Lead was shown to inhibit both callus initiation and
callus growth in cultures of Daucus carota L. subsp.
sativus (Hoff. Thell.) cv. Nantes ''Tiptop'' and ''Nanthya''.
Taproot explants of Daucus carota were stressed with
lead. The callus cell lines which initiated under this
stress were shown to exhibit resistance to the effects of
lead ions. The growth of the selected and nonselected cell
lines on non-lead containing media was comparable and the
resistance possessed by the selected cell lines did not
result in reduced growth rates in the presence of lead.
The resistance characteristic was shown to be stable and to
be successfully transmitted over mitotic and meiotic
barriers.
Plants were regenerated from the selected cell lines and
ion uptake studies were conducted on isolated cortical
tissue from mature taproots. The uptake of lead into the
cortical cell tissue from the selected lines was shown to
be reduced and a greater proportion of the lead that did
enter the tissue was present in the Apparent Free Space and
did not enter the cells.
The regenerated plants were self-pollenated to produce
an F1 generation. F1 plantlets were grown in hydroponic
culture containing various concentrations of lead. The
selected plants were seen to be resistant to the lead
stress. The sites of lead accumulation in these roots were
determined using x-ray microanalysis in a scanning electron
microscope with a cryo-stage. The lead was found to be
associated with the epidermal layer and cell walls.
The mechanism of the lead resistance is discussed along
with the implications of selection for somaclonal variants
from initiating callus cultures.
Date of Award | 1990 |
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Original language | English |
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Awarding Institution | |
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IN VITRO SELECTION AND CHARACTERIZATION OF LEAD RESISTANT SOMACLONAL VARIANTS FROM DAUCUS CAROTA L.
Bateson, J. M. (Author). 1990
Student thesis: PhD