Mechanical Integration of Plant Cells and Plants

Mechanical Integration of Plant Cells and Plants

Author: Przemyslaw Wojtaszek

Publisher: Springer Science & Business Media

ISBN: 9783642190919

Category: Science

Page: 352

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Chemical reactions and interactions between molecules are commonly considered the basis of life, and thus the biochemical nature of cells and organisms is relatively well recognized. Research conducted in recent years, however, increasingly indicates that physical forces profoundly affect the functioning of life at all levels of its organization. To detect and to respond to such forces, plant cells and plants need to be structured mechanically. This volume focuses on mechanical aspects of plant life. It starts with a consideration of the mechanical integration of supracellular structures and mechanical properties of cellular building blocks to show how the structural integrity of plant cells is achieved and maintained during growth and development. The following chapters reveal how the functioning of integrated plant cells contributes to the mechanical integration of plants, and how the latter are able to detect physical stimuli and to reorganize their own cells in response to them. The mechanical aspects of plant responses to stresses are also presented. Finally, all these aspects are placed in an evolutionary context.
Mechanical Integration of Plant Cells and Plants
Language: en
Pages: 352
Authors: Przemyslaw Wojtaszek
Categories: Science
Type: BOOK - Published: 2011-06-28 - Publisher: Springer Science & Business Media

Chemical reactions and interactions between molecules are commonly considered the basis of life, and thus the biochemical nature of cells and organisms is relatively well recognized. Research conducted in recent years, however, increasingly indicates that physical forces profoundly affect the functioning of life at all levels of its organization. To
Mechanical Signaling in Plants: From Perception to Consequences for Growth and Morphogenesis (Thigmomorphogenesis) and Ecological Significance
Language: en
Pages:
Authors: Catherine Coutand, Stephen J. Mitchell, Sara Puijalon, Gabrielle Monshausen
Categories: Science
Type: BOOK - Published: 2017-01-27 - Publisher: Frontiers Media SA

During the 1970s, renewed interest in plant mechanical signaling led to the discovery that plants subjected to mechanical stimulation develop shorter and thicker axes than undisturbed plants, a syndrome called thigmomorphogenesis. Currently, mechanosensing is being intensively studied because of its involvement in many physiological processes in plants and particularly in
Inter-cellular Electrical Signals in Plant Adaptation and Communication
Language: en
Pages:
Authors: Simon Gilroy, Kazimierz Trebacz, Vicenta Salvador-Recatalà
Categories: Science
Type: BOOK - Published: 2018-07-26 - Publisher: Frontiers Media SA

Plants use the Sun´s energy to synthesize the basic biomolecules that make up all the organic matter of all organisms of terrestrial ecosystems, including ourselves. Therefore, understanding their adaptive mechanisms to variations of environmental factors, both biotic and abiotic, is fundamental, and particularly relevant in the current context of rapid
Endocytosis in Plants
Language: en
Pages: 338
Authors: Jozef Šamaj
Categories: Science
Type: BOOK - Published: 2012-10-02 - Publisher: Springer Science & Business Media

Endocytosis is a fundamental cellular process by means of which cells internalize extracellular and plasma membrane cargos for recycling or degradation. It is important for the establishment and maintenance of cell polarity, subcellular signaling and uptake of nutrients into specialized cells, but also for plant cell interactions with pathogenic and
Morphomechanics of Development
Language: en
Pages: 195
Authors: Lev V. Beloussov
Categories: Science
Type: BOOK - Published: 2014-12-27 - Publisher: Springer

This book outlines a unified theory of embryonic development, assuming morphogenesis to be a multi-level process including self-organizing steps while also obeying general laws. It is shown how molecular mechanisms generate mechanical forces, which in the long run lead to morphological changes. Questions such as how stress-mediated feedback acts at