The Plant Plasma Membrane [recurso electrónico] / edited by Angus S. Murphy, Burkhard Schulz, Wendy Peer.

Por: Murphy, Angus S [editor.]Colaborador(es): Schulz, Burkhard [editor.] | Peer, Wendy [editor.] | SpringerLink (Online service)Tipo de material: TextoTextoSeries Plant Cell Monographs ; 19Editor: Berlin, Heidelberg : Springer Berlin Heidelberg : Imprint: Springer, 2011Edición: FirstDescripción: XIV, 494 p. online resourceTipo de contenido: text Tipo de medio: computer Tipo de portador: online resourceISBN: 9783642134319Tema(s): Life sciences | Biochemistry | Cytology | Plant anatomy | Plant physiology | Life Sciences | Plant Physiology | Cell Biology | Plant Biochemistry | Plant Anatomy/DevelopmentFormatos físicos adicionales: Printed edition:: Sin títuloClasificación CDD: 571.2 Clasificación LoC:QK710-899Recursos en línea: Libro electrónicoTexto
Contenidos:
Introduction -- Lipids of the Plant Plasma Membrane -- Plasma Membrane Protein Trafficking -- The Plasma Membrane and the Cell Wall -- Plasmodesmata and Non-Cell Autonomous Signaling in Plants -- Post-Translational Modifications of Plasma Membrane Proteins and Their Implications for Plant Growth and Development -- Functional Classification of Plasma Membrane Transporters -- Plasma Membrane ATPases -- The Role of Plasma Membrane Nitrogen Transporters in Nitrogen Acquisition and Utilization -- Biology of Plant Potassium Channels -- Mechanism and Evolution of Calcium Transport across the Plant Plasma Membrane -- Sulfate Transport -- Metal Transport -- Organic Carbon and Nitrogen Transporters -- ABC Transporters and Their Function at the Plasma Membrane -- Hormone Transport -- Plant Hormone Perception at the Plasma Membrane -- Light Sensing at the Plasma Membrane.
En: Springer eBooksResumen: In plant cells, the plasma membrane is a highly elaborated structure that functions as the point of exchange with adjoining cells, cell walls and the external environment. Transactions at the plasma membrane include uptake of water and essential mineral nutrients, gas exchange, movement of metabolites, transport and perception of signaling molecules, and initial responses to external biota. Selective transporters control the rates and direction of small molecule movement across the membrane barrier and manipulate the turgor that maintains plant form and drives plant cell expansion. The plasma membrane provides an environment in which molecular and macromolecular interactions are enhanced by the clustering of proteins in oligimeric complexes for more efficient retention of biosynthetic intermediates, and by the anchoring of protein complexes to promote regulatory interactions. The coupling of signal perception at the membrane surface with intracellular second messengers also involves transduction across the plasma membrane. Finally, the generation and ordering of the external cell walls involves processes mediated at the plant cell surface by the plasma membrane. This volume is divided into three sections. The first section describes the basic mechanisms that regulate all plasma membrane functions. The second describes plasma membrane transport activity. The final section of the book describes signaling interactions at the plasma membrane. These topics are given a unique treatment in this volume, as the discussions are restricted to the plasma membrane itself as much as possible. A more complete knowledge of the plasma membrane’s structure and function is essential to current efforts to increase the sustainability of agricultural production of food, fiber, and fuel crops.
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Libro Electrónico Biblioteca Electrónica
Colección de Libros Electrónicos QK710 -899 (Browse shelf(Abre debajo)) 1 No para préstamo 374489-2001

Introduction -- Lipids of the Plant Plasma Membrane -- Plasma Membrane Protein Trafficking -- The Plasma Membrane and the Cell Wall -- Plasmodesmata and Non-Cell Autonomous Signaling in Plants -- Post-Translational Modifications of Plasma Membrane Proteins and Their Implications for Plant Growth and Development -- Functional Classification of Plasma Membrane Transporters -- Plasma Membrane ATPases -- The Role of Plasma Membrane Nitrogen Transporters in Nitrogen Acquisition and Utilization -- Biology of Plant Potassium Channels -- Mechanism and Evolution of Calcium Transport across the Plant Plasma Membrane -- Sulfate Transport -- Metal Transport -- Organic Carbon and Nitrogen Transporters -- ABC Transporters and Their Function at the Plasma Membrane -- Hormone Transport -- Plant Hormone Perception at the Plasma Membrane -- Light Sensing at the Plasma Membrane.

In plant cells, the plasma membrane is a highly elaborated structure that functions as the point of exchange with adjoining cells, cell walls and the external environment. Transactions at the plasma membrane include uptake of water and essential mineral nutrients, gas exchange, movement of metabolites, transport and perception of signaling molecules, and initial responses to external biota. Selective transporters control the rates and direction of small molecule movement across the membrane barrier and manipulate the turgor that maintains plant form and drives plant cell expansion. The plasma membrane provides an environment in which molecular and macromolecular interactions are enhanced by the clustering of proteins in oligimeric complexes for more efficient retention of biosynthetic intermediates, and by the anchoring of protein complexes to promote regulatory interactions. The coupling of signal perception at the membrane surface with intracellular second messengers also involves transduction across the plasma membrane. Finally, the generation and ordering of the external cell walls involves processes mediated at the plant cell surface by the plasma membrane. This volume is divided into three sections. The first section describes the basic mechanisms that regulate all plasma membrane functions. The second describes plasma membrane transport activity. The final section of the book describes signaling interactions at the plasma membrane. These topics are given a unique treatment in this volume, as the discussions are restricted to the plasma membrane itself as much as possible. A more complete knowledge of the plasma membrane’s structure and function is essential to current efforts to increase the sustainability of agricultural production of food, fiber, and fuel crops.

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