โ Scribed by Ludwig Brand, Michael L. Johnson (Eds.)
No coin nor oath required. For personal study only.
The aim of this volume is to brief researchers of the importance of data analysis in enzymology, of the modern methods that have developed concomitantly with computer hardware, and of the need to validate their computer programs with real and synthetic data to ascertain that the results produced are what they expected
Content:
Contributors to volume 210
Pages vii-viii
Preface
Pages ix-xi
Ludwig Brand, Michael L. Johnson
Volumes in series
Pages xiii-xxix
[1] Parameter estimation by least-squares methods Original Research Article
Pages 1-37
Michael L. Johnson, Lindsay M. Faunt
[2] Global analysis of biochemical and biophysical data Original Research Article
Pages 37-54
Joseph M. Beechem
[3] Padะยฉ-laplace algorithm for sums of exponentials: Selecting appropriate exponential model and initial estimates for exponential fitting Original Research Article
Pages 54-67
Herbert R. Halvorson
[4] Use of weighting functions in data fitting Original Research Article
Pages 68-87
Enrico Di Cera
[5] Analysis of Residuals: Criteria for determining goodness-of-fit Original Research Article
Pages 87-105
Martin Straume, Michael L. Johnson
[6] Analysis of ligand-binding data with experimental uncertainties in independent variables Original Research Article
Pages 106-117
Michael l. Johnson
[7] Monte Carlo Method for determining complete confidence probability distributions of estimated model parameters Original Research Article
Pages 117-129
Martin Straume, Michael L. Johnson
[8] Singular value decomposition: Application to analysis of experimental data Original Research Article
Pages 129-192
E.R. Henry, J. Hofrichter
[9] Fourier resolution enhancement of infrared spectral data Original Research Article
Pages 192-200
Douglas J. Moffatt, Henry H. Mantsch
[10] Maximum likelihood analysis of fluorescence data Original Research Article
Pages 200-237
ะะ
eljko Bajzer, Franklyn G. Prendergast
[11] Method of moments and treatment of nonrandom error Original Research Article
Pages 237-279
Enoch W. Small
[12] Laplace Deconvolution of fluorescence decay surfaces Original Research Article
Pages 279-304
Marcel Ameloot
[13] Interpolation methods Original Research Article
Pages 305-314
Carole J. Spangler
[14] Compartmental analysis of fluorescence decay surfaces of excited-state processes Original Research Article
Pages 314-340
Marcel Mameloot, Noะยซl Boens, Ronn Andriessen, Viviane Van Den Bergh, Frans C. De Schryver
[15] Analysis of discrete, time-sampled data using fourier series method Original Research Article
Pages 340-356
Lindsay M. Faunt, Michael L. Johnson
[16] Alternatives to consider in fluorescence decay analysis Original Research Article
Pages 357-374
Jay R. Knutson
[17] Practical aspects of kinetic analysis Original Research Article
Pages 374-391
Julien S. Davis
[18] Compartmental analysis of enzyme-catalyzed reactions Original Research Article
Pages 391-405
Preston Hensley, Glenn Nardone, Meryl E. Wastney
[19] Analysis of site-specific interaction parameters in protein-DNA complexes Original Research Article
Pages 405-425
Kenneth S. Koblan, David L. Bain, Dorothy Beckett, Madeline A. Shea, Gary K. Ackers
[20] Analysis of circular dichroism spectra Original Research Article
Pages 426-447
W.Curtis Johnson Jr.
[21] Fluorescence quenching studies: Analysis of nonlinear Stern-Volmer data Original Research Article
Pages 448-463
William R. Laws, Paul Brian Contino
[22] Simultaneous analysis for testing of models and parameter estimation Original Research Article
Pages 463-481
Donald F. Senear, David Wayne Bolen
[23] Numerical analysis of binding data: Advantages, practical aspects, and implications Original Research Article
Pages 481-505
Catherine A. Royer, Joseph M. Beechem
[24] Deconvolution analysis for pulsed-laser photoacoustic Original Research Article
Pages 505-521
Jeanne Rudzki Small
[25] Parameter estimation in binary mixtures of phospholipids Original Research Article
Pages 521-539
E.E. Brumbaugh, C. Huang
[26] Deconvolution analysis of hormone data Original Research Article
Pages 539-575
Johannes D .Veldhuis, Michael L. Johnson
[27] Dynamic programming algorithms for biological sequence comparison Original Research Article
Pages 575-601
William R. Pearson, Webb Miller
[28] Programs for symbolic mathematics in biochemistry Original Research Article
Pages 601-610
Herbert R. Halvorson
[29] Artificial neural networks Original Research Article
Pages 610-636
W.T. Katz, J.W. Snell, M.B. Merickel
[30] fractal applications in biology: Scaling time in biochemical networks Original Research Article
Pages 636-675
F.Eugene Yates
Author index
Pages 677-687
Subject index
Pages 688-718
๐ SIMILAR VOLUMES
ย The various chapters within this volume include a wide variety of applications that extend far beyond this limited perception. As part of the Reliable Lab Solutions series, Essential Numerical Computer Methods brings together chapters from volumes 210, 240, 32
The contributions in this volume emphasize analysis of experimental data and analytical biochemistry, with examples taken from biochemistry. They serve to inform biomedical researchers of the modern data analysis methods that have developed concomitantly with computer hardware.
This new book from the authors of the classic book Numerical Methods addresses the increasingly important role of numerical methods in science and engineering. More cohesive and comprehensive than any other modern textbook in the field, it combines traditional and well-developed topics with other ma