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PNL Volume 21 1989 RESEARCH REPORTS |
33 |
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PEA LEAF ARCHITECTURE: THE INTERACTION OF af,
tl AND tac
Marx, G.A.
,
NYS Agricultural Experiment Station
Geneva, New York 14456, USA
In a recent review (1) describing
the actions and interactions among genes affecting foliar architecture,
several recent observations were excluded from the discussion. Some new
observations concerning the af tl interaction versus the
af tl tac interaction are worth placing on
record.
The af tl interaction,
giving rise to the pleiofila phenotype, is well known and scarcely needs
reiteration here. But the phenotype change occasioned with the addition of
tac to this combination does deserve comment. The leaves of
af tl plants, like those of af Tl plants, are
characterized by a three dimensional configuration, specifically a
spherical mass of tendrils or tiny leaflets. This spherical configuration
persists throughout the ontogeny of the plant. With the introduction of
tac (i.e. af tl tac) three marked alterations
occur. Two such modifications that have already been described are the
decrease in the number of lamina with a concomitant increase in the size
of the lamina on each leaf. There is, however, a striking difference
associated with the introduction of tac. Whereas the lower leaves
of af tl tac plants, like those of af
tl, are essentially
three dimensional, the leaves gradually become more or less "two"
dimensional and these upper leaves resemble leaves of Af tl
plants. They are distinguished from Af
tl or from Af tl tac by having more
leaflet pairs. The increase in the number of leaflet pairs on the more or
less "flat" upper leaves of af tl tac plants over the
correspondingly situated leaves of Af tl tac isogenic
counterparts presumably is due to the action of af in the former
combination.
What is most interesting in these relationships,
however, is the fact that the introduction of af into an otherwise
wild-type background leads to an alteration from a leaf that is
essentially a two dimensional flat plane to a leaf which is essentially a three dimensional
sphere. This conformation remains essentially unaltered with the
introduction of tl, i.e. af tl. Yet, with the addition of tac to the
combination (af tl tac) there is a return to the
essentially flat plane, at
least in the upper leaves of a given plant. Somehow the tac mutant
cancels one characteristic effect of af but it does so
only in an af tl background, not in an af
Tl/Tl or at
Tl/tl background. This is but one more dramatic
example that genes do not stand alone! |
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1. Marx, G.A. 1987. Plant Molecular Biology Reporter
5:311-335. |
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***** |
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