Leaf development: a cellular perspective

Through its photosynthetic capacity the leaf provides the basis for growth of the whole plant. In order to improve crops for higher productivity and resistance for future climate scenarios, it is important to obtain a mechanistic understanding of leaf growth and development and the effect of genetic...

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Published in	Frontiers in plant science Vol. 5; p. 362
Main Authors	Kalve, Shweta, De Vos, Dirk, Beemster, Gerrit T S
Format	Journal Article
Language	English
Published	Switzerland Frontiers Media S.A 31.07.2014
Subjects	developmental pathway leaf growth modelling plant hormones Plant Science regulatory networks stress leaf growth developmental pathway modeling plant hormones
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Abstract	Through its photosynthetic capacity the leaf provides the basis for growth of the whole plant. In order to improve crops for higher productivity and resistance for future climate scenarios, it is important to obtain a mechanistic understanding of leaf growth and development and the effect of genetic and environmental factors on the process. Cells are both the basic building blocks of the leaf and the regulatory units that integrate genetic and environmental information into the developmental program. Therefore, to fundamentally understand leaf development, one needs to be able to reconstruct the developmental pathway of individual cells (and their progeny) from the stem cell niche to their final position in the mature leaf. To build the basis for such understanding, we review current knowledge on the spatial and temporal regulation mechanisms operating on cells, contributing to the formation of a leaf. We focus on the molecular networks that control exit from stem cell fate, leaf initiation, polarity, cytoplasmic growth, cell division, endoreduplication, transition between division and expansion, expansion and differentiation and their regulation by intercellular signaling molecules, including plant hormones, sugars, peptides, proteins, and microRNAs. We discuss to what extent the knowledge available in the literature is suitable to be applied in systems biology approaches to model the process of leaf growth, in order to better understand and predict leaf growth starting with the model species Arabidopsis thaliana.
AbstractList	Through its photosynthetic capacity the leaf provides the basis for growth of the whole plant. In order to improve crops for higher productivity and resistance for future climate scenarios, it is important to obtain a mechanistic understanding of leaf growth and development and the effect of genetic and environmental factors on the process. Cells are both the basic building blocks of the leaf and the regulatory units that integrate genetic and environmental information into the developmental program. Therefore, to fundamentally understand leaf development, one needs to be able to reconstruct the developmental pathway of individual cells (and their progeny) from the stem cell niche to their final position in the mature leaf. To build the basis for such understanding, we review current knowledge on the spatial and temporal regulation mechanisms operating on cells, contributing to the formation of a leaf. We focus on the molecular networks that control exit from stem cell fate, leaf initiation, polarity, cytoplasmic growth, cell division, endoreduplication, transition between division and expansion, expansion and differentiation and their regulation by intercellular signaling molecules, including plant hormones, sugars, peptides, proteins and microRNAs. We discuss to what extent the knowledge available in the literature is suitable to be applied in systems biology approaches to model the process of leaf growth, in order to better understand and predict leaf growth starting with the model species Arabidopsis thaliana. Through its photosynthetic capacity the leaf provides the basis for growth of the whole plant. In order to improve crops for higher productivity and resistance for future climate scenarios, it is important to obtain a mechanistic understanding of leaf growth and development and the effect of genetic and environmental factors on the process. Cells are both the basic building blocks of the leaf and the regulatory units that integrate genetic and environmental information into the developmental program. Therefore, to fundamentally understand leaf development, one needs to be able to reconstruct the developmental pathway of individual cells (and their progeny) from the stem cell niche to their final position in the mature leaf. To build the basis for such understanding, we review current knowledge on the spatial and temporal regulation mechanisms operating on cells, contributing to the formation of a leaf. We focus on the molecular networks that control exit from stem cell fate, leaf initiation, polarity, cytoplasmic growth, cell division, endoreduplication, transition between division and expansion, expansion and differentiation and their regulation by intercellular signaling molecules, including plant hormones, sugars, peptides, proteins, and microRNAs. We discuss to what extent the knowledge available in the literature is suitable to be applied in systems biology approaches to model the process of leaf growth, in order to better understand and predict leaf growth starting with the model species Arabidopsis thaliana .
Author	De Vos, Dirk Beemster, Gerrit T S Kalve, Shweta
AuthorAffiliation	1 Laboratory for Molecular Plant Physiology and Biotechnology, Department of Biology, University of Antwerp Antwerp, Belgium 2 Department of Mathematics and Computer Science, University of Antwerp Antwerp, Belgium
AuthorAffiliation_xml	– name: 2 Department of Mathematics and Computer Science, University of Antwerp Antwerp, Belgium – name: 1 Laboratory for Molecular Plant Physiology and Biotechnology, Department of Biology, University of Antwerp Antwerp, Belgium
Author_xml	– sequence: 1 givenname: Shweta surname: Kalve fullname: Kalve, Shweta organization: Laboratory for Molecular Plant Physiology and Biotechnology, Department of Biology, University of Antwerp Antwerp, Belgium – sequence: 2 givenname: Dirk surname: De Vos fullname: De Vos, Dirk organization: Laboratory for Molecular Plant Physiology and Biotechnology, Department of Biology, University of Antwerp Antwerp, Belgium ; Department of Mathematics and Computer Science, University of Antwerp Antwerp, Belgium – sequence: 3 givenname: Gerrit T S surname: Beemster fullname: Beemster, Gerrit T S organization: Laboratory for Molecular Plant Physiology and Biotechnology, Department of Biology, University of Antwerp Antwerp, Belgium
BackLink	https://www.ncbi.nlm.nih.gov/pubmed/25132838$$D View this record in MEDLINE/PubMed
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ContentType	Journal Article
Copyright	Copyright © 2014 Kalve, De Vos and Beemster. 2014
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Keywords	stress leaf growth developmental pathway modeling plant hormones
Language	English
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Notes	ObjectType-Article-2 SourceType-Scholarly Journals-1 ObjectType-Feature-3 content type line 23 ObjectType-Review-1 Edited by: Bernd Mueller-Roeber, University of Potsdam, Germany This article was submitted to Plant Systems Biology, a section of the journal Frontiers in Plant Science. Reviewed by: Camila Caldana, Brazilian Bioethanol Science and Technology Laboratory – O Centro Nacional de Pesquisa em Energia e Materiais/da Associação Brasileira de Tecnologia de Luz Síncrotron, Brazil; Tsiantis Miltos, Max Planck Institute for Plant Breeding Research, Germany
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PublicationPlace	Switzerland
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PublicationTitle	Frontiers in plant science
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Snippet	Through its photosynthetic capacity the leaf provides the basis for growth of the whole plant. In order to improve crops for higher productivity and resistance...
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SubjectTerms	developmental pathway leaf growth modelling plant hormones Plant Science regulatory networks
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Title	Leaf development: a cellular perspective
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