PlanetPhysics/Bibliography for Mathematical Biophysics

Bibliography for mathematical biophysics, mathematical biology, and theoretical biology/biophysics

This is a partial bibliography for a specific area of Applied Mathematics: in Life Sciences and also Mathematical Medicine.

^{[1] [2] [3] [4] [5] [6] [7] [8] [9] [10] [11] [12] [13] [14] [15] [16] [17] [18] [18] [18] [18] [19] [20] [21] [22] [23] [24] [25] [26] [27]}

1. ↑ Erwin Schr\"odinger.1945. What is Life? . Cambridge University Press: Cambridge (UK).
2. ↑ Nicolas Rashevsky.1954, Topology and life: In search of general mathematical principles in biology and sociology, Bull. Math. Biophys. 16: 317-348.
3. ↑ Nicolas Rashevsky. 1965. Models and Mathematical Principles in Biology. In: Waterman/Morowitz, Theoretical and Mathematical Biology , pp. 36-53.
4. ↑ Rosalind E. Franklin and R.G. Gosling. 1953. Evidence for 2-chain helix in crystalline structure of sodium deoxyribonucleate (DNA). Nature 177: 928-930.
5. ↑ Wilkins, M.H.F. et al. 1953. Helical structure of crystalline deoxypentose nucleic acid (DNA). Nature 172: 759-762.
6. ↑ Francis H.C. Crick. 1953. Fourier transform of a coiled coil. Acta Cryst . 6: 685-687
7. ↑ H. R. Wilson. 1966. Diffraction of X-rays by Proteins, Nucleic Acids and Viruses . London: Arnold.
8. ↑ I. C. Baianu, J. F. Glazebrook, R. Brown and G. Georgescu.: Complex Nonlinear Biodynamics in Categories, Higher dimensional Algebra and \L{}ukasiewicz-Moisil Topos: Transformation of Neural, Genetic and Neoplastic Networks, Axiomathes , 16 : 65-122 2006). PDF file of document
9. ↑ I.C. Baianu. 1978. X-ray Scattering by Partially Disordered Membrane Lattices. Acta Crystall . A34: 731-753. (paper contributed from The Cavendish Laboratory, Cambridge in 1979 ).
10. ↑ I.C. Baianu. 1980. Structural Order and Partial Disorder in Biological Systems. Bull. Math. Biol. (paper contributed from The Cavendish Laboratory, Cambridge in 1979 ).
11. ↑ R. Hosemann and S. N. Bagchi. 1962. Direct Analysis of Diffraction by Matter . Amsterdam: North Holland.
12. ↑ D. Voet and J.G. Voet. 1995. Biochemistry . 2nd Edition, New York, Chichester, Brisbone, Toronto, Singapore: J. Wiley and Sons, INC., 1361 pp.. (an excellently illustrated textbook )
13. ↑ Robert Rosen. 1997 and 2002. Essays on Life Itself .
14. ↑ Rosen, R.: 1958a, A Relational Theory of Biological Systems Bulletin of Mathematical Biophysics 20 : 245-260.
15. ↑ Rosen, R.: 1958b, The Representation of Biological Systems from the Standpoint of the Theory of Categories., Bulletin of Mathematical Biophysics 20 : 317-341.
16. ↑ Rosen, R. 1960. A quantum-theoretic approach to genetic problems. Bulletin of Mathematical Biophysics 22: 227-255.
17. ↑ Rosen, R.: 1987, On Complex Systems, European Journal of Operational Research 30 , 129-134.
18. ↑ ^{18.0 18.1 18.2 18.3} Rosen,R. 1970, Dynamical Systems Theory in Biology . New York: Wiley Interscience. Cite error: Invalid <ref> tag; name "RR70" defined multiple times with different content
19. ↑ Rosen,R. 1991, Life Itself: A Comprehensive Inquiry into the Nature, Origin, and Fabrication of Life , Columbia University Press
20. ↑ Ehresmann, C.: 1984, Oeuvres compl\`etes et comment\'ees: Amiens, 1980-84 , edited and commented by Andr\'ee Ehresmann.
21. ↑ Ehresmann, A. C. and J.-P. Vanbremersch: 2006, The Memory Evolutive Systems as a Model of Rosen's Organisms, in Complex Systems Biology , I.C. Baianu, Editor, Axiomathes 16 (1--2), pp. 13-50.
22. ↑ Eilenberg, S. and Mac Lane, S.: 1942, Natural Isomorphisms in Group Theory., American Mathematical Society 43 : 757-831.
23. ↑ Eilenberg, S. and Mac Lane, S.: 1945, The General Theory of Natural Equivalences, Transactions of the American Mathematical Society 58: 231-294.
24. ↑ Elsasser, M.W.: 1981, A Form of Logic Suited for Biology., In: Robert, Rosen, ed., Progress in Theoretical Biology , Volume 6, Academic Press, New York and London, pp 23-62.
25. ↑ Bartholomay, A. F.: 1960. Molecular Set Theory. A mathematical representation for chemical reaction mechanisms. Bull. Math. Biophys. , 22 : 285-307.
26. ↑ Bartholomay, A. F.: 1965. Molecular Set Theory: II. An aspect of biomathematical theory of sets., Bull. Math. Biophys. 27 : 235-251.
27. ↑ Bartholomay, A.: 1971. Molecular Set Theory: III. The Wide-Sense Kinetics of Molecular Sets ., Bulletin of Mathematical Biophysics , 33 : 355-372.