Beschreibung
This book covers the latest findings of a wide variety of viral, prokaryotic and eukaryotic macromolecular protein complexes and builds upon the solid macromolecular foundations established by previous volumes of theSubcellular Biochemistry series. Thus, an almost encyclopaedic coverage of the broad field of protein complex structure and function has been established.
The 17 interesting chapters included in this book have been organised into four sections: Soluble Protein Complexes, Membrane Protein Complexes, Fibrous Protein Complexes and Viral Protein Complexes. Significant topics present here are: Fatty Acid Synthase, the Fork Protection Complex, Ribonucleotide Reductase, the Kinetochore, G proteins, the FtsEX Complex, the Kainate Receptor, the Photosystem I-antenna, the Mycobacterial Arabinofuranosyltransferases, the the Bacterial Flagellum, the Actomyosin Complex, Motile Cilia, SLS Collagen Polymorphic Structures, and the Reovirus Capsid and Polymerase. Up-dates/expansion of chapter topics present in earlier volumes are now included in chapters here, e.g., those on Ferritin-like proteins and the Multi-tRNA Synthetase.
The book is richly illustrated throughout, the result of an impressive integration of structural data from X-ray crystallography and cryo-electron microscopy. The functional aspects of protein-protein interactions are also given a high priority.
Autorenportrait
J. Robin Harris is a retired structural biologist and electron microscopist. He is an Honorary Professor of the University of Mainz, Germany, where he worked with the group of Professor Juergen Markl, in the Institute of Zoology. Since taking retirement, Robin continued part-time research for a number of years at the University of Newcastle, UK, and acted as an Editor of the Elsevier journal
Micron and as Series Editor of the long-standing Springer book series
Subcellular Biochemistry.
Jon Marles-Wright obtained his PhD in structural biology from the University of Oxford, where he focused on understanding how human immune receptors interact with their targets. For his post-doctoral training he moved to the University of Newcastle, where his research focus moved to bacterial cell biology. In 2012 Jon was appointed to a two-year career development fellowship at the University of Newcastle where he developed his interest in the structural basis of metabolic compartmentalization within bacteria. This was followed by nearly four years at The University of Edinburgh as a Chancellors Fellow in the Institute of Structural and Molecular Biology and Centre for Systems and Synthetic Biology. Jon is currently a Senior Lecturer in Microbial Biotechnology in the School of Biology at Newcastle University.
Inhalt
Part 1: Soluble Protein Complexes.- Chapter 1: Fatty Acid Synthase: Structure, Function, and Regulation.- Chapter 2: ATP-binding cassette transporters: Snap-on complexes?.- Chapter 3: The Fork Protection Complex: A regulatory hub at the head of the replisome.- Chapter 4: Ferritin-like Proteins: A Conserved Core for a Myriad of Enzyme Complexes.- Chapter 5: Still no rest for the reductases: Ribonucleotide reductase (RNR) Structure and Function an update.- Chapter 6: Structure and Dynamics of the Human Multi-tRNA Synthetase Complex.- Chapter 7: On the regulation of mitosis by the kinetochore, a macromolecular complex and organising hub of eukaryotic organisms.- Part 2: Membrane Protein Complexes.- Chapter 8: The conformational dynamics of heterotrimeric G proteins during GPCR-mediated activation.- Chapter 9: Regulation of Lytic Machineries by the FtsEX Complex in the Bacterial Divisome.- Chapter 10 : Structure, Function, and Regulation of the Kainate Receptor.- Chapter 11: Structure, function and variations of the photosystem I-antenna supercomplex from different photosynthetic organisms.- Chapter 12: Structure and Function of Mycobacterial Arabinofuranosyltransferases.- Part 3: Fibrous Protein Complexes.- Chapter 13: Structure and assembly of the bacterial flagellum.- Chapter 14: Actomyosin Complex.- Chapter 15: Structure of motile cilia.- Chapter 16: Segment-Long-Spacing (SLS) and the Polymorphic Structures of Fibrillar Collagen.- Part 4: Virus Protein Complexes.- Chapter 17: Viral Capsid and Polymerase in Reoviridae.
Informationen zu E-Books
Herzlichen Glückwunsch zum Kauf eines Ebooks bei der BUCHBOX! Hier nun ein paar praktische Infos.
Adobe-ID
Hast du E-Books mit einem Kopierschutz (DRM) erworben, benötigst du dazu immer eine Adobe-ID. Bitte klicke einfach hier und trage dort Namen, Mailadresse und ein selbstgewähltes Passwort ein. Die Kombination von Mailadresse und Passwort ist deine Adobe-ID. Notiere sie dir bitte sorgfältig.
Achtung: Wenn du kopiergeschützte E-Books OHNE Vergabe einer Adobe-ID herunterlädst, kannst du diese niemals auf einem anderen Gerät außer auf deinem PC lesen!!
Lesen auf dem Tablet oder Handy
Wenn du auf deinem Tablet lesen möchtest, verwende eine dafür geeignete App.
Für iPad oder Iphone etc. hole dir im iTunes-Store die Lese-App Bluefire
Lesen auf einem E-Book-Reader oder am PC / MAC
Um die Dateien auf deinen PC herunter zu laden und auf dein E-Book-Lesegerät zu übertragen gibt es die Software ADE (Adobe Digital Editions).
Andere Geräte / Software
Kindle von Amazon. Wir empfehlen diese Geräte NICHT.
EPUB mit Adobe-DRM können nicht mit einem Kindle von Amazon gelesen werden. Weder das Dateiformat EPUB, noch der Kopierschutz Adobe-DRM sind mit dem Kindle kompatibel. Umgekehrt können alle bei Amazon gekauften E-Books nur auf dem Gerät von Amazon gelesen werden. Lesegeräte wie der Tolino sind im Gegensatz hierzu völlig frei: Du kannst bei vielen tausend Buchhandlungen online Ebooks für den Tolino kaufen. Zum Beispiel hier bei uns.
Software für Sony-E-Book-Reader
Computer/Laptop mit Unix oder Linux
Die Software Adobe Digital Editions ist mit Unix und Linux nicht kompatibel. Mit einer WINE-Virtualisierung kommst du aber dennoch an deine E-Books.