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Computational Methods For Analysis And Redesign Of Enzyme Active Sites
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Book Synopsis Computational Methods for Analysis and Redesign of Enzyme Active Sites by : Geoffrey Ryan Nosrati
Download or read book Computational Methods for Analysis and Redesign of Enzyme Active Sites written by Geoffrey Ryan Nosrati and published by . This book was released on 2012 with total page 147 pages. Available in PDF, EPUB and Kindle. Book excerpt: The rational design of enzymes and understanding of enzyme mechanisms both present a tremendous challenge in terms of both computational and experimental methodologies. In this work, we review the current state-of-the-art techniques in enzyme design and present a new computational method for active site redesign, called SABER (Selection of Active/Binding sites for Enzyme Redesign). This program was used to analyze both an existing enzyme redesign from the literature, o-succinyl benzoate synthase, and to predict new scaffolds that might be redesigned function similarly to a designed Kemp elimination enzyme. The logic behind the program is discussed in detail with examples taken from the code. Next, SABER was applied to the problem of predicting catalytic functionality in enzyme active sites. This methodology was used to analyze the active sites from two well-studied enzyme families, the serine proteases and the tyrosine phosphatases, and was found to predict catalytic function with high accuracy. It was then used to analyze the active site of orotidine 5'-monophosphate decarboxylase, an enzyme with an unknown mechanism, and used to support of an imminium-based mechanism of catalysis. Finally, a very challenging rational enzyme design process to catalyze an aromatic Claisen rearrangement is discussed. This led to the design and synthesis of six enzymes, none of which showed any rate acceleration versus the background reaction. During this work, an aromatic Claisen substrate that rearranges rapidly in water was discovered and characterized. This was used to highlight the difficulties in both the enzyme design process and in prediction of hydrogen-bond catalyzed reaction rates in water.
Book Synopsis Computational Methods for Modeling Enzymes by : Steven James Bertolani
Download or read book Computational Methods for Modeling Enzymes written by Steven James Bertolani and published by . This book was released on 2018 with total page pages. Available in PDF, EPUB and Kindle. Book excerpt: Enzymes play a crucial role in modern biotechnology, industry, food processing and medical applications. Since their first discovered industrial use, man has attempted to discover new enzymes from Nature to catalyze different chemical reactions. In modern times, with the advent of computational methods, protein structure solutions, protein sequencing and DNA synthesis methods, we now have the tools to enable new approaches to rational enzyme engineering. With an enzyme structure in hand, a researcher may run an in silico experiment to sample different amino acids in the active site in order to identify new combinations which likely stabilize a transition-state-enzyme model. A suggested mutation can then be encoded into the desired enzyme gene, ordered, synthesized and tested. Although this truly astonishing feat of engineering and modern biotechnology allows the redesign of existing enzymes to acquire a new substrate specificity, it still requires a large amount of time, capital and technical capabilities. Concurrently, while making strides in computational protein design, the cost of sequencing DNA plummeted after the turn of the century. With the reduced cost of sequencing, the number of sequences in public databases of naturally occurring proteins has grown exponentially. This new, large source of information can be utilized to enable rational enzyme design, as long as it can be coupled with accurate modeling of the protein sequences. This work first describes a novel approach to reengineering enzymes (Genome Enzyme Orthologue Mining; GEO) that utilizes the vast amount of protein sequences in modern databases along with extensive computation modeling and achieves comparable results to the state-of-the-art rational enzyme design methods. Then, inspired by the success of this new method and aware of it's reliance on the accuracy of the protein models, we created a computational benchmark to both measure the accuracy of our models as well as improve it by encoding additional information about the structure, derived from mechanistic studies (Catalytic Geometry constraints; CG). Lastly, we use the improved accuracy method to automatically model hundreds of putative enzymes sequences and dock substrates into them to extract important features that are then used to inform experiments and design. This is used to reengineer a ribonucleotide reductase to catalyze a aldehyde deformylating oxygenase reaction.These chapters advance the field of rational enzyme engineering, by providing a novel technique that may enable efficient routes to rationally design enzymes for reactions of interest. These chapters also advance the field of homology modeling, in the specific domain in which the researcher is modeling an enzyme with a known chemical reaction. Lastly, these chapters and techniques lead to an example which utilizes highly accurate computational models to create features which can help guide the rational design of enzyme catalysts.
Book Synopsis Catalysis in Chemistry and Enzymology by : William P. Jencks
Download or read book Catalysis in Chemistry and Enzymology written by William P. Jencks and published by Courier Corporation. This book was released on 1987-01-01 with total page 866 pages. Available in PDF, EPUB and Kindle. Book excerpt: Exceptionally clear coverage of mechanisms for catalysis, forces in aqueous solution, carbonyl- and acyl-group reactions, practical kinetics, more.
Book Synopsis Simulating Enzyme Reactivity by : Inaki Tunon
Download or read book Simulating Enzyme Reactivity written by Inaki Tunon and published by Royal Society of Chemistry. This book was released on 2016-11-25 with total page 558 pages. Available in PDF, EPUB and Kindle. Book excerpt: Exploring the theories, methodologies and applications in simulations of enzymatic reactions, this book is a great resource for postgraduate students and researchers.
Book Synopsis Computational Techniques for the Study of Enzyme Active Sites by : Andrew Campbell Wallace
Download or read book Computational Techniques for the Study of Enzyme Active Sites written by Andrew Campbell Wallace and published by . This book was released on 1996 with total page pages. Available in PDF, EPUB and Kindle. Book excerpt:
Book Synopsis Biocatalysis for Practitioners by : Gonzalo de Gonzalo
Download or read book Biocatalysis for Practitioners written by Gonzalo de Gonzalo and published by John Wiley & Sons. This book was released on 2021-04-09 with total page 528 pages. Available in PDF, EPUB and Kindle. Book excerpt: This reference book originates from the interdisciplinary research cooperation between academia and industry. In three distinct parts, latest results from basic research on stable enzymes are explained and brought into context with possible industrial applications. Downstream processing technology as well as biocatalytic and biotechnological production processes from global players display the enormous potential of biocatalysts. Application of "extreme" reaction conditions (i.e. unconventional, such as high temperature, pressure, and pH value) - biocatalysts are normally used within a well defined process window - leads to novel synthetic effects. Both novel enzyme systems and the synthetic routes in which they can be applied are made accessible to the reader. In addition, the complementary innovative process technology under unconventional conditions is highlighted by latest examples from biotech industry.
Book Synopsis Protein Engineering by : Huimin Zhao
Download or read book Protein Engineering written by Huimin Zhao and published by John Wiley & Sons. This book was released on 2021-08-23 with total page 41 pages. Available in PDF, EPUB and Kindle. Book excerpt: A one-stop reference that reviews protein design strategies to applications in industrial and medical biotechnology Protein Engineering: Tools and Applications is a comprehensive resource that offers a systematic and comprehensive review of the most recent advances in the field, and contains detailed information on the methodologies and strategies behind these approaches. The authors—noted experts on the topic—explore the distinctive advantages and disadvantages of the presented methodologies and strategies in a targeted and focused manner that allows for the adaptation and implementation of the strategies for new applications. The book contains information on the directed evolution, rational design, and semi-rational design of proteins and offers a review of the most recent applications in industrial and medical biotechnology. This important book: Covers technologies and methodologies used in protein engineering Includes the strategies behind the approaches, designed to help with the adaptation and implementation of these strategies for new applications Offers a comprehensive and thorough treatment of protein engineering from primary strategies to applications in industrial and medical biotechnology Presents cutting edge advances in the continuously evolving field of protein engineering Written for students and professionals of bioengineering, biotechnology, biochemistry, Protein Engineering: Tools and Applications offers an essential resource to the design strategies in protein engineering and reviews recent applications.
Download or read book RECOMB 2004 written by Dan Gusfield and published by Association for Computing Machinery (ACM). This book was released on 2004 with total page 376 pages. Available in PDF, EPUB and Kindle. Book excerpt:
Book Synopsis Modern Developments In Catalysis by : Graham J Hutchings
Download or read book Modern Developments In Catalysis written by Graham J Hutchings and published by World Scientific. This book was released on 2016-11-14 with total page 347 pages. Available in PDF, EPUB and Kindle. Book excerpt: The UK Catalysis Hub is a consortium of universities working together on fundamental and applied research to find out how catalysts work and to improve their effectiveness. The contribution of catalysis to manufacturing contributes to almost 40% of global GDP, making development and innovation within the field integral to industry.Modern Developments in Catalysis provides a review of current research and practise on catalysis, focussing on five main themes: catalysis design, environmental catalysis, catalysis and energy, chemical transformation and biocatalysis and biotransformations. Topics range from complex reactions to the intricacies of catalyst preparation for supported nanoparticles, while chapters illustrate the challenges facing catalytic science and the directions in which the field is developing. Edited by leaders of the UK Hub, this book provides insight into one of the most important areas of modern chemistry — it represents a unique learning opportunity for students and professionals studying and working towards speeding-up, improving and increasing the rate of catalytic reactions in science and industry.
Book Synopsis Proceedings of the ... Annual International Conference on Research in Computational Molecular Biology by :
Download or read book Proceedings of the ... Annual International Conference on Research in Computational Molecular Biology written by and published by . This book was released on 2004 with total page 382 pages. Available in PDF, EPUB and Kindle. Book excerpt:
Book Synopsis Structural Characterization, Computational Analysis and Redesign of SHV-1 Beta-lactamase by : Kimberly Ann Reynolds
Download or read book Structural Characterization, Computational Analysis and Redesign of SHV-1 Beta-lactamase written by Kimberly Ann Reynolds and published by . This book was released on 2006 with total page 248 pages. Available in PDF, EPUB and Kindle. Book excerpt:
Book Synopsis Proceedings of the ... Annual International Conference on Computational Molecular Biology by :
Download or read book Proceedings of the ... Annual International Conference on Computational Molecular Biology written by and published by . This book was released on 2004 with total page 378 pages. Available in PDF, EPUB and Kindle. Book excerpt:
Book Synopsis Computational Approaches to Understand the Atomistic Drivers of Enzyme Catalysis by : Natasha Seelam
Download or read book Computational Approaches to Understand the Atomistic Drivers of Enzyme Catalysis written by Natasha Seelam and published by . This book was released on 2021 with total page 213 pages. Available in PDF, EPUB and Kindle. Book excerpt: Enzymes readily perform chemical reactions several orders of magnitude faster than their uncatalyzed versions in ambient conditions with high specificity, making them attractive design targets for industrial purposes. Traditionally, enzyme reactivity has been contextualized through transition-state theory (TST), in which catalytic strategies are described by their ability to minimize the activation energy to cross the reaction barrier through a combination of ground-state destabilization (GSD) and transition-state stabilization (TSS). While excellent progress has been made to rationally design enzymes, the complexity of the design space and the highly optimized nature of enzymes make general application of these approaches difficult. This thesis presents a set of computational methods and applications in order to investigate the larger perspective of enzyme-assisted kinetic processes. For the first part of the thesis, we analyzed the energetics and dynamics of proficient catalyst orotidine 5'-monophosphate decarboxylase (OMPDC), an enzyme that catalyzes decarboxylation nearly 17 orders of magnitude more proficiently than the uncatalyzed reaction in aqueous solvent. Potential-of-mean-force (PMF) calculations on wild type (WT) and two catalytically hindered mutants, S127A and V155D (representing TSS and GSD, respectively), characterized the energy barriers associated with decarboxylation as a function of two parameters: the distance between the breaking C–C bond and a proton-transfer coordinate from the nearby side chain of K72, a conserved lysine in the active site. Coupling PMF analyses with transition path sampling (TPS) approaches revealed two distinct decarboxylation strategies: a simultaneous, K72-assisted pathway and a stepwise, relatively K72-independent pathway. Both PMF and TPS rate calculations reasonably reproduced the empirical differences in relative rates between WT and mutant systems, suggesting these approaches can enable in silico inquiry into both pathway and mechanism identification in enzyme kinetics. For the second study, we investigated the electronic determinants of reactivity, using the enzyme ketol-acid reductoisomerase (KARI). KARI catalyzes first a methyl isomerization and then reduction with an active site comprised of several polar residues, two magnesium divalent cations, and NADPH. This study focused on isomerization, which is rate limiting, with two objectives: characterization of chemical mechanism in successful catalytic events (“reactive”) versus failed attempts to cross the barrier ("non-reactive"), and the interplay between atomic positions, electronic descriptors, and reactivity. Natural bonding orbital (NBO) analyses provided detailed electronic description of the dynamics through the reaction and revealed that successful catalytic events crossed the reaction barrier through a 3-center-2-electron (3C) bond, concurrent to isomerization of hydroxyl/carbonyls on the substrate. Interestingly, the non-reactive ensemble adopted a similar electronic pathway as the reactive ensemble, but its members were generally unable to form and sustain the 3C bond. Supervised machine learning classifiers then identified small subsets of geometric and electronic descriptors, “features”, that predicted reactivity; our results indicated that fewer electronic features were able to predict reactivity as effectively as a larger set of geometric features. Of these electronic features, the models selected diverse descriptors representing several facets of the chemical mechanism (charge, breaking–bond order, atomic orbital hybridization states, etc.). We then inquired how geometric features reported on electronic features with classifiers that leveraged pairs of geometric features to predict the relative magnitude of each electronic feature. Our findings indicated that the geometric, pair-feature models predicted electronic structure with comparable performance as cumulative geometric models, suggesting small subsets of features were capable of reporting on electronic descriptors, and that different subsets could be leveraged to describe various aspects of a chemical mechanism. Lastly, we revisited OMPDC in order to learn the key geometric features that distinguished between the simultaneous and stepwise pathways of decarboxylation, aggregating and labeling pathways drawn from WT and mutant systems ensembles. We leveraged classifiers that predicted between reactive pathways by selecting small subsets of structural features from 620 geometric features comprised of atoms from the active site. The classifiers performed comparably, with greater than 80% testing accuracy and AUC, between times starting from in the reactant basin to 30 fs into crossing the reaction barrier. Remarkably, model-selected features reported on chemically meaningful interactions despite no explicit prior knowledge of the mechanism in training. To illustrate this, we focused analyses on two particular features shown to be predictive while in the reactant basin, prior to crossing the barrier: a potential hydrogen-bond between D75*, an aspartate in the active site, and the 2'-hydroxyl of OMP, and electrostatic repulsion through the proximity of a different aspartate, D70, to the leaving group carboxylate of OMP. Analysis between the simultaneous and stepwise ensembles demonstrated that the simultaneous ensemble adopted shorter distances for both features, generally suggesting stronger interactions. Both features were additionally shown to be associated with the ability to distort the planarity of the orotidyl ring, where shorter distances for either feature were correlated with larger degrees of distortion. Taken together, this suggested the simultaneous ensemble was more effective at distorting the ground state structure prior to crossing the reaction barrier.
Book Synopsis ENZYMES: Catalysis, Kinetics and Mechanisms by : N.S. Punekar
Download or read book ENZYMES: Catalysis, Kinetics and Mechanisms written by N.S. Punekar and published by Springer. This book was released on 2018-11-11 with total page 562 pages. Available in PDF, EPUB and Kindle. Book excerpt: This enzymology textbook for graduate and advanced undergraduate students covers the syllabi of most universities where this subject is regularly taught. It focuses on the synchrony between the two broad mechanistic facets of enzymology: the chemical and the kinetic, and also highlights the synergy between enzyme structure and mechanism. Designed for self-study, it explains how to plan enzyme experiments and subsequently analyze the data collected. The book is divided into five major sections: 1] Introduction to enzymes, 2] Practical aspects, 3] Kinetic Mechanisms, 4] Chemical Mechanisms, and 5] Enzymology Frontiers. Individual concepts are treated as stand-alone chapters; readers can explore any single concept with minimal cross-referencing to the rest of the book. Further, complex approaches requiring specialized techniques and involved experimentation (beyond the reach of an average laboratory) are covered in theory with suitable references to guide readers. The book provides students, researchers and academics in the broad area of biology with a sound theoretical and practical knowledge of enzymes. It also caters to those who do not have a practicing enzymologist to teach them the subject.
Book Synopsis Development and Applications of Computational Enzyme Engineering Tools by : Matthew Grisewood
Download or read book Development and Applications of Computational Enzyme Engineering Tools written by Matthew Grisewood and published by . This book was released on 2018 with total page pages. Available in PDF, EPUB and Kindle. Book excerpt: Proteins are biological polymers that have diverse functions, including antibodies that protect the body from viruses, transport proteins that regulate intracellular ion concentrations, and enzymes that catalyze chemical reactions. Despite their natural prevalence, many instances still remain where an environmentally available protein does not exist, or is not known, for a given application. In these instances, it is possible to use protein engineering techniques to address a specific application. While purely experimental approaches are readily available to engineer proteins, these methods are often laborious or infeasible for more complicated systems. Computational protein engineering procedures can screen larger numbers of protein variants and direct the designed variants to promising regions of the sequence space. The Iterative Protein Redesign and Optimization procedure (IPRO) is a computational protein engineering tool that incorporates random backbone perturbations with deterministic amino acid selection procedures, followed by several steps to refine the protein-ligand structure, to improve or reduce binding for a given target, or multiple targets. First, relationships were derived between computationally-accessible interaction energies and enzyme catalytic properties, namely KM, kcat, and kcat/KM. Through the use of these relationships, which were validated using existing literature, a new computational procedure named OptZyme was developed to redesign enzymes using the IPRO framework. Several methods for diverse applications, ranging from de novo antibody design to binding site translocation, incorporated the IPRO framework and were assembled into a single platform so that these programs can be more easily accessed and used by users. OptZyme was used within this updated platform to improve substrate specificity (i.e., KM) for medium-chain fatty acyl-ACPs. By tailoring the chain length of the substrate, the chemical properties of the produced free fatty acids are changed. Mutations that form a continuous hydrophobic surface with the -1 atom of an acyl-ACP were shown to be selective for that chain length. Finally, the ability to anaerobically oxidize methane to create liquid fuels is presumed to be kinetically-limited, but as of yet, the step that controls the net oxidation rate has not been firmly established. Multiple scenarios were devised that considered plausible limiting steps for the anaerobic oxidation of methane. Two of the case studies focused on improving catalysis by using OptZyme, while another used a simple IPRO formulation to alter cofactor specificity. Based on a detailed literature review, the rate of product unbinding from the active site of methyl-coenzyme M reductase was suggested to limit methane oxidation kinetics. For the final case study, a novel amino acid selection step was developed to consider multiple design criteria at once. It was used to improve the rate of product release for methyl-coenzyme M reductase and suggested large, multi-conformational, hydrophobic side chains. By improving the rate of methane oxidation, the economics of methane-to-liquid fuel bioconversion becomes more propitious.
Book Synopsis Applied Biocatalysis by : Lutz Hilterhaus
Download or read book Applied Biocatalysis written by Lutz Hilterhaus and published by John Wiley & Sons. This book was released on 2016-09-13 with total page 464 pages. Available in PDF, EPUB and Kindle. Book excerpt: This reference book originates from the interdisciplinary research cooperation between academia and industry. In three distinct parts, latest results from basic research on stable enzymes are explained and brought into context with possible industrial applications. Downstream processing technology as well as biocatalytic and biotechnological production processes from global players display the enormous potential of biocatalysts. Application of "extreme" reaction conditions (i.e. unconventional, such as high temperature, pressure, and pH value) - biocatalysts are normally used within a well defined process window - leads to novel synthetic effects. Both novel enzyme systems and the synthetic routes in which they can be applied are made accessible to the reader. In addition, the complementary innovative process technology under unconventional conditions is highlighted by latest examples from biotech industry.
Book Synopsis Metabolic Pathway Design by : Pablo Carbonell
Download or read book Metabolic Pathway Design written by Pablo Carbonell and published by Springer Nature. This book was released on 2019-11-05 with total page 168 pages. Available in PDF, EPUB and Kindle. Book excerpt: This textbook presents solid tools for in silico engineering biology, offering students a step-by-step guide to mastering the smart design of metabolic pathways. The first part explains the Design-Build-Test-Learn-cycle engineering approach to biology, discussing the basic tools to model biological and chemistry-based systems. Using these basic tools, the second part focuses on various computational protocols for metabolic pathway design, from enzyme selection to pathway discovery and enumeration. In the context of industrial biotechnology, the final part helps readers understand the challenges of scaling up and optimisation. By working with the free programming language Scientific Python, this book provides easily accessible tools for studying and learning the principles of modern in silico metabolic pathway design. Intended for advanced undergraduates and master’s students in biotechnology, biomedical engineering, bioinformatics and systems biology students, the introductory sections make it also useful for beginners wanting to learn the basics of scientific coding and find real-world, hands-on examples.
