Voltage-Sensitive Ion Channels
H.Richard Leuchtag
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Description for Voltage-Sensitive Ion Channels
Paperback. Num Pages: 556 pages, biography. BIC Classification: PSB. Category: (P) Professional & Vocational. Dimension: 234 x 156 x 28. Weight in Grams: 842.
The goal of this book is to explore the complexity of a microscopic bit of matter that exists in a myriad of copies within our bodies, the voltage-sensitive ion channel. We seek to investigate the way in which these macromolecules make it possible for the long fibers of our nerve and muscle cells to conduct impulses. These integral components of cell membranes are marvels of nature's evolutionary adaptation. To understand them we must probe the boundaries of physics and chemistry. Since function is intimately related to structure, we examine the molecular structure of channels, focusing on physical principles that govern ... Read more
The goal of this book is to explore the complexity of a microscopic bit of matter that exists in a myriad of copies within our bodies, the voltage-sensitive ion channel. We seek to investigate the way in which these macromolecules make it possible for the long fibers of our nerve and muscle cells to conduct impulses. These integral components of cell membranes are marvels of nature's evolutionary adaptation. To understand them we must probe the boundaries of physics and chemistry. Since function is intimately related to structure, we examine the molecular structure of channels, focusing on physical principles that govern ... Read more
Product Details
Format
Paperback
Publication date
2010
Publisher
Springer Netherlands
Number of pages
556
Condition
New
Number of Pages
532
Place of Publication
Dordrecht, Netherlands
ISBN
9789048173846
SKU
V9789048173846
Shipping Time
Usually ships in 15 to 20 working days
Ref
99-15
Reviews for Voltage-Sensitive Ion Channels
From the reviews: "...this well-written and thoroughly researched book is Dr. Leuchtag’s crowning achievement as it presents ion channel structure and function painted on a broad canvass of biological, physical and mathematical backdrop that is needed to properly understand these small yet hugely important biological switches." Prof. Jack Tuszynski: Allard Research Chair Division of Experimental Oncology, Room 3336, ... Read more