Abstract
Development in multicellular organisms is usually discussed from the point of view of growth, differentiation, and morphogenesis. “Growth” refers to quantitative changes; “differentiation” refers to qualitative differences which appear between different cells and tissues within a given organism; “morphogenesis” refers to the obvious changes in form and structure during the process of development.
Access this chapter
Tax calculation will be finalised at checkout
Purchases are for personal use only
Preview
Unable to display preview. Download preview PDF.
References
Barsch-Gollnau S, Ritterbusch A, Mohr H (1980) Photomorphogenesis and phyllotaxis during vegetative growth in Sinapis alba and Xanthìum strumarium. Plant Cell Environ 3:363–370
Berg RL (1959) A general evolutionary principle underlying the origin of developmental homeostasis. Am Nat 93:103–105
Bonnet C (1764) Contemplation de la nature. Quoted by R.A. Raff (1977) The molecular determination of morphogenesis. BioScience 27:394–401
Brüning K, Drumm H, Mohr H (1975) On the role of phytochrome in controlling enzyme levels in plastids. Biochem Physiol Pflanz 168:141–156
Bryant PJ, Bryant SV, French V (1977) Biological regeneration and pattern formation. Sci Am 237:67–81
Bryant SV, French V, Bryant PJ (1981) Distal regeneration and symmetry. Science 212:993–1002
Bühler B (1977) Untersuchungen zur Wechselwirkung von Phytochrom und Äthylen bei der Anthocyansynthese des Senfkeimlings (Sinapis alba L.). Doctoral thesis. Univ Freiburg
Bünning E (1948) Entwicklungs- und Bewegungsphysiologie der Pflanze. Springer, Berlin Heidelberg
Drumm H, Mohr H (1973) Control by phytochfome of glutathione reductase levels in the mustard seedling. Z Naturforsch 28c:559–563
Drumm H, Mohr H (1974) The dose-response curve in phytochrome-mediated anthocyanin synthesis in the mustard seedling. Photochem Photobiol 20:127–131
Foyer CH, Halliwell B (1976) The presence of glutathione and glutathione reductase in chloroplasts: a proposed role in ascorbic acid metabolism. Planta 133:21–25
French V, Bryant PJ, Bryant SV (1976) Pattern regulation in epimorphic fields. Science 193:969–981
Frosch S, Bergfeld R, Mohr H (1976) Light control of plastogenesis and ribulose-bisphosphate carboxylase levels in mustard seedling cotyledons. Planta 133:53–56
Frosch S, Drumm H, Mohr H (1977) Regulation of enzyme levels by phytochrome in mustard cotyledons: multiple mechanisms? Planta 136:181–186
Garcia-Bellido A (1975) Genetic control of wing disk development in Drosophila. In: Cell Patterning. Ciba Found Symp New Ser 29:161–182
Gehring H, Kasemir H, Mohr H (1977) The capacity of chlorophyll a biosynthesis in the mustard seedling cotyledons as modulated by phytochrome and circadian rhythmicity. Planta 133:295–302
Goodwin BC (1970) Temporal order as the origin of spatial order in embryos. Stud Gen 23 :273–282
Goodwin BC, Cohen MH (1969) A phase-shift model for the spatial and temporal organization of development systems. J Theor Biol 25:49–107
Halliwell B, Foyer CH (1978) Properties and physiological function of a glutathione reductase purified from spinach leaves by affinity chromatography. Planta 139: 9–17
Heldt HW, Chou CJ, Lorimer GH (1978) Phosphate requirement for the light activation of ribulose-l,5-bisphosphate carboxylase in intact spinach chloroplasts. FEBS Lett 92:234–240
Hong Y-N, Schöpfer P (1981) Control by phytochrome of urate oxidase and allantoinase activities during peroxisome development in the cotyledons of mustard (Sinapis alba L.) seedlings. Planta 152:325–335
Jabben M, Deitzer GF (1979) Effects of the herbicide SAN 9789 on photomorphogenic responses. Plant Physiol 63:481–485
Johnson CB (1980) The effect of red light in the high irradiance reaction of phytochrome: evidence for an interaction between Pfr and a phytochrome cycling-driven process. Plant Cell Environ 3:45–51
Kasemir H, Huber P, Mohr H (1976) Timing of the initial action of phytochrome with regard to protochlorophyll synthesis in the mustard seedling. Planta 132:157–160
Kolata GB (1981) Genes regulated through chromatin structure. Science 214:775–776
Lewin R (1981) Seeds of change in embryonic development. Science 214:42–44
Marx JL (1980) A moveable feast in the eukaryotic genome. Science 211:153–155
Mohr H (1972) Lectures on photomorphogenesis. Springer, Berlin Heidelberg New York
Mohr H (1974) The role of phytochrome in controlling enzyme levels in plants. In: Paul J (ed) Biochemistry of cell differentiation. MTP Int Rev Sci 9:37–81. Butterworth, London
Mohr H (1978) Pattern specification and realization in photomorphogenesis. Bot Mag Tokyo Spec Issue 1:199–217
Mohr H (1982) Principles in plant morphogenesis. In : Sattler R (ed) Axioms and principles of plant construction. Junk, The Hague, pp. 93–111
Mohr H, Drumm-Herrel H (1981) Interaction between blue/UV light and light operating through phytochrome in higher plants. In: Smith H (ed) Plants ánd the daylight spectrum. Academic Press, London New York, pp 423–441
Mohr H, Oelze-Karow H (1976) Phytochrome action as a threshold phenomenon. In: Smith H (ed) Light and plant development. Butter worth, London, pp 257–284
Mohr H, Pinnig E (1962) Der Einfluß des Lichts auf die Bildung von Blattprimordien am Vegetationskegel der Keimlinge von Sinapis alba L. Planta 58:569–579
Mohr H, Sitte P (1971) Molekulare Grundlagen der Entwicklung. BLV, München
Mohr H, Drumm H, Schmidt R, Steinitz B (1979) The effect of light pre-treatments on phytochrome-mediated induction of anthocyanin and of phenylalanine ammonialyase. Planta 146:369–376
Nevers P, Saedler H (1977) Transposable genetic elements as agents of gene instability and chromosomal rearrangements. Nature 268:109–115
Oelze-Karow H, Mohr H (1970) Experiments regarding the problem of differentiation in multicellular systems. Z Naturforsch 25b:1282–1286
Oelze-Karow H, Mohr H (1973) Quantitative correlation between spectrophotometric phytochrome assay and physiological response. Photochem Photobiol 18:319–330
Oelze-Karow H, Mohr H (1974) Interorgan correlation in a phytochrome-mediated response in the mustard seedling. Photochem Photobiol 20:127–131
Quatrano RS, Brawley SH, Hogsett WE (1979) The control of the polar deposition of a sulfated polysaccharide in Fucus zygotes. In: Subtelny S, Königsberg IR (eds) Determinants of spatial organization. Academic Press, London New York, pp 77–96
Rutishauser A (1969) Embryologie und Fortpflanzungsbiologie der Angiospermen. Springer, Wien New York
Sander K (1976) Specification of the basic body pattern in insect embryogenesis. Adv Insect Physiol 12:125–238
Schäfer E, Schmidt W, Mohr H (1973) Comparative measurements of phytochrome in cotyledons and hypocotyl hook of mustard (Sinapis alba L.). Photochem Photobiol 18:331–334
Schäfer E, Lässig T-U, Schöpfer P (1975) Photocontrol of phytochrome destruction in grass seedlings. The influence of wavelength and irradiance. Photochem Photobiol 22:193–202
Schmidt R, Mohr H (1981a) Lag-phase and rate of synthesis in light-mediated anthocyanin synthesis. Planta 151:541–543
Schmidt R, Mohr H (1981b) Time-dependent changes in the responsiveness to light of phytochrome-mediated anthocyanin synthesis. Plant Cell Environ 4:433–437
Schmidt R, Mohr H (1982) Evidence that a mustard seedling responds to the amount of Pfr and not to the Pfr/Ptot ratio. Plant Cell Environ 5:495–499
Schöpfer P (1972) Role of phytochrome in the control of enzyme activity in higher plants: photomodulation and photodetermination of enzyme synthesis. Symp Biol Hung 13:115–126
Schöpfer P (1977) Phytochrome control of enzymes. Annu Rev Plant Physiol 28:223–252
Schöpfer P, Plachy C (1973) Die organspezifische Photodetermination der Entwicklung von Peroxidaseaktivität im Senfkeimling (Sinapis alba L.) durch Phytochrome. Z Naturforsch 28c:296–301
Sharma R, Schöpfer P (1982) Sequential control of phytochrome-mediated synthesis de novo of β-amylase in the cotyledons of mustard (Sinapis alba L.) seedlings. Planta 155:183–189
Sinnot E (1960) Plant Morphogenesis. McGraw-Hill, New York
Snow M, Snow R (1934) The interpretation of phyllotaxis. Biol Rev 9:132–137
Steinitz B, Bergfeld R (1977) Pattern formation underlying phytochrome-mediated anthocyanin synthesis in the cotyledons of Sinapis alba L. Planta 133:229–235
Steinitz B, Drumm H, Mohr H (1976) The appearance of competence for phytochrome-mediated anthocyanin synthesis in the cotyledons of Sinapis alba L. Planta 130:23–31
Steinitz B, Schäfer E, Drumm H, Mohr H (1979) Correlation between far-red absorbing phytochrome and response in phytochrome-mediated anthocyanin synthesis. Plant Cell Environ 2:159–163
Thompson D’Arcy W (1917) On growth and form. Univ Press, Cambridge
Thompson d’Arcy W (1961) On growth and form, (abridged ed, ed Bonner JT). Cambridge Univ Press, London
Thornley JHM (1975) Phyllotaxis I. A mechanistic model. Ann Bot 39:491–507
Turing AM (1952) The chemical basis of morphogenesis. Philos Trans R Soc London B 237:37–72
Veen AH, Lindenmayer A (1977) Diffusion mechanism for phyllotaxis - theoretical physico-chemical and computer study. Plant Physiol 60:127–139
Wagner E, Mohr H (1966) “Primäre” und “sekundäre” Differenzierung im Zusammenhang mit der Photomorphogenese von Keimpflanzen (Sinapis alba L.). Planta 71:204–221
Wardlaw CW (1952) Morphogenesis in plants. Methuen, London
Wolk CP (1979) Intercellular interactions and pattern formation in filamentous cyanobacteria. In: Subtelny S, Königsberg JR (eds) Determinants of spatial organization. Academic Press, London New York, pp 247–266
Wolpert L (1969) Positional information and the spatial pattern of cellular differentiation. J Theor Biol 25:1–47
Woodger JH (1930, 1931) The “concept of organism” and the relation between embryology and genetics. Quart Rev Biol 5:1–22, 438–463; 6:178–207
Editor information
Editors and Affiliations
Rights and permissions
Copyright information
© 1983 Springer-Verlag Berlin Heidelberg
About this chapter
Cite this chapter
Mohr, H. (1983). Pattern Specification and Realization in Photomorphogenesis. In: Shropshire, W., Mohr, H. (eds) Photomorphogenesis. Encyclopedia of Plant Physiology, vol 16. Springer, Berlin, Heidelberg. https://doi.org/10.1007/978-3-642-68918-5_14
Download citation
DOI: https://doi.org/10.1007/978-3-642-68918-5_14
Publisher Name: Springer, Berlin, Heidelberg
Print ISBN: 978-3-642-68920-8
Online ISBN: 978-3-642-68918-5
eBook Packages: Springer Book Archive