Mendel's crosses resulted in specific phenotypic ratios F, yellow selfed F, yellow x green Yellow F, Yellow F1 Green foor Grow Grow Flowers Grow Self-pollinated flowers cross-pollinated or either F2 F2 Progeny seeds Progeny seeds Total 21 Total 11 FIGURE 2-4 Mendel obtained a 3:1 only accounted for all the results, but also represented the historical birth of the science of genetics. Mendeľ's model for the pea-color example, translated into modern terms, was as follows: phenotypic ratio in his self-pollination of the F, (left) and a 1:1 phenotypic ratio in his cross of F, yellow with green (right). Sample sizes are arbitrary.
Mendel's crosses resulted in specific phenotypic ratios F, yellow selfed F, yellow x green Yellow F, Yellow F1 Green foor Grow Grow Flowers Grow Self-pollinated flowers cross-pollinated or either F2 F2 Progeny seeds Progeny seeds Total 21 Total 11 FIGURE 2-4 Mendel obtained a 3:1 only accounted for all the results, but also represented the historical birth of the science of genetics. Mendeľ's model for the pea-color example, translated into modern terms, was as follows: phenotypic ratio in his self-pollination of the F, (left) and a 1:1 phenotypic ratio in his cross of F, yellow with green (right). Sample sizes are arbitrary.
Chapter13: Patterns In Inherited Traits
Section: Chapter Questions
Problem 6GP: In sweet pea plant, an allele for purple flowers (P) is dominant when paired with a recessive allele...
Related questions
Question
In the left-hand part of Figure 2-4, the red arrows show
selfing as pollination within single flowers of one F1
plant. Would the same F2 results be produced by crosspollinating two different F1 plants?
![Mendel's crosses resulted in specific phenotypic ratios
F, yellow selfed
F, yellow x green
Yellow
F, Yellow
F1
Green
foor
Grow
Grow
Flowers
Grow
Self-pollinated
flowers
cross-pollinated
or
either
F2
F2
Progeny
seeds
Progeny
seeds
Total
21
Total
11
FIGURE 2-4 Mendel obtained a 3:1
only accounted for all the results, but also represented the historical birth of the
science of genetics. Mendeľ's model for the pea-color example, translated into
modern terms, was as follows:
phenotypic ratio in his self-pollination of
the F, (left) and a 1:1 phenotypic ratio in
his cross of F, yellow with green (right).
Sample sizes are arbitrary.](/v2/_next/image?url=https%3A%2F%2Fcontent.bartleby.com%2Fqna-images%2Fquestion%2Fbd13c897-65c6-4cdb-9a24-ae521d701be9%2F4102c66a-d099-42c9-a322-9b08bccae165%2Fj51kj3e_processed.png&w=3840&q=75)
Transcribed Image Text:Mendel's crosses resulted in specific phenotypic ratios
F, yellow selfed
F, yellow x green
Yellow
F, Yellow
F1
Green
foor
Grow
Grow
Flowers
Grow
Self-pollinated
flowers
cross-pollinated
or
either
F2
F2
Progeny
seeds
Progeny
seeds
Total
21
Total
11
FIGURE 2-4 Mendel obtained a 3:1
only accounted for all the results, but also represented the historical birth of the
science of genetics. Mendeľ's model for the pea-color example, translated into
modern terms, was as follows:
phenotypic ratio in his self-pollination of
the F, (left) and a 1:1 phenotypic ratio in
his cross of F, yellow with green (right).
Sample sizes are arbitrary.
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