Abstract
Not only is this the first citation we were able to find on heliotropism (renamed phototropie, or “phototropism,” by Oltmanns, 1892), but even the players in the comedy reflect a characteristic that parallels the reaction to studies of this phenomenon. Namely, Argan (le malade imaginaire) is absolutely convinced of being sick, and the entourage is equally convinced of the opposite. Similarly, as we shall see, some investigators are absolutely convinced that one hypothesis is the right one, while others are equally convinced that another one is correct. Fortunately, sometimes there is common agreement, but not always.
Et comme les naturalistes remarquent que la fleur nommée héliotrope tourne sans cesse vers astre du jour.…*
Jean Molière, “Le malade imaginaire,” 1673, act II, scene V
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References
Abbot, M. T. J., and Grove, J. F., 1959, Uptake and translocation of organic compounds by fungi. I. Microspectrophotometry in the study of translocation, Exp. Cell Res. 17: 95 – 104.
Arisz, W. H., 1915, Untersuchungen über den Phototropismus, Recl. Trav. Bot. Neerl. 12: 44 – 216.
Asana, R. D., 1938, On the relation between the distribution of auxin in the tip of the Avenacoleoptile and the first negative phototropie curvature, Ann. Bot. 2: 955 – 975.
Atkins, G. A., 1936, The effect of pigment on phototropie response: a comparative study of reactions to monochromatic light, Ann. Bot. 50: 197 – 218.
Bachmann, F., and Bergann, F., 1930, Über die Wertigkeit von Strahlen verschiedener Wellenlänge für die phototropische Reizung von Avena sativa, Planta 10: 744 – 755.
Backus, G. E., and Schrank, A. R., 1952, Electrical and curvature responses of the Avenacoleoptile to unilateral illumination, Plant Physiol. 27: 251 – 262.
Ball, N. G., 1962, The effects of externally applied 3-indolylacetic acid on phototropie induction and response in the coleoptile of Avena, J. Exp. Bot. 13: 45 – 60.
Banbury, G. H., 1952a , Physiological studies in the Mucorales. Part I. The phototropism of sporangiophores of Phycomyces blakesleeanus, J. Exp. Bot. 3: 77 – 85.
Banbury, G. H., 1952b, Physiological studies in the Mucorales. Part II. Some observations on growth regulation in the sporangiophore of Phycomyces, J. Exp. Bot. 3:86–94.
Banbury, G. H., 1959, Phototropism of lower plants, in: Encyclopedia of Plant Physiology, Vol. 17 Part 1 ( W. Ruhland, ed.), pp. 530 – 578, Springer-Verlag, Berlin.
Banbury, G. H., and Carlile, M. J., 1958, Phototropism of Phycomycessporangiophores, Nature (Lond.) 181: 358 – 359.
Bandurski, R. S., and Schulze, A., 1974, Concentrations of indole-3-acetic acid and its esters in Avenaand Zea, Plant Physiol. 54: 257 – 262.
Bandurski, R. S., and Schulze, A., 1977, Concentration of indole-3-acetic acid and its derivatives in plant, Plant Physiol. 60: 211 – 213.
Bandurski, R. S., Schulze, A., and Cohen, J. D., 1977, Photoregulation of the ratio of ester to free indole-3-acetic acid, Biochem. Biophys. Res. Commun. 79: 1219 – 1223.
Bara, M., and Galston, A. W., 1968, Experimental modification of pigment content and photo- tropic sensitivity in excised Avenacoleoptiles, Physiol. Plant. 21: 109 – 118.
Bartnicki-Garcia, S., 1973, Fundamental aspects of hyphal morphogenesis, in: Microbial Differentiation,, Twenty-Third Symposium of the Society for General Microbiology, ( J. M. Ashworth and J. E. Smith, eds.), pp. 245 – 267, Cambridge University Press, Cambridge.
Bartnicki-Garcia, S., Bracker, C. E., Reyes, E., and Ruiz-Herrera, J., 1978, Isolation of chito- somes from taxonomically diverse fungi and synthesis of chitin microfibrils in vitro, Exp. Mycol. 2: 173 – 192.
Bates, G. W., and Cleland, R. E., 1979, Protein synthesis and auxin-induced growth: inhibitor studies, Planta 145: 437 – 442.
Bates, G. W., and Cleland, R. E., 1980, Protein patterns in the oat coleoptile as influenced by auxin and by protein turnover, Planta 148: 429 – 436.
Batt, S., and Venis, M. A., 1976, Separation and localization of two classes of auxin binding sites in corn coleoptile membranes, Planta 130: 15 – 21.
Batt, S., Wilkins, M. B., and Venis, M. A., 1976, Auxin binding to corn coleoptile membranes: kinetics and specificity, Planta 130: 7 – 13.
Bearder, J. R., 1980, Plant hormones and other growth substances—Their background, structures and occurrence, in: Encyclopedia of Plant Physiology, new ser., Vol. 9: Hormonal Regulation of Development, I ( J. MacMillan, ed.), pp. 11 – 112, Springer-Verlag, Berlin.
Bentley, J. A., 1958, The naturally-occurring auxins and inhibitors, Annu. Rev. Plant Physiol. 9: 47 – 80.
Bentrup, F. W. (Meyer zu), 1963, Vergleichende Untersuchungen zur Polaritatsinduktion durch das Licht an der Equisetum-Sporcund der Fucus-Zygote, Planta 59: 472 – 491.
Bentrup, F. W., 1968, Die Morphogenese pflanzlicher Zellen im elektrischen Feld, Z. Pflanzenphysiol. 59: 309 – 339.
Bergman, K., 1972, Blue-light control of sporangiophore initiation in Phycomyces, Planta 107: 53 – 67.
Bergman, K., Burke, P. V., Cerdá-Olmedo, E., David, C. N., Delbrück, M., Foster, K. W., Goodell, E. W., Heisenberg, M., Meissner, G., Zalokar, M., Dennison, D. S., and Shropshire, W., Jr., 1969, Phycomyces, Bacteriol. Rev. 33: 99 – 157.
Bergman, K., Eslava, A. P., and Cerdá-Olmedo, E., 1973, Mutants of Phycomyceswith abnormal phototropism, Mol. Gen. Genet. 123: 1 – 16.
Berns, D. S., and Vaughn, J. R., 1970, Studies on the photopigment system in Phycomyces, Biochem. Biophys. Res. Commun. 39: 1094 – 1103.
Blaauw, A. H., 1908, Die Perzeption des Lichtes, Reel. Trav. Bot. Neerl. 5: 209 – 372.
Blaauw, A. H., 1914a, The primary photo-growth reaction and the cause of positive phototropism in Phycomyces nitens, Proc. Kon. Akad. Wet. Amst. 16: 774 – 786.
Blaauw, A. H., 1914b, Licht und Wachstum. I, Z. Bot. 6:641–703.
Blaauw, A. H., 1915, Licht und Wachstum. II, Z. Bot. 7: 465 – 532.
Blaauw, A. H., 1919, Licht und Wachstum. Ill, (Die Erklarung des Phototropismus), Meded. Landbouwhogesch. Wageningen 15: 89 – 204.
Blaauw, O. H., and Blaauw-Jansen, G., 1964, The influence of red light on the phototropism of Avenacoleoptile, Acta Bot. Neerl. 13: 541 – 552.
Blaauw, O. H., and Blaauw-Jansen, G., 1970a, Third positive (C-type) phototropism in the Avenacoleoptile, Acta Bot. Neerl. 19: 764 – 776.
Blaauw, O. H., and Blaauw-Jansen, G., 1970b, The phototropic responses of Avena coleoptiles, Acta Bot. Neerl. 19:755–763.
Blaauw-Jansen, G., 1958, The influence of red and far red light on growth and phototropism of the Avenaseedling, Acta Bot. Neerl. 8: 1 – 39.
Blatt, M. R., and Weisenseel, M., 1980, Blue light stimulates a local electrical current efflux in the alga Vaucheria sessilis, Carnegie Inst. Wash. Year Book 1979: 123 – 125.
Bonner, J., 1934, The relation of hydrogen ions to the growth rate of the Avenacoleoptile, Protoplasma 21: 406 – 423.
Bottelier, H. P., 1934, Über den Einfluss äusserer Faktoren auf die Protoplasmaströmung in der Avena-Koleoptile, Reel. Trav. Bot. Neerl. 31: 474 – 582.
Boysen Jensen, P., 1910, Über die Leitung des phototropischen Reizes in AvenaKeimpflanzen, Ber. Dtsch. Bot. Ges. 28: 118 – 120.
Boysen Jensen, P., 1928, Die phototropische Induktion in der Spitze der Avenacoleotile, Planta 5: 464 – 477.
Boysen Jensen, P., and Nielsen, N., 1926, Studien uber die hormonalen Beziehungen zwischen Spitze und Basis der Avenacoleoptile, Planta 1: 321 – 331.
Brain, R. D., Freeberg, J. A., Weiss, C. V., and Briggs, W. R., 1977, Blue light-induced absor- bance changes in membrane fractions from corn and Neurospora, Plant Physiol. 59: 948 – 952.
Brauner, L., 1922, Lichtkrummung und Wachstumsreaktion, Z. Bot. 14: 497 – 547.
Brauner, L., 1927, Untersuchungen Uber das geoelektrische Phanomen, Jahrb. Wiss. Bot. 66: 381 – 428.
Brauner, L., and Bünning, E., 1930, Geoelektrischer Effekt und Elektrotropismus, Ber. Dtsch. Bot. Ges. 48: 470 – 476.
Bridges, I. G., and Wilkins, M. B., 1971, Effects of electrolyte and nonelectrolyte solutions on the tropic responses of Avenacoleoptiles, J. Exp. Bot. 22: 208 – 212.
Briggs, W. R., 1960, Light dosage and phototropie responses of corn and oat coleoptiles, Plant Physiol. 35: 951 – 962.
Briggs, W. R., 1963a, Red light, auxin relationships, and the phototropie responses of corn and oat coleoptiles, Am. J. Bot. 50: 196 – 207.
Briggs, W. R., 19636, Mediation of phototropie responses of corn coleoptiles by lateral transport of auxin, Plant Physiol. 38:237–247.
Briggs, W. R., 1964, Phototropism in higher plants, in: Photophysiology, Vol. 1 ( A. C. Giese, ed.), pp. 223 – 271, Academic Press, New York.
Briggs, W. R., and Blatt, M. R., 1980, Blue light responses in the siphonaceous alga Vaucheria, in: The Blue Light Syndrome( H. Senger, ed.), pp. 261 – 268, Springer-Verlag, Berlin.
Briggs, W. R., and Rice, H. V., 1972, Phytochrome: Chemical and physical properties and mechanism of action, Annu. Rev. Plant Physiol. 23: 293 – 334.
Briggs, W. R., Tocher, R. D., and Wilson, J. F., 1957, Phototropie auxin redistribution in corn coleoptiles, Science 126: 210 – 212.
Britz, S. J., Schrott, E., Widell, S., and Briggs, W. R., 1979, Red-light-induced reduction of a particle-associated b-type cytochrome from corn in the presence of methylene blue, Photochem. Photobiol. 29: 359 – 365.
Bruinsma, J., Karssen, C. M., Benschop, M., and Van Dort, J. B., 1975, Hormonal regulation of phototropism in the light-grown sunflower seedling, Helianthus annuusL.: Immobility of endogenous indoleacetic acid and inhibition of hypocotyl growth by illuminated cotyledons, J. Exp. Bot. 26: 411 – 418.
Bruinsma, J., Franssen, J. M., and Knegt, E., 1980, Phototropism as a phenomenon of inhibition, in: Plant Growth Substances1979, ( F. Skoog, ed), pp. 444 – 450, Springer-Verlag, New York.
Buder, J., 1918, Die Inversion des Phototropismus bei Phycomyces, Ber. Dtsch. Bot. Ges. 36: 104 – 105.
Buder, J., 1920, Neue phototropische Fundamentalversuche, Ber. Dtsch. Bot. Ges. 38: 10 – 19.
Buder, J., 1932, Über die phototropische Empfindlichkeit von Phycomycesfü verschiedene Spektralgebiete, Beitr. Biol. Pflanz. 19: 420 – 435.
Bünning, E., 1937, Phototropismus und Carotinoide. I. Phototropische Wirksamkeit von Strahlen verschiedener Wellenlange und Strahlungsabsorption im Pigment bei Pilobolus, Planta 26: 719 – 736.
Bünning, E., 1938a, Phototropismus und Carotinoide. II. Das Carotin der Reizaufnahmezone von Pilobolus, Phycomyces und Avena, Planta 27:148–158.
Bünning, E., 1938b, Phototropismus und Carotinoide. III. Weitere Untersuchungen an Pilzen und höheren Pflanzen, Planta 27:583–610.
Bünning, E., 1956, Bewegungen, Fortschr. Bot. 18: 347 – 364.
Bünning, E., and Etzold, H., 1958, Über die Wirkung von polarisiertem Licht auf keimende Sporen von Pilzen, Moosen und Farnen, Ber. Dtsch. Bot. Ges. 71: 304 – 306.
Bünning, E., Reisener, H. J., Weygand, F., Simon, H., and Klebe, J. F., 1956, Versuche mit radioaktiver Indolylessigsäure zur Prüfung der sogenannten Ablenkung des Wuchshormonstromes durch Licht, Z. Naturforsch. llb: 363 – 364.
Carlile, M. J., 1957, Phototropism ofPhycomycessporangiophores, Nature (Lond.) 180: 202.
Carlile, M. J., 1962, Evidence for a flavoprotein photoreceptor in Phycomyces, J. Gen. Microbiol. 28: 161 – 167.
Carlile, M. J., 1965, The photobiology of fungi, Annu. Rev. Plant Physiol. 16: 175 – 202.
Carlile, M. J., 1970, The photoresponses of fungi, in: Photobiology of Microorganisms( P. Halldal, ed), pp. 309 – 344, Wiley-Interscience, New York.
Castle, E. S., 1929, Dark adaptation and the light-growth responses of Phycomyces, J. Gen. Physiol. 12: 391 – 400.
Castle, E. S., 1930a, The light-sensitive system as the basis of the photic responses of Phycomyces, Proc. Natl. Acad. Sci. USA 16: 1 – 6.
Castle, E. S., 1930b, Phototropism and the light-sensitive system of Phycomyces, J. Gen. Physiol. 13:421–435.
Castle, E. S., 1931a, Phototropic “indifference” and the light-sensitive system of Phycomyces, Bot. Gaz. 91: 206 – 212.
Castle, E. S., 1931b, The phototropic sensitivity of Phycomyces as related to wave-length, J. Gen. Physiol. 14:701–711.
Castle, E. S., 1932a, On “reversal” of phototropism in Phycomyces, J. Gen. Physiol. 15: 487 – 489.
Castle, E. S., 1932b, Dark Adaptation and the dark growth response of Phycomyces, J. Gen. Physiol. 16:75–88.
Castle, E. S., 1933a, The refractive indices of whole cells, J. Gen. Physiol. 17:41–47.
Castle, E. S., 1933b, The physical basis of the positive phototropism of Phycomyces, J. Gen. Physiol. 17:49–62.
Castle, E. S., 1934a, The phototropic effect of polarized light, J. Gen. Physiol. 17:751–762.
Castle, E. S., 1934b, The spiral growth of single cells, Science 80:362–363.
Castle, E. S., 1935, Photic excitation and phototropism in single plant cells, Cold Spring Harbor Symp. Quant. Biol. 3: 224 – 229.
Castle, E. S., 1936a, A model imitating the origin of spiral wall structure in certain plant cells, Proc. Natl. Acad. Sci. USA 22:336–340.
Castle, E. S., 1936b, the origin of spiral growth in Phycomyces, J. Cell. Comp. Physiol. 8:493–502.
Castle, E. S., 1937a, The distribution of velocities of elongation and of twist in the growth zone of Phycomycesin relation to spiral growth, J. Cell. Comp. Physiol. 9: 477 – 489.
Castle, E. S., 1937b, Membrane tension and orientation of structure in the plant cell wall, J. Cell. Comp. Physiol. 10:113–121.
Castle, E. S., 1938, Orientation of structure in the cell wall of Phycomyces, Protoplasma 31: 331 – 345.
Castle, E. S., 1942, Spiral growth and reversal of spiraling in Phycomyces, and their bearing on primary wall structure, Ann. J. Bot. 29: 664 – 672.
Castle, E. S., 1953, Problems of oriented growth and structure in Phycomyces, Q. Rev. Biol. 28: 364 – 372.
Castle, E. S., 1958, The topography of tip growth in a plant cell, J. Gen. Physiol. 41:913-926.
Castle, E. S., 1959, Growth distribution in the light-growth responses of Phycomyces, J. Gen. Physiol. 42: 697 – 702.
Castle, E. S., 1961a, Phototropism, adaptation, and the light-growth response of Phycomyces, J. Gen. Physiol. 45: 39 – 46.
Castle, E. S., 1961b, Phototropic inversion in Phycomyces, Science 133:1424–1425.
Castle, E. S., 1965, Differential growth and phototropic bending in Phycomyces, J. Gen. Physiol. 48: 409 – 423.
Castle, E. S., 1966a, Light responses of Phycomyces, Science 154: 1416 – 1420.
Castle, E. S., 1966b, A kinetic model for adaptation and the light responses of Phycomyces, J. Gen. Physiol. 49:925–935.
Castle, E. S., and Honeyman, A. H. M., 1934, The light growth response and the growth system of Phycomyces, J. Gen. Physiol. 18: 385 – 397.
Cerda-Olmedo, E., 1977, Behavioral genetics of Phycomyces, Annu. Rev. Microbiol. 31: 535 – 547.
Cholodny, N., 1927, Wuchshormone und Tropismen bei den Pflanzen, Biol. Zentralbl. 47: 604 – 626.
Cholodny, N., 1933, Beitrage zur Kritik der Blaauwschen Theorie des Phototropismus, Planta 20: 543 – 576.
Chon, H. P., and Briggs, W. R., 1966, Effect of red light on the phototropie sensitivity of corn coleoptiles, Plant Physiol. 41: 1715 – 1724.
Clark, W. G., 1935, Note on the effect of light on the bioelectric potentials in the Avenacoleoptile, Proc. Natl. Acad. Sci. USA 21: 681 – 684.
Clark, W. G., 1937, Polar transport of auxin and electrical polarity in coleoptile of Avena, Plant Physiol. 12: 737 – 754.
Cleland, R., 1971, Cell wall extension, Annu. Rev. Plant Physiol. 22: 197 – 222.
Cleland, R., 1973, Auxin-induced hydrogen ion excretion from Avenacoleoptile, Proc. Natl. Acad. Sci. USA 70: 3092 – 3093.
Cleland, R. E., 1975, Auxin-induced hydrogen ion excretion: correlation with growth, and control by external pH and water stress, Planta 127: 233 – 242.
Cleland, R. E., Prins, H. B. A., Harper, J. R., and Higinbotham, N., 1977, Rapid hormone- induced hyperpolarization of the oat coleoptile transmembrane potential, Plant Physiol. 59: 395 – 397.
Cohen, R., and Delbruck, M., 1958, Distribution of stretch and twist along the growing zone of the sporangiophore of Phycomycesand the distribution of response to a periodic illumination program, J. Cell. Comp. Physiol. 52: 361 – 388.
Cohen, R., and Delbruck, M., 1959, Photoreactions in Phycomyces: growth and tropic responses to the stimulation of narrow test areas, J. Gen. Physiol. 42: 677 – 695.
Cohen, R. J., 1974a, Cyclic AMP levels in Phycomycesduring a response to light, Nature (Lond.) 251: 144 – 146.
Cohen, R. J., 1974b, Some properties of chitinase from Phycomyces blakesleeanus, Life Sci. 15:289–300.
Cohen, R. J., 1978, Aberrant cyclic nucleotide regulation in a behavioral mutant of Phycomyces blakesleeanus, Plant Sci. Lett. 13: 315 – 319.
Cohen, R. J., 1979, Adenosine 3′,5′-cyclic monophosphate phosphodiesterase from Phycomyces blakesleeanus, Phytochemistry 18: 943 – 948.
Cohen, R. J., and Atkinson, M. M., 1978, Activation of Phycomycesadenosine 3′,5′ monophosphate phosphodiesterase by blue light, Biochem. Biophys. Res. Commun. 83: 616 – 621.
Cohen, R. J., Ness, J. L., and Whiddon, S. M., 1980, Adenylate cyclase from Phycomycessporangiophore, Phytochemistry 19: 1913 – 1918.
Cross, J. W., and Briggs, W. R., 1978, Properties of a solubilized microsomal auxin-binding protein from coleoptiles and primary leaves of Zea mays, Plant Physiol. 62: 152 – 157.
Cross, J. W., and Briggs, W. R., 1979, Solubilized auxin-binding protein, Planta 146: 263 – 270.
Cross, J. W., Briggs, W. R., Dohrmann, U. C., and Ray, P. M., 1978, Auxin receptor of maize coleoptile membranes do not have ATPase activity, Plant Physiol. 61: 581 – 584.
Curry, G. M., 1969, Phototropism, in: The Physiology of Plant Growth and Development( M. B. Wilkins, ed.), pp. 243 – 273, McGraw-Hill, London.
Curry, G. M., and Gruen, H. E., 1957, Negative phototropism of Phycomycesin the ultra-violet, Nature (Lond.) 179: 1028 – 1029.
Curry, G. M., and Gruen, H. E., 1959, Action spectra for the positive and negative phototropism of Phycomycessporangiophores, Proc. Natl. Acad. Sci. USA 45: 797 – 804.
Curry, G. M., and Gruen, H. E., 1961, Dose response relationships at different wave lengths in phototropism of Avena, in: Progress in Photobiology( B. C. Christensen and B. Buchmann, eds.), pp. 155 – 157, Elsevier, Amsterdam.
Curry, G. M., Thimann, K. V., and Ray, P. M., 1956, The base curvature response of Avenaseedlings to the ultraviolet, Physiol. Plant. 9: 429 – 440.
Darwin, C., and Darwin, F., 1880, The Power of Movement in Plants, John Murray, London.
Dassek, M., 1939, Der Phototropismus der Lebermoosrhizoide, Beitr. Biol. Pflanz. 26: 125 – 200.
Davis, B. D., 1975, Bending growth in fern gametrophyte protonema, Plant Cell Physiol. 16: 537 – 541.
de Fabo, E., 1980, On the nature of the blue light photoreceptor: still an open question, in: The Blue Light Syndrome( H. Senger, ed.), pp. 187 – 197, Springer-Verlag, Berlin.
de Fabo, E. C., Harding, R. W., and Shropshire, W., Jr., 1976, Action spectrum between 260 and 800 nanometers for the photoinduction of carotenoid biosynthesis in Neurospora crassa, Plant Physiol. 57: 440 – 445.
Delbrück, M., and Reichardt, W., 1956, System analysis for the light growth reactions of Phycomyces, in: Cellular Mechanisms in Differentiation and Growth(D. Rudnick, ed.), pp. 73–44, Princeton University Press, Princeton, N.J.
Delbrück, M., and Shropshire, W., Jr., 1960, Action and transmission spectra of Phycomyces, Plant Physiol. 35: 194 – 204.
Delbrück, M., and Varju, D., 1961, Photoreactions in Phycomyces: responses to the stimulation of narrow test areas with ultra-violet light, J. Gen. Physiol. 44: 1177 – 1188.
Delbrück, M., Katzir, A., and Presti, D., 1976, Responses of Phycomycesindicating optical excitation of the lowest triplet state of riboflavin, Proc. Natl. Acad. Sci. USA 73: 1969 – 1973.
Dennison, D. S., 1959a, Gallic acid in Phycomycessporangiophores, Nature (Lond.) 184: 2036.
Dennison, D. S., 1959b, Phototropic equilibrium in Phycomyces, Science 129:775–777.
Dennison, D. S., 1965, Steady-state phototropism in Phycomyces, J. Gen. Physiol. 48: 393 – 408.
Dennison, D. S., 1979, Phototropism, in: Encyclopedia of Plant Physiology, new ser., vol. 7 ( W. Haupt and M. E. Feinleib, eds.), pp. 506 – 566, Springer-Verlag, Berlin.
Dennison, D. S., and Bozof, R. P., 1973, Phototropism and local adaptation in Phycomycessporangiophores, J. Gen. Physiol. 62: 157 – 168.
Dennison, D. S., and Foster, K. W., 1977, Intracellular rotation and the phototropic response of Phycomyces, Biophys. J. 18: 103 – 123.
Dohrmann, U., Hertel, R., and Kowalik, H., 1978, Properties of auxin binding sites in different subcellular fractions from maize coleoptiles, Planta 140: 97 – 106.
du Buy, H. G., and Nuernbergk, E., 1929, Weitere Untersuchungen uber den Einfluss des Lichtes auf das Wachstum von Koleoptile und Mesokotyl bei Avena sativaII, Proc. Kon. Akad. Wet. Amst. 32: 808 – 817.
du Buy, H. G., and Nuernbergk, E., 1932, Phototropismus und Wachstum der Pflanzen, Ergeb. Biol. 9:358–544.
du Buy, H. G., and Nuernbergk, E., 1934, Phototropismus und Wachstum der Pflanzen. Zweiter Teil, Ergeb. Biol. 10: 207 – 322.
du Buy, H. G., and Nuernbergk, E. L., 1935, Phototropismus und Wachstum der Pflanzen. Dritter Teil, Ergeb. Biol. 12: 325 – 543.
Durand, H., and Rayle, D. L., 1973, Physiological evidence for auxin-induced hydrogen-ion secretion and the epidermal paradox, Planta 114: 185 – 193.
Elliot, W. M., and Shen-Miller, J., 1976, Similarity in dose responses, action spectra and red light responses between phototropism and photoinhibition of growth, Photochem. Photobiol. 23: 195 – 199.
Ellis, R. J., and MacDonald, I. R., 1970, Specificity of cycloheximide in higher plant systems, Plant Physiol. 46: 227 – 232.
Errera, L., 1884, Die grosse Wachsthumsperiode bei den Fruchttragern von Phycomyces, Bot. Zeitung. 42:497–503, 513–522, 529–537, 545–552, 561 – 566.
Eslava, A. P., Alvarez, M. I., Lipson, E. D., Presti, D., and Kong, K., 1976, Recombination between mutants of Phycomyceswith abnormal phototropism, Mol. Gen. Genet. 147: 235 – 241.
Etzold, H., 1961, Die Wirkungen des linear polarisierten Lichtes auf Pilze und ihre Beziehungen zu den tropistischen Wirkungen des einsteitigen Lichtes, Exp. Cell Res. 25: 229 – 245.
Etzold, H., 1965, Der Polarotropismus und Phototropismus der Chloronemen von Dryopteris filix mas(L.) Schott, Planta 64: 254 – 280.
Evans, M. L., and Ray, R. M., 1969, Timing of the auxin response in coleoptiles and its implications regarding auxin action, J. Gen. Physiol. 53: 1 – 20.
Everett, M., and Thimann, K. V., 1968, Second positive phototropism in the Avenacoleoptile, Plant Physiol. 43: 1786 – 1792.
Falk, H., and Steiner, A. M., 1968, Phytochrome-mediated polarotropism: an electron microscopical study, Naturwissenschaften 55: 500.
Fischer, E.-P., and Thomson, K. S., 1979, Serine proteinase and their inhibitors in Phycomyces blakesleeanus, J. Biol. Chem. 254: 50 – 56.
Fischer-Arnold, G., 1963, Untersuchungen über die Protoplastenbewegung bei Vaucheria sessilis, Protoplasma 56: 495 – 520.
Flint, L. H., 1942, Note on phototropism in Pilobolus, Am. J. Bot. 29: 672 – 674.
Fondeville, J. C., Schneider, M. J., Barthwick, H. A., and Hendricks, S. B., 1967. Photocontrol of Mimosa pudicaL. leaf movement, Planta 75: 228 – 238.
Foster, K. W., 1977, Phototropism of coprophilous Zygomycetes, Annu. Rev. Biophys. Bioeng. 6: 419 – 443.
Foster, K. W., and Lipson, E. D., 1973, The light growth response of Phycomyces, J. Gen. Physiol. 62: 590 – 617.
Galland, P., and Russo, V. E. A., 1979, Photoinhibition of sporangiophores in Phycomycesmutants deficient in phototropism and in mutants lacking ß-carotene, Photochem. Photobiol. 29: 1009 – 1014.
Galston, A. W., 1949, Riboflavin-sensitized photooxidation of indoleacetic acid and related compounds, Proc. Natl. Acad. Sci. USA 35: 10 – 17.
Galston, A. W., 1950, Riboflavin, light, and the growth of plants, Science 111: 619 – 624.
Galston, A. W., 1974, Plant photobiology in the last half-century, Plant Physiol. 54: 427 – 436.
Gamow, R. I., and Böttger, B., 1979, Phycomyces: Modification of spiral growth after mechanical conditioning of the cell wall, Science 203: 268 – 270.
Gamow, R. I., and Böttger, B., 1980, Phycomyces. Modification of light-induced spiral growth after mechanical conditioning of the cell wall, Plant Physiol. 66: 525 – 527.
Gardner, G., Shaw, S., and Wilkins, M. B., 1974, IAA transport during the phototropie responses of intact Zeaand Avenacoleoptiles, Planta 121: 237 – 251.
Gettkandt, G., 1954, Zur Kenntnis des Phototropismus der Keimmyzelien einiger parasitischer Pilze, Wiss. Z. Martin Luther Univ. Halle-Wittenberg Math-Naturwiss. Reihe 3: 691 – 709.
Goldsmith, M. H. M., 1966, Movement of indoleacetic acid in coleoptiles of Avena sativaL. II. Suspension of polarity by total inhibition of the basipetal transport, Plant Physiol. 41: 15 – 27.
Goldsmith, M. H. M., 1967, Movement of pulses of labeled auxin in corn coleoptiles, Plant Physiol. 42: 258 – 263.
Goldsmith, M. H. M., 1977, The polar transport of auxin, Annu. Rev. Plant Physiol. 28: 439 – 478.
Goldsmith, M. H. M., and Thimann, K. V., 1962, Some characteristics of movement of indoleacetic acid in coleoptiles of Avena—I. Uptake, destruction, immobilization, and distribution of IAA during basipetal translocation, Plant Physiol. 37: 492 – 505.
Goldsmith, M. H. M., Caubergs, R. J., and Briggs, W. R., 1980, Light-inducible cytochrome reduction in membrane preparations from corn coleoptiles, I. Stabilization and spectral characterization of the reaction, Plant Physiol. 66: 1067 – 1073.
Goodell, E. W., 1971, “Apical dominance” in the sporangiophore of the fungus Phycomyces, Planta 98:63–75.
Goodwin, T. W., 1952, Studies in carotenogenesis. 3. Identification of the minor polyene components of the fungus Phycomyces blakesleeanusand a study of their synthesis under various cultural conditions, Biochem. J. 50: 550 – 558.
Gordon, S. A., 1954, Occurrence, formation, and inactivation of auxins, Annu. Rev. Plant Physiol. 5: 341 – 378.
Gordon, S. A., and Dobra, W. A., 1972, Elongation responses of the oat shoot to blue light, as measured by capacitance auxanometry, Plant Physiol. 50: 738 – 742.
Gordon, S. A., and Eib, M., 1964, Hormonal relation in the phototropic responses, II. translocation of C14-labeled indoleacetic acid in irradiated Avenacoleoptile segments, Argonne Natl. Lab. Annu. Rep. 6971: 176 – 181.
Gordon, S. A., and Shen-Miller, J., 1968, Auxin relations in phototropism of the coleoptile: a reexamination, in: Biochemistry and Physiology of Plant Growth Substances, Proceedings of the Sixth International Conference on Plant Growth Substances, July 24–29, 1976( F. Wightman and G. Setterfield, eds.), pp. 1097 – 1108, Runge, Ottawa.
Grahm, L., 1964, Measurements of geoelectric and auxin-induced potentials in coleoptiles with a refined vibrating electrode technique, Physiol. Plant. 17: 231 – 261.
Green, P. B., Erickson, R. O., and Richmond, P. A., 1970, On the physical basis of wall morphogenesis, Ann. NY Acad. Sci. 175: 712 – 731.
Greenwood, M. S., Shaw, S., Hillman, J. R., Ritchie, A., and Wilkins, M. B., 1972, Identification of auxin from Zeacoleoptile tips by mass spectrometry, Planta 108: 179 – 183.
Gressel, J., 1979, Blue light photoreception, Photochem. Photobiol. 30: 749 – 754.
Haberlandt, G., 1889, Über das Langenwachsthum und den Geotropismus der Rhizoiden von Marchantiaund Lunularia, Oesterr. Bot. Z. 39: 93 – 98.
Hager, A., and Schmidt, R., 1968a, Auxintransport und Phototropismus, I. Die lichtbedingte Bildung eines Hemmstoffes für den Transport von Wuchsstoffen in Koleoptilen, Planta 83: 347 – 371.
Hager, A., and Schmidt, R., 1968b, Auxintransport und Phototropismus. II. Der Hemmechanismus des aus IES gebildeten Photooxidationsproduktes 3-Methylen-oxindol beim Transport von Wuchsstoffen, Planta 83:372–386.
Hager, A., Menzel, H., and Krauss, A., 1971, Versuch und Hypothese zur Primärwirkung des Auxins beim Streckungswachstum, Planta 100: 47 – 75.
Haig, C., 1934, The spectral sensibility of Avena, Proc. Natl. Acad. Sci. USA 20: 476 – 479.
Hartmann, K. M., 1977, Aktionsspektrometrie, in: Biophysik( W. Hoppe, W. Lohmann, H. Markl, and H. Ziegler, eds.), pp. 197 – 222, Springer-Verlag, Berlin.
Hartmann, K. M., and Haupt, W., 1977, Photomorphogenese, in: Biophysik( W. Hoppe, W. Lohmann, H. Markl, and H. Ziegler, eds.), pp. 449 – 468, Springer-Verlag, Berlin.
Hartmann, K. M., Menzel, H., and Mohr, H., 1965, Ein Beitrag zur Theorie der polarotropischen und phototropischen Krümmung, Planta 64: 363 – 375.
Haupt, W., 1957, Die Induktion der Polarität bei der Spore von Equisetum, Planta 49: 61 – 90.
Haupt, W., 1958, Über den Primärvorgang bei der polarisierenden Wirkung des Lichtes auf keimende Equisetum-Sporen, Planta 51: 74 – 83.
Haupt, W., 1965, Perception of environmental stimuli orienting growth and movement in lower plants, Annu. Rev. Plant Physiol. 16: 267 – 290.
Haupt, W., 1968, Die Orientierung der Phytochrom-Moleküle in der MougeotiazeWc: Ein neues Modell zur Deutung der experimentellen Befunde, Z. Pflanzenphysiol. 58: 331 – 346.
Haupt, W., 1972, Localization of phytochrome within the cell, in: Phytochrome( K. Mitrakos and W. Shropshire, Jr., eds.), pp. 553 – 569, Academic Press, New York.
Haupt, W., 1977, Bewegungsphysiologie der Pflanzen, Georg Thieme Verlag, Stuttgart.
Haupt, W., 1980, Localization and orientation of photoreceptor pigments, in: Photoreception and Sensory Transduction in Aneural Organisms(F. Lenci and G. Colombetti, eds.), pp. 155–172, Plenum Press, New York.
Haupt, W., and Bentrup, F.-W., (Meyer zu), 1961, Versuch zur Poläritatsinduktion durch Licht bei Equisetumsporenund Fucus-Zygoten, Naturwissenschaften 48: 723.
Haupt, W., and Buchwald, M., 1967, Die Orientierung der Photorezeptor-MolekÜle im Sporangienträger von Phycomyces, Z. Pflanzenphysiol. 56: 20 – 26.
Haupt, W., Mörtel, G., and Winkelnkemper, I., 1969, Demonstration of different dichroic orientation of phytochrome PR and PFR, Planta 88: 183 – 186.
Hejnowicz, Z., and Sievers, A., 1971, Mathematical model of geotropically bending Chara rhizoids, Z. Pflanzenphysiol. 66: 34 – 48.
Hemmerich, P., 1976, The present status of flavin and flavocoenzyme chemistry, in: Fortschritte der Chemie organischer Naturstoffe, Vol. 33 ( W. Herz, H. Grisebach, and G. W. Kirby, eds.), pp. 451 – 527, Springer-Verlag, Vienna.
Hertel, R., 1979, Auxin binding sites: subcellular fractionation and specific binding assays, in: Plant Organelles, methodological Surveys (B) Biochemistry, Vol. 9 ( E. Reid, ed.), pp. 173 – 183, Ellis Horwood Ltd. Chichester, West Sussex, England.
Hertel, R., 1980, Phototropism of lower plants, in: Photoreception and Transduction in Aneural Organisms( F. Lenci and G. Colombetti, eds.), pp. 89 - 105, Plenum Press, New York.
Hertel, R., 1981, Zur Auxinproblematik: Primäre Wirkung, Transport und in-vitro-Bindung, Biochem. Physiol. Pflanz. 176: 495 – 506.
Hertel, R., and Leopold, A. C., 1962, Auxintransport und Schwerkraft, Naturwissenschaften 49: 377 – 378.
Hertel, R., and Leopold, A. C., 1963, Versuche zur Analyse des Auxintransportes in der Koleoptile von Zea maysL., Planta 59: 535 – 562.
Hertel, R., Evans, M. L., Leopold, A. C., and Sell, H. M., 1969, The specificity of the auxin transport system, Planta 85: 238 – 249.
Hertel, R., Thomson, K. S., and Russo, V. E. A., 1972, In-vitroauxin binding to particulate cell fractions from corn coleoptiles, Planta 107: 325 – 340.
Hertel, R., Jesaitis, A. J., Dohrmann, U., and Briggs, W. R., 1980, In vitro binding of riboflavin to subcellular particles from maize coleoptiles and Cucurbita hypocotyls, Planta 147:312–319.
Humphry, V. R., 1966, The effects of paraffin oil on phototropie and geotropic responses in Avenacoleoptiles, Ann. Bot. 30: 39 – 45.
Hurd, A. M., 1920, Effect of unilateral monochromatic light and group orientation on the polarity of germinating Fucusspores, Bot. Gaz. 70: 25 – 50.
Ishizawa, K., and Wada, S., 1979a, Growth and phototropie bending in Boergesenia rhizoid, Plant Cell Physiol. 20:973–982.
Ishizawa, K., and Wada, S., 1979b, Action spectrum of negative phototropism in Boergesenia forbesii, Plant Cell Physiol. 20:983–987.
Ishizawa, K., Enomoto, S., and Wada, S., 1979, Germination and photoinduction of polarity in the spherical cells regenerated from protoplasma fragments of Boergesenia forbesii, Bot. Mag. Tokyo 92: 173 – 186.
Jacob, F., 1959, Vergleichende Studien über die phototropische Empfindlichkeit junger Sporangienträger der Gattung Pilobolus, Arch. Protistenkd. 103: 531 – 572.
Jacob, F., 1964, Über die Funktion eines Karotin-Lichtschirmes bei dem Phototropismus von Sporangienträgern chromosporer Pilobolus-Axten, Flora (Jena)155: 209 – 222.
Jacobs, M., and Hertel, R., 1978, Auxin binding to subcellular fractions from Cucurbitahypocotyls: in vitroevidence for an auxin transport carrier, Planta 142: 1 – 10.
Jacobs, M., and Ray, P. M., 1976, Rapid auxin-induced decrease in free space pH and its relationship to auxin-induced growth in maize and pea, Plant Physiol. 58: 203 – 209.
Jaffe, L. F., 1958, Tropistic responses of zygotes of the Fucaceae to polarized light, Exp. Cell Res. 15: 282 – 299.
Jaffe, L. F., 1960, The effect of polarized light on the growth of a transparent cell. A theoretical analysis, J. Gen. Physiol. 43: 897 – 911.
Jaffe, L., and Etzold, H., 1965, Tropic responses of Funariaspores to red light, Biophys. J.5: 715 – 742.
Jan, Y. N., 1974, Properties and cellular localization of chitin synthetase in Phycomyces blakesleeanus, J. Biol. Chem. 249: 1973 – 1979.
Jayaram, M., Presti, D., and Delbrück, M., 1979, Light-induced carotene synthesis in Phycomyces, Exp. Mycol. 3: 42 – 52.
Jayaram, M., Leutwiler, L., and Delbrück, M., 1980, Light-induced carotene synthesis in mutants of Phycomyceswith abnormal phototropism, Photochem. Photobiol. 32: 241 – 245.
Jeffreys, D. B., and Greulach, V. A., 1956, The nature of tropism of Coprinus sterquilinus, J. Elisha Mitchell Sci. Soc. 72: 153 – 158.
Jesaitis, A. J., 1974, Linear dichroism and orientation of the Phycomycesphotopigment, J. Gen. Physiol. 63: 1 – 21.
Jesaitis, A. J., Heners, P. R., Hertel, R., and Briggs, W. R., 1977, Characterization of a membrane fraction containing a b-type cytochrome, Plant Physiol. 59: 941 – 947.
Johnson, D. L., and Gamow, R. I., 1972, Phycomyces: growth responses of the sporangium, Plant Physiol. 49: 898 – 903.
Johnsson, A., 1965, Photoinduced lateral potentials in Zea mays, Physiol. Plant. 18: 574 – 576.
Johnston, E. S., 1934, Phototropic sensitivity in relation to wave length, Smithsonian Misc. Collect.92: 1 – 17.
Jolivette, H. D. M., 1914, Studies on the reactions of Pilobolusto light stimuli, Bot. Gaz. 57: 89 – 121.
Jönsson, A., 1961, Chemical structure and growth activity of auxins and antiauxins, Encycl. Plant Physiol. 14: 959 – 1006.
Kasai, S., Miura, R., and Matsui, K., 1975, Chemical structure and some properties of roseoflavin, Bull. Chem. Soc. Jpn. 48: 2877 – 2880.
Kataoka, H., 1975a, Phototropism in Vaucheria geminata. I. The action spectrum, Plant Cell Physiol. 16:427–437.
Kataoka, H., 1975b, Phototropism in Vaucheria geminata. II. The mechanism of bending and branching, Plant Cell Physiol. 16:439–448.
Kataoka, H., 1977a, Second positive and negative phototropism in Vaucheria geminata, Plant Cell Physiol. 18:473–476.
Kataoka, H., 1977b, Phototropic sensitivity in Vaucheria geminata regulated by 3′,5′-cyclic AMP, Plant Cell Physiol. 18:431–440.
Kataoka, H., 1979, Phototropic responses of Vaucheria geminatato intermittent blue light stimuli, Plant Physiol. 63: 1107 – 1110.
Kataoka, H., 1980, Phototropism: determination of an action spectrum in a tip-growing cell, in: Handbook of Phycological Methods, Vol. 3, pp. 205–218, ( E. Gautt, ed.) Cambridge University Press, Cambridge.
Key, J. L., 1969, Hormones and nucleic acid metabolism, Annu. Rev. Plant Physiol. 20: 449 – 474.
Koch, K., 1934, Untersuchungen über den Quer- und Längstransport des Wuchsstoffes in Pflanzenorganen, Planta 22: 190 – 220.
Kögl, F., 1937, Wirkstoffprinzip und Pflanzenwachstum, Naturwissenschaften 29: 456 – 470.
Kögl, F., and Haagen-Smit, A. J., 1931, Über die Chemie des Wuchsstoffs, Proc. Kon. Akad. Wet. Amst. 34: 1411 – 1416.
Koske, R. E., 1977, Spiral growth of Phycomyces: some new observations in the northern and southern hemispheres, Mycologia 69: 189 – 193.
Lange, S., 1927, Die Verteilung der Lichtempfindlichkeit in der Spitze der Haferkoleoptile, Jahrb. Wiss. Bot. 67: 1 – 51.
Lembi, C. A., Morré, D. J., Thomson, K. S., and Hertel, R., 1971, N-l-Naphthylphthalamic-acid-binding activity of a plasma membrane-rich fraction from maize coleoptiles, Planta 99: 37 – 45.
Leong, T.-Y., and Briggs, W. R., 1981, Partial purification and characterization of a blue light- sensitive cytochrome-flavin complex from corn membranes, Plant Physiol. 67: 1042 – 1046.
Lewis, S. C., Schiff, J. A., and Epstein, H. T., 1961, Photooxidation of cytochromes by a flavoprotein from Euglena, Biochem. Biophys. Res. Commun. 5: 221 – 225.
Lipson, E. D., 1975a, White noise analysis of Phycomyceslight growth response system. I. Normal intensity range, Biophys. J. 15:989 – 1011.
Lipson, E. D., 1975b, White noise analysis of Phycomyces light growth response system. II. Extended intensity ranges, Biophys. J. 15:1013–1031.
Lipson, E. D., 1975c, White noise analysis of Phycomyces light growth response system. III. Photomutants, Biophys. J. 15:1033–1045.
Lipson, E. D., 1980, Sensory transduction in Phycomycesphotoresponses, in: The Blue Light Syndrome( H. Senger, ed.), pp. 110 – 118, Springer-Verlag, New York.
Lipson, E. D., and Presti, D., 1977, Light-induced absorbance changes in Phycomycesphotomutants, Photochem. Photobiol. 25: 203 – 208.
Lipson, E. D., and Presti, D., 1980, Graphical estimation of cross sections from fluence-response data, Photochem. Photobiol. 32: 383 – 391.
Lipson, E. D., and Terasaka, D. T., 1981, Photogeotropism in Phycomycesdouble mutants, Exp. Mycol. 5: 101 – 111.
Lipson, E. D., Terasaka, D. T., and Silverstein, P. S., 1980, Double mutants of Phycomyceswith abnormal phototropism, Mol. Gen. Genet. 179: 155 – 162.
Löser, G., and Schafer, E., 1980, Phototropism in Phycomyces: a photochromic sensor pigment?, in: The Blue Light Syndrome( H. Senger, ed.), pp. 244 – 250, Springer-Verlag, New York.
MacDonald, I. R., and Ellis, R. J., 1969, Does cycloheximide inhibit protein synthesis specifically in plant tissues?, Nature (Lond.) 222: 791 – 792.
MacMillan, J. (ed.), 1980, Encyclopedia of Plant Physiology, new ser., Vol. 9, Springer-Verlag, New York.
MacRobbie, E. A. C., and Dainty, J., 1958, Sodium and potassium distribution and transport in the seaweed Rhodymenia palmata(L.). Grev., Physiol. Plant. 11: 782 – 801.
Massart, J., 1888, Recherches sur les organismes inférieurs.—1. La loi de Weber vérifiée pour l’héliotropisme du champignon, Bull. Acad. R. Sci. Belg. 16: 590 – 601.
Medina, J. R., and Cerdá-Olmedo, E., 1977a, A quantitative model of Phycomycesphototropism, J. Theor. Biol. 69: 709 – 719.
Medina, J. R., and Cerdá-Olmedo, E., 1977b, Allelic interaction in the photogeotropism of Phycomyces, Exp. Mycol. 1:286–292.
Meissner, G., and Delbrück, M., 1968, Carotenes and retinal in Phycomycesmutants, Plant Physiol. 43: 1279 – 1283.
Meistrich, M. L., Fork, R. L., and Matricon, J., 1970, Phototropism in Phycomycesas investigated by focused laser radiation, Science 169: 370 – 371.
Menschick, R., Hild, V., and Hager, A., 1977, Decarboxylierung von Indolylessigsaure im Zusammenhang mit dem Phototropismus in, Avena-Koleoptilen, Planta 133: 223 – 228.
Meyer, A. N., 1969a, Versuche zur 1. positiven und zur negativen phototropischen Krümmung der Avena-Koleoptile: I. Lichtperception und Absorptionsgradient, Z. Pflanzenphysiol. 60:418–433.
Meyer, A. M., 1969b, Versuche zur 1. positiven und zur negativen phototropischen Krümmung der, Avena-Koleoptile: II. Die Inversion durch Paraffinöl, Z. Pflanzenphysiol 61:129–134.
Miller, J. H., 1968, Fern gametophytes as experimental material, Bot. Rev. 34: 361 – 440.
Mohr, H., 1956a, Die Beeinflussung der Keimung von Farnsporen durch Licht und andere Faktoren, Planta 46: 534 – 551.
Mohr, H., 1956b, Die Abhängigkeit des Protonemawachstums und der Protonemapolarität bei Farnen vom Licht, Planta 47:127–158.
Moor, H., 1967, Endoplasmic reticulum as the initiator of bud formation in yeast (S. cerevisiae), Arch. Mikrobiol. 57: 135 – 146.
Morath, M., and Hertel, R., 1978, Lateral electrical potential following asymmetric auxin application to maize coleoptiles, Planta 140:31–35.
Müller, F., 1983, The flavin redox system and its biological function, in: Topics in Current Chemistry, Vol. 108, pp. 71 – 107, Springer-Verlag, New York.
Murphy, G. J. P., 1980, Napthaleneacetic acid binding by membrane-free preparations of cytosol from the maize coleoptile, Plant Sci. Lett. 19: 157 – 168.
Naqvi, S. M., and Gordon, S. A., 1967, Auxin transport in Zea mayscoleoptiles. II. Influence of light on the transport of indoleacetic acid-2-C14, Plant Physiol. 42: 138 – 143.
Nathansohn, A., and Pringsheim, E., 1908, Über die Summation intermittierender Lichtreize, Jahrb. Wiss. Bot. 45: 137 – 190.
Nebel, B. J., 1968, Action spectra for photogrowth and phototropism in protonemata of the moss Physcomitrium turbinatum, Planta 81: 287 – 302.
Nebel, B. J., 1969, Responses of mossprotomenata to red and far red polarized light: evidence for discshaped phytochrome photoreceptors, Planta 87: 170 – 179.
Neuscheler-Wirth, H., 1970, Photomorphogenese und Phototropismus bei Mougeotia, Z. Pflanzenphysiol. 63: 238 – 260.
Noll, F., 1887, Uber Membranwachsthum und einige physiologische Erscheinungen bei Siphoneen, Bot. Z. 45: 473 – 482.
Oehlkers, F., 1927, Phototropische Untersuchungen an Phycomyces nitens, Z. Bot. 19: 1 – 44.
Oltmanns, F., 1892, Über die photometrischen Bewegungen der Pflanzen, Flora (Jena) 75:183–266.
Oltmanns, F., 1897, Über positiven und negativen Heliotropismus, Flora (Jena) 83: 1 – 32.
Oort, A. J. P., 1931, The spiral growth of Phycomyces, Proc. Kon. Akad. Wet. Amst. 34: 564 – 575.
Oort, A. J. P., and Roelofsen, P. A., 1932, Spiralwachstum, Wandbau und Plasmaströmung bei Phycomyces, Proc. Akad. Wet. Amst. 35: 898 – 908.
Ootaki, T., and Wolken, J. J., 1973, Octahedral crystals in Phycomyces. II, J. Cell Biol. 57: 278 – 288.
Ootaki, T., Fischer, E. P., and Lockhart, P., 1974, Complementation between mutants of Phycomyceswith abnormal phototropism, Mol Gen. Genet. 131: 233 – 246.
Ootaki, T., Kinno, T., Yoshida, K., and Eslava, A. P., 1977, Complementation between Phycomycesmutants of mating type (+) with abnormal phototropism, Mol Gen. Genet. 152: 245 – 251.
Oppenoorth, W. F. F., 1939, Photo-inactivation of auxin in the coleoptile of Avenaand its bearing on phototropism, Proc. Kon. Akad, Wet. Amst. 42: 902 - 915.
Oppenoorth, W. F. F., Jr., 1942, On the role of auxin in phototropism and light growth reaction of Avenacoleoptiles, Reel. Trav. Bot. Neerl. 38: 287 – 372.
Ortega, J. K. E., and Gamow, R. I., 1970, Phycomyces: habituation of the light growth response, Science 168: 1374 – 1375.
Ortega, J. K. E., and Gamow, R. I., 1974, The problem of handedness reversal during the spiral growth of Phycomyces, J. Theor. Biol. 47: 317 – 332.
Ortega, J. K. E., and Gamow, R. I., 1976, An increase in mechanical extensibility during the period of light-stimulated growth, Plant Physiol. 57: 456 – 457.
Ortega, J. K. E., Harris, J. F., and Gamow, R. I., 1974, The analysis of spiral growth in Phycomycesusing a novel optical method, Plant Physiol. 53: 485 – 490.
Ortega, J. K. E., Gamow, R. I., and Ahlquist, C. N., 1975, Phycomyces: a change in mechanical properties after a light stimulus, Plant Physiol. 55: 333 – 337.
Otto, M. K., Jayaram, M., Hamilton, R. M., and Delbrück, M., 1981, Replacement of riboflavin by an analogue in the blue-light photoreceptor of Phycomyces, Proc. Natl. Acad. Sci. USA 78: 266 – 269.
Paál, A., 1914, Über phototropische Reizleitungen, Ber. Dtsch. Bot. Ges. 32: 499 – 502.
Paál, A., 1919, Über phototropische Reizleitung, Jahrb. Wiss. Bot. 58: 406 – 458.
Page, R. M., 1956, Studies on the development of asexual reproductive structures in Pilobolus, Mycologia 48: 206 – 224.
Page, R. M., 1962, Light and the asexual reproduction of Pilobolus, Science 138: 1238 - 1245.
Page, R. M., 1964, Sporangium discharge in Pilobolus: a photographic study, Science 146: 925 – 927.
Page, R. M., 1965, The physical environment for fungal growth, in: The Fungi, Vol. 1 ( G. C. Ainsworth and A. S. Sussman, eds.), pp. 559 – 574, Academic Press, London.
Page, R. M., 1968, Phototropism in fungi, in: Photophysiology, Vol. 3 ( A. C. Giese, ed.), pp. 65 – 90, Academic Press, New York.
Page, R. M., and Brungard, J., 1961, Phototropism in Conidiobolus, some preliminary observations, Science 134: 733 – 734.
Page, R. M., and Curry, G. M., 1966, Studies on the phototropism of young sporangiophores of Pilobolus kleinii, Photochem. Photobiol. 5: 31 – 40.
Paietta, J., and Sargent, M. L., 1981, Photoreception in Neurospora crassa: correlation of reduced light sensitivity with flavin deficiency, Proc. Natl. Acad. Sci, USA 78: 5573 – 5577.
Parr, R., 1918, The response of Pilobolusto light, Ann. Bot. 32: 177 – 205.
Philipson, J. J., Hillmann, J. R., and Wilkins, M. B., 1973a, Studies on the actions of abscisic acid on IAA-induced rapid growth of Avena coleoptile segments, Planta 114:87–93.
Philipson, J. J., Hillmann, J. R., and Wilkins, M. B., 1973b, The effects of temperature and IAA concentration on the latent period for IAA-induced rapid growth of Avena coleoptile segments, Planta 114:323–329.
Phillips, I. D. J., 1972, Diffusible gibberellins and phototropism in Helianthus annuus, Planta 106: 363 – 367.
Pickard, B. G., and Thimann, K. V., 1964, Transport and distribution of auxin during tropistic responses. II. The lateral migration of auxin in phototropism of coleoptiles, Plant Physiol. 39: 341 – 350.
Pickard, B. G., Dutson, K., Harrison, W., and Donegan, E., 1969, Second positive phototropic response patterns of the oat coleoptile, Planta 88: 1 – 33.
Poff, K. L., and Butler, W. L., 1974a, Spectral characteristics of the photoreceptor pigment of phototaxis in Dictyostelium discoideum, Photochem. Photobiol. 20: 241 – 244.
Poff, K. L., and Butler, W. L., 1974b, Absorbance changes induced by blue light in Phycomyces blakesleeanus and Dictyostelium discoideum, Nature (Lond.) 248:799–801.
Poggioli, S., 1817, Delia influenza che ha il raggio magnetico sulla Vegetazione delle piante, Opusc. Scient. Fasc. 1: 9 – 23.
Pohl, R., 1960, BeitrSge zum Phototropismus der Avena-Koleoptile I, Phyton. Rev. Int. Bot. Ext. 15: 145 – 157.
Presti, D., and Delbrück, M., 1978, Photoreceptors for biosynthesis, energy storage and vision, Plant Cell Environ. 1: 81 – 100.
Presti, D., Hsu, W.-J., and Delbrück, M., 1977, Phototropism in Phycomycesmutants lacking β-carotene, Photochem. Photobiol. 26: 403 – 405.
Preston, R. D., 1948, Spiral growth and spiral structure. I. Spiral growth in sporangiophores of Phycomyces, Biochem. Biophys. Acta 2: 155 – 166.
Pringsheim, E. G., and Czurda, V., 1927, Phototropische und ballistische Probleme bei Pilobolus, Jahrb. Wiss. Bot. 66: 863 – 901.
Racusen, R. H., and Galston, A. W., 1980, Phytochrome modifies blue-light-induced electrical changes in corn coleoptiles, Plant Physiol. 66: 534 – 535.
Ramaer, H., 1926, Phototropical curvature of seedlings of Avenawhich appear when reaction of the distal side is excluded, Proc. Kon. Akad. Wet. Amst. 29: 1118 – 1121.
Ray, P. M., 1977, Auxin-binding sites of maize coleoptiles are localized on membranes of the endoplasmic reticulum, Plant Physiol. 59: 594 – 599.
Ray, P. M., and Ruesink, A. W., 1962, Kinetic experiments on the nature of the growth mechanism in oat coleoptile cells, Dev. Biol. 4: 377 – 397.
Ray, P. M., Dohrmann, U., and Hertel, R., 1977a, Characterization of naphthaleneacetic acid binding to receptor sites on cellular membranes of maize coleoptile tissue, Plant Physiol. 59:357-364.
Ray, P. M., Dohrmann, U., and Hertel, R., 1977b, Specificity of auxin-binding sites on maize coleoptile membranes as possible receptor sites for auxin action, Plant Physiol. 60:585–591.
Rayle, D. L., 1973, Auxin-induced hydrogen-ion secretion in Avenacoleoptiles and its implications, Planta 114: 63 – 73.
Rayle, D. L., and Cleland, R., 1970, Enhancement of wall loosening and elongation by acid solutions, Plant Physiol. 46: 250 – 253.
Rayle, D. L., and Cleland, R., 1972, The in-vitroacid-growth responses: relation to in-vivo-growth responses and auxin action, Planta 104: 282 – 296.
Rayle, D. L., Evans, M. L., and Hertel, R., 1970a, Action of auxin on cell elongation, Proc. Natl. Acad. Sci. USA 65:184–191.
Rayle, D. L., Haughton, P. M., and Cleland, R., 1970b, An in-vitro system that simulates plant cell extension growth, Proc. Natl. Acad. Sci. USA 67:1814–1817.
Reichardt, W., 1961, Die Lichtreaktionen von Phycomyces, Kybernetik 1: 6 – 21.
Reichardt, W., and Varjú, D., 1958, Eine Inversionsphase der phototropischen Reaktion (Experimente an dem Pilz Phycomyces blakesleeanus), Z. Physik. Chem. 15: 297 – 320.
Reinders, D. E., 1934, The sensibility for light of the base of normal and decapitated coleoptiles of Avena, Proc. Kon. Akad. Wet. Amst. 37: 308 – 314.
Reinert, J., 1952, Über die Bedeutung von Carotin und Riboflavin für die Lichtreizaufnahme bei Pflanzen, Naturwissenschaften 39: 47 – 48.
Reinhardt, M. O., 1892, Das Wachsthum der Pilzhyphen. Ein Beitrag zur Kenntnis des Flächenwachstums vegetabilischer Zellmembranen, Jahrb. Wiss. Bot. 23: 479 – 566.
Russo, V. E. A., 1980, Sensory transduction in phototropism: genetic and physiological analysis in Phycomyces, in: Photoreception and Sensory Transduction in Aneural Organisms( F. Lenci and G. Colombetti, eds.), pp. 373 – 395, Plenum Press, New York.
Russo, V. E. A., and Galland, P., 1980, Sensory physiology of Phycomyces blakesleeanus, in: Structure and Bonding, Vol. 41 ( P. Hemmerich, ed.), pp. 71 – 110, Springer-Verlag, New York.
Russo, V. E. A., Galland, P., Toselli, M., and Volpi, L., 1980, Blue light induced differentiation in Phycomyces blakesleeanus, in The Blue Light Syndrome( H. Senger, ed.), pp. 563 – 569, Springer-Verlag, New York.
Schmidt, W., 1980, Physiological blue-light reception, in: Structure and Bonding, Vol. 41 ( P. Hemmerich, ed.), pp. 1 – 44, Springer-Verlag, New York.
Schmidt, W., and Butler, W. L., 1976, Flavin-mediated photoreactions in artificial systems: a possible model for the blue-light photoreceptor pigment in living systems, Photochem. Photobiol. 24: 71 – 75.
Schmidt, W., Hart, J., Filner, P., and Poff, K. L., 1977, Specific inhibition of phototropism in corn seedlings, Plant Physiol. 60: 736 – 738.
Schneider, H. A. W., and Bogorad, L., 1978, Light-induced, dark-reversible absorbance changes in roots, other organs, and cell-free preparations, Plant Physiol. 62: 577 – 581.
Schopfer, W.-H., 1935, Etude et identification d’un carotinoide de champignon, C. R. Soc. Biol. (Paris) 118: 3 – 5.
Schrank, A. R., 1946, Note on the effect of unilateral illumination on the transverse electrical polarity in the Avenacoleoptile, Plant Physiol. 21: 362 – 365.
Schrank, A. R., 1948, Electrical and curvature responses of the Avenacoleoptile to transversely applied direct current, Plant Physiol. 23: 188 – 200.
Schrank, A. R., 1950, Inhibition of curvature responses by shunting the inherent electrical field, Plant Physiol. 25: 583 – 593.
Schrank, A. R., 1953, Effect of inorganic ions and their conductances on geotropic curvature of the Avenacoleoptile, Plant Physiol. 28: 99 – 104.
Senger, H., and Briggs, W. R., 1981, The blue light receptor(s): primary reactions and subsequent metabolic changes, in: Photochemical and Photobiological Reviews, Vol. 6 ( K. C. Smith, ed.), pp. 1 – 38, Plenum Press, New York.
Shen-Miller, J., and Gordon, S. A., 1966, Hormonal relations in the phototropic response: III. The Movement of C14-labeled and endogenous indoleacetic acid in phototropically stimulated Zeacoleoptiles, Plant Physiol. 41: 59 – 65.
Shen-Miller, J., Cooper, P., and Gordon, S. A., 1969, Phototropism and photoinhibition of bas- ipolar transport of auxin in oat coleoptiles, Plant Physiol. 44: 491 – 496.
Shibaoka, H., and Yamaki, T., 1959, A sensitized Avenacurvature test and identification of the diffusible auxin in Avenacoleoptile, Bot. Mag. Tokyo 72: 152 – 158.
Shropshire, W., Jr., 1959, Growth responses of Phycomycesto polarized light stimuli, Science 130: 336.
Shropshire, W., Jr., 1962, The lens effect and phototropism of Phycomyces, J. Gen. Physiol. 45: 949 – 958.
Shropshire, W., Jr., 1971, Phototropic bending rate in Phycomycesas a function of average growth rate and cell radius, in: First European Biophysics Congress, Sept. 14–17, 1971 ( E. Broda, A. Locker, and H. Springer-Lederer, eds.), pp. 111 – 114, Verlag der Wiener Medi- zinischen Akademie, Vienna.
Shropshire, W., Jr., 1972, Action spectroscopy, in Phytochrome( K. Mitrakos and W. Shropshire, Jr., eds.), pp. 161 – 181, Academic Press, New York.
Shropshire, W., Jr., 1975, Phototropism, in: Progress in Photobiology, Proceedings of the Sixth International Congress on Photobiology, Deutsch Gesellschaft für Lichtforschung e.V., Frankfurt, 1974( G. O. Schenk, ed.), pp. 1 – 6, Springer-Verlag, Berlin.
Shropshire, W., Jr., 1979, Stimulus perception, in: Encyclopedia of Plant Physiology, new ser., Vol. 7 ( W. Haupt and M. E. Feinleib, eds.), pp. 10 – 41, Springer-Verlag, New York.
Shropshire, W., Jr., 1980, Carotenoids as primary photoreceptors in blue-light responses, in: The Blue Light Syndrome( H. Senger, ed.), pp. 172 – 186, Springer-Verlag, New York.
Shropshire, W., Jr., and Withrow, R. B., 1958, Action spectrum of phototropic tip-curvature of Avena, Plant Physiol. 33: 360 – 365.
Sierp, H., and Seybold, A., 1926, Untersuchungen über die Lichtempfindlichkeit der Spitze und des Stumpfes in der Koleoptile von Avena sativa, Jahrb. Wiss. Bot. 65: 592 – 610.
Smith, J. E., 1975, The structure and development of filamentous fungi, in: The Filamentous Fungi, Vol. 1 ( J. E. Smith and D. R. Berry, eds.), pp. 1 – 15, Edward Arnold, London.
Söding, H., 1923, Werden von der Spitze der Haferkoleoptile Wuchshormone gebildet?, Ber. Dtsch. Bot. Ges. 41: 396 – 400.
Söding, H., 1925, Zur Kenntnis der Wuchshormone in der Haferkoleoptile, Jahrb. Wiss. Bot. 64: 587 – 603.
Song, P. S., 1980a, Spectroscopic and photochemical characterization of flavoproteins and carotenoproteins as blue light photoreceptors, in: The Blue Light Syndrome (H. Senger, ed.), pp. 157–171, Springer-Verlag, New York.
Song, P. S., 1980b, Primary photophysical and photochemical reactions: theoretical background and general introduction, in: Photoreception and Sensory Transduction in Aneural Organisms (F. Lenci and G. Colombetti, eds.), pp. 189–210, Plenum Press, New York.
Song, P. S., Fugate, R. D., and Briggs, W. R., 1980a, Flavin as a photoreceptor for phototropie transduction: fluorescence studies of model and corn coleoptile systems, in: Flavins and Flavoproteins (K. Yagi and T. Yamano, eds.), pp. 443–453, University Park Press, Baltimore.
Song, P. S., Walker, E. B., Vierstra, R. D., and Poff, K. L., 1980b, Roseoflavin as a blue light receptor analog: spectroscopic characterization, Photochem. Photobiol. 32:393–398.
Specht, J., 1960, Die phototropische Inversion dikotyler Keimlinge in olartigen Medien, Flora (Jena) 149: 106 – 161.
Stadler, D. R., 1952, Chemotropism in Rhizopus nigricans: the staling reaction, J. Cell Comp. Physiol. 39: 449 – 474.
Stameroff, K., 1897, Zur Frage Uber den Einfluss des Lichtes auf das Wachstum der Pflanzen, Flora (Jena) 83: 135 – 150.
Steiner, A. M., 1967a, Dose-response curves for polarotropism in germlings of a fern and a liverwort, Naturwissenschaften 54: 497.
Steiner, A. M., 1967b, Action spectra for polarotropism in germlings of a fern and a liverwort, Naturwissenschaften 54:497–498.
Steiner, A. M., 1969a, Dose response behaviour for polarotropism of the chloronema of the fern Dryopteris filixmas (L.) Schott, Photochem. Photobiol. 9:493–506.
Steiner, A. M., 1969b, Action spectrum for polarotropism in the chloronema of the fern Dryopteris filix-mas (L.) Schott, Photochem. Photobiol. 9:507–513.
Steiner, A. M., 1969c, Dose response behaviour for polarotropism of the germ tube of the liverwort Sphaerocarpos donnellii Aust., Planta 86:334–342.
Steiner, A. M., 1969d, Action spectrum for polarotropism of the germ tube of the liverwort Sphaerocarpos donnelliiAust., Planta 86: 343 – 352.
Steiner, A. M., 1970, Red light interaction with blue and ultraviolet light in polarotropism of germlings of a fern and a liverwort, Photochem. Photobiol. 12: 169 – 174.
Steyer, B., 1965, Der Phototropismus dicotyler Keimpflanzen, Wiss. Z. Univ. Rostock Math- Naturwiss, Reihe 14: 493 – 502.
Steyer, B., 1967, Die Dosiswirkungsrelationen bei geotroper und phototroper Reizung: Vergleich von Mono- mit Dicotyledonen, Planta 77: 277 – 286.
Stifler, R. D., 1961, Growth of sporangiophores of Phycomycesimmersed in water, Science 133: 1022.
Stoddart, J. L., and Venis, M. A., 1980, Molecular and subcellular aspects of hormone action, in: Encyclopedia of Plant Physiology, new ser., Volume 9 ( J. MacMillan, ed.), pp. 445 – 510, Springer-Verlag, New York.
Strugger, S., 1932, Die Beeinflussung des Wachstums und des Geotropismus durch Wasserstoffionen, Ber. Dtsch. Bot. Ges. 50: 77 – 92.
Sweeney, B. M., and Thimann, K. V., 1938, The effect of auxins on protoplasmic streaming II, J. Gen. Physiol. 22: 439 – 461.
Takahashi, C., 1961, The growth of protonema cells and rhizoids in bracken, Cytologia (Tokyo) 26: 62 – 66.
Thimann, K. V., and Curry, G. M., 1960, Phototropism and Phototaxis, in: Comparative Biochemistry, Vol. 1 ( M. Florkin, and H. S. Mason, eds.), pp. 243 – 309, Academic Press, New York.
Thimann, K. V., and Curry, G. M., 1961, Phototropism, in: Light and Life( W. D. McElroy and B. Glass, eds.), pp. 646 – 672, Johns Hopkins University Press, Baltimore.
Thimann, K. V., and Sweeney, B. M., 1938, The effect of auxins upon protoplasmic streaming, J. Gen. Physiol. 21: 123 – 135.
Thomas, J. B. (ed.), 1968, Einführung in die Photobiologie, Georg Thieme Verlag, Stuttgart.
Thomson, K.-S., Hertel, R., Mttller, S., and Tavares, J. E., 1973, 1-N-Naphthylphthalamic acid and 2,3,5-triiodobenzoic acid. In vitro binding to particulate cell fractions and action on auxin transport in corn coleoptiles, Planta 109:337–352.
Thornton, R. M., 1973, New photoresponses of Phycomyces, Plant Physiol. 51: 570 – 576.
Thornton, R. M., and Thimann, K. V., 1967, Transient effects of light on auxin transport in the Avenacoleoptile, Plant Physiol. 42: 247 – 257.
Tietze-Haß, E., and Dorffling, K., 1977, Initial phases of indoleacetic acid induced growth in coleoptile segments of Avena sativaL., Planta 135: 149 – 154.
Timberlake, W. E., and Griffin, D. H., 1974, Differential effects of analogs of cycloheximide on protein and RNA synthesis in Achlya, Biochim. Biophys. Acta 349: 39 – 46.
Timberlake, W. E., McDowell, L., and Griffin, D. H., 1972, Cycloheximide inhibition of the DNA-dependent RNA-polymerase I of Achlya bisexualis, Biochim. Biophys. Res. Commun. 46: 942 – 947.
Tollenaar, D., 1923, Dark growth-responses, Proc. Kon. Akad. Wet. Amst. 26: 378 – 389.
Trewavas, A., 1968, Relationship between plant growth hormones and nucleic acid metabolism, Prog. Phytochem. 1: 113 – 160.
Trinci, A. P. J., and Banbury, G. H., 1969, Phototropism and light-growth responses of the tall conidiophores of Aspergillus giganteus, J. Gen. Microbiol. 54: 427 – 438.
Trinci, A. P. J., and Halford, E. A., 1975, The extension zone of stage I sporangiophores of Phycomyces blakesleeanus, New Phytol. 74: 81 – 83.
Ullrich, C.-H., 1978, Continuous measurement of initial curvature of maize coleoptiles induced by lateral auxin application, Planta 140: 201 – 211.
van der Wey, H. G., 1929, Uber die phototropische Reaktion von Pilobolus, Proc. Kon. Akad. Wet. Amst. 32: 65 – 77.
van Dillewijn, C., 1927, Die Lichtwachstumsreaktionen von Avena, Reel. Trav. Bot. Neerl. 24: 307 – 581.
van Laere, A. J., and Carlier, A. R., 1977, Chitin synthetase in Phycomyces blakesleeanusBurgeff., Arch. Int. Physiol. Biochim. 85: 1025 – 1026.
Varjú, D., Edgar, L., and Delbrück, M., 1961, Interplay between the reactions to light and to gravity in Phycomyces, J. Gen. Physiol. 45: 47 – 58.
Veen, H., 1974, Specificity of phospholipid binding to indoleacetic acid and other auxins, Z. Naturforsch. 29c: 39 – 41.
Venis, M. A., 1977, Solubilisation and partial purification of auxin binding sites of corn membranes, Nature (London) 266: 268 – 269.
Venis, M. A., and Watson, P. J., 1978, Naturally occurring modifiers of auxin-receptor interaction in corn: identification as benzoxazolinones, Planta 142: 103 – 107.
Vierstra, R. D., and Poff, K. L., 1981a, Mechanism of specific inhibition of phototropism by phenylacetic acid in corn seedlings, Plant Physiol. 67: 1011 – 1015.
Vierstra, R. D., and Poff, K. L., 1981b, Role of carotenoids in the phototropie response of corn seedlings, Plant Physiol. 68:798–801.
Vierstra, R. D., Poff, K. L., Walker, E. B., and Song, P. S., 1981, Effect of xenon on the excited states of phototropie receptor flavin in corn seedlings, Plant Physiol. 67: 996 – 998.
Vogt, E., 1915, Uber den Einfluss des Lichtes auf das Wachstum der Koleoptile von Avena sativa, Z. Bot. 7: 193 – 270.
von Guttenberg, H., 1959, Perzeption des phototropen Reizes, Planta 53: 412 – 433.
Wada, M., Kadota, A., and Furuya, M., 1978, Apical growth of protonemata in Adiantum capillus-veneris. II. Action spectra for the induction of apical swelling and the intracellular photoreceptive site, Bot. Mag. Tokyo 91: 113 – 120.
Wald, G., and du Buy, H. G., 1936, Pigments of the oat coleoptile, Science 84: 247.
Weber, W., 1958, Zur Polarität von Vaucheria, Z. Bot. 46: 161 – 198.
Webster, W. W., Jr., and Schrank, A. R., 1953, Electrical induction of lateral transport of 3- indoleacetic acid in the Avenacoleoptile, Arch. Biochem. Biophys. 47: 107 – 118.
Weigl, J., 1969a, Einbau von Auxin in gequollene Lecithin-Lamellen, Z. Naturforsch. 24b: 365 – 366.
Weigl, J., 1969b, Spezifität der Wechselwirkung swischen Wuchsstoffen und Lecithin, Z. Naturforsch. 24b:367–368.
Went, F. W., 1928, Wuchsstoff und Wachstum, Reel. Trav. Bot. Neerl. 25: 1 – 116.
Went, F. W., 1932, Eine botanische Polaritatstheorie, Jahrb. Wiss. Bot. 76: 528 – 557.
Went, F. W., 1942, Growth, auxin, and tropisms in decapitated Avenacoleoptiles, Plant Physiol. 17: 236 – 249.
Whitaker, B. D., and Shropshire, W., Jr., 1981, Spectral Sensitivity in the blue and near ultraviolet for light-induction of carotene synthesis in Phycomycesmycelia, Exp. My col. 5: 243 – 252.
Widell, S., 1980, The effect of detergent treatment on methylene blue sensitized cytochrome b photoreduction in fractions from corn coleoptiles, Physiol. Plant. 48: 353 – 360.
Widell, S., and Björn, L. O., 1976, Light-induced absorption changes in etiolated coleoptiles, Physiol. Plant. 36: 305 – 309.
Widell, S., Britz, S. J., and Briggs, W. R., 1980, Characterization of the red light induced reduction of a particle associated b-type cytochrome from corn in the presence of methylene blue, Photochem. Photobiol. 32: 669 – 677.
Wiechulla, O., 1932, Beiträge zur Kenntnis der Lichtwachstumsreaktion von Phycomyces, Beitr. Biol. Pflanz. 19: 371 – 419.
Wilden, M., 1939, Zur Analyse der positiven und negativen phototropischen Krümmungen, Planta 30: 286 – 288.
Wildman, S. G., and Bonner, J., 1948, Observation on the chemical nature and formation of auxin in the Avenacoleoptile, Am. J. Bot. 35: 740 – 746.
Wilkins, M. B., 1971, Hormone movements in geotropism, in: Gravity and the Organism( S. A. Gordon and M. J. Cohen, eds.), pp. 107 – 124, University of Chicago Press, Chicago.
Wilks, S. S., and Lund, E. J., 1947, The electric correlation field and its variation in the coleoptile of Avena sativa, in: Bioelectric Fields and Growth(E. J. Lund et al, eds.), pp. 24 – 74, University of Texas Press, Austin.
Wolken, J. J., 1969, Microspectrophotometry and the photoreceptor of PhycomycesI, J. Cell Biol. 43: 354 – 360.
Wun, K. L., Gih, A., and Sutherland, J. C., 1977, Photoreactivating enzyme from E. coli: appearance of new absorption on binding to ultraviolet irradiated DNA, Biochemistry 16: 921 – 924.
Zalokar, M., 1969, Intracellular centrifugal separation of organelles in Phycomyces, J. Cell Biol. 41: 494 – 509.
Zankel, K. L., Burke, P. V., and Delbruck, M., 1967, Absorption and screening in Phycomyces, J. Gen. Physiol. 50: 1893 – 1906.
Zenk, M. H., 1967, Untersuchungen zum Phototropismus der,4ve«a-Koleoptile: II. Pigmente, Z. Pflanzenphysiol. 56: 122 – 140.
Zenk, M. H., 1968, The action of light on the metabolism of auxin in relation to phototropism, in: Biochemistry and Physiology of Plant Growth Substances, Proceedings of the Sixth International Conference on Plant Growth Substances, July 24–29, 1967 ( F. Wight and G. Setterfield, eds.), pp. 1109 – 1128, Runge, Ottawa.
Ziegler, H., 1950, Inversion phototropischer Reaktionen, Planta 38: 474 – 498.
Zimmerman, B. K., and Briggs, W. R., 1963, Phototropic dosage-response curves for oat coleoptiles, Plant Physiol. 38: 248 – 253.
Zopf, W., 1892, Zur Kenntnis der Farbungsursachen niederer Organismen (Zweite Mitthei- lung), Beitr. Physiol Morphol. Nied. Organ. 2: 3 – 12.
Zurfluh, L. L., and Guilfoyle, T. J., 1980, Auxin-induced changes in the patterns of protein synthesis in soybean hypocotyl, Proc. Natl Acad. Sci. USA 77: 357 – 361.
References
Briggs, W. R., 1963, The phototropic responses of higher plants, Annu. Rev. Plant Physiol. 14: 311 – 352.
Briggs, W. R., 1976, The nature of the blue light photoreceptor in higher plants and fungi, in: Light and Development( H. Smith, ed.), pp. 7 – 18, Butterworths, London.
Briggs, W. R., 1980, A blue light photoreceptor system in higher plants and fungi, in: Photoreceptors and Plant Development( J. DeGreef, ed.), pp. 17 – 28, Antwerp University Press, Antwerp.
Carlile, M. J., 1975, Taxes and tropisms: diversity, biological significance and evolution, in: Primitive Sensory and Communication Systems: The Taxes and Tropisms of Microorganisms and Cells( M. J. Carlile, ed.), pp. 1 – 28, Academic Press, New York.
Carlile, M. J., 1980, Sensory transduction in aneural organisms, in: Photoreception and Sensory Transduction in Aneural Organisms( F. Lenci and G. Colombetti, eds.), pp. 1 – 22, Plenum Press, New York.
Crane, F. L., Goldenberg, H., Morre, J. D., and Löw, H., 1979, Dehydrogenases of the plasma membrane, Subcell. Biochem. 6: 345 – 399.
Curry, G. M., and Thimann, K. V., 1961, Phototropism: the nature of the photoreceptor in higher and lower plants, in: Progress in Photobiology( B. C. Christensen and B. Buchmann, eds.), pp. 127 – 134, Elsevier, New York.
Delbrück, M., 1962, Der Lichtsinn von Phycomyces, Ber. Dtsch. Bot. Ges. 75: 411 – 430.
Galston, A. W., 1950, Phototropism. II., Bot. Rev. 16: 361 – 378.
Galston, A. W., 1959, Phototropism of stems, roots and coleoptiles, in: Encyclopedia of Plant Physiology, Vol. 17, Part 1 ( W. Ruhland, ed.), pp. 492 – 529, Springer-Verlag, New York.
Goldsmith, M. H. M., 1969, Transport of plant growth regulators, in: The Physiology of Plant Growth and Development( M. B. Wilkins, ed.), pp. 125 – 162, McGraw-Hill, New York.
Green, P. B., 1969, Cell morphogenesis, Annu. Rev. Plant Physiol. 20: 365 – 394.
Hager, A., 1971, Das differentielle Wachstum bei photo- und geotropischen Krümmungen, Ber. Dtsch. Bot. Ges. 84: 331 – 350.
Hemmerich, P., and Schmidt, W., 1980, Blue light reception and flavin photochemistry, in: Photoreception and Sensory Transduction in Aneural Organisms( F. Lenci and G. Colombetti, eds.), pp. 271 – 283, Plenum Press, New York.
Jaffe, L. F., 1958, Morphogenesis in lower plants, Annu. Rev. Plant Physiol. 9: 359 – 384.
Löw, H., and Crane, F. L., 1978, Redox function in plasma membranes, Biochim. Biophys. Acta 515: 141 – 161.
Malhotra, S. K., 1978, Molecular structure of biological membranes: functional characterization, Subcell. Biochem. 5: 221 – 259.
Marmé, D., and Schafer, E., 1972, On the localization and orientation of phytochrome molecules in corn coleoptiles (Zea maysL.), Z. Planzenphysiol. 67: 192 – 194.
Massey, V., 1980, Possible photoregulation by flavoproteins, in: Photoreception and Sensory Transduction in Aneural Organisms( F. Lenci and G. Colombetti, eds.), pp. 253 – 268, Plenum Press, New York.
Quail, P. H., 1979, Plant cell fractionation, Annu. Rev. Plant Physiol. 30: 425 – 484.
Reinert, J., 1959, Phototropism and phototaxis, Annu. Rev. Plant Physiol. 10: 441 – 458.
Russo, V. E. A., and Pohl, U., 1980, Phycomyces blakesleeanus. Ein Modell für die Sinnesphysiologie aneuraler Organismen, Naturwissenschaften 67: 296 – 300.
Schneider, H. A. W., 1980, Visible and spectrophotometrically detectable blue light responses of maize roots, in: The Blue Light Syndrome( H. Senger, ed.), pp. 614 – 621, Springer-Verlag, New York.
Shropshire, W., Jr., 1963, Photoresponses of the fungus, Phycomyces, Physiol. Rev. 43: 38 – 67.
Shropshire, W., Jr., 1975, Unicellular-plant transducers, in: Interdisciplinary Aspects of General Systems Theory, Proceedings of the Third Annual Meeting of the Middle Atlantic Regional Division, Sept. 21, 1974, The Society for General Systems Research, pp. 50–57.
Song, P.-S., Moore, T. A., and Sun, M., 1972, Excited states of some plant pigments, in: The Chemistry of Plant Pigments( C. O. Chichester, ed.), pp. 33 – 74, Academic Press, London.
Tan, K. K., 1978, Light-induced fungal development, in: The Filamentous Fungi, Vol. 3 ( J. E. Smith and D. R. Berry, eds.), pp. 334 – 357, Edward Arnold, London.
van Overbeek, J., 1966, Plant hormones and regulators, Science 152: 721 – 731.
Virgin, H. I., 1964, Some effects of light on chloroplasts and plant protoplasm, in: Photophysiology, Vol. 1 ( A. C. Giese, ed.), pp. 273 – 303, Academic Press, New York.
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Pohl, U., Russo, V.E.A. (1984). Phototropism. In: Colombetti, G., Lenci, F. (eds) Membranes and Sensory Transduction. Springer, Boston, MA. https://doi.org/10.1007/978-1-4613-2675-5_7
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