Abstract
The epidermis of Helianthus hypocotyl can be peeled off and, in the form of detached strips can be used as a model system to study the effect on cortical microtubule (cMTs) orientation of these factors, which are difficult to be manipulated in situ, such as apoplastic pH or applied stress. In the first step, however, the orientation and reorientation of cMTs in the epidermis in situ must be described. The cMTs under the epidermal wall in hypocotyl epidermis at different positions along the hypocotyl and on its opposite sides were studied by means of immunostaining, using epi-fluorescence microscopy. The angle λ that parallel array of cMTs makes with cell longitudinal axis was measured. The variation of λ in a population of cells was documented by λ-histogram (frequency of cells exhibiting a particular λą∆λ plotted against λ value). The histograms were of either transverse type (maximum at λ ~90<sup>o</sup>, denoted as type A) or oblique type (two maxima on both sides of the transverse direction, denoted as type B) in the apical part of the hypocotyl, and were either of B type or of longitudinal type (maximum at λ ~0<sup>o</sup> or 180<sup>o</sup> denoted as type C) in the basal part. The change from A or B to C basipetally may be considered as due to the developmental trend in cMT orientation. The occurrence of B above A in some hypocotyls in their apical part strengthens the hypothesis on the autonomous reorientation of cMTs. The intermingled occurrence of A and B reorientation in the upper part of hypocotyl is interpreted as a manifestation of a subtle control of cell growth in latitudinal direction. The majority of histograms were asymmetric showing predominance of cMT parallel arrays inclined as the middle part of the letter Z.
Highlights
A characteristic feature of plant cells during interphase or terminal differentation is the occurrence of microtubules throughout the cell periphery in close association with the cell membrane
In this paper we studied the distribution of the histogram types in the epidermis of sunflower hypocotyl to see how the growth of the hypocotyl might be regulated by cortical microtubules (cMTs), and interpreted the results with the assumptions that: (1) there is an autonomous reorientation of cMTs in epidermal cells; (2) the orientation of cellulose microfibrils (MFs) is influenced by the orientation of cMTs; (3) the rate of growth in longitudinal or transverse direction is restricted by MFs oriented in longitudinal or transverse direction, respectively
The histograms, each representing an area of 1×5 mm of epidermis, were obtained for 336 samples from 28 hypocotyls
Summary
A characteristic feature of plant cells during interphase or terminal differentation is the occurrence of microtubules throughout the cell periphery in close association with the cell membrane. These microtubules, known as cortical microtubules (cMTs), are involved in the control of the orientation of cellulose microfibrils in the cell wall and, of cell growth directions and cell shape (Baskin 2001). Even in constant conditions a cyclic (rhythmic) reorientation of cMTs may take place in cells, independent of their developmental displacement. This is called an autonomous reorientation (Hejnowicz 2005). External and/or internal agents may affect this rhythm, and in this way may influence the observed orientation of cMTs
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