L. Arnaud et al., PHYSIOLOGICAL BEHAVIOR OF 2 TOBACCO LINES EXPRESSING EPSP SYNTHASE RESISTANT TO GLYPHOSATE, Pesticide biochemistry and physiology, 62(1), 1998, pp. 27-39
Among numerous tobacco transgenic lines expressing an altered gene enc
oding glyphosate-resistant EPSP synthase, two were chosen for detailed
physiological studies, as they were both highly resistant to glyphosa
te in the growth chamber (HR and WR lines) while one of them (WR) was
susceptible to the herbicide in the field. The two transformed lines a
nd the susceptible line (S) grew similarly. Foliar applied glyphosate
penetrated into the plants to the same extent in the three lines and p
hloem transfer from the source leaves to the sinks was also similar. I
n the transgenic lines, EPSP synthase was overexpressed in all leaves,
with an average overexpression factor reaching 3 to 15, with the high
est value in HR The average I-50 for glyphosate of the leaf enzyme was
approximatly 700-fold that from S for WR and 6 to 22 times lower for
HR. The most physiologically significant difference between the two tr
ansgenic lines was that WR had a very low EPSP synthase content in its
roots. Furthermore, the enzyme present in the roots was very sensitiv
e to glyphosate. In contrast, the roots of the HR line contained a wel
l-measurable pool of resistant enzyme. This difference probably explai
ns why HR was resistant to glyphosate in the field, allowing a good ra
te of lignification to occur and ensuring hi,oh water movements inside
the plant in order to compensate for the transpiration loss. (C) 1998
Academic Press.