H. Agbaria et al., SHOOT-ROOT INTERACTION EFFECTS ON NITRATE REDUCTASE AND GLUTAMINE-SYNTHETASE ACTIVITIES IN ROSE (ROSA X HYBRIDA CVS ILSETA AND MERCEDES) GRAFTLINGSS, Journal of plant physiology, 149(5), 1996, pp. 559-563
Flower formation in greenhouse roses (Rosa x hybrida) is generally pro
moted by grafting on various rootstocks rather than propagating ungraf
ted plants from cuttings. The number of flowers per plant in roses is
also positively correlated with the nitrogen content in the nutrient s
olutions as well as by ammonium ion proportion of the total nitrogen.
It could be, therefore, that the differences among the effects of vari
ous root systems on flower formation in rose plants are associated wit
h differences in assimilation of nitrogen, in either nitrate or ammoni
um-forms or both. This assumption was examined by measurements of the
nitrate content as well as of the nitrate reductase (NR) (E.C. 1.6.6.1
) and glutamine synthetase (GS) (E.C. 6.3.1.2) activities in roots and
leaves of 6-week-old plants propagated from cuttings (own-root plants
) or graftlings, i.e., concomitantly grafted and rooted roses cvs. Mer
cedes, Ilseta or Rosa indica major, used as understocks. The data obta
ined showed that the nitrate contents in the roots of cuttings were hi
gher than those in the leaves, whereas that in the roots of R. indica
was higher than those in roots of the two cultivars. The content of NO
3- in roots and leaves of the graftlings was affected by the grafting
procedure and was in good agreement with the nitrate reductase activit
y in plant organs. The activity of nitrate reductase in the leaves of
cuttings was higher than in their roots, whereas in graftlings, its ac
tivity was promoted in the roots and inhibited in the leaves, in all s
cion-root combinations. Glutamine synthetase activity in roots and lea
ves of either cuttings or graftlings was 4-5 orders of magnitude highe
r than NR activity. Similar to NR activity GS activity in the leaves o
f own-root plants was higher than that in their roots. However, unlike
the NR activity, GS activity in roots and leaves of the graftlings wa
s not markedly altered following the grafting procedure.