Cover of: Oxidoreduction at the Plasma Membranerelation to Growth and Transport, Volume I | Frederick L. Crane

Oxidoreduction at the Plasma Membranerelation to Growth and Transport, Volume I

  • 330 Pages
  • 4.96 MB
  • 8485 Downloads
  • English
by
CRC
Biology, Life Sciences, Regulation, Life Sciences - Biochemistry, Science/Mathematics, Cytology, Membrane Biochemistry, Science, Oxidoreductases, Life Sciences - Biophysics, Life Sciences - Cytology, Science / Biochemistry, Cell membranes, Cells, G
The Physical Object
FormatHardcover
ID Numbers
Open LibraryOL8260972M
ISBN 100849369371
ISBN 139780849369377

The concept of general oxidoreductase function at the plasma level is new. Oxidoreduction at the Plasma Membrane: Relation to Growth and Transport provides the first truly comprehensive coverage of the oxidoreduction reactions in plasma membranes and the role that can now be attributed to these enzymes in controlling growth and other cell functions in plants and : Hardcover.

Book Description. The concept of general oxidoreductase function at the plasma level is new. Oxidoreduction at the Plasma Membrane: Relation to Growth and Transport provides the first truly comprehensive coverage of the oxidoreduction reactions in plasma membranes and the Oxidoreduction at the Plasma Membranerelation to Growth and Transport that can now be attributed to these enzymes in controlling growth and other cell functions in plants and animals.

Oxidoreduction at the Plasma Membrane: Relation to Growth and Transport provides the first truly comprehensive coverage of the oxidoreduction reactions in plasma membranes and the role that can now be attributed to these enzymes in controlling growth and other cell functions in plants and animals.

COVID Resources. Reliable information about the coronavirus (COVID) is available from the World Health Organization (current situation, international travel).Numerous and frequently-updated resource results are available from this ’s WebJunction has pulled together information and resources to assist library staff as they Oxidoreduction at the Plasma Membranerelation to Growth and Transport how to handle coronavirus.

Oxidoreduction at the plasma membrane: relation to growth and transport. Volume II. Plants. Author Affiliation: Department of Biological Sciences, Purdue University, West Lafayette, INUSA.

Book: Oxidoreduction at the plasma membrane: relation to growth and transport. Volume II. Oxidoreduction at the Plasma Membranerelation to Growth and Transport, Volume I: Frederick L.

Crane D. James Morre Hans E. Low: Oxidoreduction at the Plasma Membranerelation to Growth and Transport, Volume II: Carolyn D. Berdanier James L. Hargrove: Nutrition and Gene Expression:   Oxidoreduction at the Plasma Membranerelation to Growth and Transport, Volume II: Medicine & Health Science Books @ Compre o livro «Oxidoreduction At The Plasma Membranerelation To Growth And Transport» de D.

James Morre, Hans E. Low, Frederick L. Crane em 10% de. ‘Volumenumber 3, FEBS March 0 Federation of European Biochemical Societies /92/ Growth factor-stimulated trans plasma membrane electron transport in HL cells Placid0 Nava$, Francisco J.

Alcain”, Isabel Burbn”, Juan-Carlos Rodriquez-Aguilerab, Jose M. Villalba”, Dorothy M. Morrkb and D. James Morn?’. What is a major difference between facilitated diffusion and active transport.

Active transport moves substances against the concentration gradient. Active transport uses proteins in the process. Facilitated diffusion moves molecules through the plasma membrane.

Download Oxidoreduction at the Plasma Membranerelation to Growth and Transport, Volume I PDF

Facilitated diffusion requires large amounts of energy. In: Crane FL, Morré DJ, Löw H (eds) Oxidoreduction at the plasma membrane: relation to growth and transport vol 1, animals. CRC Press, Boca Raton, pp – Google Scholar — —, Chou JY () Modification of transmembrane electron transport activity in plasma membranes of Simian virus 40 transformed pineal cells.

Author(s): Crane,Frederick L; Morré,D James,; Löw,Hans Title(s): Oxidoreduction at the plasma membrane: relation to growth and transport/ editors. Electron transport constituents in the plant plasma membrane. (English) In: Oxidoreduction at the plasma membrane: Relation to growth and transport.

Volume II: plants, Boca Raton: CRC Press,Chapter in book (Other (popular science, discussion, etc.)) Identifiers. Oxidoreduction at the Plasma Membranerelation to Growth and Transport, Volume II.

Frederick L. Crane. 01 May Hardback.

Details Oxidoreduction at the Plasma Membranerelation to Growth and Transport, Volume I EPUB

03 Oct Paperback. US$ Add to basket. Oxidoreduction at the Plasma Membranerelation to Growth and Transport, Volume I.

Frederick L. Crane. 24 Sep Hardback. US$   Electron flow across the plasma membrane of living cells and its rapid modulation by growth factors has been measured continuously through a simple as. Oxidoreduction at the Plasma Membranerelation to Growth and Transport, Volume II by Crane, Frederick L., Morre, D.

James, Low, Hans E. and a great selection of related books, art and collectibles available now at   Transmembrane electron transport was detected with sealed and NAD(P)H‐loaded RSO plasma membrane vesicles.

Plasma membranes were suspended in phosphate buffer (5 mM phosphate buffer, pH5 mM KCl, and M sucrose) and loaded with 25 mM NAD(P)H during four cycles of freezing in liquid nitrogen and thawing in a water bath at 22 °C. Abstract. Ascorbate and related enzymes are involved in the control of several plant growth processes.

Ascorbate modulates cell growth by controlling (i) the biosynthesis of hydroxyproline-rich proteins required for the progression of G1 and G2 phases of the cell cycle, (ii) the cross-linking of cell wall glycoproteins and other polymers, and (iii) redox reactions at the plasma membrane.

A quinone as component of the PM electron-transport chain, accepting electrons from an unknown hypotheti- cal donor within the chain and transferring them to yet another acceptor (the energetically following link in the electron-transport chain) would compete with quinones (naphthoquinones) which have been inte- grated into the transport chain.

Transmembrane reduction of extracellular oxidants by K and U leukemic cells was stimulated by catalytic amounts of ascorbate or dehydroascorbate. This stimulation was not due to transport of. The redox system and H+-transport activities in the plasma membranes from two ecotypes of reed (Phragmites communis Trin.), named swamp reed (SR) and dune reed (DR) according to their habitats.

Bullatacin, a potential antitumor substance isolated from plants of the Annonaceae, and analogs of bullatacin, known collectively as acetogenins, have been reported previously to show potent activity in the inhibition of growth of murine tumors and human tumor xenografts grown in athymic mice as well as an ability to inhibit mitochondrial electron transport.

The basic structural framework of the plasma membrane is the lipid bilayer. Non polar,hydrophobic molecules diffuse freely through the lipid bilayer of the plasma membrane of cells without the help of membrane transport : O 2, CO 2, Nitrogen gases,fatty acids,steroids,fat soluble vitamins.

In facilitated diffusion, _____ proteins provide openings in the plasma membrane for substances to flow through without changing structure, and _____ proteins allow passage of substances through the plasma membrane after undergoing a subtle change in shape.

Plasma membrane (PM) vesicles were purified in parallel from the roots and shoots of 6-day-old etiolated bean (Phaseolus vulgaris L.) seedlings, grown in water culture at 25 °C, by aqueous polymer two-phase partitioning.

The purity of PM fractions was determined by measuring the activity of known marker enzymes (vanadate-sensitive Mg-ATPase, 1,3-β-glycan synthase, latent ID-Pase. During the treatment an increase in the vacuole volume and tonoplast surface area also occurred. growth (Hidalgo Low, eds, Oxidoreduction at the Plasma Membrane: Relation to.

Growth and. Crane FL, Moore DJ, Low HE, editors. Oxidoreduction at the plasma membrane: relation to growth and transport. Boca Raton (FL): Chemical Rubber Company; 2 vol. Crane FL, Moore DJ, & Low HE, editors. Oxidoreduction at the plasma membrane: relation to growth and transport.

Boca Raton (FL): Chemical Rubber Company; 2 vol.

Description Oxidoreduction at the Plasma Membranerelation to Growth and Transport, Volume I FB2

Discover Book Depository's huge selection of D James Morre books online. Free delivery worldwide on over 20 million titles. Secondary active transport, created by primary active transport, is the transport of a solute in the direction of its electrochemical gradient and does not directly require ATP.

Carrier proteins such as uniporters, symporters, and antiporters perform primary active transport and facilitate the movement of solutes across the cell’s membrane. A cell keeps its homeostasis mainly by managing the movement of substances across the selectively permeable plasma substances pass across the plasma membrane by passive transport, which needs no expense of ATP by the substances move across the plasma membrane by active transport, which needs the cell to use up ATP.

As volume increases surface area also increases but not at the same rate. Let me give you an example. A box with a volume of 1 cm3 (1 cm length x 1 cm height x 1 cm depth), has a surface area of 6 cm2 (6 sides x 1 cm length x 1 cm height).

The surface area-to-volume ratio is Let’s double the volume. A box with a volume of 8 cm3 (2 cm.() Electron transport constituents in the plant plasma membrane.

in Oxidoreduction at the Plasma Membrane: Relation to Growth and Transport, Vol II: Plants. eds Crane FL, Morré DJ, Löw H (CRC Press, Boca Raton, FL), pp 35 – ↵.Møller IM, Askerlund P, Widell S.

Electron transport constituents in the plant plasma membrane. In: Crane FL, Morré DJ, Löw H, editors. Oxidoreduction at the Plasma Membrane: Relation to Growth and Transport, Vol II: Plants.

Boca Raton, FL: CRC Press; pp. 35– Møller IM, Crane FL. Redox processes in the plasma membrane.