Biotechnology Proteins To Pcr
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Biotechnology Proteins to PCR
Author | : David W. Burden,Donald B. Whitney |
Publsiher | : Springer Science & Business Media |
Total Pages | : 322 |
Release | : 2012-12-06 |
Genre | : Science |
ISBN | : 9781461242789 |
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Biotechnology
Author | : David Wilson Burden,Donald B. Whitney |
Publsiher | : Unknown |
Total Pages | : 317 |
Release | : 1995-01-01 |
Genre | : Molecular cloning |
ISBN | : 3764338431 |
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PCR
Author | : Lucília Domingues |
Publsiher | : Springer Nature |
Total Pages | : 255 |
Release | : 2023-09-23 |
Genre | : Science |
ISBN | : 9781071633588 |
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This second volume focuses on PCR methods and PCR application specificities to the biotechnology and bioengineering field. New and updated chapters detail real-time PCR protocols, synthetic biology applications, pathogen detection, microfluidics, digital, multiplex detection recent advances. Written in the highly successful Methods in Molecular Biology series format, chapters include introductions to their respective topics, lists of the necessary materials and reagents, step-by-step, readily reproducible laboratory protocols, and key tips on troubleshooting and avoiding known pitfalls. Authoritative and cutting-edge, PCR: Methods and Protocols, Second Edition aims to be a useful and practical guide to new researchers and experts looking to expand their knowledge.
Making PCR
Author | : Paul Rabinow |
Publsiher | : University of Chicago Press |
Total Pages | : 200 |
Release | : 2011-11-27 |
Genre | : Science |
ISBN | : 9780226216874 |
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Making PCR is the fascinating, behind-the-scenes account of the invention of one of the most significant biotech discoveries in our time—the polymerase chain reaction. Transforming the practice and potential of molecular biology, PCR extends scientists' ability to identify and manipulate genetic materials and accurately reproduces millions of copies of a given segment in a short period of time. It makes abundant what was once scarce—the genetic material required for experimentation. Making PCR explores the culture of biotechnology as it emerged at Certus Corporation during the 1980s and focuses on its distinctive configuration of scientific, technical, social, economic, political, and legal elements, each of which had its own separate trajectory over the preceding decade. The book contains interviews with the remarkable cast of characters who made PCR, including Kary Mullin, the maverick who received the Nobel prize for "discovering" it, as well as the team of young scientists and the company's business leaders. This book shows how a contingently assembled practice emerged, composed of distinctive subjects, the site where they worked, and the object they invented. "Paul Rabinow paints a . . . picture of the process of discovery in Making PCR: A Story of Biotechnology [and] teases out every possible detail. . . . Makes for an intriguing read that raises many questions about our understanding of the twisting process of discovery itself."—David Bradley, New Scientist "Rabinow's book belongs to a burgeoning genre: ethnographic studies of what scientists actually do in the lab. . . . A bold move."—Daniel Zalewski, Lingua Franca "[Making PCR is] exotic territory, biomedical research, explored. . . . Rabinow describes a dance: the immigration and repatriation of scientists to and from the academic and business worlds."—Nancy Maull, New York Times Book Review
Protein Engineering Protocols
Author | : Kristian Müller,Katja Arndt |
Publsiher | : Springer Science & Business Media |
Total Pages | : 318 |
Release | : 2007-10-26 |
Genre | : Science |
ISBN | : 9781597451871 |
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Protein engineering is a fascinating mixture of molecular biology, protein structure analysis, computation, and biochemistry, with the goal of developing useful or valuable proteins. Protein Engineering Protocols will consider the two general, but not mutually exclusive, strategies for protein engineering. The first is known as rational design, in which the scientist uses detailed knowledge of the structure and function of the protein to make desired changes. The s- ond strategy is known as directed evolution. In this case, random mutagenesis is applied to a protein, and selection or screening is used to pick out variants that have the desired qualities. By several rounds of mutation and selection, this method mimics natural evolution. An additional technique known as DNA shuffling mixes and matches pieces of successful variants to produce better results. This process mimics recombination that occurs naturally during sexual reproduction. The first section of Protein Engineering Protocols describes rational p- tein design strategies, including computational methods, the use of non-natural amino acids to expand the biological alphabet, as well as impressive examples for the generation of proteins with novel characteristics. Although procedures for the introduction of mutations have become routine, predicting and und- standing the effects of these mutations can be very challenging and requires profound knowledge of the system as well as protein structures in general.
A Practical Guide to Protein Engineering
Author | : Tuck Seng Wong,Kang Lan Tee |
Publsiher | : Springer Nature |
Total Pages | : 213 |
Release | : 2020-10-29 |
Genre | : Science |
ISBN | : 9783030568986 |
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This textbook introduces readers in an accessible and engaging way to the nuts and bolts of protein expression and engineering. Various case studies illustrate each step from the early sequence searches in online databases over plasmid design and molecular cloning techniques to protein purification and characterization. Furthermore, readers are provided with practical tips to successfully pursue a career as a protein engineer. With protein engineering being a fundamental technique in almost all molecular biology labs, the book targets advanced undergraduates and graduate students working in molecular biology, biotechnology and related scientific fields.
DNA polymerases in Biotechnology
Author | : Zvi Kelman,Andrew F Gardner |
Publsiher | : Frontiers Media SA |
Total Pages | : 147 |
Release | : 2015-03-18 |
Genre | : Biotechnology |
ISBN | : 9782889194551 |
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DNA polymerases are core tools for molecular biology including PCR, whole genome amplification, DNA sequencing and genotyping. Research has focused on discovery of novel DNA polymerases, characterization of DNA polymerase biochemistry and development of new replication assays. These studies have accelerated DNA polymerase engineering for biotechnology. For example, DNA polymerases have been engineered for increased speed and fidelity in PCR while lowering amplification sequence bias. Inhibitor resistant DNA polymerase variants enable PCR directly from tissue (i.e. blood). Design of DNA polymerases that efficiently incorporate modified nucleotide have been critical for development of next generation DNA sequencing, synthetic biology and other labeling and detection technologies. The Frontiers in Microbiology Research Topic on DNA polymerases in Biotechnology aims to capture current research on DNA polymerases and their use in emerging technologies.
Production Technology of Recombinant Therapeutic Proteins
Author | : Chiranjib Chakraborty |
Publsiher | : Daya Books |
Total Pages | : 290 |
Release | : 2004 |
Genre | : Biotechnology |
ISBN | : 817622104X |
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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.