INJURY TO NITELLA INTERNODAL CELLS ALTERS MICROTUBULE ORGANIZATION BUT MICROTUBULES ARE NOT INVOLVED IN THE WOUND RESPONSE

The arrangement and relative stability of cortical microtubules during and after wound induction in internodal cells of Nitella flexilis and Nitella pseudoflabellata were examined by immunofluorescence and by microinjection of fluorescently tagged tubulin. The formation of cellulosic wall appositions (wound walls), induced by treatment with 5 x 10(-2) M CaCl2, was identical in young, growing cells and older non-growing internodes, suggesting that the initial microtubule pattern, which differs in growing and non-growing cells, does not influence wound wall formation. Depolymerization of microtubules with oryzalin did not alter wound wall morphology and microtubules were not detected during wound wall formation. After cessation of wound wall growth, microtubules were once again found in the wound site but these were always randomly oriented, even in young cells where the surrounding microtubules were organized into transverse arrays. Microtubules were similarly randomized in chloroplast-free windows induced by laser irradiation. Analysis of microtubule organization in living cells revealed that the microtubules in wound sites are less stable than the microtubules of adjacent transversely oriented arrays. The results indicate that although wounding can alter the relative stability and spatial organization of cortical microtubules, microtubules are neither involved in vesicle transport nor the construction of cellulosic wound walls.