136,99 €
inkl. MwSt.
Versandkostenfrei*
Versandfertig in über 4 Wochen
payback
68 °P sammeln
  • Gebundenes Buch

Dyneins: Structure, Biology and Disease, Second Edition, offers a broad view of dyneins mechanics, dysfunction, and disease, providing an overview of dyneins from structure and function, to dysfunction and disease.
Since the first edition, enormous strides have been taken in understanding dynein structure, its organization in the axoneme, single molecule motor mechanics, and the consequences of defects for human biology, disease, and development.
To account for these enormous strides, the second edition is extensively revised. Additionally, the coverage has expanded from 24 to 42
…mehr

Produktbeschreibung
Dyneins: Structure, Biology and Disease, Second Edition, offers a broad view of dyneins mechanics, dysfunction, and disease, providing an overview of dyneins from structure and function, to dysfunction and disease.

Since the first edition, enormous strides have been taken in understanding dynein structure, its organization in the axoneme, single molecule motor mechanics, and the consequences of defects for human biology, disease, and development.

To account for these enormous strides, the second edition is extensively revised. Additionally, the coverage has expanded from 24 to 42 chapters, and is now housed in two volumes. Much of the expanded coverage occurs in Volume 2 which focuses on dynein dysfunction and disease, such as the role of dynein and cancer.

Volume 1 covers the history and evolution of dyneins, dyneins in ciliary biology, and cytoplasmic dynein biology, while Volume 2 covers the structure and mechanics of dynein motors and dynein dysfunction and disease.

Hinweis: Dieser Artikel kann nur an eine deutsche Lieferadresse ausgeliefert werden.
Autorenporträt
Stephen M. King is Professor of Molecular Biology and Biophysics at the University of Connecticut School of Medicine and is also director of the electron microscopy facility. He has studied the structure, function and regulation of dyneins for over 30 years using a broad array of methodologies including classical/molecular genetics, protein biochemistry, NMR structural biology and molecular modeling, combined with cell biological approaches, imaging and physiological measurements.