Reviews in Fluorescence 2007

Reviews in Fluorescence 2007, the forth volume of the book serial from Springer, serves as a comprehensive collection of current trends and emerging hot topics in the field of fluorescence.

It summarizes the year's progress in fluorescence, with authoritative analytical reviews specialized enough to be attractive to professional researchers, yet also appealing to the wider audience of scientists in related disciplines of fluorescence.

Reviews in Fluorescence offers an essential reference material for any lab working in the fluorescence field and related areas. All academics, bench scientists, and industry professionals wishing to take advantage of the latest and greatest in the continuously emerging field of fluorescence will find it an invaluable resource.

Key features:

• Comprehensive coverage of the year's hottest topics
• Chapters authored by known leading figures in the fluorescence field
• Accessible utility in a single volume reference
• New volume publishes annually
• Each Reviews in Fluorescence volume will be citable (ISI) and indexed

Reviews in Fluorescence 2007 topics include:

• Validation standards for fluorometry
• Energy transport and fluorescence spectroscopy for structural insights into proteins
• FRET in live cells
• Boronic acid based modular fluorescent saccharide sensors
• Fluorescence solvent relaxation in cationic membranes
• Membrane studies using fluorescence spectroscopy
• Quantum dot-encoded fluorescent beads for biodetection and imaging
• The study of biological assemblies by ultra fast fluorescence spectroscopy
• Fluorescence signal amplification for ultra sensitive DNA detection About the Editor:

Dr. Chris D. Geddes, Ph.D., Professor, hasextensive experience in fluorescence spectroscopy, particularly in fluorescence sensing and metal-fluorophore interactions (Metal-Enhanced Fluorescence), publishing over 190 papers and 18 books. Dr. Geddes is internationally known in fluorescence. He is the editor-in-chief of the Journal of Fluorescence and founding editor of the Who's Who in Fluorescence and Annual Reviews in Fluorescence volumes. In addition, due to the labs pioneering efforts in the fields of metallic nanoparticle-fluorophore interactions, Dr. Geddes recently launched a new Springer Journal, Plasmonics, as well as a new annual hard bound book series Annual Reviews in Plasmonics. Dr. Geddes is Director of the Institute of Fluorescence, within the Medical Biotechnology Center which focuses on the nano-bio-technological applications of fluorescence. Dr. Geddes is currently the chair of 1 NIH study section, a frequent member of the NIBIB special emphasis sensing panels and a permanent member of the NIH EBT study section.

http://theinstituteoffluorescence.com/

Auteur

Dr. Chris D. Geddes, Ph.D., Professor, has extensive experience in fluorescence spectroscopy, particularly in fluorescence sensing and metal-fluorophore interactions (Metal-Enhanced Fluorescence), publishing over 190 papers and 18 books. Dr. Geddes is internationally known in fluorescence. He is the editor-in-chief of the Journal of Fluorescence and founding editor of the Who's Who in Fluorescence and Annual Reviews in Fluorescence volumes. In addition, due to the labs pioneering efforts in the fields of metallic nanoparticle-fluorophore interactions, Dr. Geddes recently launched a new Springer Journal, Plasmonics, as well as a new annual hard bound book series Annual Reviews in Plasmonics. Dr. Geddes is Director of the Institute of Fluorescence, within the Medical Biotechnology Center which focuses on the nano-bio-technological applications of fluorescence. Dr. Geddes is currently the chair of 1 NIH study section, a frequent member of the NIBIB special emphasis sensing panels and a permanent member of the NIH EBT study section.

http://theinstituteoffluorescence.com/

Résumé
This book gives you a step-by-step introduction to analysing time series using the open source software R. Each time series model is motivated with practical applications, and is defined in mathematical notation. Once the model has been introduced it is used to generate synthetic data, using R code, and these generated data are then used to estimate its parameters. This sequence enhances understanding of both the time series model and the R function used to fit the model to data. Finally, the model is used to analyse observed data taken from a practical application. By using R, the whole procedure can be reproduced by the reader. All the data sets used in the book are available on the website http://staff.elena.aut.ac.nz/Paul-Cowpertwait/ts/.The book is written for undergraduate students of mathematics, economics, business and finance, geography, engineering and related disciplines, and postgraduate students who may need to analyse time series as part of their taught programme or their research.

Contenu
Simple Calibration and Validation Standards for Fluorometry.- Membranes and Fluorescence Microscopy.- Electronic Energy Transport and Fluorescence Spectroscopy for Structural Insights into Proteins, Regular Protein Aggregates and Lipid Systems.- Spectra FRET: A Fluorescence Resonance Energy Transfer Method in Live Cells.- Boronic Acid Based Modular Fluorescent Saccharide Sensors.- Fluorescence Solvent Relaxation in Cationic Membranes.- Quantum Dot-Encoded Fluorescent Beads for Biodetection and Imaging.- Study of Biological Assemblies by Ultrafast Fluorescence Spectroscopy.- Fluorescence Signal Amplification for Ultrasensitive DNA Detection.- Exploring the Electrostatic Landscape of Proteins with Tryptophan Fluorescence.- Fluorescent Probes for Two-Photon Excitation Microscopy.- High-Resolution Fluorescence Studies on Excited-State Intra- and Intermolecular Proton Transfer.- Hydrocarbon Fluid Inclusion Fluorescence: A Review.- Photophysics and Biophysical Applications of Benzo[a]phenoxazine Type Fluorophores.- A Fluorescence Quenching Method to Study Interactions of Hemoglobin Derivatives with Erythroid Spectrin.- Photoluminescence of Pharmaceutical Materials in the Solid State. 4. Fluorescence Studies of Various Solvated and Desolvated Solvatomorphs of Erythromycin A.