Localization of MPM-2 recognized phosphoproteins and tubulin during cell cycle progression in synchronized Vicia faba root meristem cells.

AbstractThe first cell cycle ofVicia fabaL. seeds, which begins upon imbibition of dry seeds and is completed at the first mitosis after radicle protrusion, was characterised by the flow cytometry and immunodetection of nucleolin and tubulins in root tip meristems. Flow cytometry revealed highly synchronised profiles from the quiescent G1phase to the late G2phase, indicating uniform cell cycle progression within a root tip until the first mitosis. Using immunoblotting, nucleolin was detected in two distinct bands with the apparent molecular masses of 89 and 99 kD; the former was detected only in seeds imbibed at 4°C for 1 day whereas the latter was found at all stages examined, suggesting that the 89 kD nucleolin may be seed-specific. Unusual localization of nucleolin in cold-imbibed seeds, undetectable in half of the cells and present in nucleoplasm, was revealed by immunofluorescence microscopy. While α- and β-tubulin were detected at all stages and no significant changes in accumulation of the proteins were observed, few microtubules were detected at the beginning of germination when cells were still in the G1phase, suggesting that microtubules may be depolymerized in the dry seeds.

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Effects and Absorption of Sethoxydim on Excised Root Tips of Corn ( Zea mays) and Pea (Pisum sativum)

Zeitschrift für Naturforschung C ◽

10.1515/znc-1993-3-428 ◽

1993 ◽

Vol 48 (3-4) ◽

pp. 288-293

Author(s):

Masae (Kubota) Takagi ◽

Hideo Hosaka

Keyword(s):

Cell Cycle ◽

Cell Division ◽

Growth Condition ◽

Cell Cycle Progression ◽

Root Meristem ◽

Root Tips ◽

Cycle Progression ◽

Corn Root ◽

Sucrose Starvation ◽

Corn Roots

The mechanism of selective herbicidal action of sethoxydim was investigated by using cultured root tips of corn and pea. Sethoxydim inhibited the growth of susceptible corn root at concentrations of 3 nᴍ and above, but did not affect that of pea at 0.1 mᴍ. Meristematic cells in cultured roots were arrested at the G1 and G2 stages of the cell division cycle by sucrose starvation, and resumed growth and cell division (proliferation) upon sucrose addition. Corn root growth was not inhibited by sethoxydim even at 0.01 mᴍ when the roots were arrested by sucrose starvation. Corn roots that resumed growth upon sucrose provision were more sensitive to sethoxydim than those kept in constant growth condition. Better absorption of [14C]sethoxydim into the meristematic region of corn roots was observed when cells were in the proliferative condition, which was not observed when cells were arrested by sucrose starvation. No stronger uptake of the herbicide was observed into pea meristems in either growth condition. In the cell cycle study, stronger absorption of [14C]sethoxydim into the corn root meristem took place at a certain limited period prior to the S (DNA synthesis) stage. The physiological effects and the better absorption of sethoxydim clearly depended on cell cycle progression of the corn root meristem, while fatty acid synthesis, as well as its inhibition by sethoxydim, was neither associated with cell cycle progression nor with stronger absorption of the herbicide. The selective herbicidal action of sethoxydim may be caused by interference with selected stages (G1 and/or the transition step between G1 and S stages) of the cell division cycle, where affinity sites for the herbicide might be expressed.

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