3 edition of Carriers and membrane transport proteins found in the catalog.
Carriers and membrane transport proteins
Includes bibliographies and index.
|Statement||edited by Felix Bronner and Arnost Kleinzeller ; advisory board, I. S. Edelman ... [et al.] ; contributors, J. P. Bennett ... [et al.].|
|Series||Current topics in membranes and transport ; v. 14|
|Contributions||Bronner, Felix., Kleinzeller, Arnošt.|
|LC Classifications||QH601 .C84 vol. 14, QH509 .C84 vol. 14|
|The Physical Object|
|Pagination||xv, 477 p. :|
|Number of Pages||477|
|LC Control Number||80133697|
theoretical aspects of membrane transport, i.e. thermodynamics, kinetics. model-building, and so on. There is thus a need for a book that integrates these areas to provide an up-to-date account of structure/function relationships in membrane proteins, while not shrinking from a rigorousCited by: 1. Glucose Glucose transporters are a wide group of membrane proteins that facilitate the transport of glucose over a plasma membrane. Because glucose is a vital source of energy for all life, these transporters are present in all phyla. The GLUT or SLC2A family are a protein family that is found in most mammalian cells.
Carrier Proteins for Active Transport. An important membrane adaption for active transport is the presence of specific carrier proteins or pumps to facilitate movement: there are three protein types or transporters (Figure ). A uniporter carries one specific ion or molecule. Facilitated transport is a type of passive transport. Unlike simple diffusion where materials pass through a membrane without the help of proteins, in facilitated transport, also called facilitated diffusion, materials diffuse across the plasma membrane with the help of membrane proteins.
Membrane transport protein explained. A membrane transport protein (or simply transporter) is a membrane protein involved in the movement of ions, small molecules, and macromolecules, such as another protein, across a biological ort proteins are integral transmembrane protein; that is they exist permanently within and span the membrane across which they transport substances. Carrier Proteins for Active Transport. An important membrane adaption for active transport is the presence of specific carrier proteins or pumps to facilitate movement: there are three protein types or transporters ().A uniporter carries one specific ion or molecule. A symporter carries two different ions or molecules, both in the same direction. An antiporter also carries two different ions.
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An introduction to the principles of membrane transport: How molecules and ions move across the cell membrane by simple diffusion and by making use of specialized membrane components (channels, carriers, and pumps). The text emphasizes the quantitative aspects of such movement and its interpretation in terms of transport kinetics.
There Are Two Main Classes of Membrane Transport Proteins: Carriers and Channels. Like synthetic lipid bilayers, cell membranes allow water and nonpolar molecules to permeate by simple membranes, however, also have to allow the passage of various polar molecules, such as ions, sugars, amino acids, nucleotides, and many cell metabolites that cross synthetic lipid bilayers only Cited by: 5.
Search in this book series. Carriers and Membrane Transport Proteins. Edited by Felix Bronner, Arnost Kleinzeller. Vol Pages ii-xv, () Download full volume. Previous volume. Next volume. Actions for selected chapters. Select all / Deselect all.
Download PDFs Export citations. ISBN: OCLC Number: Description: xiv, pages: illustrations ; 24 cm. Series Title: Current topics in membranes and transport, v Book is in Like New / near Mint Condition.
Will include dust jacket if it originally came with one. Text will be unmarked and pages crisp. Satisfaction is guaranteed with every order. CHANNELS, CARRIERS, AND PUMPS: AN INTRODUCTION TO MEMBRANE TRANSPORT By Wilfred D.
Stein - Hardcover **Mint Condition**. Buy Current Topics in Membranes and Transport (Carriers and Membrane Transport Proteins, Volume 12) on FREE SHIPPING on qualified orders.
Very few molecules enter or leave cells, or cross organellar membranes, unaided by proteins. Even transport of molecules, such as water and urea, that can diffuse across pure phospholipid bilayers is frequently accelerated by transport proteins. The three major classes of membrane transport proteins are depicted in Figure a.
All are integral transmembrane proteins and exhibit a high degree Cited by: 1. Channels, Carriers, and Pumps: An Introduction to Membrane Transport - Kindle edition by Stein, Wilfred D. Download it once and read it on your Kindle device, PC, phones or tablets.
Use features like bookmarks, note taking and highlighting while reading Channels, Carriers, and Pumps: An Introduction to Membrane Transport.5/5(2).
The development of robust bioinformatics-based methods for the prediction of membrane transport proteins and their substrate specificities is therefore an important and urgent task.
This diffusion of water across a selectively permeable membrane is a special case of passive transport -Osmosis continues until the solutions are isotonic -Unbound water molecules will move from the hypotonic solution where they are abundant to the hypertonic solution where they are rarer.
Some small molecules (e.g. H2O) can cross this lipid bilayer by simple diffusion, but the majority of molecules require membrane transport proteins. In this seminar, Dr.
Nieng Yan explores the different mechanisms that cells have to exchange material with its environment: vesicular transport (endocytosis and exocytosis), passive transport.
Transport and Diffusion across Cell Membranes is a comprehensive treatment of the transport and diffusion of molecules and ions across cell membranes. This book shows that the same kinetic equations (with appropriate modification) can describe all the specialized membrane transport systems: the pores, the carriers, and the two classes of pumps.
Passive Transport: Facilitated Transport In facilitated transport, also called facilitated diffusion, material moves across the plasma membrane with the assistance of transmembrane proteins down a concentration gradient (from high to low concentration) without the expenditure of cellular r, the substances that undergo facilitated transport would otherwise not diffuse easily Author: Bartee, Lisa, Anderson, Christine.
In cellular biology, membrane transport refers to the collection of mechanisms that regulate the passage of solutes such as ions and small molecules through biological membranes, which are lipid bilayers that contain proteins embedded in them.
The regulation of passage through the membrane is due to selective membrane permeability - a characteristic of biological membranes which allows them to. For students as well as researchers this book describes the exciting new advances in the molecular biology of transport proteins and integrates this information with transport kinetics, function, and regulation.
Experimental data are linked with theory. Key Features * Provides an introduction to the properties of transport proteins: channels, carriers, and pumps * Presents up-to-date.
Provides an introduction to the properties of transport proteins: channels, carriers, and pumps; Presents up-to-date information on the structure of transport proteins and on their function and regulation; Includes introductions to transport kinetics and Book Edition: 1.
3)There are different types of membrane transport True or False: Movement of molecules into and out of cells occur by solution (dissolving) in the lipid bilayer OR with the help of membrane proteins.
True. Chapter Membrane transport Know the terminology: Active transport, symport, antiport, exchanger, (=transporters, carriers, exchangers) (3) Type of transport distinguished based upon how energy is used (Fig ) Principles of membrane transport (4) Kinetics (flux in relation to concentration) Many proteins use the energy of ATP.
Membrane Proteins. The lipid bilayer forms the basis of the cell membrane, but it is peppered throughout with various proteins. Two different types of proteins that are commonly associated with the cell membrane are the integral proteins and peripheral protein ().As its name suggests, an integral protein is a protein that is embedded in the membrane.
There are four complexes composed of proteins, labeled I through IV in Figure 1, and the aggregation of these four complexes, together with associated mobile, accessory electron carriers, is called the electron transport chain. The electron transport chain is present in multiple copies in the inner mitochondrial membrane of eukaryotes and the.
A transport protein (variously referred to as a transmembrane pump, transporter, escort protein, acid transport protein, cation transport protein, or anion transport protein) is a protein that serves the function of moving other materials within an ort proteins are vital to the growth and life of all living things.
There are several different kinds of transport proteins.In the biosynthetic pathway transmembrane proteins and secretory proteins are synthesized in the ER. Many such proteins are then sorted into COPII coated vesicles at distinct ER-exit sites that transport cargo to the Golgi (Bonifacino and Glick, ).Most of these proteins are then delivered from the trans-Golgi network (TGN) to destinations such as the plasma membrane, endosomes, and lysosomes.A membrane transport protein (or simply transporter) is a membrane protein  involved in the movement of ions, small molecules, and macromolecules, such as another protein, across a biological ort proteins are integral transmembrane protein; that is they exist permanently within and span the membrane across which they transport substances.