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Photobiology, ionizing radiations PDF

390 Pages·1967·21.806 MB·English
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ELSEVIER PUBLISHING COMPANY 335 Jan van Galenstraat, P.O. Box 211, Amsterdam AMERICAN ELSEVIER PUBLISHING COMPANY, INC. 52, Vanderbilt Avenue, New York, N.Y. 10017 ELSEVIER PUBLISHING COMPANY LIMITED Rippleside Commercial Estate, Barking, Essex Library of Congress Catalog Card Number 62-10359 With 104 illustrations and 23 tables ALL RIGHTS RESERVED THIS BOOK OR ANY PART THEREOF MAY NOT BE REPRODUCED IN ANY FORM (INCLUDING PHOTOSTATIC OR MICROFILM FORM) WITHOUT WRITTEN PERMISSION FROM THE PUBLISHERS PRINTED IN THE NETHERLANDS COMPREHENSIVE BIOCHEMISTRY ADVISORY BOARD SIR RUDOLPH A. PETERS, M.C., M.D., D.Sc, F.R.S. Emeritus Professor of Biochemistry, Oxford; Department of Biochemistry, Cambridge Chairman C. F. CORI, M.D., D.Sc. Professor of Biochemistry, Massachusetts General Hospital, Boston, Mass. J. N. DAVIDSON, D.Sc, M.D., F.R.S. Professor of Biochemistry, The University of Glasgow, Scotland E. F. GALE, D.Sc, F.R.S. Professor of Chemical Microbiology, University of Cambridge A. BAIRD HASTINGS, B.Sc, PH.D., D.SC. Director of Biochemistry Division, Scripps Clinic and Research Foundation, La Jolla, Calif. E. LEDERER, PH.D., D.SC. Professor of Biochemistry, Faculty of Science, University of Paris F. LYNEN Max Planck Institute for Cell Chemistry, Munich R. NICOLAYSEN, M.D. Professor of Nutrition Research, University of Oslo S. OCHOA, B.A., M.D., HON.LL.D., HON.D.SC Professor of Biochemistry, New York University School of Medicine, New York, N.Y. J.ROCHE, D.Sc Professor of General and Comparative Biochemistry, Collège de France, Paris KENNETH V. THIMANN Professor of Biology, University of California, Santa Cruz, Calif. A. W. K. TISELIUS, D.Sc, FOR.F.R.S. Professor of Biochemistry, Institute of Biochemistry, Uppsala, Sweden F. G. YOUNG, M.A., D.Sc, F.R.S. Professor of Biochemistry, University of Cambridge C O M P R E H E N S I VE B I O C H E M I S T RY SECTION I (VOLUMES 1-4) PHYSICO-CHEMICAL AND ORGANIC ASPECTS OF BIOCHEMISTRY SECTION II (VOLUMES 5-11) CHEMISTRY OF BIOLOGICAL COMPOUNDS SECTION III (VOLUMES 12-16) BIOCHEMICAL REACTION MECHANISMS SECTION IV (VOLUMES 17-21) METABOLISM SECTION V (VOLUMES 22-29) CHEMICAL BIOLOGY HISTORY OF BIOCHEMISTRY (VOLUME 30) GENERAL INDEX (VOLUME 31) C O M P R E H E N S I VE B I O C H E M I S T RY EDITED BY MARCEL FLORKIN Professor of Biochemistry, University of Liège (Belgium) AND ELMER H. STOTZ Professor of Biochemistry, University of Rochester, School of Medicine and Dentistry, Rochester, N.Y. (U.S.A.) VOLUME 27 PHOTOBIOLOGY, IONIZING RADIATIONS ELSEVIER PUBLISHING COMPANY AMSTERDAM • LONDON • NEW YORK 1967 CONTRIBUTORS TO THIS VOLUME PETER ALEXANDER, D.Sc, PH.D. Chester Beatty Research Institute, Institute of Cancer Research : Royal Cancer Hospital, Fulham Road, London, S.W. 3 (Great Britain) DR. J. AMESZ Biophysical Laboratory, University of Leiden, Schelpenkade 14A, Leiden (The Netherlands) C. D. B. BRIDGES, PH.D. Medical Research Council (Vision Research Unit), Institute of Ophthalmology, Judd Street, London, W.C.I (Great Britain) DR. L.N.M. DUYSENS Professor of Biophysics, Biophysical Laboratory, University of Leiden, Schelpenkade 14A, Leiden (The Netherlands) S. B. HENDRICKS, PH.D. Soil and Water Conservation Research Division, Mineral Nutrition Laboratory, U.S. Department of Agriculture, Agricultural Research Service, Beltsville, Md. (U.S.A.) FRANK H. JOHNSON, A.B., A.M., PH.D. Professor of Biology, Department of Biology, Princeton University, Princeton, N.J. 08540 (U.S.A.) JOHN T.LETT, PH.D. Chester Beatty Research Institute, Institute of Cancer Research : Royal Cancer Hospital, Fulham Road, London, S.W. 3 (Great Britain) JANE K. SETLOW, PH.D. Biology Division, Oak Ridge National Laboratory, Oak Ridge, Tenn. (U.S.A.) H. W. SIEGELMAN, PH.D. Crops Research Division, Plant Physiology Laboratory, U.S. Department of Agriculture, Agricultural Research Service, Beltsville, Md. (U.S.A.) MELVIN I. SIMON, PH.D. Assistant Professor of Biology, Department of Biology, University of California at San Diego, La Jolla, Calif. 92038 (U.S.A.) KENNETH V. THIMANN, B.Sc, A.M., PH.D. Professor of Biology and Provost of Crown College, Division of Natural Sciences, University of California, Santa Cruz, Calif. 95060 (U.S.A.) GENERAL PREFACE The Editors are keenly aware that the literature of Biochemistry is already very large, in fact so widespread that it is increasingly difficult to assemble the most pertinent material in a given area. Beyond the ordinary textbook the subject matter of the rapidly expanding knowledge of biochemistry is spread among innumerable journals, monographs, and series of reviews. The Editors believe that there is a real place for an advanced treatise in biochemistry which assembles the principal areas of the subject in a single set of books. It would be ideal if an individual or small group of biochemists could produce such an advanced treatise, and within the time to keep reasonably abreast of rapid advances, but this is at least difficult if not impossible. Instead, the Editors with the advice of the Advisory Board, have assembled what they consider the best possible sequence of chapters written by competent authors; they must take the responsibility for inevitable gaps of subject matter and duplication which may result from this procedure. Most evident to the modern biochemist, apart from the body of knowledge of the chemistry and metabolism of biological substances, is the extent to which he must draw from recent concepts of physical and organic chemistry, and in turn project into the vast field of biology. Thus in the organization of Comprehensive Biochemistry, the middle three sections, Chemistry of Biological Compounds, Biochemical Reaction Mechanisms, and Metabolism may be considered classical biochemistry, while the first and last sections provide selected material on the origins and projections of the subject. It is hoped that sub-division of the sections into bound volumes will not only be convenient, but will find favour among students concerned with specialized areas, and will permit easier future revisions of the individual volumes. Toward the latter end particularly, the Editors will welcome all comments in their effort to produce a useful and efficient source of biochem­ ical knowledge. M. FLORKIN Liège/Rochester E. H. STOTZ PREFACE TO SECTION V (VOLUMES 22-29) After Section IV {Metabolism), Section V is devoted to a number of topics which, in an earlier stage of development, were primarily descriptive and included in the field of Biology, but which have been rapidly brought to study at the molecular level. "Comprehensive Biochemistry", with its chemical approach to the understanding of the phenomena of life, started with a first section devoted to certain aspects of organic and physical chemistry, aspects considered pertinent to the interpretation of biochemical techniques and to the chemistry of biological compounds and mechanisms. Section II has dealt with the organic and physical chemistry of the major organic constituents of living material, including a treatment of the important biological high polymers, and including sections on their shape and physical properties. Section III is devoted primarily to selected examples from modern enzymology in which advances in reaction mechanisms have been accomplished. After the treatment of MetaboUsm in the volumes of Section IV, "Comprehensive Biochemistry", in Section V, projects into the vast fields of Biology and deals with a number of aspects which have been attacked by biochemists and biophysicists in their endeavour to bring the whole field of life to a molecular level. Besides the chapters often grouped under the heading of molecular biology, Section V also deals with modern aspects of bioenergetics, immuno- chemistry, photobiology and finally reaches a consideration of the molecular phenomena that underlie the evolution of organisms. M. FLORKIN Liège/Rochester E. H. STOTZ COMPREHENSIVE BIOCHEMISTRY Section V - Chemical Biology Volume 22. Bioenergetics I. Quantum biochemistry by A. PULLMAN AND B. PULLMAN. II. Mechanisms of energy transfer by TH. FÖRSTER. III. Charge transfer in biology (a) Donor-acceptor complexes in solution, (b) Transfer of charge in the organic solid state by F. J. BULLOCK. IV. Active transport and ion accumulation by P. MITCHELL. Subject index. Volume 23. Cytochemistry I. Nucleus by G. SIEBERT. II. The nucleolus by H. BUSCH. III. Mitochondria by R. J. BARRNETT. IV. Lysosomes by A. L. TAPPEL. V. The cell surface membrane by R. COLE- MAN AND J. B. FINEAN. VI. Microbial cytology by M. R. J. SALTON. VII. Endoplasmic reticulum, secretory granules and Golgi apparatus by G. PALADE. Subject index. Volume 24. Biological information transfer. Viruses. Chemical immunology I. Biological information transfer, (ä) DNA synthesis and replication, (b) RNA metab­ olism. 1. Template RNA; 2. Transfer RNA, amino acid activation, (c) Protein syn­ thesis. 1. Ribosomal function; 2. The genetic code, id) Biochemical individuality (with general treatment of genetic errors), (e) Chemical mutagenesis. (/) Phage genetics. II. Biochemistry of viruses. III. Immunochemistry. Subject Index. Volume 25. Regulatory functions, membrane phenomena I. Regulatory functions, (a) Hormone mechanisms, (b) Allosteric effects and feedback mechanisms, (c) Enzyme induction and repression. II. Membrane phenomena, (a) Bio­ electric potentials (incl. nerve impulse), (b) Secretion phenomena, (c) Cell permeability. Subject index. Volume 26. Extracellular and supporting structures I. Biochemistry of the plant cell wall by S. M. SIEGEL. II. Bacterial cell walls by J.-M. GHUYSEN, J. L. STROMINGER AND D. J. TIPPER. III. Somatic and capsular antigens of gram-negative bacteria by O. LÜDERITZ, K. JANN AND R. WHEAT. IV. Chitinous struc­ tures by CH. JEUNIAUX. V. Calcified shells by K. M. WILBUR AND K. SIMKISS. VI. Col­ lagen and bone by S. FITTON-JACKSON. VII. Cartilage by A. J. BARRETT. VIII. Dental enamel by M. J. GLIMCHER. IX. Extracellular fibrous protein: The silks by F. LUCAS AND K. M. RUDALL. X. Intracellular fibrous proteins and the keratins by K. M. Ru- DALL. Subject index. COMPREHENSIVE BIOCHEMISTRY Section V - Chemical Biology (continued) Volume 27. Photobiology, ionizing radiations I. Phototropism by K. V. THIMANN. II. Biochemistry of visual processes by C. D. B. BRIDGES. III. Bioluminescence by F. H. JOHNSON. IV. Photosensitization by M. I. SIMON. V. The effects of ultraviolet radiation and photoreactivation by J. K. SETLOW. VI. Phytochrome and photoperiodism in plants by S. B. HENDRICKS AND H. W. SIEGEL- MAN. VII. Photosynthesis by L. N. M. DUYSENS AND J, AMESZ. VIII. Effects of ionizing radiations on biological macromolecules by P. ALEXANDER AND J. T. LETT. Subject index. Volume 28. Morphogenesis, differentiation and development I. Fertilization by A. MONROY. II. Behaviour of nucleic acids during early development by J. BRÄCHET. III. Biochemical pathways in embryos by E. SCARANO AND G. AUGUSTI- Tocco. IV. Factors of embryonic induction by T. YAMADA. V. Biochemistry of am­ phibian metamorphosis by R. WEBER. VI. Biochemical correlations in insect meta­ morphosis by L. I. GILBERT. Subject index. Volume 29. Comparative biochemistry, molecular evolution I. Comparative biochemistry, (a) Basic concepts, (b) Autotrophic metabolism, (c) Chemical needs in heterotrophs. (d) Biochemical cycles in the biosphere, (e) Biochemis­ try and taxonomy. II. Molecular evolution, (a) Molecular adaptations to the physical environment, (b) Molecular adaptations to the biological environment, (c) Heteromor- phic aspects of molecular evolution, (d) Evolution of biochemical systems, physiologi­ cal radiations, (e) Biosynthesis and phylogeny. (J) Paleobiochemistry. (g) Chemical evolution and prebiological evolution. Subject index. Chapter I Phototropism KENNETH V. THIMANN Division of Natural Sciences, University of California, Santa Cruz, Calif (U.S.A,) 1. Introduction Phototropism is the orientation of the direction of growth by light. It is almost universal in elongating green plants, and the reaction is particularly sensitive in seedlings, which may curve towards (positive phototropism) or away from (negative phototropism) the light source. Roots (especially of members of the Cruciferae) sometimes show weak negative phototropism, but because of its weakness and variability this response has scarcely been studied. In addition to green plants a small number of fungi are phototropic, especially the stalks of their fruiting bodies (sporangiophores). It is important to note from the definition that phototropism is a growth response and therefore cannot occur in a non-growing organism. However, in a few cases, germination i.e., the beginning of growth, has its direction determined by the direction of a light source. These phenomena are often considered under phototropism. Free movement of motile organisms, particularly unicells, is often oriented by light too, but because this reaction, known as phototaxis, has few features in common with phototropism it will not be considered here. 2. Types of phototropic response (a) Higher plants It is a curious fact that all of the well-studied instances of phototropism comprise more than one reaction. The classic example of this is given by References p. 27 [i]

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