| References |
Cannon, W.B., (1932) The Wisdom of the Body, , Kegan Paul, Trench, Trubner London; Dorf, R.C., Bishop, R.H., (2004) Modern Control Systems, 10th Edition, , Prentice-Hall Inc Englewood Cliffs, New Jersey; Eigen, M., Self-organization of matter and the evolution of macromolecules (1971) Naturwissenschafen, 58, pp. 465-523; Eigen, M., Schuster, P., (1979) The Hypercycle: A Principle of Natural Self-organization, , Springer Berlin; Fontanari, J.F., Santos, M., Szathmary, E., Coexistence and error propagation in pre-biotic vesicle models: A group selection approach (2006) J Theor Biol, 239, pp. 247-256; Fox, S.W., Fox, S.W., Simulated natural experiments in spontaneous organization of morphological units from protenoid (1965) The Origins of Prebiological Systems and Their Molecular Matrices, pp. 361-382. , Academic New York; Fox, S.W., The origins of behavior in macromolecules and protocells (1980) Comp Biochem Physiol, 67, pp. 423-436; Fox, S.W., (1988) The Emergence of Life: Darwinian Evolution from the Inside, , Basic New York; Fox, S.W., Dose, K., (1972) Molecular Evolution and the Origin of Life, , Freeman San Francisco; Glass, J.I., Assad-Garcia, N., Alperovich, N., Yoosefph, S., Lewis, M.R., Maruf, M., Hutchison III, C.A., Craig Venter, J., Essential genes of a minimal bacterium (2006) PNAS, 103, pp. 425-430. , 2; Kitano, H., Biological robustness (2004) Nature, 5, pp. 826-837; Melkikh, A.V., Seleznev, V.D., Models of active transport of ions in biomembranes of various types of cells (2005) J Theor Biol, 324, pp. 403-412. , 3; Melkikh, A.V., Seleznev, V.D., Model of active transport of ions in biomembranes based on ATP-dependent change of height of diffusion barriers to ions (2006) J Theor Biol, 242, pp. 17-626. , 3; Melkikh, A.V., Seleznev, V.D., Requirements on models and models of active transport of ions in biomembranes (2006) Bull Math Biol, 68, pp. 385-399. , 2; Melkikh, A.V., Seleznev, V.D., Models of active transport of neurotransmitters in synaptic vesicles (2007) J Theor Biol, 248, pp. 350-353. , 2; Melkikh, A.V., Seleznev, V.D., Nonequilibrium statistical model of active transport of ions and ATP production in mitochondria (2008) J Biol Physics, 33, pp. 161-170. , DOI 10.1007/s10867-007-9053-0; Morovitz, H.J., Kostelnik, J.D., Yang, J., Cody, G.D., The origin of intermediary metabolism (2000) PNAS, 97, pp. 7704-7708. , 14; Murtas, G., Question 7: Construction of a semi-synthetic minimal cell: A model for early living cells (2007) Origins of Life and Evolution of Biospheres, 37 (4-5), pp. 419-422. , DOI 10.1007/s11084-007-9090-5; Oparin, A.I., (1964) Life: Its Nature, Origin and Development, , Academic; Stelling, J., Sauer, U., Szallasi, Z., Doyle, F.J., Doyle, J., Robustness of cellular functions (2004) Cell, 118, pp. 675-685; Szathmary, E., Natural selection and the dynamical coexistence of defective and complementing virus segments (1992) J Theor Biol, 157, pp. 383-406; Szathmary, E., Demeter, L., Group selection of early replicators and the origin of life (1987) J Theor Biol, 128, pp. 463-486 |