architecture. Here, we discuss the major epigenetic regulators and illustrate their roles in the regulation of stem cell activity, meristem maintenance, and related organ patterning in Arabidopsis.
AbstractList In higher plants, pluripotent stem cells reside in the specialized microenvironment called stem cell niches (SCNs) harbored at the shoot apical meristem (SAM) and root apical meristem (RAM), which give rise to the aerial and underground parts of a plant, respectively. The model plant Arabidopsis thaliana (Arabidopsis) has been extensively studied to decipher the intricate regulatory mechanisms involving some key transcriptions factors and phytohormones that play pivotal roles in stem cell homeostasis, meristem maintenance, and organ formation. However, there is increasing evidence to show the epigenetic regulation of the chromatin architecture, gene expression exerting an influence on an innate balance between the self-renewal of stem cells, and differentiation of the progeny cells to a specific tissue type or organ. Post-translational histone modifications, ATP-dependent chromatin remodeling, and chromatin assembly/disassembly are some of the key features involved in the modulation of chromatin architecture. Here, we discuss the major epigenetic regulators and illustrate their roles in the regulation of stem cell activity, meristem maintenance, and related organ patterning in Arabidopsis.
Abstract In higher plants, pluripotent stem cells reside in the specialized microenvironment called stem cell niches (SCNs) harbored at the shoot apical meristem (SAM) and root apical meristem (RAM), which give rise to the aerial and underground parts of a plant, respectively. The model plant Arabidopsis thaliana (Arabidopsis) has been extensively studied to decipher the intricate regulatory mechanisms involving some key transcriptions factors and phytohormones that play pivotal roles in stem cell homeostasis, meristem maintenance, and organ formation. However, there is increasing evidence to show the epigenetic regulation of the chromatin architecture, gene expression exerting an influence on an innate balance between the self-renewal of stem cells, and differentiation of the progeny cells to a specific tissue type or organ. Post-translational histone modifications, ATP-dependent chromatin remodeling, and chromatin assembly/disassembly are some of the key features involved in the modulation of chromatin architecture. Here, we discuss the major epigenetic regulators and illustrate their roles in the regulation of stem cell activity, meristem maintenance, and related organ patterning in Arabidopsis.
Cell- or tissue-specific chromatin modification, remodeling, and long-range chromatin interactions are crucial for regulating genes involved in stem cell activity, meristem maintenance, and development in Arabidopsis. Abstract In higher plants, pluripotent stem cells reside in the specialized microenvironment called stem cell niches (SCNs) harbored at the shoot apical meristem (SAM) and root apical meristem (RAM), which give rise to the aerial and underground parts of a plant, respectively. The model plant Arabidopsis thaliana (Arabidopsis) has been extensively studied to decipher the intricate regulatory mechanisms involving some key transcriptions factors and phytohormones that play pivotal roles in stem cell homeostasis, meristem maintenance, and organ formation. However, there is increasing evidence to show the epigenetic regulation of the chromatin architecture, gene expression exerting an influence on an innate balance between the self-renewal of stem cells, and differentiation of the progeny cells to a specific tissue type or organ. Post-translational histone modifications, ATP-dependent chromatin remodeling, and chromatin assembly/disassembly are some of the key features involved in the modulation of chromatin architecture. Here, we discuss the major epigenetic regulators and illustrate their roles in the regulation of stem cell activity, meristem maintenance, and related organ patterning in Arabidopsis.
Author Singh, Sharmila
Kumar, Shailendra
Mahima
Bajaj, Ishita
Jain, Ajay
Sarkar, Ananda K
Singh, Alka
Singh, Archita
Yadav, Sandeep
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Issue 3
Keywords chromatin remodeling
meristem
chromatin modification
Arabidopsis
epigenetic regulation
plant stem cells
Language English
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Snippet Cell- or tissue-specific chromatin modification, remodeling, and long-range chromatin interactions are crucial for regulating genes involved in stem cell...
In higher plants, pluripotent stem cells reside in the specialized microenvironment called stem cell niches (SCNs) harbored at the shoot apical meristem (SAM)...
Abstract In higher plants, pluripotent stem cells reside in the specialized microenvironment called stem cell niches (SCNs) harbored at the shoot apical...
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SubjectTerms Arabidopsis - growth & development
Arabidopsis Proteins - metabolism
Chromatin Assembly and Disassembly
Gene Regulatory Networks
Homeodomain Proteins - metabolism
Meristem - physiology
Plant Proteins - metabolism
Stem Cell Niche - physiology
Title Role of chromatin modification and remodeling in stem cell regulation and meristem maintenance in Arabidopsis
URI https://www.ncbi.nlm.nih.gov/pubmed/31793642
https://search.proquest.com/docview/2320873505
Volume 71
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