The Roles of Plant Hormones and Their Interactions with Regulatory Genes in Determining Meristem Activity
Plants, unlike animals, have developed a unique system in which they continue to form organs throughout their entire life cycle, even after embryonic development. This is possible because plants possess a small group of pluripotent stem cells in their meristems. The shoot apical meristem (SAM) plays...
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Published in | International journal of molecular sciences Vol. 20; no. 16; p. 4065 |
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Language | English |
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Abstract | Plants, unlike animals, have developed a unique system in which they continue to form organs throughout their entire life cycle, even after embryonic development. This is possible because plants possess a small group of pluripotent stem cells in their meristems. The shoot apical meristem (SAM) plays a key role in forming all of the aerial structures of plants, including floral meristems (FMs). The FMs subsequently give rise to the floral organs containing reproductive structures. Studies in the past few decades have revealed the importance of transcription factors and secreted peptides in meristem activity using the model plant
. Recent advances in genomic, transcriptomic, imaging, and modeling technologies have allowed us to explore the interplay between transcription factors, secreted peptides, and plant hormones. Two different classes of plant hormones, cytokinins and auxins, and their interaction are particularly important for controlling SAM and FM development. This review focuses on the current issues surrounding the crosstalk between the hormonal and genetic regulatory network during meristem self-renewal and organogenesis. |
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AbstractList | Plants, unlike animals, have developed a unique system in which they continue to form organs throughout their entire life cycle, even after embryonic development. This is possible because plants possess a small group of pluripotent stem cells in their meristems. The shoot apical meristem (SAM) plays a key role in forming all of the aerial structures of plants, including floral meristems (FMs). The FMs subsequently give rise to the floral organs containing reproductive structures. Studies in the past few decades have revealed the importance of transcription factors and secreted peptides in meristem activity using the model plant
Arabidopsis thaliana
. Recent advances in genomic, transcriptomic, imaging, and modeling technologies have allowed us to explore the interplay between transcription factors, secreted peptides, and plant hormones. Two different classes of plant hormones, cytokinins and auxins, and their interaction are particularly important for controlling SAM and FM development. This review focuses on the current issues surrounding the crosstalk between the hormonal and genetic regulatory network during meristem self-renewal and organogenesis. WUS, which is expressed in the OC, controls biological processes through the transcriptional regulation of downstream target genes related to meristem growth, cell division, and hormonal signaling [19,20,21,22]. ZmFCP1 and FEA3 negatively regulate ZmWUS1 expression to maintain reproductive SAM activity [34,35]. [...]molecular evidence indicates that the CLV-WUS pathway is critical for SAM maintenance in higher plants. By contrast, delayed FM termination leads to increased numbers of floral organs. [...]the timing of FM termination is crucial for the production of a fixed number of organs, including the female structure, the gynoecium. In Arabidopsis, high levels of cytokinin signaling induce ectopic WUS expression and lead to stem cell fate in the surrounding cells (Figure 2a). Plants, unlike animals, have developed a unique system in which they continue to form organs throughout their entire life cycle, even after embryonic development. This is possible because plants possess a small group of pluripotent stem cells in their meristems. The shoot apical meristem (SAM) plays a key role in forming all of the aerial structures of plants, including floral meristems (FMs). The FMs subsequently give rise to the floral organs containing reproductive structures. Studies in the past few decades have revealed the importance of transcription factors and secreted peptides in meristem activity using the model plant . Recent advances in genomic, transcriptomic, imaging, and modeling technologies have allowed us to explore the interplay between transcription factors, secreted peptides, and plant hormones. Two different classes of plant hormones, cytokinins and auxins, and their interaction are particularly important for controlling SAM and FM development. This review focuses on the current issues surrounding the crosstalk between the hormonal and genetic regulatory network during meristem self-renewal and organogenesis. Plants, unlike animals, have developed a unique system in which they continue to form organs throughout their entire life cycle, even after embryonic development. This is possible because plants possess a small group of pluripotent stem cells in their meristems. The shoot apical meristem (SAM) plays a key role in forming all of the aerial structures of plants, including floral meristems (FMs). The FMs subsequently give rise to the floral organs containing reproductive structures. Studies in the past few decades have revealed the importance of transcription factors and secreted peptides in meristem activity using the model plant Arabidopsis thaliana. Recent advances in genomic, transcriptomic, imaging, and modeling technologies have allowed us to explore the interplay between transcription factors, secreted peptides, and plant hormones. Two different classes of plant hormones, cytokinins and auxins, and their interaction are particularly important for controlling SAM and FM development. This review focuses on the current issues surrounding the crosstalk between the hormonal and genetic regulatory network during meristem self-renewal and organogenesis. |
Author | Ito, Toshiro Hirakawa, Takeshi Lee, Ze Hong Yamaguchi, Nobutoshi |
AuthorAffiliation | 2 Precursory Research for Embryonic Science and Technology, Japan Science and Technology Agency, 4-1-8, Honcho, Kawaguchi-shi, Saitama 332-0012, Japan 1 Division of Biological Science, Graduate School of Science and Technology, Nara Institute of Science and Technology, 8916-5, Takayama, Ikoma, Nara 630-0192, Japan |
AuthorAffiliation_xml | – name: 1 Division of Biological Science, Graduate School of Science and Technology, Nara Institute of Science and Technology, 8916-5, Takayama, Ikoma, Nara 630-0192, Japan – name: 2 Precursory Research for Embryonic Science and Technology, Japan Science and Technology Agency, 4-1-8, Honcho, Kawaguchi-shi, Saitama 332-0012, Japan |
Author_xml | – sequence: 1 givenname: Ze Hong orcidid: 0000-0003-0292-1981 surname: Lee fullname: Lee, Ze Hong organization: Division of Biological Science, Graduate School of Science and Technology, Nara Institute of Science and Technology, 8916-5, Takayama, Ikoma, Nara 630-0192, Japan – sequence: 2 givenname: Takeshi surname: Hirakawa fullname: Hirakawa, Takeshi organization: Division of Biological Science, Graduate School of Science and Technology, Nara Institute of Science and Technology, 8916-5, Takayama, Ikoma, Nara 630-0192, Japan – sequence: 3 givenname: Nobutoshi orcidid: 0000-0003-3738-6157 surname: Yamaguchi fullname: Yamaguchi, Nobutoshi organization: Precursory Research for Embryonic Science and Technology, Japan Science and Technology Agency, 4-1-8, Honcho, Kawaguchi-shi, Saitama 332-0012, Japan – sequence: 4 givenname: Toshiro orcidid: 0000-0002-8206-2787 surname: Ito fullname: Ito, Toshiro email: itot@bs.naist.jp organization: Division of Biological Science, Graduate School of Science and Technology, Nara Institute of Science and Technology, 8916-5, Takayama, Ikoma, Nara 630-0192, Japan. itot@bs.naist.jp |
BackLink | https://www.ncbi.nlm.nih.gov/pubmed/31434317$$D View this record in MEDLINE/PubMed |
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Keywords | Arabidopsis thaliana floral meristem cytokinin auxin shoot apical meristem WUSCHEL CLAVATA AGAMOUS |
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Snippet | Plants, unlike animals, have developed a unique system in which they continue to form organs throughout their entire life cycle, even after embryonic... WUS, which is expressed in the OC, controls biological processes through the transcriptional regulation of downstream target genes related to meristem growth,... |
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SubjectTerms | Adenosine AGAMOUS Arabidopsis - cytology Arabidopsis - metabolism Arabidopsis Proteins - genetics Arabidopsis Proteins - metabolism Arabidopsis thaliana auxin Biological activity Biosynthesis Cell division Cell fate CLAVATA cytokinin Cytokinins Cytokinins - metabolism floral meristem Gene expression Gene Expression Regulation, Plant - genetics Gene regulation Genes Homeostasis Hormones Indoleacetic Acids - metabolism Kinases Ligands Meristem - cytology Meristem - metabolism Meristems Mutation Organs Phytohormones Proteins Review Roles Seeds shoot apical meristem Signal transduction Stem cells Transcription WUSCHEL |
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Title | The Roles of Plant Hormones and Their Interactions with Regulatory Genes in Determining Meristem Activity |
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