Largely driven by major improvements in the analytical capability of mass spectrometry, proteomics is being applied to broader areas of experimental biology, ranging from oncology research to plant biology to environmental health. However, while it has already eclipsed solution protein chemistry as a discipline, it is still essentially an extension of classical protein chemistry, owing much of its maturation to prior contributions. Unfortunately, this debt is not always evident in current literature.
The Evolution from Protein Chemistry to Proteomics: Basic Science to Clinical...
Largely driven by major improvements in the analytical capability of mass spectrometry, proteomics is being applied to broader areas of experimental b...
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...
Reflecting the versatility of the author s science and the depth of his experience, Application of Solution Protein Chemistry to Biotechnol...
Examining the chemical modification of biological polymers and the emerging applications of this technology, Chemical Modification of Biological Polymers reflects the change in emphasis in this subsection of biotechnology from the study of protein structure and function toward applications in therapeutics and diagnostics. Highlights * The basic organic chemistry of the modification proteins, nucleic acids, oligosaccharides, polysaccharides, and their applications * New analytical technologies used to characterize the chemical modification of biological polymers * Identification of in vivo,...
Examining the chemical modification of biological polymers and the emerging applications of this technology, Chemical Modification of Biological Polym...
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...
The fractionation of human blood plasma can be considered to be a mature industry, with the basic technology, alcohol fractionation, dating back at...
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...
The use of the chemical modification of proteins has evolved over the past 80 years, benefiting from advances in analytical, physical, and organic ...
Salvatore V. Pizzo Roger L. Lundblad Monte S., Ed. Willis
Most clinical laboratory tests utilize interstitial and extravascular such as blood, urine, cerebral spinal fluid (CSF), and saliva. For example, CSF is monitored in the context of cancer for both diagnostic and therapeutic reasons. And yet, our understanding of the makeup of interstitial fluids, their relationships to disease, as well as their commercial importance in therapeutics and diagnostics remains rudimentary. Although sometimes perceived as static, interstitial and extravascular fluids are surprisingly dynamic. More than half of serum albumin is in the extravascular space. These...
Most clinical laboratory tests utilize interstitial and extravascular such as blood, urine, cerebral spinal fluid (CSF), and saliva. For example, C...
