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Over the past decade, the transient gene expression (TGE) technology platform has been actively pursued to produce a wide range of therapeutic proteins, monoclonal antibodies, and vaccines for mainly preclinical assessment, due to its short development times and low overall cost. This book updates the latest advances in the field, with focusing on systematic description of the technology from cell lines, cell culture conditions, vector construction, expression strategy, current protocols, optimisation of the procedure, and potential for clinical application. As a conclusion, the author foresees that therapeutic biopharmaceutics will be manufactured for clinical development using TGE technology in the near future because of its fast development time, good protein expression, acceptable quality of product and due to the progress which has been made in analytical methodology and process quality control. The objectives of this book are to summarise current TGE protocols, to describe optimisation of the technology through the latest advances, and to explore clinical applications of the technology. It gives the reader a good insight into the latest development and future application of the technology platform, including: The current protocols from small to large scale for different cells. Optimisation methods in construction designing, transfection procedures, and cell culture conditions. Overall quality of the product from the transient gene expression. Future clinical application of the technology platform.
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.
With the recent completion of the sequencing of the human genome, it is widely anticipated that the number of potential new protein drugs and targets will escalate at an even greater rate than that observed in recent years. However, identification of a potential target is only part of the process in developing these new next generation protein-based “drugs” that are increasingly being used to treat human disease. Once a potential protein drug has been identified, the next rate-limiting step on the road to development is the production of sufficient authentic material for testing, charact- ization, clinical trials, and so on. If a protein drug does actually make it through this lengthy and costly process, methodology that allows the production of the protein on a scale large enough to meet demand must be implemented. Furthermore, large-scale production must not compromise the authenticity of the final product. It is also nec- sary to have robust methods for the purification, characterization, viral inactivation and continued testing of the authenticity of the final protein product and to be able to formulate it in a manner that retains both its biological activity and lends itself to easy administration. Therapeutic Proteins: Methods and Protocols covers all aspects of protein drug production downstream of the discovery stage. This volume contains contributions from leaders in the field of therapeutic protein expression, purification, characterization, f- mulation, and viral inactivation.
Offers a comprehensive overview of cell culture engineering, providing insight into cell engineering, systems biology approaches and processing technology In Cell Culture Engineering: Recombinant Protein Production, editors Gyun Min Lee and Helene Faustrup Kildegaard assemble top class authors to present expert coverage of topics such as: cell line development for therapeutic protein production; development of a transient gene expression upstream platform; and CHO synthetic biology. They provide readers with everything they need to know about enhancing product and bioprocess attributes using genome-scale models of CHO metabolism; omics data and mammalian systems biotechnology; perfusion culture; and much more. This all-new, up-to-date reference covers all of the important aspects of cell culture engineering, including cell engineering, system biology approaches, and processing technology. It describes the challenges in cell line development and cell engineering, e.g. via gene editing tools like CRISPR/Cas9 and with the aim to engineer glycosylation patterns. Furthermore, it gives an overview about synthetic biology approaches applied to cell culture engineering and elaborates the use of CHO cells as common cell line for protein production. In addition, the book discusses the most important aspects of production processes, including cell culture media, batch, fed-batch, and perfusion processes as well as process analytical technology, quality by design, and scale down models. -Covers key elements of cell culture engineering applied to the production of recombinant proteins for therapeutic use -Focuses on mammalian and animal cells to help highlight synthetic and systems biology approaches to cell culture engineering, exemplified by the widely used CHO cell line -Part of the renowned "Advanced Biotechnology" book series Cell Culture Engineering: Recombinant Protein Production will appeal to biotechnologists, bioengineers, life scientists, chemical engineers, and PhD students in the life sciences.
Fundamentals of Recombinant Protein Production, Purification and Characterization is organized into nine chapters in a logical fashion that cover an introduction to recombinant proteins and expression in different host expression systems, extraction, purification and analysis of proteins. This important reference features protocols, along with the advantages and disadvantage of each expression hosts and characterization technique (presented in tabular format) and offers detailed coverage of all aspects of protein production and processing (upstream and downstream processing) in one place. Finally, the book ends with different characterization techniques. Production of recombinant proteins for biotechnological and therapeutic applications at a large scale is an essential need of mankind. With the huge application potential of therapeutic and industrial proteins, there has been increasing demand for effective and efficient bioprocessing strategies. Recent progress around recombinant DNA technologies and bioprocessing strategies has paved the way for efficient production of recombinant proteins. Important factors such as insolubility and cost of production need to be considered for large scale production of these recombinant proteins. Includes step-by-step reproducible protocols while also providing updated information on the rationale and latest developments in expression systems Can also be used as a handbook for protein expression and purification as expression systems and chromatographic methods are explained in detail Consists of notes on troubleshooting from the eminent researchers in the field Provides comprehensive information on protein production, purification and characterization in a single volume Describes different purification methods for comparatively difficult to obtain proteins Brings the topics of recombinant protein expression, purification and characterization together, thereby making it the first resource on how to solve problems with respect to upstream and downstream processing of heterologous proteins
Altogether, the biochemical, technical and economic limitations on existing proka- otic and eukaryotic expression systems and the growing clinical demand for complex therapeutic proteins have created substantial interest in developing new expression systems for the production of therapeutic proteins. To that end, plants have emerged in the past decade as a suitable alternative to the current production systems, and today their potential for production of high quality, much safer and biologically active complex recombinant pharmaceutical proteins is largely documented. The chapters in this volume, contributed by leaders in the field, sum up the state-- the-art methods for using a variety of different plants as expression hosts for phar- ceutical proteins. Several production platforms are presented, ranging from seed- and leaf-based production in stable transgenic plant lines, to plant cell bioreactors, to viral or Agrobacterium-mediated transient expr ession systems. Currently, antibodies and their derived fragments represent the largest and most important group of biote- nological products in clinical trials. This explains why the potential of most prod- tion platforms is illustrated here principally for antibodies or antibody fragments with acknowledged potential for immunotherapy in humans. In addition, a comparison of different plant expression systems is presented using aprotinin, a commercial phar- ceutical protein, as a test system. Although multiple books and monographs have been recently published on mol- ular pharming, there is a noticeable dearth of bench step-by-step protocols that can be used quickly and easily by beginners entering this new field.
Advances in genetic engineering have enabled scientists to manipulate all three domains of life, and as a community we have utilized this knowledge to improve important platforms of biotechnology like agricultural crops. Now, photosynthetic microalgae present an opportunity to address several global problems including those concerning renewable energy, climate change, food and medicine. Presented here are several contributions to our understanding of the molecular genetics and biology of C. reinhardtii, and applications of these toward developing the species for recombinant therapeutic protein production. A review of the current methods of producing high-value recombinant proteins in microalgae is presented, along with a rapid screening method for revealing strains of C. reinhardtii capable of producing these proteins. The unique biochemical environment of the chloroplast is challenged to produce novel targeted anti-cancer immunotoxins that cannot be produced in existing expression systems. Additionally, the potential for edible microalgae to serve as vehicles for oral delivery of therapeutic proteins in enteric diseases is addressed. Finally, efforts toward improving C. reinhardtii as a platform for producing therapeutic proteins are presented in the form of several genetic toolsets. Fluorescent proteins were used to explore protein targeting within the cell, quantitate changes in gene regulation, and as a biomarker for generating improved strains with production platform qualities.
Branchenführende Big-Pharma-Unternehmen und erstklassige Forscher präsentieren grundlegende Konzepte und Herausforderungen bei proteinbasierten Pharmazeutika. Beinhaltet auch eine Einführung in die aus Sicht der Arzneimittelentwicklung fünf wesentlichen Anwendungsbereiche.