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The use of thermodynamics in biological research can be equated to an energy book-keeping system. While the structure and function of a molecule is important, it is equally important to know what drives the energy force. This volume presents sophisticated methods for estimating the thermodynamic parameters of specific protein-protein, protein-DNA and small molecule interactions. - Elucidates the relationships between structure and energetics and their applications to molecular design, aiding researchers in the design of medically important molecules - Provides a "must-have" methods volume that keeps MIE buyers and online subscribers up-to-date with the latest research - Offers step-by-step lab instructions, including necessary equipment, from a global research community
In the last several years there has been an explosion in the ability of biologists, molecular biologists and biochemists to collect vast amounts of data on their systems. This volume presents sophisticated methods for estimating the thermodynamic parameters of specific protein-protein, protein-DNA and small molecule interactions.
In the past several years, there has been an explosion in the ability of biologists, molecular biologists and biochemists to collect vast amounts of data on their systems. This volume presents sophisticated methods for estimating the thermodynamic parameters of specific protein-protein, protein-DNA and small molecule interactions. The use of thermodynamics in biological research is used as an "energy book-keeping system. While the structure and function of a molecule is important, it is equally important to know what drives the energy force. These methods look to answer: What are the sources of energy that drive the function? Which of the pathways are of biological significance? As the base of macromolecular structures continues to expand through powerful techniques of molecular biology, such as X-ray crystal data and spectroscopy methods, the importance of tested and reliable methods for answering these questions will continue to expand as well.
In the past several years, there has been an explosion in the ability of biologists, molecular biologists and biochemists to collect vast amounts of data on their systems. Biothermodynamics, Part C presents sophisticated methods for estimating the thermodynamic parameters of specific protein-protein, protein-DNA and small molecule interactions. The use of thermodynamics in biological research is used as an “energy book-keeping system. While the structure and function of a molecule is important, it is equally important to know what drives the energy force. These methods look to answer: What are the sources of energy that drive the function? Which of the pathways are of biological significance? As the base of macromolecular structures continues to expand through powerful techniques of molecular biology, such as X-ray crystal data and spectroscopy methods, the importance of tested and reliable methods for answering these questions will continue to expand as well. Elucidates the relationships between structure and energetics and their applications to molecular design, aiding researchers in the design of medically important molecules Provides a "must-have" methods volume that keeps MIE buyers and online subscribers up-to-date with the latest research Offers step-by-step lab instructions, including necessary equipment, from a global research community
Synthetic biology encompasses a variety of different approaches, methodologies and disciplines, and many different definitions exist. This Volume of Methods in Enzymology has been split into 2 Parts and covers topics such as Measuring and Engineering Central Dogma Processes, Mathematical and Computational Methods and Next-Generation DNA Assembly and Manipulation. - Encompasses a variety of different approaches, methodologies and disciplines - Split into 2 parts and covers topics such as measuring and engineering central dogma processes, mathematical and computational methods and next-generation DNA assembly and manipulation
Synthetic biology encompasses a variety of different approaches, methodologies and disciplines, and many different definitions exist. This Volume of Methods in Enzymology has been split into 2 Parts and covers topics such as Measuring and Engineering Central Dogma Processes, Mathematical and Computational Methods and Next-Generation DNA Assembly and Manipulation. - Encompasses a variety of different approaches, methodologies and disciplines - Split into 2 parts and covers topics such as measuring and engineering central dogma processes, mathematical and computational methods and next-generation DNA assembly and manipulation
Synthetic biology encompasses a variety of different approaches, methodologies and disciplines and many different definitions exist. This volume covers topics such as measuring and engineering central dogma processes, mathematical and computational methods and next-generation DNA assembly and manipulation.
This volume of Methods in Enzymology looks at Protein Engineering for Therapeutics. The chapters provide an invaluable resource for academics, researchers and students alike. With an international board of authors, this volume is split into sections that cover subjects such as Peptides, and Scaffolds - Chapters provide an invaluable resource for academics, researchers and students alike - Iinternational board of authors - This volume is split into sections that cover subjects such as peptides, and scaffolds
This volume of Methods in Enzymology looks at Protein Engineering for Therapeutics. The chapters provide an invaluable resource for academics, researchers and students alike. With an international board of authors, this volume is split into sections that cover subjects such as Antibodies, Protein conjugates, Peptides, Enzymes and Scaffolds Chapters provide an invaluable resource for academics, researchers and students alike Iinternational board of authors This volume is split into sections that cover subjects such as Antibodies, Protein conjugates, Peptides, Enzymes and Scaffolds