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24
PNL Volume 20
1988 RESEARCH
REPORTS |
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THE ISOLATION OF TWO
CHLOROPHYLL MUTANTS, EACH EXPRESSING AS A COTYLEDON
CHARACTER
Marx, G. A.
NYS Agricultural Experiment Station, Geneva,
NY USA
Two spontaneously occurring
chlorophyll mutants were isolated in 1987. One may be new because its
expression seems unlike any reported previously; the other is similar to
mutants already identified, so its novelty is uncertain. Both mutants are
distinguished by the fact that they are cotyledon characters, i.e.
presence of the mutant in each case is already manifest in the cotyledon
of the seed and characterized as pale greenish yellow.
The first, and possibly new, mutant
somewhat resembles py in expression. Affected plants have
rather normal green foliage until the podding stage. Then the
pedicels and receptacles become yellow, and the stem (starting at the base
of the plant) becomes progressively pale yellow. Likewise, the developing
pods become pale yellowish green.
The trait was first observed in
several small F3 populations grown in the field in 1987. All affected material traces to crosses
between an F4 carrying aero, among other markers, and an af line obtained from the Brotherton Seed Company.
Mr. Harley Brotherton
discovered the af mutant
occurring spontaneously in the variety 'Sprite', an early maturing freezer
variety which Itself has normal foliage and green cotyledons. Evidently it is this mutant that is the source of the
chlorophyll mutant. Presumably the mutational event that gave rise to the
af allele simultaneously gave rise to the chlorophyll mutant. The tight linkage
between af and the chlorophyll mutant further supports this
assumption. So far, no crossovers have been observed in the coupling phase
linkage between af and the
chlorophyll mutant, Thus
af, aero, i,
and the chlorophyll mutant lie in close proximity on chromosome
1.
The second chlorophyll mutant was observed segregating in F3
populations involving crosses with det. In contrast with the
mutant described above, this
mutant expresses clearly soon after seedling emergence. In common
with several other known chlorotica mutants (1),
the seedling leaves are pale yellowish green. As the mutant plant
develops, the new leaves are
pale yellowish green while the older leaves become darker
green, approaching the color
of non-mutant counterparts. Seed production in the chlorotic plants is only slightly reduced. Cotyledons of
seeds carrying the mutant in a
homozygous recessive condition are distinctly pale yellowish green. I do not intend to investigate this
mutant further, but for
those who may wish to do so,
voucher samples will be available from my collection and a seed sample
will also be sent to the Nordic Gene Bank for preservation.
Since for both mutants the cotyledons of mutant
seeds become pale, the contrast between normal and mutant seeds is best
shown in plants with green(i/i), unbleached seeds. |
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1. Blixt, S. 1972. Agri Hort. Genet. |
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***** |
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