Interrelationship Among Aging, Cancer and DifferentiationBernard Pullman, Paul O.P. Ts'O, Edward L. Schneider Springer Science & Business Media, 1985 M11 30 - 345 pages In 1980. a distinguished group of scientists gathered In Washington. D. C. for an International Symposium on Aging and Cancer. Among the recommendations of this Symposium was to convene a future meeting to discuss the molecular basis for Interrelationships between aging and cancer when the appropriate scientific knowledge was available. That same year. the 13th Jerusalem Symposium on Quantum Chemistry and Biochemistry entitled ·Carcl nogenesls : Fundamental Mechanisms and Environmental Effects·. was held. attended by some 50 International authorities In this field. At this meeting. It became clear that the fundamental process of carcinogenesis 15 Intimately associated with differentiation. which must also be mechanistically related to aging. It was therefore proposed that the next Jerusalem Symposium on Cancer could provide the appropriate forum for the study on the Interrelationship among cancer. aging and differentiation. The Impressive advances In our knowledge of the nature of the genome through molecular genetic and physical chemical techniques have now provided the opportunity to examine the Interrelationships between these complex biolo gical processes. Through the Isolation. cloning and rearranging of genes we are able to dissect and manipulate the genome In a fashion that was unanticipated only a decade ago. At the same time. the Increase In longevity and the Increased numbers of Individuals entering the last decades of life where cancer Incidences are highest raise the profound and practical question of whether aging and cancer are linked through common mechanisms. |
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... Increase in longevity and the Increased numbers of Individuals entering the last decades of life where cancer incidences are highest raise the profound and practical question of whether aging and cancer are linked through common ...
... Increase in longevity and the Increased numbers of Individuals entering the last decades of life where cancer incidences are highest raise the profound and practical question of whether aging and cancer are linked through common ...
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Contents
DECELERATION OF CANCER MORTALITY RATES WITH AGE AND TIME | 7 |
OVERVIEW OF THE PATHOBIOLOGY OF AGING | 23 |
ALTERATIONS IN EPIDERMAL DIFFERENTIATION IN SKIN CARCINOGENESIS | 67 |
VIRUS TRANSFORMATION AS A FUNCTION OF AGE DIFFERENTIATION AND | 83 |
EXPRESSION OF TWO MURINE GENE FAMILIES IN TRANSFORMED CELLS AND | 101 |
faell | 109 |
4 21 | 124 |
DOMINANCE OF IN VITRO SENESCENCE IN SOMATIC CELL HYBRIDIZATION AND | 133 |
Figure 6 | 21 |
Figure 11 | 41 |
Hi ij | 47 |
max | 59 |
བ | 80 |
min | 83 |
TE | 87 |
4 | 90 |
COLLAGEN | 143 |
The Conformational Effects of UV Induced Damage on DNA | 163 |
0 | 169 |
INTERMEDIATES IN TRANSCRIPTION INITIATION AND PROPAGATION | 183 |
Usually we subdivide the lectins in groups First the | 189 |
Figure 6 | 217 |
CRITICAL MOLECULAR EVENTS AND GENE REGULATION IN CARCINOGENESIS | 255 |
MONOCLONAL ANTIBODIES DIRECTED AGAINST ALKYLDEOXYNUCLEOSIDES AND CELL | 267 |
STRUCTURE AND BIOLOGY OF SCRAPIE PRIONS | 277 |
VIRAL GENES AND PERTURBATION OF DIFFERENTIATED | 289 |
Tissue | 296 |
AGEING AND CANCER A COMMON FREE RADICAL MECHANISM? | 301 |
10 | 305 |
FIGURE 4 ESR spectrum of the DMPOethanol | 306 |
CELLULAR STUDIES ON THE INTERRELATIONSHIP AMONG CANCER AGING AND | 325 |
342 | 342 |
SERIES EDITORS PREFACE | v |
Figure 5 | 9 |
T | 108 |
01 | 112 |
Figure 49 | 133 |
CHAPTER 5 | 256 |
CHAPTER 6 | 300 |
Figure 80 | 304 |
H | 312 |
6 | 313 |
1h1 | 314 |
1 | 315 |
3 | 316 |
5 | 317 |
48 | 319 |
P | 320 |
8a | 321 |
REFERENCES | 326 |
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Common terms and phrases
Acad algebra G analytic Bott integral Brailov carcinogenesis carcinogens carcinoma Cartan subalgebra cell lines cellular chromosome circle clones compact completely integrable coordinates critical cultures denote diffeomorphic element embryonic Euler equations fibre follows Fomenko full tori function f gene genetic genome geodesic flow glued graph Hamiltonian system homeomorphic ind G infected initial integrable systems integral f integral trajectories invariant involution lectins LEMMA level surface Liouville Liouville tori malignant matrix maximal linear commutative mechanisms metastases metric momentum mapping mouse mRNA Natl neighbourhood nondegenerate nonintegrability nonsingular normal obtained oncogenes orbits Poisson bracket polynomials prions Proc proof protein recombinant Riemannian Riemannian metric rigid body semisimple Lie algebra senescence sequences sgrad H smooth space subalgebra submanifold subspace symplectic manifold symplectic structure Theorem three-dimensional topological torus transcription transformation tumor two-dimensional vector field virus vitro vivo