Biology's next microscope: Mathematics/Bibliography: Difference between revisions

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imported>Daniel Mietchen
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imported>Daniel Mietchen
(two broughtover from http://reid.citizendium.org/wiki?title=Mathematical_biology/Bibliography&oldid=100401192)
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{{subpages}}
{{subpages}}
*{{citation
| last1 = Berret | first1 =  Bastien
| last2 = Darlot | first2 =  Christian
| last3 = Jean | first3 =  Frédéric
| last4 = Pozzo1 | first4 =  Thierry
| last5 = Papaxanthis | first5 =  Charalambos
| last6 = Gauthier | first6 =  Jean Paul
| year = 2008
| title = The Inactivation Principle: Mathematical Solutions Minimizing the Absolute Work and Biological Implications for the Planning of Arm Movements
| journal = PLoS Computational Biology
| volume = 4
| pages = e1000194
| doi = 10.1371/journal.pcbi.1000194
}}
:A nice example of how biological and mathematical research may intertwine at times
*[http://books.nap.edu/catalog.php?record_id=12026#toc The Role of Theory in Advancing 21st-Century Biology:Catalyzing Transformative Research]
{{cite journal
{{cite journal
  | author = Wigner, E.
  | author = Wigner, E.

Revision as of 15:18, 7 February 2010

Biology's next microscope: Mathematics [r]: A scientific discussion about the mutual interaction between mathematics and biology. [e]

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  • Berret, Bastien; Christian Darlot & Frédéric Jean et al. (2008), "The Inactivation Principle: Mathematical Solutions Minimizing the Absolute Work and Biological Implications for the Planning of Arm Movements", PLoS Computational Biology 4: e1000194, DOI:10.1371/journal.pcbi.1000194
A nice example of how biological and mathematical research may intertwine at times

Wigner, E. (1960). "The unreasonable effectiveness of mathematics in the natural sciences". Communications in Pure and Applied Mathematics 13 (1): 1-14. DOI:10.1002/cpa.3160130102. Research Blogging.

Dole, V.P. (1965). "The New Curriculum In Mathematics For Biologists. Intersection Of Mathematics And Biology.". Fed Proc 24: 1-4.

Sterling, T.D. (1965). "Toward An Undergraduate Mathematics Program For Future Researchers In The Fields Of Biology And Medicine.". Fed Proc 24: 5-9.

Zeeman, E.C. (1966). "Mathematics and creative thinking". Psychiatric Quarterly 40 (1): 348-354.

Kudô, A. (1979). "Role of mathematics in cancer research: attitudes and training of Japanese mathematicians.". Environmental Health Perspectives 32: 5-9.

Chytil, M.K. (1977). "On the concept of biomathematics". Acta Biotheoretica 26 (2): 137-150.

Rigoutsos, I.; Floratos, A.; Parida, L.; Gao, Y.; Platt, D. (2000). "The Emergence of Pattern Discovery Techniques in Computational Biology". Metabolic Engineering 2 (3): 159-177.

Rose, S.P.R. (2002). "The Biology of the Future and the Future of Biology". Journal of Molecular Biology 319 (4): 877-884.

Morchio, R. (2002). "Conditions for a Theoretical Biology: Is Biology Truly an Autonomous Science?". Rivista di Biologia/Biology Forum 95: 149-158.

Butcher, E.C.; Berg, E.L.; Kunkel, E.J. (2004). "Systems biology in drug discovery". Nature Biotechnology 22 (10): 1253-1259. DOI:10.1038/nbt1017. Research Blogging.

Bialek, W.; Botstein, D. (2004). "Introductory Science and Mathematics Education for 21st-Century Biologists". Science 303 (5659): 788-790.

May, R.M. (2004). "Uses and abuses of mathematics in biology.". Science 303 (5659): 790-3.

Lipan, O.; Wong, W.H. (2006). "Is the future biology Shakespearean or Newtonian?". Molecular BioSystems 2 (9): 411-416. DOI:10.1039/b607243g. Research Blogging.

Herrero, M.A. (2007). "On the role of mathematics in biology". Journal of Mathematical Biology 54 (6): 887-889.

Van Hemmen, J.L. (2007). "Biology and mathematics: A fruitful merger of two cultures". Biological Cybernetics 97 (1): 1-3.

Cull, P. (2007). "The mathematical biophysics of Nicolas Rashevsky". BioSystems 88 (3): 178-184.