Plants, along with other multicellular organisms, have evolved specialized regulatory mechanisms to achieve proper tissue growth and morphogenesis. During development, growing tissues generate specialized cell types and complex patterns necessary for establishing the function of the organ. Tissue growth is a tightly regulated process that yields highly reproducible outcomes. Nevertheless, the underlying cellular and molecular behaviors are often stochastic. Thus, how does stochasticity, together with strict genetic regulation, give rise to reproducible tissue development? This review draws examples from plants as well as other systems to explore stochasticity in plant cell division, growth, and patterning. We conclude that stochasticity is ...
Observed phenotype often fails to correspond with genotype. Although it is well established that unc...
Although plant development is highly reproducible, some stochasticity exists. This developmental sto...
Plants are made up of a large number of distinct cell types that originate from a single fertilized ...
This article is part of the research topic: Dynamical Models in Plant Genetics and Morphogenesis (Fr...
International audienceDevelopment is remarkably reproducible, producing organs with the same size, s...
International audienceSingle-cell analysis allows biologists to gain huge insight into cell differen...
In their development, plants precisely control the patterns of cell size, cell shape and cell divisi...
Understanding the control of the patterns and numbers of cell divisions in developing plants and ani...
Abstract Noise plays a major role in cellular processes and in the development of tissues and organs...
In contrast to the classical view of development as a preprogrammed and deterministic process, recen...
How does it happen that populations of clonal cells show cell-to-cell variability even when their en...
How growth and proliferation are precisely controlled in organs during development and how the regul...
How growth and proliferation are precisely controlled in organs during development and how the regul...
International audienceThe definition of shape in multicellular organisms is a major issue of develop...
The analysis of plant development by genetic, molecular, and surgical approaches has accumulated a l...
Observed phenotype often fails to correspond with genotype. Although it is well established that unc...
Although plant development is highly reproducible, some stochasticity exists. This developmental sto...
Plants are made up of a large number of distinct cell types that originate from a single fertilized ...
This article is part of the research topic: Dynamical Models in Plant Genetics and Morphogenesis (Fr...
International audienceDevelopment is remarkably reproducible, producing organs with the same size, s...
International audienceSingle-cell analysis allows biologists to gain huge insight into cell differen...
In their development, plants precisely control the patterns of cell size, cell shape and cell divisi...
Understanding the control of the patterns and numbers of cell divisions in developing plants and ani...
Abstract Noise plays a major role in cellular processes and in the development of tissues and organs...
In contrast to the classical view of development as a preprogrammed and deterministic process, recen...
How does it happen that populations of clonal cells show cell-to-cell variability even when their en...
How growth and proliferation are precisely controlled in organs during development and how the regul...
How growth and proliferation are precisely controlled in organs during development and how the regul...
International audienceThe definition of shape in multicellular organisms is a major issue of develop...
The analysis of plant development by genetic, molecular, and surgical approaches has accumulated a l...
Observed phenotype often fails to correspond with genotype. Although it is well established that unc...
Although plant development is highly reproducible, some stochasticity exists. This developmental sto...
Plants are made up of a large number of distinct cell types that originate from a single fertilized ...
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