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Protein Expression Technologies

Protein Expression Technologies
Author: François Baneyx
Publisher: Garland Science
Total Pages: 546
Release: 2004
Genre: Medical
ISBN: 9780954523251
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Advances in protein expression technologies have mushroomed in recent years. In this book current and emerging expression technologies are reviewed. Reviews of the molecular genetics of expression systems in various organisms are presented. Topics covered include: Expression of extremophilic proteins; expression in E. coli, Bacillus spp., Saccharomyces cerevisiae, and methylotrophic yeasts; insect cell expression and the baculovirus system; and Chinese Hamster Ovary (CHO) cell lines for large-scale protein production. Also covered are two emerging expression systems, Methylobacterium extorquens AM1 and Caulobacter crescentus.

Production of Recombinant Proteins

Production of Recombinant Proteins
Author: Gerd Gellissen
Publisher: John Wiley & Sons
Total Pages: 429
Release: 2006-03-06
Genre: Science
ISBN: 3527604413
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While the choices of microbial and eukaryotic expression systems for production of recombinant proteins are many, most researchers in academic and industrial settings do not have ready access to pertinent biological and technical information since it is normally scattered throughout the scientific literature. This book closes the gap by providing information on the general biology of the host organism, a description of the expression platform, a methodological section -- with strains, genetic elements, vectors and special methods, where applicable -- as well as examples of proteins produced with the respective platform. The systems thus described are well balanced by the inclusion of three prokaryotes (two Gram-negatives and one Gram-positive), four yeasts, two filamentous fungi and two higher eukaryotic cell systems -- mammalian and plant cells. Throughout, the book provides valuable practical and theoretical information on the criteria and schemes for selecting the appropriate expression platform, the possibility and practicality of a universal expression vector, and on comparative industrial-scale fermentation, with the production of a recombinant Hepatitis B vaccine chosen as an industrial example. With a foreword by Herbert P. Schweizer, Colorado State University, USA: "As a whole, this book is a valuable and overdue resource for a varied audience. It is a practical guide for academic and industrial researchers who are confronted with the design of the most suitable expression platform for their favorite protein for technical or pharmaceutical purposes. In addition, the book is also a valuable study resource for professors and students in the fields of applied biology and biotechnology."

Recombinant protein expression in microbial systems

Recombinant protein expression in microbial systems
Author: Eduardo A. Ceccarelli
Publisher: Frontiers E-books
Total Pages: 103
Release: 2014-10-02
Genre: Biotechnology
ISBN: 2889192946
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With the advent of recombinant DNA technology, expressing heterologous proteins in microorganisms rapidly became the method of choice for their production at laboratory and industrial scale. Bacteria, yeasts and other hosts can be grown to high biomass levels efficiently and inexpensively. Obtaining high yields of recombinant proteins from this material was only feasible thanks to constant research on microbial genetics and physiology that led to novel strains, plasmids and cultivation strategies. Despite the spectacular expansion of the field, there is still much room for progress. Improving the levels of expression and the solubility of a recombinant protein can be quite challenging. Accumulation of the product in the cell can lead to stress responses which affect cell growth. Buildup of insoluble and biologically inactive aggregates (inclusion bodies) lowers the yield of production. This is particularly true for obtaining membrane proteins or high-molecular weight and multi-domain proteins. Also, obtaining eukaryotic proteins in a prokaryotic background (for example, plant or animal proteins in bacteria) results in a product that lack post-translational modifications, often required for functionality. Changing to a eukaryotic host (yeasts or filamentous fungi) may not be a proper solution since the pattern of sugar modifications is different than in higher eukaryotes. Still, many advances in the last couple of decades have provided to researchers a wide variety of strategies to maximize the production of their recombinant protein of choice. Everything starts with the careful selection of the host. Be it bacteria or yeast, a broad list of strains is available for overcoming codon use bias, incorrect disulfide bond formation, protein toxicity and lack of post-translational modifications. Also, a huge catalog of plasmids allows choosing for different fusion partners for improving solubility, protein secretion, chaperone co-expression, antibiotic resistance and promoter strength. Next, controlling culture conditions like temperature, inducer and media composition can bolster recombinant protein production. With this Research Topic, we aim to provide an encyclopedic account of the existing approaches to the expression of recombinant proteins in microorganisms, highlight recent discoveries and analyze the future prospects of this exciting and ever-growing field.

Gene Expression Systems

Gene Expression Systems
Author: Joseph M. Fernandez
Publisher: Elsevier
Total Pages: 493
Release: 1998-12-21
Genre: Science
ISBN: 0080532357
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Gene Expression Systems: Using Nature for the Art of Expression offers detailed information on a wide variety of gene expression systems from an array of organisms. It describes several different types of expression systems including transient, stable, viral, and transgenic systems. Each chapter is written by a leader in the field. The book includes timelines and examples for each expression system, and provides an overview of the future of recombinant protein expression. Provides detailed information on expression systems Covers a variety of promoters and host organisms enabling researchers to tailor protocols to their specific needs Includes timelines and examples Compares pros and cons of each method

Production Technology of Recombinant Therapeutic Proteins

Production Technology of Recombinant Therapeutic Proteins
Author: Chiranjib Chakraborty
Publisher: Daya Books
Total Pages: 290
Release: 2004
Genre: Biotechnology
ISBN: 9788176221047
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An Increasing Number Of Recombinant Therapeutic Proteins Are Currently Being Developed, Tested In Clinical Trials And Marketed For Used. Most Of The Recombinant Therapeutic Proteins Are Being Successfully Produced Into Escherichia Coli And Pichia Pastoris Expression System. These Two Expression Systems Are Very Much Efficient And Cost Effective. This Book Takes A Close Look Of These Two Expression Systems And Fermentation Conditions, Purification Strategies Of Different Recombinant Proteins. This Book Also Discusses The Market Size And Cost Analysis For The Production Of Different Therapeutic Proteins And Some General Experimental Protocols For Production. Contents Part I: Recombinant Protein Expression Into Escherichia Coli And Fermentation Conditions; Chapter 1: Introduction; Chapter 2: Construction Of Efficient Expression Vector (Plasmid); Chapter 3: Factors Affecting Transcription, Promoters, Upstream Elements, Transcriptional Terminators, Transcriptional Antitermin, Tightly Regulated Expression Systems; Chapter 4: Mrna Stability; Chapter 5: Factors Affecting Translation, Mrna Translational Initiator, Translational Enhancers, Translational Termination; Chapter 6: Expression Of Target Protein And The Compartments Of Expression, Cytoplasmic Expression, Periplasmic Expression, Extracellular Secretion; Chapter 7: Fusion Proteins; Chapter 8: Post-Translational Protein Folding; Chapter 8: Codon Usage; Chapter 10: Protein Degradation; Chapter 11: Fermentation Conditions For High-Density Cell Cultivation (Hdcc), Growth Medium, Efficient Production Of Recombinant Protein In Hdcc, Nutrient Feeding Strategy In Hdcc; Chapter 12: One Examples Of Protein Production Using E. Coli Expression System; Chapter 13: Conclusion. Part Ii: Recombinant Protein Expression Into Yeast, Pichia Pastoris And Fermentation Conditions; Chapter 1: Introduction; Chapter 2: Why P. Pastoris? Chapter 3: Construction Of Expression Strains, Expression Vectors, Alternative Promoters, Host Strains, Methanol Utilisation Phenotype, Protease-Reduced Host Strains, Integration Of Expression Vectors Into The P. Pastoris Genome, Generating Multicopy Strains; Chapter 4: Post-Translational Modifications Of Secreted Proteins, Secretion Signal Selection, N-Linked Glycosylation; Chapter 5: Production Of Recombinant Proteins In Fermenter Cultures Of The Yeast, Pichia Pastoris, Conceptual Basis For The P. Pastoris Expression System, High-Level Expression In Fermenter Cultures, Protein-Specific Adjustments To Improve Yield, Glycosylation Of Recombinant Proteins, Secretion Signals; Chapter 6: One Examples Of Protein Producing Using P. Pastoris Expression System, Chapter 7: Conclusion. Part Iii: Purification Strategies For Recombinant Proteins; Chapter 1: Purification Of Proteins; Chapter 2: Conventional Chromatography, Ion Exchange Chromatography, Reversed Phase Chromatography, Gel Permeation Chromatography, Affinity Chromatography, Affinity Tags, Cleavage, Conclusion. Part Iv: Market Size And Cost Analysis For The Production Of Therapeutic Proteins; Chapter 1: Market Size Of Therapeutic Proteins; Chapter 2: Outline Structure Of A Productin Unit And Cost Analysis For The Production Of Three Therapeutic Proteins. Part V: General Experimental Protocols; Chapter 1: Different Experimental Protocols, Preparation Of Genome Dna For E. Coli, A Differnt Method For Preparation Of Genomic Dna From Bacteria, Preparation Of Proteins From Periplasm (Osmotic Shock Method), Preparation Of Proteins From Outer Membrane, Transformation Of Plasmid Dna Into E. Coli (Calcium Chloride/Heat Shock Method), Transformation Of Plasmid Dna Into E. Coli (Electroporation), Sds-Page For Large Proteins, Sds-Page For Small Peptide, Pcr Amplification Of Dna, Protein Quantification: Brandford Method, Trans-Bloting For Protein, Restriction Enzyme Digestion Of Dna, Phenol/Chloroform Extraction Of Dna, Ethanol Precipitation Of Dna, Agarose Gel Electrophoresis, Transformation Of E. Coli By Electroporation (Alternative Method), Wizard Tm Pcr Preps Dna Purification System For Rapid, Purification Of Dna Fragments, Alternate Method For Purifying Dna From Agarose Gels, Southern Blotting, Rt Pcr Protocol, Using Superscript Reverse Transcriptase, Preparation Of Sequencing Gels, Isolation Of Rna From Mammalian Cells Using Rnazoltm (Teltest), Preparation For Yeast Transformation, Yeast Transformation, Digesting Prsq-Ura3 With Bamhi, Genomic Dna Preparation Of Yeast, Ligation (Circularisation) Of Genomic Dna Fragments, E. Coli Transformation (Alternate Method), Dna Miniprep From E. Coli (Alternate Method), Basic Plasmid Dna Isolation Protocol, Identification And Determination Of Amount Rec-Hum Proteins Via An Immunoenzymatic Test (Elisa), Determination Of Host Dna Contaminant Into R Hu Protein Through Dot Blot Method, Protocols For Down-Stream Processing.

Cell-Free Protein Expression

Cell-Free Protein Expression
Author: James R. Swartz
Publisher: Springer Science & Business Media
Total Pages: 213
Release: 2012-12-06
Genre: Science
ISBN: 3642593372
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Cell-free protein synthesis is coming of age! Motivated by an escalating need for efficient protein synthesis and empowered by readily accessible cell-free protein synthesis kits, the technology is expanding both in the range of feasible proteins and in the ways that proteins can be labeled and modified. This volume follows "Cell-Free Translation Systems", edited by Professor Alexander S. Spirin in 2002. Since then, an impressive collection of new work has emerged that demonstrates a substantial expansion of capability. In this volume, we show that proteins now can be efficiently produced using PCR products as DNA templates and that even membrane proteins and proteins with multiple disulfide proteins are obtained at high yields. Many additional advances are also presented. It is an exciting time for protein synthesis technology.

High Throughput Protein Expression and Purification

High Throughput Protein Expression and Purification
Author: Sharon A. Doyle
Publisher: Humana Press
Total Pages: 0
Release: 2010-11-19
Genre: Science
ISBN: 9781617378218
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Despite exciting advances in genome sequencing, isolating a protein from its expression system in its native form still presents a complex challenge. In High Throughput Protein Expression and Purification: Methods and Protocols, leading scientists detail the most successful protocols currently in use, including various high throughput cloning schemes, protein expression analysis, and production protocols. This volume describes the use of E. coli, insect, and mammalian cells, as well as cell-free systems for the production of a wide variety of proteins, including glycoproteins and membrane proteins, in order to best represent strategies that create and exploit common features to enable simplified cloning, stable expression, and purification of proteins. Written in the highly successful Methods in Molecular BiologyTM series format, the chapters present brief introductions to the subject, lists of the necessary materials and reagents, step-by-step, readily reproducible laboratory protocols, and a Notes section for tips on troubleshooting and avoiding known pitfalls. Cutting-edge and comprehensive, High Throughput Protein Expression and Purification: Methods and Protocols is an ideal reference for protein biochemists and all those who wish to apply these easy-to-use protocols to the many applicable fields.

Recombinant Protein Expression in Mammalian Cells

Recombinant Protein Expression in Mammalian Cells
Author: David L. Hacker
Publisher: Humana
Total Pages: 0
Release: 2024-08-17
Genre: Science
ISBN: 9781071638774
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This fully updated volume explores notable developments in the field of mammalian cell-based recombinant protein production. Beginning with methods for transient recombinant protein production, the book continues with methods for stable cell pool generation, protein production using stable clonal cell lines, as well as high-throughput screening technologies for characterizing transient cell surface protein ectodomain expression and for identifying host genes involved in protein production. Written for the highly successful Methods in Molecular Biology series, chapters include introductions to their respective topics, lists of the necessary materials and reagents, step-by-step and readily reproducible laboratory protocols, and tips on troubleshooting and avoiding known pitfalls. Authoritative and practical, Recombinant Protein Expression in Mammalian Cells: Methods and Protocols, Second Edition serves as an ideal guide for researchers investigatingprotein structure and function and accelerating the discovery of new therapeutic proteins.

Recombinant Gene Expression

Recombinant Gene Expression
Author: Paulina Balbas
Publisher: Springer Science & Business Media
Total Pages: 505
Release: 2008-02-04
Genre: Science
ISBN: 1592597742
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Since newly created beings are often perceived as either wholly good or bad, the genetic alteration of living cells impacts directly on a symbolic meaning deeply imbedded in every culture. During the earlier years of gene expression research, te- nological applications were confined mainly to academic and industrial laboratories, and were perceived as highly beneficial since molecules that were previously unable to be separated or synthesized became accessible as therapeutic agents. Such were the success stories of hormones, antibodies, and vaccines produced in the bacterium Escherichia coli. Originally this bacterium gained fame among humans for being an unwanted host in the intestine, or worse yet, for being occasionally dangerous and pathogenic. H- ever, it was easily identified in contaminated waters during the 19th century, thus becoming a clear indicator of water pollution by human feces. Tamed, cultivated, and easily maintained in laboratories, its fast growth rate and metabolic capacity to adjust to changing environments fascinated the minds of scientists who studied and modeled such complex phenomena as growth, evolution, genetic exchange, infection, survival, adaptation, and further on—gene expression. Although at the lower end of the complexity scale, this microbe became a very successful model system and a key player in the fantastic revolution kindled by the birth of recombinant DNA technology.