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Protein Arrays: Methods and Protocols is an introduction to protein array technology and its application to the multiplexed detection of proteins. Although protein array technology has some roots in gene array technology, it can only be described as a distant relative. Unlike DNA, with its established rules of base pairing, and therefore predictable biochemical behavior, proteins are rich with diversity. Proteins can be large or small, compact or extended, basic or acidic, hydrophobic or hydrophilic, and so on. Just as importantly, their behavior is determined by the environment in which they reside, and so the composition of the buffer in which experiments are performed has a dramatic impact on the outcome of the experiment. Thus, if the goal is to simultaneously measure the expression of a large number of proteins, these variables must be addressed. Not to be deterred, scientists have created a variety of solutions to successfully detect and ch- acterize multiple proteins simultaneously. It is the intent of this volume to introduce to the reader a set of technological solutions to the diversity problem as well as to provide the reader with some examples of practical applications of these technologies.
This book provides practical guidance on all aspects of reverse phase protein array (RPPA) technology, which permits the quantification of protein levels in cell or tissue lysates. In addition, the latest results are presented from laboratories across the world where experts are successfully running the challenging RPPA data platform. After an introductory chapter by the inventor of the RPPA technique, the demanding task of lysate preparation is explained. Subsequent chapters review printing platforms and analytical platforms and discuss antibody screening in detail. The role of RPPA data in integrative analyses is thoroughly examined, and the various applications of RPPA, for example to identify molecular targeting drugs or evaluate cancer drug efficacy, are discussed with reference to the latest knowledge. It is hoped that the book will foster the implementation of RPPA by documenting the practical details of the technology and by revealing its great potential. It will be of high value for researchers who plan to build an RPPA platform in their institute and for researchers, clinicians, and companies who use RPPA through collaboration with an existing RPPA facility.
From disease marker identification to accelerated drug development, Protein Arrays, Biochips, and Proteomics offers a detailed overview of current and emerging trends in the field of array-based proteomics. This reference focuses on innovations in protein microarrays and biochips, mass spectrometry, high-throughput protein expression, protein-prote
Protein microarrays soon will become one of the major tools for realizing the goals of drug discovery research in the post-genome era. The book is aimed at life science researchers and scientists working in drug and pharma industry.
This volume focuses on protein analysis, and covers a wide array of uses of protein microarray for disease analysis. The chapters in this book discuss different stages of protein microarrays from their construction to their use, including different types of protein microarrays such as recombinant proteins, antibody, phage, and NAPPA protein microarrays, in planar format or in solution via beads arrays. 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 tips on troubleshooting and avoiding known pitfalls. Comprehensive and cutting-edge, Protein Microarrays for Disease Analysis: Methods and Protocols is a valuable resource for graduate and post-doctoral fellows interested in protein microarrays, as well as senior researchers interested in gaining more insight into this developing field.
A cutting-edge guide to the analysis of DNA microarray data Genomics is one of the major scientific revolutions of this century, and the use of microarrays to rapidly analyze numerous DNA samples has enabled scientists to make sense of mountains of genomic data through statistical analysis. Today, microarrays are being used in biomedical research to study such vital areas as a drug’s therapeutic value–or toxicity–and cancer-spreading patterns of gene activity. Exploration and Analysis of DNA Microarray and Protein Array Data answers the need for a comprehensive, cutting-edge overview of this important and emerging field. The authors, seasoned researchers with extensive experience in both industry and academia, effectively outline all phases of this revolutionary analytical technique, from the preprocessing to the analysis stage. Highlights of the text include: A review of basic molecular biology, followed by an introduction to microarrays and their preparation Chapters on processing scanned images and preprocessing microarray data Methods for identifying differentially expressed genes in comparative microarray experiments Discussions of gene and sample clustering and class prediction Extension of analysis methods to protein array data Numerous exercises for self-study as well as data sets and a useful collection of computational tools on the authors’ Web site make this important text a valuable resource for both students and professionals in the field.
This volume represents a collection of lectures delivered by outstanding specialists in the fields of biophysics and of related scientific disciplines th during the 7 International Summer School on Biophysics held in Rovinj, Croatia from 14 to 25 September 2000 under the title "Super molecular Structure and Function ". This scientific-educational event was organized by the Ruder Boskovic Institute ofZagreb, Croatia with substantial material and intellectual support of a number of national and international institutions including the Croatian Biophysical Society (CBS), the International Union of Pure and Applied Biophysics (IUPAB), the International Centre for Genetic Engineering and Biotechnology (ICGEB) and the UNESCO Venice Office - Regional Office for Science and Technology for Europe (UVO-ROSTE). The seventh edition of the series of International Summer Schools on Biophysics, which was started in 198I, attracted more than 120 young researchers and post-graduate students coming from 27 countries of Europe, Asia, Africa and Latin America. Twenty-five outstanding experts in pure and applied biophysics presented the most advanced knowledge ofthis very interdisciplinary area of science during their lectures and round tables. It was commonly acknowledge that the Summer School achieved great success and fully reached its objectives. The success of the Rovinj Summer School was also due to the constantly growing attention being paid by scientific communities to younger generations of scientists, thanks also to the major outcomes of the World Conference on Science "Science for the Twenty-first Century: A New Commitment" held by UNESCO and ICSU in Budapest, Hungary in June 1999.
Using chips composed of thousands of spots, each with the capability of holding DNA molecules corresponding to a given gene, DNA microarray technology has enabled researchers to measure simultaneously gene expression across the genome. As with other large-scale genomics approaches, microarray technologies are broadly applicable across disciplines of life and biomedical sciences, but remain daunting to many researchers. This guide is designed to demystify the technology and inform more biologists about this critically important experimental technique. - Cohesive overview of the technology and available platforms, followed by detailed discussion of experimental design and analysis of microarray experiments - Up-to-date description of normalization methods and current methods for sample amplification and labeling - Deep focus on oligonucleotide design, printing, labeling and hybridization, data acquisition, normalization, and meta-analysis - Additional uses of microarray technology such as ChIP (chromatin immunoprecipitation) with hybridization to DNA arrays, microarray-based comparative genomic hybridization (CGH), and cell and tissue arrays
Written by recognized experts in the study of proteins, Proteomics for Biological Discovery begins by discussing the emergence of proteomics from genome sequencing projects and a summary of potential answers to be gained from proteome-level research. The tools of proteomics, from conventional to novel techniques, are then dealt with in terms of underlying concepts, limitations and future directions. An invaluable source of information, this title also provides a thorough overview of the current developments in post-translational modification studies, structural proteomics, biochemical proteomics, microfabrication, applied proteomics, and bioinformatics relevant to proteomics. Presents a comprehensive and coherent review of the major issues faced in terms of technology development, bioinformatics, strategic approaches, and applications Chapters offer a rigorous overview with summary of limitations, emerging approaches, questions, and realistic future industry and basic science applications Discusses higher level integrative aspects, including technical challenges and applications for drug discovery Accessible to the novice while providing experienced investigators essential information Proteomics for Biological Discovery is an essential resource for students, postdoctoral fellows, and researchers across all fields of biomedical research, including biochemistry, protein chemistry, molecular genetics, cell/developmental biology, and bioinformatics.
Proteomic and Metabolomic Approaches to Biomarker Discovery demonstrates how to leverage biomarkers to improve accuracy and reduce errors in research. Disease biomarker discovery is one of the most vibrant and important areas of research today, as the identification of reliable biomarkers has an enormous impact on disease diagnosis, selection of treatment regimens, and therapeutic monitoring. Various techniques are used in the biomarker discovery process, including techniques used in proteomics, the study of the proteins that make up an organism, and metabolomics, the study of chemical fingerprints created from cellular processes. Proteomic and Metabolomic Approaches to Biomarker Discovery is the only publication that covers techniques from both proteomics and metabolomics and includes all steps involved in biomarker discovery, from study design to study execution. The book describes methods, and presents a standard operating procedure for sample selection, preparation, and storage, as well as data analysis and modeling. This new standard effectively eliminates the differing methodologies used in studies and creates a unified approach. Readers will learn the advantages and disadvantages of the various techniques discussed, as well as potential difficulties inherent to all steps in the biomarker discovery process. A vital resource for biochemists, biologists, analytical chemists, bioanalytical chemists, clinical and medical technicians, researchers in pharmaceuticals, and graduate students, Proteomic and Metabolomic Approaches to Biomarker Discovery provides the information needed to reduce clinical error in the execution of research. - Describes the use of biomarkers to reduce clinical errors in research - Includes techniques from a range of biomarker discoveries - Covers all steps involved in biomarker discovery, from study design to study execution