5 edition of Photosynthetic Light-Harvesting Systems: Organizations and Functions found in the catalog.
Photosynthetic Light-Harvesting Systems: Organizations and Functions
Hugo Scheer
Published
June 1988
by Walter De Gruyter Inc
.
Written in
Edition Notes
| Contributions | Siegfried Schneider (Editor) |
| The Physical Object | |
|---|---|
| Format | Hardcover |
| Number of Pages | 631 |
| ID Numbers | |
| Open Library | OL8275050M |
| ISBN 10 | 0899254276 |
| ISBN 10 | 9780899254272 |
@article{osti_, title = {PS Satellite Workshop on Photosynthetic Light-Harvesting Systems}, author = {Niederman, Robert A. and Blankenship, Robert E. and Frank, Harry A.}, abstractNote = {These funds were used for partial support of the PS Satellite Workshop on Photosynthetic Light-Harvesting Systems, that was held on August, , at Washington . Dehydrogenase Activity in Extracts of Chloroplasts (the light dependent reaction of photosynthesis) - Duration: Biology Practicals and Revision Biology Tu views
The organization observed in the AFM images may be relevant to the assembly of light-harvesting complexes in native photosynthetic membranes. In the last few years, structural details of many individual pigment-protein complexes have emerged, adding to our understanding of the function of the photosynthetic by: This book provides a comprehensive treatment of all aspects of photosynthetic light-harvesting antennas, from the biophysical mechanisms of light absorption and energy transfer to the structure, biosynthesis and regulation of antenna systems in whole organisms.
Photosynthesis - Photosynthesis - Photosystems I and II: The structural and photochemical properties of the minimum particles capable of performing light reactions I and II have received much study. Treatment of lamellar fragments with neutral detergents releases these particles, designated photosystem I and photosystem II, respectively. The Photosynthetic Apparatus: Molecular Biology and Operation: Cell Culture and Somatic Cell Genetics of Plants, Volume 7B is a collection of papers that discuss plastids – organelles found in plants that set them apart from other organisms. The book is divided into two Edition: 1.
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Photosynthetic Light-Harvesting Systems Organization and Function Proceedings of an International Workshop OctoberFreising, Fed Rep.
of Germany Editors Hugo Scheer • Siegfried Schneider W G DE Walter de Gruyter • Berlin • New York Book Description. This landmark collective work introduces the physical, chemical, and biological principles underlying photosynthesis: light absorption, excitation energy transfer, and charge separation.
It begins with an introduction to properties of various pigments, and the pigment proteins in plant, algae, and bacterial systems. Get this from a library. Photosynthetic light-harvesting systems: organization and function: proceedings of an international workshop, October, Freising, Fed.
Rep. of Germany. [Hugo Scheer; Siegfried Schneider;]. Great progress in the study of structure and dynamics of photosynthetic light-harvesting pigment−protein complexes has recently resulted in detailed understanding of the light-harvesting and light-conversion processes of photosynthesis.
We review and discuss recent results on the elementary excitation transfer dynamics of the purple bacterial LH2 peripheral by: The book contains articles written by experts and world leaders in their respective fields and summarizes the exciting breakthroughs toward understanding the structures and mechanisms of the photosynthetic apparatus as well as efforts toward developing revolutionary new energy conversion technologies.
Beekman LMP, Steffen M, van Stokkum I, Olsen JD, Hunter CN, Boxer SG and van Grondelle R (b) Characterization of the light-harvesting antennas of photosynthetic purple bacteria by Stark spectroscopy. LH1 antenna complex and the B subunit from Rhodospirillum rubrum.
J Phys Chem B – CrossRef Google ScholarCited by: Great progress in the study of structure and dynamics of photosynthetic light-harvesting pigment-protein complexes has recently resulted in detailed understanding of the light-harvesting and light. Photosynthesis begins with light harvesting, where specialized pigment–protein complexes transform sunlight into electronic excitations delivered to reaction centres to initiate charge separation.
There is evidence that quantum coherence between electronic excited states plays a role in energy by: Purple photosynthetic bacteria as a model system with which to understand the overall energy and electron transfer reactions that occur in the early stages of photosynthesis.
In this section the basic concepts of energy and electron flow in the primary processes of photosynthesis are outlined from purple bacteria [15].Cited by: In this system 1 (Figure 1a), solar-to-chemical energy conversion was conducted with interconnected light-harvesting systems, highly efficient charge separation functions, and the reaction centers.
It addresses the underlying physics of light harvesting and key spectroscopic methods, including data analysis. It discusses assembly of the natural system, its energy transfer properties, and regulatory mechanisms. It also addresses light-harvesting in artificial systems and the impact of photosynthesis on our environment.
This landmark collective work introduces the physical, chemical, and biological principles underlying photosynthesis: light absorption, excitation energy transfer, and charge separation.
It begins with an introduction to properties of various pigments, and the pigment proteins in plant, algae, and b. Photosynthetic Light-Harvesting: Reconciling Dynamics and Structure of Purple Bacterial LH2 Reveals Function of Photosynthetic Unit.
The Journal of Physical Chemistry B(13), DOI: /jp+.Cited by: Structure and function of protein complexes in the photosynthetic membrane (N. Nelson). Structure and function of light-harvesting pigment-protein complexes (H.
Zuber, R. Brunisholz and W. Sidler). Molecular organization of thylakoid membranes (J.M. Anderson). Structure and exciton effects in photosynthesis (R.M. Pearlstein). Book Edition: 1. Photosynthetic organisms are crucial for life on Earth as they provide food and oxygen and are at the basis of most energy resources.
They have a Cited by: Photosynthesis is the main point of entry of energy into the biosphere and it starts with the absorption of light energy by specialized chlorophyll–protein complexes. One of these, light-harvesting complex II (LHC-II), is found in algae and green plants and binds approximately 50% of all chlorophyll on by: 5.
Brunisholz RA and Zuber H () Primary structure analyses of bacterial antenna polypeptides: Correlation of aromatic amino acids with spectral properties.
Structural similarities with reaction center polypeptides. In: Scheer H and Schneider S (eds) Photosynthetic Light-Harvesting Systems: Organization and Function, pp –Cited by: 4. Functions of Chlorophylls in the Light-Harvesting Antenna Systems Organization of Chlorophylls and Carotenoids in Various Light-Harvesting Complexes Mechanisms of Energy Transfer in Photosynthetic Systems 5.
Opportunities Offered by Chlorophyll and Photosynthesis Research Glossary Bibliography Biographical Sketches SummaryFile Size: KB. Green algae and plants rely on light-harvesting complex II (LHCII) to collect photon energy for oxygenic photosynthesis.
In Chlamydomonas reinhardtii, Cited by: 1. In this paper, we explore quantum entanglement among the pigments in light-harvesting complex II (LHCII). LHCII is the most abundant photosynthetic antenna complex in plants containing over 50% of the world’s chlorophyll molecules [18].
As depicted in figure 1, the complex is a trimeric system composed of three monomeric subunits arranged Cited by:. It addresses the underlying physics of light harvesting and key spectroscopic methods, including data analysis. It discusses assembly of the natural system, its energy transfer properties, and regulatory mechanisms.
It also addresses light-harvesting in artificial systems and the impact of photosynthesis on our by: 8.In these light-harvesting systems, dozens, hundreds or even thousands of (bacterio)chlorophylls can funnel their excitation energy towards reaction centres for charge separation.
The green photosynthetic bacteria are anoxygenic phototrophs that contain unique antenna complexes, known as chlorosomes (Blankenship and Matsuura ).
A chlorosome Cited by: Modifications to light harvesting antenna in photosynthetic organisms for the purpose of increasing productivity have been a topic of considerable interest [4,5].In the unicellular model cyanobacterium Synechocystis sp.
PCC (hereafter Synechocystis ), the phycobilisome is a hemidiscoidal complex made up of a tricylindrical allophycocyanin core from which six phycocyanin rods radiate Cited by: 5.
