This volume is intended to complete the Cell Chemistry and physiology module. It is about how the traditional boundaries of cell chemistry and physiology are being erased by molecular biology. We do not think it necessary to elaborate on this theme, particularly since the body of core knowledge found in this volume brings us a stage closer to answering the question, "what makes cell biology into a new discipline?" The first part of the volume deals with the chemistry of actin and myosin and is followed by chapters on cell motility, ATP synthesis in muscle, and contraction in smooth and skeletal muscle. Here the reader is immediately made aware of the contributions molecular biology is making to our understanding of the molecular mechanisms underlying muscle contraction. It is perhaps enough to point out that Huxley's concept of the cross-bridge cycle and generation of force can now be explained in molecular terms. Topics such as muscle fatigue and muscle disorders, as well as malignant hyperthermia are bound to arouse active learning in the student and set the stage for problem-based learning. Most medical students look askance at thermobiology. We think this is a mistake; hence, we have included a section dealing with this subject. This brings us to the chapter on the heat shock response, which at the very outset makes clear that many stressors besides heat are known to result in heat shock gene expression. Many of the heat shock proteins occur in unstressed cells and some of them behave as chaperones. These proteins also reach high levels in a wide range of diseases including neurodegenerative disorders. Whether certain diseases are the result of mutations in the heat shock genes is not yet known. As will be appreciated, much of the work done in this field involved the use of cultured cells. Animal cells in culture are the subject of the last chapter.
Author(s): E. Edward Bittar and Neville Bittar (Eds.)
Series: Principles of Medical Biology 4, Part D
Edition: 1
Publisher: Elsevier Science
Year: 1996
Language: English
Pages: 1-494
Content:
List of contributors
Pages ix-xi
Preface
Pages xiii-xiv
E. Edward Bittar, Neville Bittar
Chapter 1 The cytoskeleton-microtubules and microfilaments: A biological perspective Original Research Article
Pages 1-41
S.K. Malhotra, T.K. Shnitka
Chapter 2 Actin polymerization: Regulation by divalent metal ion and nucleotide binding, ATP hydrolysis and actin binding proteins Original Research Article
Pages 43-57
Marie-France Carlier, Dominique Pantaloni
Chapter 3 Myosins Original Research Article
Pages 59-76
Donald D. Lorimer, Primal de Lanerolle
Chapter 4 Cell Motility Original Research Article
Pages 77-106
Sutherland K. Maciver, Alan G. Weeds
Chapter 5 Mitochondrial oxidations and ATP synthesis in muscle Original Research Article
Pages 107-154
D.M. Turnbull, H.S.A. Sherratt
Chapter 6 Regulation and activity of smooth muscle Original Research Article
Pages 155-200
Lloyd Barr
Chapter 7 The cellular and molecular basis of skeletal and cardiac muscle contraction Original Research Article
Pages 201-237
Michelle Peckham
Chapter 8 Muscle fatigue Original Research Article
Pages 239-280
Eric Hultman, Lawrence L. Spriet
Chapter 9 Skeletal muscle disorders Original Research Article
Pages 281-354
Margaret A. Johnson, Kate M.D. Bushby, Louise V.B. Anderson, John B. Harris
Chapter 10 Principles of medical cryobiology: The freezing of living cells, tissues, and organs Original Research Article
Pages 355-384
Peter Mazur
Chapter 11 Clinical applications of cryobiology Original Research Article
Pages 385-397
James H. Southard
Chapter 12 Malignant hyperthermia Original Research Article
Pages 399-409
Calvin Johnson, Sujatha Kotamraju
Chapter 13 The human heat shock response Original Research Article
Pages 411-462
Donald A. Jurivich
Chapter 14 Cell culture Original Research Article
Pages 463-483
Mary L. Taub
Index
Pages 485-494
