Order from a Major Online Bookstore
Ultimate Book Price Comparison Engine
Save Your Time And Money
| AnyBook4Less.com | Order from a Major Online Bookstore |
|
| Home | Store List | FAQ | Contact Us | | ||
| Ultimate Book Price Comparison Engine Save Your Time And Money |
||
 |
Title: Molecular Modeling and Simulation by Tamar Schlick ISBN: 0-387-95404-X Publisher: Springer Verlag Pub. Date: 19 August, 2002 Format: Hardcover Volumes: 1 List Price(USD): $79.95 |
Average Customer Rating: 5 (9 reviews)
Rating: 5
Summary: A long expected book in molecular modeling is finally here
Comment: I highly recommend Professor T. Schlick's book. It is beautifully written with many examples and great illustrations. The book is truly interdisciplinary; it covers, in good depth, both the biological and mathematical aspects of computational structural biology. Most chapters start with an amenable introduction and finish with "hands-on" recommendations and future challenges. I was particularly pleased with the level of detail in each chapter (in particular those that show the reader the advantages and pitfalls of the different methods presented). My colleague Mariel Vazquez and I used this book in the design and preparation of our "Special topics in Mathematics" course at the UC Berkeley Mathematics Department during the Spring of 2003.
This upper-level undergraduate/lower-level graduate course was centered on mathematical and computational models of the three dimensional structure of DNA, and DNA topology. We found Professor T. Schlick's book very useful in our class preparation. In particular we covered chapter 5 (DNA structure) completely, sections 3 and 4 from chapter 7 (basic principles and formulation of atomic interactions in molecular mechanics), and several sections or subsections from chapters 8 and 9 (force terms used in molecular dynamics simulations). We also covered most of the material in chapter 10 (Multivariate Minimization), and gave a brief introduction to chapter 11 (Monte-Carlo techniques) and chapter 12 (Molecular Dynamics algorithms).
Chapter 5 starts with a very amenable and brief introduction that relates DNA with other biological processes and describes some of the challenges in studying DNA structure. It continues describing the basic building blocks of DNA. The author wisely spends some time defining the nomenclature for each of the atoms, angles and bonds that form these basic blocks. The following sections teach the reader what parameters are relevant for describing a DNA double helix and how they characterize the A, B and Z- forms of DNA. Illustrations in this chapter are particularly helpful.
Although our course's approach to DNA supercoiling was different that the one in the book I found particularly useful some illustrations in chapter 6 and movies (to be found in her webpage) that Prof. Schlick's group has developed over the years. In brief, chapter 6 is a study of more complex structures and behavior of DNA (such as structural role of the DNA sequence, DNA-protein interactions, and higher order organization of DNA -i.e. DNA supercoiling and histone-DNA interactions). This chapter can be a good source for short research projects (e.g. final projects).
Chapters 7, 8 and 9 describe the basic concepts in molecular mechanics. From sections 7.3 and 7.4 I found of interest how the author addresses the problem of the system size (i.e. number of interacting molecules) and some of the details that the author gives for modeling the geometry of atomic interactions. At the end of the chapter (section 7.4.3) interested readers can find some of the limitations of current approaches. Chapters 8 and 9 describe in depth the force fields and how to implement them. Chapter 9 also illustrates with clarity how to implement periodic boundary conditions and the advantages of using different lattice models.
Chapter 10 describes a number of familiar methods for energy minimization (i.e. steepest descent, conjugate gradient, etc....). We used sections 10.1 to 10.4 and section 10.5.2 (conjugate gradient). I found the Hessian patterns shown in figures 10.4 and 10.5 and the minimization trajectories shown in 10.10 very pedagogical. As in previous chapters the author finishes with practical recommendations and future challenges.
We left chapter 11 (Monte Carlo methods) for last in the course and discussed chapter 12 (molecular dynamics) first. As in previous chapters the author gives a very nice introduction (section 12.1 and 12.2) and covers the basics on simulation protocols in sections 12.3 and 12.4. Section 12.4 describes the basic integration algorithms such as leap-frog, verlet, etc... Figure 12.3 was revealing for the students as it compares the time scales in biological systems.
Chapter 11 (Monte-Carlo methods) provides a very comprehensive introduction to Monte-Carlo methods. We found particularly useful some of the subsections of random number generation and the treatment of Importance sampling and Markov chains in section 11.5.
As mentioned earlier we were particularly delighted with the amount of details given in each topic. For example chapters 7 and 8 provide all the formalism needed for the problems of molecular mechanics. In section 8.4 (bond angle potential) the author highlights the differences (both formally and by figures-see figure 8.4) between different formulations of the problem (see also figure 8.6). In Chapter 10 the author describes minimization algorithms in detail and shows some of the patterns that one observes in the Hessian associated to minimization functions of biological structures (see figs. 10.4, 10.5 and 10.11). She also makes very detailed comparisons between the different minimization methods (see figs 10. 2, 10.10). In chapter 12 she compares the different methods and initial conditions for the algorithms discussed (figs 12.3, 12.4, 12.6).
Overall we found that Prof. T. Schlick's book is very adequate for a broad spectrum of levels and very accessible to both graduate and undergraduate students interested in mathematical modeling and computational biology. It is also very well organized facilitating the option of selecting parts of the material for the classroom or for use in one's research.
Rating: 5
Summary: Beautifully written!
Comment: As a person with no expertise in molecular modeling who wanted to learn about this field, this book is right on! I find the author's lively text to be as well-written and clear as any science textbook I have ever read. I especially enjoyed the first two chapters for their historical perspective and their practical illustrations of applications of genetics in the world today. These chapters can be understood by non-scientists, whereas the rest of the book is clearly designed for graduate students in any one of the science disciplines.
The interesting information sprinkled throughout the book, including the boxes and figures, help keep the reader stimulated and yearning for greater knowledge of this exciting field. The color graphics also complement the book nicely. Although the subject covered in the book is extremely broad, the author managed to convey the perspectives of multiple scientific disciplines (e.g., biology, chemistry, computer science, math) very well. The combination of breadth and depth in a readable style is remarkable.
Overall, I highly recommend this book to readers interested in the area.
Rating: 5
Summary: Never short of something exciting
Comment: It contains many many exiting problems and stimulate to go through the world of art of biology and mathematics. This book can guide the way where to go when you lost in the world of biomathematics, specifically molecular modeling. It looks like a well-organized dictionary with analysis. So it is good for a beginner and also deep-thinker in computational biology field.
 |
Title: Molecular Modelling: Principles and Applications (2nd Edition) by Andrew R. Leach ISBN: 0582382106 Publisher: Prentice Hall Pub. Date: 30 March, 2001 List Price(USD): $83.00 |
 |
Title: Understanding Molecular Simulation by Daan Frenkel, Berend Smit ISBN: 0122673514 Publisher: Academic Press Pub. Date: 15 October, 2001 List Price(USD): $62.95 |
 |
Title: Structural Bioinformatics by Philip E. Bourne, Helge Weissig ISBN: 0471201995 Publisher: Wiley-Liss Pub. Date: 07 February, 2003 List Price(USD): $69.95 |
 |
Title: Introduction to Protein Architecture: The Structural Biology of Proteins by Arthur M. Lesk ISBN: 0198504748 Publisher: Oxford University Press Pub. Date: 2001 List Price(USD): $59.50 |
 |
Title: Introduction to Protein Structure by Carl-Ivar Branden, John Tooze ISBN: 0815323050 Publisher: Garland Publishing Pub. Date: 15 January, 1999 List Price(USD): $54.95 |
Thank you for visiting www.AnyBook4Less.com and enjoy your savings!
Copyright� 2001-2021 Send your comments
