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Mustárdy, L.: Tree-dimensional Organization of Thylakoid System in Granal Chloroplasts and its Functional Role
110 Mustárdy L. Fig. 8 Plastid profde from young chloroplast (a) showing fret connections between parent lamellar sheets (arrows). Three-dimensional reconstitutions of developing granum showing new compartment formation via overtopping (b), additional helix formation via splitting ofprimary helix (c) and thylakoid splitting on the lamellar sheet (d). References ANDERSON, J. M. & ANDERSSON, B. (1988): The dynamic photosynthetic membrane and regulation of solar energy conversion. Trends Biochem.Sci. 13, 351-355. ANDERSSON, B. & ANDERSON, J. M. (1980): Lateral heterogeneity in the distribution of chlorophyll-protein complexes of the thylakoid membranes of spinach chloroplasts. Biochim.Biophys.Acta 593, 427-440. ARNTZEN, C. J. (1978) Dynamic structural features of chloroplast lamellae. Current Topics in Bioenergetics 8, 111-160. ARVIDSSON, P. O. & SUNDBY, C. (1999): A model for the topology of the chloroplast thylakoid membrane. Aust.J.Plant Physiol. 26, 687-694. BARBER, J. (1982): Influence of surface charges on thylakoid structure and function. Annu.Rev.Plant Physiol. 33, 261-295. BARZDA, V., MUSTÁRDY, L. & GARAB. G. (1994): Size dependency of circular dichroism in macroaggregates of photosynthetic pigment-protein complexes. Biochemistry 33, 10837-10841. BOARDMAN, N. K. & ANDERSON, J. M. (1964): Isolation from spinach chloroplasts of particles containing different proportions of chlorophyll a and chlorophyll
