[Wach88] Wächtershauser, G. (1988) Before enzymes and templates: theory of surface metabolism. Microbiol. Rev. 52, 452-484.

[Waeh67] Waehneldt, T.V. and Fox, S.W. (1967) Phosphorylation of nucleosides with polyphosphoric acid. Biochim. Biophys. Acta 134, 1-8.

[Waeh68] Waehneldt, T.V. and Fox, S.W. (1968) The binding of basic proteinoids with organismic or thermally synthesized polynucleotides. Biochim. Biophys. Acta 160, 239-245.

[Wagn85] Wagner, R., Engelbrecht, S. and Andreo, C.S. (1985) Quarternary structure of chloroplast F₁ -ATPase in solution. Conformational changes in spatial arrangement of subunits upon activation. Eur. J. Biochem. 147, 163-170.

[Wahb74] Wahba, A.J., Miller, M.J., Niveleau, A., Landers, T.A., Carmichael, G.G., Weber, K., Hawley, D.A. and Slobin, L.I. (1974) Subunit I of Q_b replicase and 30 S ribosomal protein S1 of Escherichia coli. Evidence for the identity of the two proteins. J. Biol. Chem. 249, 3314-3316.

[Walk82] Walker, J.E., Saraste, M., Runswick, M.J. and Gay, N.J. (1982) Distantly related sequences in the a- and ß-subunits of ATPsynthase, myosin, kinases and other ATP-requiring enzymes and a common nucleotide binding fold. EMBO J. 1, 945-951.

[Walk83] Walker, D.A., Horton, P., Sivak, M.N. and Quick, W.P. (1983) Anti-parallel relationship between O ₂ evolution and slow fluorescense induction kinetics. Photobioch. Photobiophys. 5, 35-39.

[Walk92] Walker, D.A. (1992) Concerning oscillations. Photosynth. Res. 34, 387-395.

[Wals83] Walsh, P. and Legendre, L. (1983) Photosynthesis of natural phytoplankton under high frequency light fluctuations simulating those induced by sea surface waves. Limnol. Oceanogr. 28, 688-697.

[Wals88] Walsh, P. and Legendre, L. (1988) Photosynthetic responses of the diatom Phaeodactylum tricornutum to high frequency light fluctuations simulating those induced by sea surface waves. J. Plankton Res. 10, 1077-1082.

[Walt83] Walter, M.R. (1983) Archean stromatolites: evidence of the earth's earliest benthos. In: Earth's earliest biosphere. Its origin and evolution, pp. 187-213 (ed. J.W. Schopf). Princeton University Press.

[Walt93] Walter, M.R. and DesMarais, D.J. (1993) Preservation of biological information in thermal spring deposits: developing a strategy for the search for fossil life on Mars. Icarus 101, 129-143.

[Wang93] Wang, Z.-Y., Freire, E. and McCarthy, R.E. (1993) Influence of nucleotide binding site occupancy on the thermal stability of the F₁ portion of the chloroplast ATPsynthase. J. Biol. Chem. 268, 20785-20790.

[Warb19] Warburg, O. (1919) Über die Geschwindigkeit der photochemischen Kohlensäurezersetzung in lebenden Zellen. Biochem. Zeitschr. 100, 230-270.

[Warb20] Warburg, O. (1920) Über die Geschwindigkeit der photochemischen Kohlensäurezersetzung in lebenden Zellen II. Biochem. Zeitschr. 103, 188-217.

[Wars78] Warshel, A. (1978) Energetics of enzyme catalysis. Proc. Natn. Acad. Sci. 75, 5250-5254.

[Wars81] Warshel, A. and Schlosser, D.W. (1981) Electrostatic control of the efficiency of light-induced electron transfer across membranes. Proc. Natn. Acad. Sci. 78, 5564-5568.

[Wars84] Warshel, A. and Russel, S.T. (1984) Calculations of electrostatic interactions in biological systems and solutions. Quart. Rev. Biophys. 17, 283-422.

[Watt71] Watts, D.C. (1971) Evolution of phosphagen kinases. In: Biochemical evolution and the origin of life, pp. 150-173 (ed. E. Schoffeniels). North-Holland, Amsterdam.

[Webs80] Webster, G.D., Cogdell, R.J. and Lindsay, J.R. (1980) Identification of the carotenoid present in the B-800-850 antenna complex from Rhodopseudomonas capsulata as that which responds electrochromically to transmembrane electric fields. Biochim. Biophys. Acta 591, 321-330.

[Wein76] Weinberg, S. (1976) Submarine daylight and ecology. Mar. Biol. 37, 291-304.

[Weis84] Weis, E. (1984) Short term acclimation of spinach to high temperatures. Plant Physiol. 74, 402-407.

[Weis85] Weis, E. (1985) Light- and temperature-induced changes in the distribution of excitation energy between photosystem I and photosystem II in spinach leaves. Biochim. Biophys. Acta 807, 118-126.

[Weis87] Weis, E. and Berry, J.A. (1987) Quantum efficiency of photosystem II in relation to 'energy'-dependent quenching of chlorophyll fluorescence. Biochim. Biophys. Acta 894, 198- 208.

[Welc92] Welch, W.J. (1992) Mammalian stress response: cell physiology, structure/function of stress proteins, and implications for medicine and disease. Physiol. Rev. 72, 1063-1081.

[Well94] Wells, J.A., Fairbrother, W.J., Otlewksi, J., Laskowski, M. and Burnier, J. (1994) A reinvestigation of a synthetic peptide (TrPepz) designed to mimic trypsin. Proc. Natn. Acad. Sci. 91, 4110-4114.

[Went48] Went, F.W. (1948) Thermoperiodicity. In: Vernalization and photoperiodism, pp. 145- 157. Chronica Botanica Cy., Waltham, Mass.

[West82] Westerhoff, H.V., Lolkema, J.S., Otto, R. and Hellingwerf, K.J. (1982) Thermodynamics of growth. Non-equilibrium thermodynamics of bacterial growth. The phenomenological and the mosaic approach. Biochim. Biophys. Acta 683, 181-220.

[West84] Westerhoff, H.V., Melandri, B.A., Venturoli, G., Azzone, G.F., and Kell, D.B. (1984) A minimal hypothesis for membrane-linked free-energy transduction. The role of independent, small coupling units. Biochim. Biophys. Acta 768, 257-292.

[West86] Westerhoff, H.V., Tsong, T.Y., Chock, P.B., Chen, Y.-D. and Astumian, R.D. (1986) How enzymes can capture and transmit free energy from an oscillating electric field. Proc. Natn. Acad. Sci. 83, 4734-4738.

[West87] Westheimer, F.H. (1987) Why nature chose phosphates. Science 235, 1173-1178.

[What81] Whatley, F.R. (1981) Problems in the rate of evolution in biological systems. Phil. Trans. R. Soc. London Ser. A 303, 611-623.

[Whit76] White, H.B. (1976) Coenzymes as fossils of an earlier metabolic state. J. Mol. Evol. 7, 101-104.

[Whit81] White, D.H. and Erickson, J.C. (1981) Enhancement of peptide bond formation by polyribonucleotides on clay surfaces in fluctuating environments. J. Mol. Evol. 17, 19-26.

[Whit94] White, S.H. (1994) The evolution of proteins from random amino acid sequences: II. Evidence from the statistical distributions of the lengths of modern protein sequences. J. Mol. Evol. 38, 383-394.

[Whyt48] Whyte, R.O. (1948) History of research in vernalization. In: Vernalization and photoperiodism, pp. 1-38. Chronica Botanica Cy., Waltham, Mass.

[Wick88] Wicken, J.S. (1987) Evolution, thermodynamics, and information. Oxford University Press, New York.

[Wick88] Wickner, W. (1988) Mechanisms of membrane assembly: general lessons from the study of M13 coat protein and Escherichia coli leader peptidase. Biochemistry 27, 1081-1086.

[Wigg87] Wiggins, P.A. and MacClement, B.A.E. (1987) Two states of water found in hydrophobic clefts: their possible contribution to mechanisms of cation pumps and other enzymes. Int. Rev. Cytol. 108, 249-303.

[Wiks80] Wikström, M. and Krab, K. (1980) Respiration-linked H⁺ translocation in mitochondria: stoichiometry and mechanism. Cur. Top. Bioenerg. 10, 51-101.

[Wiks81] Wikström, M., Krab, K. and Saraste, M. (1981) Proton-translocating cytochrome complexes. A. Rev. Biochem. 50, 623-655.

[Wilh84] Wilhelm, C. and Wild, A. (1984) The variability of the photosynthetic unit in Chlorella. The effect of light intensity and cell development on photosynthesis, P-700 and cytochrome f in homocontinuous and synchronous cultures of Chlorella. J. Plant Physiol. 115, 125-135.

[Will76] Williams, W.P. and Salamon, Z. (1976) Enhancement studies on algae and isolated chloroplasts. Part I. Variability of photosynthetic enhancement in Chlorella pyrenoidosa. Biochim. Biophys. Acta 430, 282-299.

[Will78] Williams, R.J.P. (1978) The multifarious couplings of energy transduction. Biochim. Biophys. Acta 505, 1-44.

[Will87] Williams, W.P. and Allen, J.F. (1987) State 1/State 2 changes in higher plants and algae. Photosynth. Res. 13, 19-45.

[Wink66] Winkler, H.H. and Wilson, T.H. (1966) The role of energy coupling in the transport of b-galactosides by Escherichia coli. J. Biol. Chem. 241, 2200-2211.

[Wint93] Winter, H., Robinson, D.G. and Heldtm H.W. (1993) Subcellular volumes and metabolic concentrations in barley leaves. Planta 191, 180-190.

[Witt59] Witt, H.T. and Moraw, R. (1959) Untersuchungen über die Primärvorgänge bei der Photosynthese. I. Mitteilung. Z. Phys. Chem. Neue Folge 20, 253-282.

[Witt60] Witt, H.T. (1960) Untersuchungen der Photosynthese bei Anregung mit Blitzlicht. In: Encyclopedia of Plant Physiology, Vol V, Part 1, pp 634-671 (ed. W. Ruhland). Springer, Berlin.

[Witt79] Witt, H.T. (1979) Energy conversion in the functional membrane of photosynthesis. Analysis by light pulse and electric pulse methods. The central role of the electric field. Biochim. Biophys. Acta 505, 355-427.

[Witt94] Wittung, P., Nielsen, P.E., Buchardt, O., Egholm, M. and Nordén, B. (1994) DNA-like double helix formed by peptide nucleic acid. Nature 368, 561-563.

[Woes65] Woese, C.R. (1965) On the evolution of the genetic code. Proc. Natn. Acad. Sci. 54, 1546-1552.

[Woes77] Woese, C.R. and Fox, G.E. (1977). The concept of cellular evolution. J. Mol. Evol. 10, 1- 16.

[Woes79] Woese, C.R. (1979) A proposal concerning the origin of life on the planet earth. J. Mol. Evol. 13, 95-101.

[Woes80a] Woese, C.R. (1980a) An alternative to the Oparin view of the primeval sequence. In: The origins of life and evolution, pp. 65-76 (eds H.O. Halverston and K.E. Van Holde). Alan R. Liss, New York.

[Woes80b] Woese, C.R. (1980b) Just so stories and Rube Goldberg machines: speculations on the origin of the protein synthetic machinery. In: Ribosomes. Structure, function, and genetics. pp. 357- 373 (eds. G. Chambliss, G.R. Craven, J. Davies, K. Davis, L. Kahan and M. Nomura). University Park Press, Baltimore.

[Woes87] Woese, C.R. (1987) Bacterial evolution. Microbiol. Rev. 51, 221-271.

[Wolk84] Wolken, J.J. (1984) Self-organizing molecular systems. In: Molecular evolution and protobiology, pp. 137-162 (eds K. Matsuno, K. Dose, K. Harada and D.L. Rohlfing). Plenum Press, New York.

[Wols02] Wolstencroft, R.D. and Raven, J.A. (2002) Photosynthesis: likelihood of occurrence and possibility of detection on earth-like planets. Icarus 157, 535–548.

[Wong81] Wong, J. T.-F. (1981) Coevolution of genetic code and amino acid biosynthesis. Trends Biochem. Sci. 6, 33-36.

[Wrai77] Wraight, C.A. (1977) Electron acceptors of photosynthetic bacterial reaction centers. Direct observation of oscillatory behaviour suggesting two closely equivalent ubiquinones. Biochim. Biophys. Acta 459, 525-531.

[Wrai78] Wraight, C.A., Cogdell, R.J. and Chance, B. (1978) Ion transport and electrochemical gradients in photosynthetic bacteria. In: The photosynthetic Bacteria, pp 471-511 (eds R.K. Clayton and W.R. Sistrom). Plenum Press, New York.

[Wrai82] Wraight, C.A. (1982) The involvement of stable semiquinones in the two-electron gates of plant and bacterial photosystems. In: Function of Quinones in Energy Conversion Systems, pp 181-197 (ed. B.L. Trumpower). Academic Press, New York.

[Wyma87] Wyman, M. and Fay, P. (1987) Acclimation to the natural light regime. In: The Cyanobacteria, pp 347-372 (eds P. Fay and C. VanBaalen). Elsevier, Amsterdam.