Book Chapters

Ji, S. (1991). The “Table Theory“: A New Method in Theoretical Biology. In: Molecular Theories of Cell Life and Death (S. Ji, ed.), The Rutgers University Press, New Brunswick, pp. 8-13.

Ji, S. (1991). The Biocybernetics Model of the Human Body: the Piscatawaytor. In: Molecular Theories of Cell Life and Death (S. Ji, ed.), The Rutgers University Press, New Brunswick, pp. 141-149.

Ji, S. (1991). The Biocybernetics Model of the Human Society: “Newbrunswickator”. In: Molecular Theories of Cell Life and Death (S. Ji, ed.), The Rutgers University Press, New Brunswick, pp. 149-152.

Ji, S. (1991). The Biocybernetics Model of the Universe: The Shillongator. In: Molecular Theories of Cell Life and Death (S. Ji, ed.), The Rutgers University Press, New Brunswick, pp. 1152-163, 230-237.

Ji, S. (1995). Complementarism: A Biology-Based Philosophical Framework to Integrate Western Science and Eastern Tao. In: Psychotherapy East and West: Integration of Psychotherapies. Korean Academy of Psychotherapists, Seoul, Korea. Pp. 518-548.

Ji, S. (1997).  Isomorphism between Cell and Human Languages: Molecular Biological, Bioinformatic and Linguistic Implications. BioSystems 44:17-39.

Ji, S. (1999).  The Linguistics of DNA: Words, Sentences, Grammar, Phonetics, and Semantics.  Ann. N. Y. Acad. Sci. 870:411-417.

Ji, S. (1999).  The cell is the smallest DNA-based molecular computer.  BioSystems 52: 123-133.

Ji, S. (2001).  Isomorphism between Cell and Human Languages: Micro- and Macrosemiotics.  In: Semiotics 2000: “Sebeok’s Century” (S. Simpkins and J. Deely, eds.), Legas,Ottawa. Pp. 354-374.

Ji, S. (2001). Isomorphism between Cell and Human Languages: Micro- and Macrosemiotics. In: Semiotics 2000: “Sebeok’s Century” (Simpkins, S., and Deely, J., eds.), Legas, New York. Pp. 357-373.

Ji, S. (2002).  The Bhopalator: An Information/Energy Dual Model of the Living Cell (II). Fundamenta Informaticae 49: 147-165.

Ji, S. (2002).  Microsemiotics of DNA.  Semiotica 138 (1/4): 15-42.

Ji, S. (2004). Molecular Information Theory: Solving the Mysteries of DNA. In: Modeling in Molecular Biology (G. Ciobanu,and Rozenberg, G., eds.), Natural Computinmg Series, Springer, pp. 141-150.

Ji, S. (2012). The Third Law of Thermodynamics and “Schroedinger’s Paradox”.  In:Molecular Theory of the Living Cell: Concepts, Molecular Mechanisms, and Biomedical Applications.  Springer, New York.  pp. 12-15.

Ji, S. (2012). The Franck-Condon Principle (FCP).  In:Molecular Theory of the Living Cell: Concepts, Molecular Mechanisms, and Biomedical Applications.  Springer, New York.  pp. 18-24.

Ji, S. (2012).  Complementarity.  In: Molecular Theory of the Living Cell: Concepts, Molecular Mechanisms, and Biomedical Applications.  Springer, New York.  Section 2.3, pp. 24-50.

Ji, S. (2012).  SOWAWN Machines. In: Molecular Theory of the Living Cell: Concepts, Molecular Mechanisms, and Biomedical Applications.  Springer, New York.  Section 2.3, pp. 52-64.

Ji, S. (2012).  Renormalizable Bionetworks and SOWAWN Machines.  In: Molecular Theory of the Living Cell: Concepts, Molecular Mechanisms, and Biomedical Applications.  Springer, New York.  Pp. 52-64.

Ji, S. (2012).  Principles of Self-Organization and Dissipative Structures.  In: Molecular Theory of the Living Cell: Concepts, Molecular Mechanisms, and Biomedical Applications.  Springer, New York. Chapter 3, pp. 69-78.

Ji, S. (2012).  Information-Energy Complementarity as the Principle of Organization.  In: Molecular Theory of the Living Cell: concepts, Molecular Mechanisms, and Biomedical Applicaitons.  Springber, New York.  Pp. 110-113.

Ji, S. (2012).  The Isomorphism between Cell and Human Languages: The Cell Language Theory. In: Molecular Theory of the Living Cell: Concepts, Molecular Mechanisms, and Biomedical Applications.  Springer, New York.  Section  6.1.2, pp. 164-168.

Ji, S. (2012).  Peircean Signs as Gnergons.  In: Molecular Theory of the Living Cell: Concepts, Molecular Mechanisms, and Biomedical Applications.  Springer, New York.  Section 6.2.3, pp. 176-180.

Ji, S. (2012).  A New Architectonics Based on the Principle of Information-Energy Complementarity.  In: Molecular Theory of the Living Cell: Concepts, Molecular Mechanisms, and Biomedical Applications.  Springer, New York.  Section  6.3.7, pp. 1196-199.

Ji, S. (2012).  The Table Theory.  In: Molecular Theory of the Living Cell: Concepts, Molecular Mechanisms, and Biomedical Applications.  Springer, New York.  Section 6.3.4, pp.  193-195.

Ji, S. (2012).  Macrosemiotics versus Microsemioitcs: The Sebeok Doctrine of Signs.  In: Molecular Theory of the Living Cell: Concepts, Molecular Mechanisms, and Biomedical Applications.  Springer, New York.  Section 6.2.4, pp. 180-181..

Ji, S. (2012).  The Kinetics of Ligand-Protein Interactions: The“Pre-fit” Mechanism Based on the Generalized Franck-Condon Principle.  In: Molecular Theory of the Living Cell: Concepts, Molecular Mechanisms, and Biomeduical Applicaitons.  Springer, New Y0ork.  Pp. 209-214.

Ji, S. (2012).  The Zeldovich-Shakhnovich and MTLC Models of Evoluiton: From Sequences to Species.  In: Molecular Theory of the Living Cell: concpets, Molecular Mechanisms, and Biomedical Applicaitons.  Sprinter, New York.  Pp. 509-519.

Ji, S. (2012). The Triadic Control Principle (TCP).  In: Molecular Theory of the Living Cell: Concepts, Molecular Mechanisms, and Biomedical Applicaitons.  Springer, New York.  Pp. 521-539.

Ji, S. (2012).  Micro-Macro Coupling in the Human Body.  In: Molecular Theory of the Living Cell: Concepts, Molecular Mechanisms, and Biomedical Applicaitons.  Springer, New York.  Pp. 554-571.

Ji, S. (2012).  The Knowledge Uncertainty Principle in Biomedical Sciences.   In: Molecular Theory of the Living Cell: Concepts, Molecular Mechanisms, and Biomedical Applications.  Springer, New Y0ork.  Pp. 621-631.

Ji, S. (2012).  The Knowledge Uncertainty Principle in Biomedical Sciences.   In: Molecular Theory of the Living Cell: Concepts, Molecular Mechanisms, and Biomedical Applications.  Springer, New Y0ork.  Pp. 621-631.

Ji, S. (2012).  Isomorphism Between Blackbody Radiation and Enzymic Catalysis.  In: S. Ji, Molecular Theory of the Living Cell: Concepts, Molecular Mechanisms, and Biomedical Applications, Springer, New York, Section 11.3.3, pp. 343-363.

Ji, S. (2012).  The Conformon Model of Molecular Machines. In: S. Ji, Molecular Theory of the Living Cell: Concepts, Molecular Mechanisms, and Biomedical Applications, Springer, New York, Section 11.4, pp. 368-390.

Ji, S. (2012).  Isomorphism between Blackbody Radiation and Whole-Cell Metabolism: The Universal Law of Thernal Excitations (ULTE).    In: S. Ji, Molecular Theory of the Living Cell: Concepts, Molecular Mechanisms, and Biomedical Applications, Springer, New York, Section 11.4, pp. 433-466.

Ji, S. (2012). The Cell Force: Microarray Evidence.  In: S. Ji, Molecular Theory of the Living Cell: Concepts, Molecular Mechanisms, and Biomedical Applications, Springer, New York, Section 12.13, pp. 444-448.

Ji, S. (2012).  Time-Dependent Gibbs Free Energy Landscape (TGFEL): A Model of Whole-Cell Metabolism.  In: Molecular Theory of the Living Cell: Concepts, Molecular Mechanisms, and Biomedical Applications, Springer, New York, pp 459-461.

Ji, S. (2012).  The Triadic Control Principle (TCP).  In: Molecular Theory of the Living Cell:” concpets,. Molecular Mechanisms, and Biomedical Applications.  Springer, New York.  Pp. 521-530

Ji, S. (2012).  Towards a Category Theory of Everything (cTOE).  In: Molecular Theory of the Living Cell: Conceopts, Molecular Mechanisms, and Biomedical Applicaitons.  Springer, New York.  Pp. 633-642.

Ji, S. (2012).  Appendix L (Letter to Professor C. N. Yang). In: In: Molecular Theory of the Living Cell: Conceopts, Molecular Mechanisms, and Biomedical Applicaitons.  Springer, New York.

Ji, S. (2012).  Ribonoscopy and Personalized Medicine.  In: Molecular Theory of the Living Cell: Conceopts, Molecular Mechanisms, and Biomedical Applicaitons.  Springer, New York.  Pp.Pp. 599-606.

Ji, S. (2012).  Ribonoscopy and Theragnostics.  In: Molecular Theory of the Living Cell: Conceopts, Molecular Mechanisms, and Biomedical Applicaitons.  Springer, New York.  Pp.Pp. 607-620.