Ac. Smigocki, EXPRESSION OF A WOUND-INDUCIBLE CYTOKININ BIOSYNTHESIS GENE IN TRANSGENIC TOBACCO - CORRELATION OF ROOT EXPRESSION WITH INDUCTION OF CYTOKININ EFFECTS, PLANT SCI, 109(2), 1995, pp. 153-163
The Agrobacterium-derived cytokinin-biosynthesis gene ipt was fused to
the wound-inducible proteinase-inhibitor-IIK gene promoter from potat
o and introduced into Nicotiana plumbaginifolia and N. tabacum. Maximu
m accumulation of ipt transcripts in the leaves of transgenic plants w
as observed within 3-24 h after leaf wounding. Root and stem ipt messa
ges were not detected in unwounded transgenic N. plumbaginifolia PI-II
-ipt seedlings until after the plants bolted whereas in N. tabacum, a
relatively low level of root and stem expression was evident only prio
r to stem elongation and not detected after the plants bolted. Atypica
l cytokinin effects were observed with the N. plumbagini-folia but not
N. tabacum transformants. Transgenic N. plumbaginifolia plants bolted
sooner, were taller than control plants and had larger leaves with lo
wer specific fresh weights and chlorophyll content. At flowering, the
emergence of numerous lateral shoots from lower stem sections and basa
l leaf greening followed the moderate increase in root ipt transcripts
and corresponded to a greater than 100-fold increase in zeatin and ze
atinriboside cytokinin concentrations. The expression pattern of the P
I-II-ipt gene followed that of the PI-IIK gene and, when expressed in
the root, corresponded with induction of characteristic cytokinin effe
cts.