Winding threads around plant cells Applications of the geometrical model for microfibril deposition |
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Authors: | Anne Mie C Emons H Kieft |
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Institution: | (1) Department of Plant Cytology and Morphology, Wageningen Agricultural University, Arboretumlaan 4, NL-6703 BD Wageningen, The Netherlands |
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Abstract: | Summary Based on precise information about the orientations of cellulose microfibrils (CMFs) in the secondary cell wall of theEquisetum hyemale root hair, a geometrical model was recently put forward to account for the deposition orientation of CMFs. The model supposes that synthases spin out the CMFs and that geometrical laws dictate their movement. Taking space-limiting conditions into account, CMF orientation is dependent on cell morphology, the amount of other wall molecules adhering to the CMFs, and the number and distribution pattern of synthases. In the present paper this geometrical model for CMF deposition is further applied to nontip-growing angular cells with varying diameters, cells with tapering morphology, various distribution patterns of synthases, various matrix/fibril ratios, and intercalarily elongating cells. The model can accurately predict the actual wall textures in a great variety of cell walls. In the proposed model for CMF orientation, microtubules are not required as cellular guiding structures for the CMFs, not even in elongating walls. They are supposed to be involved in cell elongation, possibly by delivering wall material including CMF synthases.Abbreviation CMF
cellulose microfibril |
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Keywords: | Cell wall Cellulose microfibril Computer simulation Geometrical model Helicoidal wall texture Microtubules |
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