Set My Store
menu
Cart
{ "item_title" : "Computational Protein Design", "item_author" : [" Ilan Samish "], "item_description" : "Part I: Computational Protein Design1. The Framework of Computational Protein DesignIlan Samish2. Achievements and Challenges in Computational Protein DesignIlan Samish3. Production of Computationally Designed Small Soluble- and Membrane-Proteins: Cloning, Expression and PurificationBarsha Tripathy and Rudresh Acharya4. Deterministic Search methods for Computational Protein DesignSeydou Traor , David Allouche, Isabelle AndrThomas Schiex, and Sophie Barbe5. Geometric Potentials for Computational Protein Sequence DesignJie Li and Patrice Koehl 6. Modeling Binding Affinity of Pathological Mutations for Computational Protein DesignMiguel Romero-Durana, Chiara Pallara, Fabian Glaser, and Juan Fern ndez-Recio7. Multistate Computational Protein Design with Backbone EnsemblesJames A. Davey and Roberto A. Chica8. Integration of Molecular Dynamics Based Predictions into the Optimization of de novo Protein Designs: Limitations and BenefitsHenrique F. Carvalho, Arm nio J. M. Barbosa, Ana C. A. Roque, Olga Iranzo, and Ricardo J. F. Branco9. Applications of Normal Mode Analysis Methods in Computational Protein DesignVincent Frappier, Matthieu Chartier, and Rafael NajmanovichPart II: Software of Computational Protein Design Applications10. Computational Protein Design Under a Given backbone Structure with a Statistical Energy FunctionPeng Xiong, Quan Chen, and Haiyan Liu11. Computational Protein Design Through Grafting and StabilizationCheng Zhu, David D. Mowrey, and Nikolay V. Dokholyan12. An Evolution Based Approach to de novo Protein DesignJeffrey R. Brender, David Shultis, Naureen Aslam, and Yang Zhang13. Parallel Computational Protein Design Yichao Zhou, Bruce R. Donald, and Jianyang Zeng14. BindML/BindML+: Detecting Protein-Protein Interaction Interface Propensity from Amino Acid Substitution PatternsQing Wei, David La, and Daisuke Kihara15. OSPREY Predicts Resistance Mutations using Positive and Negative Computational Protein DesignAdegoke Ojewole, Anna Lowegard, Pablo Gainza, Stephanie M. Reeve, Ivelin Georgiev, Amy C. Anderson, and Bruce R. DonaldPart III: Computational Protein Design of Specific Targets16. Evolution-inspired Computational Design of Symmetric ProteinsArnout R.D. Voet, David Simoncini, Jeremy R.H. Tame, and Kam Y. J. Zhang17. A Protocol for the Design of Protein and Peptide Nanostructure Self-assemblies Exploiting Synthetic Amino AcidsNurit Haspel, Jie Zheng, Carlos Aleman, David Zanuy, and Ruth Nussinov18. Probing Oligomerized Conformations of Defensin in the MembraneWenxun Gan, Dina Schneidman, Ning Zhang, Buyong Ma, and Ruth Nussinov19. Computational Design of Ligand Binding ProteinsChristine E. Tinberg and Sagar D. Khare20. EpiSweep: Computationally-driven Reengineering of Therapeutic Proteins to Reduce Immunogenicity while Maintaining FunctionYoonjoo Choi, Deeptak Verma, Karl E. Griswold, and Chris Bailey-Kellogg21. Computational Tools for Aiding Rational Antibody DesignKonrad Krawczyk, James Dunbar, and Charlotte M Deane22. Computational Design of Membrane Curvature-Sensing PeptidesArmando Jerome de Jesus and Hang Yin23. Computational Tools for Allosteric Drug Discovery: Site Identification and", "item_img_path" : "https://covers1.booksamillion.com/covers/bam/1/49/396/635/1493966359_b.jpg", "price_data" : { "retail_price" : "179.99", "online_price" : "179.99", "our_price" : "179.99", "club_price" : "179.99", "savings_pct" : "0", "savings_amt" : "0.00", "club_savings_pct" : "0", "club_savings_amt" : "0.00", "discount_pct" : "10", "store_price" : "" } }
Computational Protein Design|Ilan Samish

Computational Protein Design

local_shippingShip to Me
In Stock.
FREE Shipping for Club Members help
storeIn-Store Pickup
search store by zipcode

Overview

Part I: Computational Protein Design1. The Framework of Computational Protein DesignIlan Samish
2. Achievements and Challenges in Computational Protein DesignIlan Samish
3. Production of Computationally Designed Small Soluble- and Membrane-Proteins: Cloning, Expression and PurificationBarsha Tripathy and Rudresh Acharya
4. Deterministic Search methods for Computational Protein DesignSeydou Traor , David Allouche, Isabelle Andr Thomas Schiex, and Sophie Barbe
5. Geometric Potentials for Computational Protein Sequence DesignJie Li and Patrice Koehl
6. Modeling Binding Affinity of Pathological Mutations for Computational Protein DesignMiguel Romero-Durana, Chiara Pallara, Fabian Glaser, and Juan Fern ndez-Recio
7. Multistate Computational Protein Design with Backbone EnsemblesJames A. Davey and Roberto A. Chica
8. Integration of Molecular Dynamics Based Predictions into the Optimization of de novo Protein Designs: Limitations and BenefitsHenrique F. Carvalho, Arm nio J. M. Barbosa, Ana C. A. Roque, Olga Iranzo, and Ricardo J. F. Branco
9. Applications of Normal Mode Analysis Methods in Computational Protein DesignVincent Frappier, Matthieu Chartier, and Rafael NajmanovichPart II: Software of Computational Protein Design Applications10. Computational Protein Design Under a Given backbone Structure with a Statistical Energy FunctionPeng Xiong, Quan Chen, and Haiyan Liu
11. Computational Protein Design Through Grafting and StabilizationCheng Zhu, David D. Mowrey, and Nikolay V. Dokholyan
12. An Evolution Based Approach to de novo Protein DesignJeffrey R. Brender, David Shultis, Naureen Aslam, and Yang Zhang
13. Parallel Computational Protein Design Yichao Zhou, Bruce R. Donald, and Jianyang Zeng
14. BindML/BindML+: Detecting Protein-Protein Interaction Interface Propensity from Amino Acid Substitution PatternsQing Wei, David La, and Daisuke Kihara
15. OSPREY Predicts Resistance Mutations using Positive and Negative Computational Protein DesignAdegoke Ojewole, Anna Lowegard, Pablo Gainza, Stephanie M. Reeve, Ivelin Georgiev, Amy C. Anderson, and Bruce R. DonaldPart III: Computational Protein Design of Specific Targets16. Evolution-inspired Computational Design of Symmetric ProteinsArnout R.D. Voet, David Simoncini, Jeremy R.H. Tame, and Kam Y. J. Zhang
17. A Protocol for the Design of Protein and Peptide Nanostructure Self-assemblies Exploiting Synthetic Amino AcidsNurit Haspel, Jie Zheng, Carlos Aleman, David Zanuy, and Ruth Nussinov
18. Probing Oligomerized Conformations of Defensin in the MembraneWenxun Gan, Dina Schneidman, Ning Zhang, Buyong Ma, and Ruth Nussinov
19. Computational Design of Ligand Binding ProteinsChristine E. Tinberg and Sagar D. Khare
20. EpiSweep: Computationally-driven Reengineering of Therapeutic Proteins to Reduce Immunogenicity while Maintaining FunctionYoonjoo Choi, Deeptak Verma, Karl E. Griswold, and Chris Bailey-Kellogg
21. Computational Tools for Aiding Rational Antibody DesignKonrad Krawczyk, James Dunbar, and Charlotte M Deane
22. Computational Design of Membrane Curvature-Sensing PeptidesArmando Jerome de Jesus and Hang Yin
23. Computational Tools for Allosteric Drug Discovery: Site Identification and

This item is Non-Returnable

Details

  • ISBN-13: 9781493966356
  • ISBN-10: 1493966359
  • Publisher: Humana
  • Publish Date: December 2016
  • Dimensions: 10 x 7 x 1 inches
  • Shipping Weight: 2.24 pounds
  • Page Count: 450

Related Categories

    1. Books
    2. Science
    3. Life Sciences - Biochemistry
    1. Books
    2. Science
    3. Life Sciences - Molecular Biology

You May Also Like...

    1

BAM Customer Reviews