Download Free Gfp Book in PDF and EPUB Free Download. You can read online Gfp and write the review.

Since the discovery of the gene for green fluorescent protein (GFP), derived from jellyfish, this protein that emits a green glow has initiated a revolution in molecular biosciences. With this tool, it is now possible to visualize nearly any protein of interest in any cell or tissue of any species. Since the publication of the first edition, there have been tremendously significant technological advances, including development of new mutant variants. Proteins are now available in yellow and blue, and Novel Fluorescent Proteins (NFPs) have expanded their utility in developing biosensors, biological markers, and other biological applications. This updated, expanded new edition places emphasis on the rise of NFPs, including new chapters on NFP properties with detailed protocols, applications of GFPs and NFPs in industry research, and biosensors. This book provides a solid theoretical framework, along with detailed, practical guidance on use of GFPs and NFPs with discussion of potential pitfalls. The expert contributors provide real examples in showing how to tailor GFP/NFP to specific systems, maximize expression, and enhance detection.
Includes recently approved adopted and implemented standards for versatile switches, routers and multi-service provisioning platforms. Numerous illustrative examples showing actual situations or cases implemented. Covers the activities of all the major optical networking standards bodies and forums (ITU-T, IETF, MEF, and OIF).
This book narrates the uniquely intertwined life and scientific career of Nobel laureate Osamu Shimomura, with particular attention to his discovery of aequorin and Green Fluorescent Protein (GFP). It includes his early memories of Manchuria and wartime Japan featuring an eyewitness account of the atomic bombing of Nagasaki, his postwar studies and his travels to collect and research more than fifteen bioluminescent species, in locations ranging from Japan to San Juan Island, Bermuda, New Zealand and Norway. Dr Shimomura describes the unique combination of serendipity and perseverance that led ultimately to his 2008 Nobel Prize in chemistry. The book provides an engaging account of the life of a dedicated scientist, emphasizing the value of determination in the pursuit of pure scientific knowledge, and showing how a general understanding of science helped him open up new areas of research that have led to unforeseen applications in cell biology and medicine.
Two strategies are usually considered for the optimization of microbial bioprocesses. The first one involves genetic or metabolic engineering of the target microbial strains in order to improve its production efficiency or its tolerance to adverse conditions. The second one is based on the chemical engineering improvement of the bioreactors and scaling-up rules. This work is more particularly dedicated to this second class of parameters. Recent developments in bioreactor technologies follow the scaling-out principle, i.e. carrying out several cultures in parallel with controlled conditions for screening purposes. Several mini-bioreactor concepts, i.e. bioreactor with working volume of 1 to 100 mL with controlling devices, have been developed following this principle. In general, chemical engineering similarities between conventional stirred bioreactors and their miniature equivalent are well characterized. However, the actual scaling-up rules are not able to cope with the complexity of the microbial stress response. Indeed, microbial stress response still remains not completely understood considering the process perturbations and the environmental fluctuations accompanying the scaling-up to industrial bioreactors. At this time, this kind of response can only be experimentally predicted by using scale-down bioreactors, i.e. lab-scale bioreactors designed in order to reproduce mixing imperfections that have to be expected at large-scale. However, the use of such an approach is time consuming and requires an experimented staff to elaborate the scaling-down protocols. Indeed, bioprocess development involves several steps which cannot be necessarily linked with each other considering the different cultivation equipment used.
This new edition of Fluorescent Proteins presents current applications of autofluorescent proteins in cell and molecular biology authored by researchers from many of the key laboratories in the field. Starting from a current review of the broad palette of fluorescent proteins available, several chapters focus on key autofluorescent protein variants, including spectral variants, photodynamic variants as well as chimeric FP approaches. Molecular applications are addressed in chapters that detail work with single molecules, approaches to generating protein fusions and biosensors as well as analysis of protein-protein interactions in vivo by FRET, fluorescence polarization and fluorescence cross correlation techniques. A number of approaches to in vivo dynamics are presented, including FRAP, photoactivation, and 4-dimensional microscopy. Behavior of spindle components, membrane proteins, mRNA trafficking as well as analysis of cell types in tissues and in development are detailed and provide models for a wide variety of experimental approaches. In addition, several chapters deal directly with the computational issues involved in processing multidimensional image data and using fluorescent imaging to probe cellular behavior with quantitative modeling. This volume brings together the latest perspective and techniques on fluorescent proteins and will be an invaluable reference in a wide range of laboratories.
The General Factor of Personality improves our understanding of the personality structure and the relations between major personality dimensions, as well as major dimensions of the entire non-cognitive sphere of psychological variables. The results of the empirical testing and theoretical evaluations in this book contribute to the more comprehensive and precise theoretical framework of the General Factor of Personality (GFP) and that of the entire personality structure. Additionally, the book answers some unresolved questions concerning the nature of the GFP, including whether it is based more on correlations in real behavior or on other less substantial factors between lower-order dimensions of personality. This book is crucially important not only for theoretical reasons, but also for the tremendous practical and applied value of the assumed general dimension of personality. As a common denominator of all the most important fields of personality beyond cognition (Big Five, well-being, coping, emotionality, motivation, self-concept, self-esteem, control, wisdom and others), the GFP represents an extremely strong single predictor of the quality of life, mental health and well-being, career, academic success, and the quality of family and interpersonal relations. - Reviews the theoretical and methodological work on the General Factor of Personality (GFP) - Presents major research results in the field of GFP and the dimensional structure of personality - Provides a balanced and objective approach to the topic of GFP, addressing criticisms and controversies - Considers the practical and applied aspects of this research - Draws conclusions on the bioevolutionary model of GFP to give a more thorough understanding of biological bases of human personality
This volume is an authoritative and comprehensive treatment of the approaches and techniques used for Green Fluorescent Proteins (GFP). The primary focus of this work is on research using biological systems. The volume covers all aspects of GFP, from its expression in different organisms to specific microscopic and data analysis methods. Key Features * Only volume on Green Fluorescent Protein research * Covers all aspects of GFP * Provides specific microscopic and data analysis methods * Discusses the design and construction of GFP fusion proteins * Covers GFP expression in animals, insects, plants, and microbes * Details procedures for time lapse imaging of living cells * Explains how to implement single molecule fluorescence detection with GFP * Discusses dual label GFP strategies for multicolor fluorescence * Presents fluorescence resonance energy transfer methods with GFPs * Details quantitative fluorescence imaging techniques * Extensively illustrated with color photographs
This volume and its companion, Volume 337, supplement Volume 310. These volumes provide a contemporary sourcebook for virtually any kind of experimental approach involving biofilms. They cover bioengineering, molecular, genetic, microscopic, chemical, and physical methods.
Ubiquitin and Protein Degradation, Part B will cover chemical biology, ubiquitin derivatives and ubiquitin-like proteins, deubiquitinating enzymes, proteomics as well as techniques to monitor protein degradation. The chapters are highly methodological and focus on application of techniques. *Second part of the Ubiquitin and Protein Degration series *Topics include: E1 Enzymes, E2 Enzymes, E3 Enzymes, Proteasomes, and Isopeptidases.
The discovery of green fluorescent protein revolutionized molecular biology, transforming our study of everything from the AIDS virus to the workings of the brain.