The data related to changesin the A

The data related to changes
in the ABA level in somatic embryos of other
species are controversial and not consistent. The
lower levels of ABA in SE, with no substantial
changes and lack of the peak observed here have
been reported for some other species such as larch,
white spruce, Vitis 6inifera [27–29]. Kamada and
Harada [30] have also reported very low levels of
ABA in SE of Daucus carota where embryos cultured,
as here, on 2,4D free medium while in the
presence of synthetic auxin had much higher levels
of ABA. In contrast to the above, some other
authors have reported relatively high, even comparable
to ZE counterparts, levels of ABA. They
have also observed changes during embryogenesis
that follow the patterns observed in ZE [31,32].
These discrepancies might, at least to some extent,
be explained by different conditions of in vitro
culture, as for example the presence of PEG or
auxins in the media, both of which may increase
the level of ABA [28,33]. Grossmann and Scheltrup
[33] showed that auxins stimulated ethylene
formation via the induction of ACC synthase activity,
which in turn led to higher levels of ABA.
This may explain the higher level of ABA in
Daucus carota SE cultured on media containing
2,4D in the study by Kamada and Harada [30].
In the case of cucumber SE many abnormalities
in the morphogenesis may appear [20,34–36].
These may be reduced by special treatments with
solutions containing various chemicals, including
ABA at a concentration of 0.4 mM [34]. Our study
indicates that the abnormalities, at least in part,
might be due to the extremely low ABA level in
the SE. As pointed out by Attree and Fowke [14]
and by Nomura and Komamine [15] in the case of
somatic embryogenesis a correct level of ABA
seems to be essential for synchronised embryo
formation and maturation.