Search results for ""Author Roger L. Lundblad""

The use of the chemical modification of proteins has evolved over the past 80 years, benefiting from advances in analytical, physical, and organic chemistry. Over the past 30 years, the use of chemical reagents to modify proteins has been crucial in determining the function and structure of purified proteins. This groundbreaking work is part of the foundation of emerging disciplines of proteomics, chemical biology, structure biology, and chemical proteomics.Chemical Reagents for Protein Modification, Fourth Edition provides a comprehensive review of reagents used for the chemical modification of proteins, representing a major revision of the work presented in previous editions. The completely updated Fourth Edition is substantially larger and includes five new chapters: Alkylating Agents Acylating Agents Nitration and Nitrosylation Oxidation Modification of Proteins with Reducing Agents There is greatly increased coverage of the chemical modification of cysteine, which is critical for bioconjugate synthesis. The chapter on reduction also provides information necessary for bioconjugate synthesis as well as for the processing of inclusion bodies. The book places emphasis on conditions that affect the specificity of the chemical modification of proteins, such as solvent and temperature. The format has been markedly revised, presenting information based on the chemical nature of the modifying material and on the amino acid residue modified. This new version has increased significance to biopharmaceuticals. Much of the information is in tabular form, which enables the rapid location of cited material.

Read more less

Reflecting the versatility of the author’s science and the depth of his experience, Application of Solution Protein Chemistry to Biotechnology explores key contributions that protein scientists can make in the development of products that are both important and commercially viable, and provides them with tools and information required for successful participation.One of the of the world’s most respected protein researchers, Roger Lundblad does not succumb to the notion that new is always better. The application of protein science to the practice of commercial biotechnology is traced to the underlying basic solution protein chemistry. It is only by achieving this understanding that the full potential of protein science may be obtained in the development and characterization of the diverse products of modern biotechnology. Dr. Lundblad also goes far beyond the biopharmaceutical applications that are often equated with protein science today to demonstrate the field’s unique versatility. From the making of bread and the invention of adhesives to the production of pharmaceuticals and the development of recombinant DNA products— in each of these products, the role of the protein chemist remains prominent. The important point is that classical protein chemistry is a critical part of the practice of biotechnology in the marketplace.Providing the direction and the foundational work needed by students as well as the details and hundreds of references needed by designers and developers, this remarkable work— Delves into the application of protein science for producing products as diverse as adhesives, drug delivery systems, and quality food products Explores chemistry of attachment of proteins and peptides to solid surfaces with regard to applications both for the improvement of steel and titanium and in DNA and protein microarrays Describes the development of bioconjugates used in antibodies Offers essential advice on guidelines required for producing licensed biopharmaceutical products While he does include a great deal of material not found in other sources, Dr. Lundblad makes a point to separate what is truly new from that which has merely been renamed. A reference unlike most, scientists and students eager to learn will find a text that is as practical as it is purposeful.

Read more less

The fractionation of human blood plasma can be considered to be a mature industry, with the basic technology, alcohol fractionation, dating back at least to the 1940s. Many of the products described in the current work have been approved biologics since the 1950s. The information gathered from the development of plasma proteins has proved vital to the development of recombinant therapeutic proteins. Discussing the role of plasma proteins in current biotechnology, Biotechnology of Plasma Proteins describes the protein composition of human plasma, the fractionation of plasma to obtain therapeutic proteins, and the analysis of these products. It delineates the path from plasma products to recombinant products, and highlights products from albumin, intravenous immunoglobins, and coagulation. It offers a comprehensive review of current techniques for the analysis of proteins including electrophoresis, chromatography, spectrophotometry, mass spectrometry, and updates not published since 1975. Key TopicsProtein Composition of Plasma Proteomic methods for plasma protein analysis Plasma protein biomarkers Validation of biomarkers Assays for plasma biomarkers Methods for the Analysis of Protein Products Assay development and validation Electrophoresis Chromatography Immunoassay Mass spectrometry Raman spectroscopy Plasma Fractionation: Historical and Modern Methods Development of Cohn alcohol fractionation Industrial methods Development of chromatographic methods Plasma Protein Products of Therapeutic Value Albumin Intravenous immunoglobulin Coagulation products Growth factors Wound management

Read more less