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Biology of the Sialic Acids
Abraham Rosenberg assembles the groundbreaking work of preeminent international scientists to provide the most current, state-of-the-art presentation of research in siabiology. This concise volume examines the historical development of the field and reviews current knowledge on the genetic, immunologic, oncologic, neurodevelopmental, pathogenic, and cell regulatory properties of sialic acid. Outstanding features of this work include exhaustive reference material and detailed information tables.
Transgenesis Techniques
The past decade has witnessed a spectacular explosion in both the devel- ment and use of transgenic technologies. Not only have these been used to aid our fundamental understanding of biologic mechanisms, but they have also faci- tated the development of a range of disease models that are now truly beginning to impact upon our approach to human disease. Some of the most exciting model systems relate to neurodegenerative disease and cancer, where the availability of appropriate models is at last allowing radically new therapies to be developed and tested. This latter point is of particular significance given the current concerns of the wider public over both the use of animal models and the merits of using genetically modified organisms. Arguably, advances of the greatest significance have been made using mammalian systems—driven by the advent of embryonic stem-cell–based strategies and, more recently, by cloning through nuclear transfer. For this reason, this new edition of Transgenesis Techniques focuses much more heavily on manipulation of the mammalian genome, both in the general discussions and in the provision of specific protocols.
Biostatistical Methods
Leading biostatisticians and biomedical researchers describe many of the key techniques used to solve commonly occurring data analytic problems in molecular biology, and demonstrate how these methods can be used in the development of new markers for exposure to a risk factor or for disease outcomes. Major areas of application include microarray analysis, proteomic studies, image quantitation, genetic susceptibility and association, evaluation of new biomarkers, and power analysis and sample size.
Mitochondrial DNA
Mutations within mitochondrial DNA (mtDNA) and the nuclear genes involved in the maintenance of mitochondrial DNA have been linked to a wide range of human diseases, including several of the most common diseases of aging. In Mitochondrial DNA: Methods and Protocols internationally recognized authorities describe in great detail the methods they have perfected to analyze mtDNA and the proteins involved in its maintenance. The analytical techniques cover the purification of mtDNA from a variety of sources and the analysis of DNA for both deletions, point mutations, and damage, for replication intermediates, and for following the fate of mtDNA outside of the mitochondria. Additional analytical ...
High Throughput Screening
In High Throughput Screening, leading scientists and researchers expert in molecular discovery explain the diverse technologies and key techniques used in HTS and demonstrate how they can be applied generically. Writing to create precisely the introductory guidebook they wish had been available when they started in HTS, these expert seasoned authors illuminate the HTS process with richly detailed tutorials on the biological techniques involved, the management of compound libraries, and the automation and engineering approaches needed. Extensive discussions provide readers with all those key elements of pharmacology, molecular biology, enzymology, and biochemistry that will ensure the identification of suitable targets and screens, and detail the technology necessary to mine millions of data points for meaningful knowledge.
Superantigen Protocols
Leading researchers in the biological, chemical, and physical investigation of superantigens describe in step-by-step detail their best experimental techniques to assess the physical characteristics and biological effects of superantigens. Their protocols range from those for investigating the interactions of superantigens with cellular receptors to those for the analysis of their immunological and biological effects, including methods for using BIOcore to determine binding kinetics and establishing various lymphocyte cell culture systems. There are also accounts of such methods as the RNase protection assay, cytokine ELISA, FACS analysis, and cytokine production at the single cell level..
MHC Protocols
The aim of MHC Protocols is to document protocols that can be used for the analysis of genetic variation within the human major histocompatibility complex (MHC; HLA region). The human MHC encompasses approximately 4 million base pairs on the short arm of chromosome 6 at cytogenetic location 6p21. 3. The region is divided into three subregions. The telomeric class I region contains the genes that encode the HLA class I molecules HLA-A, -B, and -C. The centromeric class II region contains the genes encoding the HLA class II molecules HLA-DR, -DQ, and -DP. In between is the class III region, originally identified because it contains genes encoding components of the complement pathway. The entir...
PCR Mutation Detection Protocols
1Bimal D. Theophilus and Ralph Rapley provide biological and clinical investigators with a comprehensive collection of new, recent, and updated PCR-based screening methods suitable for detecting the presence of both known and novel mutations. The methods cover point mutations (e.g., ASO-PCR, SSCP, DGGE, chemical cleavage), deletions (multiplex PCR, FISH, blotting), non-sense mutations (PTT), and more. The new and exciting techniques of DNA array analysis, along with such recently developed experimental methods as conformation-sensitive gel electrophoresis, are also included. Each chapter explains the basic theory behind the technique and provides valuable notes essential for its successful execution.
DNA Methylation Protocols
DNA Methylation Protocols offer a set of readily reproducible protocols of the analysis of DNA methylation and methylases. These powerful methods provide the tools necessary for studying methylation at both the global level and the level of sequence, and include many techniques for identifying genes that might be aberrantly methylated in cancer and aging. Additional methods cover genome-wide analysis of abnormal DNA methylation and the isolation and measurement of demethylases and related proteins.
Thyroid Hormone Receptors
A panel of outstanding investigators surveys and explains the major cutting-edge methods used in thryroid receptor (TR) research and explains their practical experimental details. Described in step-by-step detail to ensure robust experimental results, the techniques presented cover a wide variety of key areas, including TR in development and knockout (mouse and Xenopus), transcriptional regulation by TRs in both cell-free systems and in living cells, and TR mutant analysis of patients. Additional methods provide powerful tools for the isolation of TR-regulated protein complexes, for studying the oncogene v-Erba in blood cell differentiation, and for target gene analysis in the brain. Microarray chip methods are also presented for analyzing the organs of transgenic mice to identify target genes in the liver.
