Thermostable Proteins Structural Stability and Design
“Thermostable Proteins: Structural Stability and Design” by Srikanta Sen, published by CRC Press on October 10, 2011, is a detailed exploration of the physical principles underlying the stability of thermophilic proteins and the design of customized thermostable proteins for potential industrial applications. This edition, comprising 187 pages, delves into the survival mechanisms of thermophilic life forms at the molecular level, emphasizing design strategies that enhance protein stability.
Readers will find a comprehensive overview of protein thermostability research, including fundamental structural, thermodynamic, and kinetic principles. The book discusses molecular strategies for adapting to high temperatures and covers topics such as computing and simulation methods in thermostability research, rigidity theory for improving thermal adaptation, and the engineering applications of subtilisin-like serine proteases. Additionally, it addresses the relationship between structure and function, as well as computational and experimental approaches for designing proteins with increased thermal stability. This work contributes to a deeper understanding of protein stability and its implications for biological functions.
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Thermostable Proteins: Structural Stability and Design provides a comprehensive, updated account of the physical basis of enhanced stability of thermophilic proteins and the design of tailor-made thermostable proteins, paving the way for their possible industrial applications. This book is devoted to understanding the survival mechanisms of “thermophilic life forms” at the molecular level with an emphasis on design strategies.
The review chapters presented in Thermostable Proteins span a wide range of protein thermostability research. Basic structural, thermodynamic, and kinetic principles are explained and molecular strategies for the adaptation to high temperatures are delineated. In addition, this book covers:
- Computing and simulation methods in current and future thermostability research, especially in nonempirical situations
- How rigidity theory is used to improve the thermal adaptation of mesophiles
- Subtilisin-like serine proteases and their significant engineering applications
- The state of knowledge concerning structure–function relations and the origins of their structural stability
- Computational and experimental approaches for the design of proteins with increased thermal stability based on sequences or three-dimensional structures
Understanding the molecular basis of how thermostable and hyperthermostable proteins gain and maintain their stability and biological function at high temperatures remains an important scientific challenge. A more detailed knowledge of protein stability not only deepens our understanding of protein structure but also helps in obtaining insights into processes that drive protein activities—folding, unfolding, and misfolding—essential to biological function.
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