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Table of contents

  1. Front Matter
  2. H.-J. Hinz
    Pages 1001-1002
  3. G. Fermi
    Pages 2001-2009
  4. G. Fermi
    Pages 2010-2015
  5. G. Fermi
    Pages 2016-2027
  6. G. Fermi
    Pages 2028-2029
  7. U. Heinemann, J. J. Mueller, K. M. Polyakov
    Pages 3001-3006
  8. U. Heinemann, J. J. Mueller, K. M. Polyakov
    Pages 3007-3036
  9. U. Heinemann, J. J. Mueller, K. M. Polyakov
    Pages 3037-3038
  10. U. Heinemann, J. J. Mueller, K. M. Polyakov
    Pages 3039-3041
  11. U. Heinemann, J. J. Mueller, K. M. Polyakov
    Pages 3042-3042
  12. U. Heinemann, J. J. Mueller, K. M. Polyakov
    Pages 3043-3043
  13. U. Heinemann, J. J. Mueller, K. M. Polyakov
    Pages 3044-3044
  14. U. Heinemann, J. J. Mueller, K. M. Polyakov
    Pages 3045-3045
  15. U. Heinemann, J. J. Mueller, K. M. Polyakov
    Pages 3046-3046
  16. U. Heinemann, J. J. Mueller, K. M. Polyakov
    Pages 3047-3047
  17. U. Heinemann, J. J. Mueller, K. M. Polyakov
    Pages 3048-3048
  18. U. Heinemann, J. J. Mueller, K. M. Polyakov
    Pages 3049-3049
  19. U. Heinemann, J. J. Mueller, K. M. Polyakov
    Pages 3050-3050
  20. U. Heinemann, J. J. Mueller, K. M. Polyakov
    Pages 3051-3051
  21. U. Heinemann, J. J. Mueller, K. M. Polyakov
    Pages 3052-3052
  22. U. Heinemann, J. J. Mueller, K. M. Polyakov
    Pages 3053-3053
  23. U. Heinemann, J. J. Mueller, K. M. Polyakov
    Pages 3054-3054
  24. U. Heinemann, J. J. Mueller, K. M. Polyakov
    Pages 3055-3055
  25. U. Heinemann, J. J. Mueller, K. M. Polyakov
    Pages 3056-3056
  26. U. Heinemann, J. J. Mueller, K. M. Polyakov
    Pages 3057-3057
  27. U. Heinemann, J. J. Mueller, K. M. Polyakov
    Pages 3058-3058
  28. U. Heinemann, J. J. Mueller, K. M. Polyakov
    Pages 3059-3059
  29. U. Heinemann, J. J. Mueller, K. M. Polyakov
    Pages 3060-3060
  30. U. Heinemann, J. J. Mueller, K. M. Polyakov
    Pages 3061-3063
  31. U. Heinemann, J. J. Mueller, K. M. Polyakov
    Pages 3064-3064
  32. U. Heinemann, J. J. Mueller, K. M. Polyakov
    Pages 3065-3065
  33. U. Heinemann, J. J. Mueller, K. M. Polyakov
    Pages 3066-3066
  34. U. Heinemann, J. J. Mueller, K. M. Polyakov
    Pages 3067-3067
  35. U. Heinemann, J. J. Mueller, K. M. Polyakov
    Pages 3068-3068
  36. U. Heinemann, J. J. Mueller, K. M. Polyakov
    Pages 3069-3069
  37. U. Heinemann, J. J. Mueller, K. M. Polyakov
    Pages 3070-3070
  38. U. Heinemann, J. J. Mueller, K. M. Polyakov
    Pages 3071-3071
  39. U. Heinemann, J. J. Mueller, K. M. Polyakov
    Pages 3072-3072
  40. U. Heinemann, J. J. Mueller, K. M. Polyakov
    Pages 3073-3073
  41. U. Heinemann, J. J. Mueller, K. M. Polyakov
    Pages 3074-3074
  42. U. Heinemann, J. J. Mueller, K. M. Polyakov
    Pages 3075-3075
  43. U. Heinemann, J. J. Mueller, K. M. Polyakov
    Pages 3076-3076
  44. U. Heinemann, J. J. Mueller, K. M. Polyakov
    Pages 3077-3077
  45. U. Heinemann, J. J. Mueller, K. M. Polyakov
    Pages 3078-3078
  46. U. Heinemann, J. J. Mueller, K. M. Polyakov
    Pages 3079-3079
  47. U. Heinemann, J. J. Mueller, K. M. Polyakov
    Pages 3080-3080
  48. U. Heinemann, J. J. Mueller, K. M. Polyakov
    Pages 3081-3081
  49. U. Heinemann, J. J. Mueller, K. M. Polyakov
    Pages 3082-3087

About this book

Introduction

This volume provides structural data of selected proteins, physical and chemical properties of amino acids, peptides and proteins, and information on theoretical studies. The pace at which new data are being generated in the biological sciences is breathtaking. However, it also creates a problem. Vast amounts of unsurveyable information may actually turn into desinformation by obliterating the borderlines of high and low quality data. Therefore authoritative data compilations bearing the state of the art approval of experts in the field are becoming increasingly important in view of this knowledge explosion. Another aspect of science development necessitates the availability of critically reviewed data compilations. We are witnessing an ever increasing degree of interdependence between previously more or less independently evolving branches of science. For example biotechnology and the pharmaceutically sciences are thriving as much on new findings in molecular biology as they profit from structural or thermodynamic information.

Keywords

Amino acid Peptide circular dicroism of proteins density of protein complexes hemoglobin interaction data of proteins myoglobin protein compressibilities proteins refractive indes increments of proteins ribonuclease specific volume thermodynamic data of protein complexes

Bibliographic information

  • DOI https://doi.org/10.1007/b47757
  • Copyright Information Springer-Verlag Berlin Heidelberg 2003
  • Publisher Name Springer, Berlin, Heidelberg
  • Print ISBN 978-3-540-56083-8
  • Online ISBN 978-3-540-31388-5
  • Series Print ISSN 0942-802X
  • Series Online ISSN 1616-9581
  • Buy this book on publisher's site