636 Chapter 19 NEL
Crossing Over
Mendel had explained most of his observations by hypothesizing that the two genes were
both on the same chromosome. By the Punnett square analysis shown in Figure 2, only two
different phenotypes are predicted for these linked genes. This was not what Morgan observed.
In a small number of flies from the dihybrid cross, the offspring had a different combination
of traits than the parents.Table 2shows the numbers of the different phenotypes and their
predicted genotypes. Where did the new allele combinations come from? Where did the new
combinations of the two traits come from?
AB
ab
AB ab
“a” allele is linked
with “b” allele
“A” allele is linked
with “B” allele
AABB AaBb
AaBb aabb
Figure 2
Punnett square analysis, assuming
that all the gametes carry the same
alleles as the parent. The expected
phenotypic ratio is three wild-type
body-colour, straight wings to one
black body-colour, curved wings.
Table 2 Observed Progeny (F 2 ) ofAaBb×AaBbF 1 Parents
Phenotype Number Possible genotype
wild-type body-colour, 290 AABBorAaBb
straight wings
black body-colour, 92 Aabb
curved wings
wild-type body-colour, 9 AAbborAabb
curved wings indicated recombinations
black body-colour, straight wings 9 AaBBoraaBb
indicated recombinations
Table 1 Linked Genes Identified by Morgan’s Research on Drosophila
Trait Dominant/Recessive Location
wingless(wg) recessive lethal chromosome 2
(all wingless offspring are born dead)
curly wings (Cy) dominant chromosome 2
purple eyes (pr) recessive nonlethal chromosome 2
stubble bristles (Sb) dominant chromosome 3
ebony body (e) recessive nonlethal chromosome 3
miniature wings (m) sex-linked recessive chromosome 4
cut wings (ct) sex-linked recessive chromosome 4
white eyes (w) sex-linked recessive chromosome 4
vermillion eyes (v) sex-linked recessive chromosome 4
Morgan was able to find a number of linked genes. Some of these are shown in
Table 1.