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For several decades, Arabidopsis thaliana has been the organism of choice in the laboratories of many plant geneticists, physiologists, developmental biologists, and biochemists around the world. During this time, a huge amount of knowledge has been acquired on the biology of this plant species, which has resulted in the development of molecular tools that account for much more efficient research. The significance that Arabidopsis would attain in biological research may have been difficult to foresee in the 1980s, when its use in the laboratory started. In the meantime, it has become the model plant organism, much the same way as Drosophila, Caenorhabditis, or mouse have for animal systems. ...
Hands-on researchers review the principles behind successful miniaturization and describe the key techniques for miniaturizing large-scale biochemical and bioanalytical methods for microchip analysis. The authors cover not only the most popular methods for the fabrication of microchips (photolithography, laser ablation, and soft lithography), but also microfluidic techniques for such bioanalytical assays and bioprocesses as DNA analysis, PCR, immunoassays, and cell reactors. Highlights include PCR on a microchip, microscale cell culturing, and the study of cellular processes on a microchip. The protocols offer step-by-step laboratory instructions, an introduction outlining the principles behind the technique, lists of the necessary equipment and reagents, and tips on troubleshooting and avoiding known pitfalls.
A comprehensive state-of-the-art collection of the most frequently used techniques for plant cell and tissue culture. Readily reproducible and extensively annotated, the methods range from general methodologies, such as culture induction, growth and viability evaluation, and contamination control, to such highly specialized techniques as chloroplast transformation involving the laborious process of protoplast isolation and culture. Most of the protocols are currently used in the research programs of the authors or represent important parts of business projects aimed at the generation of improved plant materials. Two new appendices explain the principles for formulating culture media and the composition of the eight most commonly used media formulations, and list more than 100 very useful internet sites.
Expert researchers and physician/clinicians describe in detail the newest and most commonly used technologies today in this rapidly advancing field. The authors provide readily reproducible methods for assessing the functional consequences of a certain polymorphism, evaluate the variety of genotyping platforms currently available, and discuss the management of pharmacogenomic information. Highlights include techniques for making a snapshot of the allele-specific variation in human gene expression, genome wide analysis of allele-specific expression using oligo microarrays, in vivo assays with HaploChIP, SNP genotyping in DNA pools, and PharmGKB, the pharmacogenetics and pharmacogenomics knowledge base. The methodologies for genotyping include denaturing high-performance liquid chromarography, pyrosequencing, kinetic-fluorescence detection, mass spectrometry, and TaqMan assay for insertion/deletions.
The main purpose of this book is not only to present recent studies and advances in the field of social science research, but also to stimulate discussion on related practical issues concerning statistics, mathematics, and economics. Accordingly, a broad range of tools and techniques that can be used to solve problems on these topics are presented in detail in this book, which offers an ideal reference work for all researchers interested in effective quantitative and qualitative tools. The content is divided into three major sections. The first, which is titled “Social work”, collects papers on problems related to the social sciences, e.g. social cohesion, health, and digital technologie...