Table of Contents
- 1 What happened when Gregor Mendel combined a purebred yellow seeded plant with a purebred green seeded plant?
- 2 What is a purebred flower?
- 3 Why did Mendel make the first generation of plants self pollinate?
- 4 When does fertilization occur between two true breeding parents?
- 5 How is the phenotype of one parent determined in monohybrid cross?
What happened when Gregor Mendel combined a purebred yellow seeded plant with a purebred green seeded plant?
In one of most classic examples, Mendel combined a purebred yellow-seeded plant with a purebred green-seeded plant, and he got only yellow seeds. He called the yellow-colored trait the dominant one, because it was expressed in all the new seeds. Then he let the new yellow-seeded hybrid plants self-fertilize.
Can purebred plants be cross fertilized?
No, you’ve cross-fertilized a pure-bred colored with a pure-bred white. You won’t get pure-bred colored and whites in the F1 progeny. In a cross between two plants pure-bred for different flower color alleles (CC and cc), the F1 progeny will be (Cc). Offspring have one copy of each parental allele.
How did Mendel produce purebred plants?
Mendel followed the inheritance of 7 traits in pea plants, and each trait had 2 forms. He identified pure-breeding pea plants that consistently showed 1 form of a trait after generations of self-pollination. Mendel then crossed these pure-breeding lines of plants and recorded the traits of the hybrid progeny.
What is a purebred flower?
A purebred plant that self-pollinates (or two plants that are purebred for the same trait) will always produce offspring with the same trait. For example, a purebred purple-flowering pea plant that self-pollinates always produces purple-flowering offspring.
What did Mendel find when he crossed purebred yellow seeds with purebred green seeds?
The yellow allele is dominant to the green allele. A purebred plant that produces yellow seeds is crossed with a purebred plant that produces green seeds. Mendel crossed purebred purple-flowered plant with purebred white-flowered plants, and all of the resulting offspring produced purple flowers.
Can a purebred be recessive?
An organism that has two identical (same) alleles for a trait is called a purebred. purebred in the U.S. two recessive (tt). A hybrid has two different alleles (Tt), but the dominant trait is the one that shows.
Why did Mendel make the first generation of plants self pollinate?
Pea plants are naturally self-pollinating. Mendel was interested in the offspring of two different parent plants, so he had to prevent self-pollination. He removed the anthers from the flowers of some of the plants in his experiments. Then he pollinated them by hand with pollen from other parent plants of his choice.
How did Mendel explain the inheritance of traits?
Gregor Mendel, through his work on pea plants, discovered the fundamental laws of inheritance. He deduced that genes come in pairs and are inherited as distinct units, one from each parent. Mendel tracked the segregation of parental genes and their appearance in the offspring as dominant or recessive traits.
When a purebred plant with yellow seeds is crossed with a purebred plant with green seeds the seeds of all of the offspring are yellow Why?
A purebred plant that produces yellow seeds is crossed with a purebred plant that produces green seeds. The seeds of all of the offspring are yellow. Why? The yellow allele is dominant to the green allele.
When does fertilization occur between two true breeding parents?
When fertilization occurs between two true-breeding parents that differ by only the characteristic being studied, the process is called a monohybrid cross, and the resulting offspring are called monohybrids. Mendel performed seven types of monohybrid crosses, each involving contrasting traits for different characteristics.
How is Mendel able to predict the offspring of a cross?
Beyond predicting the offspring of a cross between known homozygous or heterozygous parents, Mendel also developed a way to determine whether an organism that expressed a dominant trait was a heterozygote or a homozygote. Called the test cross, this technique is still used by plant and animal breeders.
How are f 1 plants different from the parent plants?
Therefore, the F 1 plants must have been genotypically different from the parent with yellow seeds. The P plants that Mendel used in his experiments were each homozygous for the trait he was studying. Diploid organisms that are homozygous for a gene have two identical alleles, one on each of their homologous chromosomes.
How is the phenotype of one parent determined in monohybrid cross?
Out of these crosses, all of the F 1 offspring had the phenotype of one parent, and the F 2 offspring had a 3:1 phenotypic ratio. On the basis of these results, Mendel postulated that each parent in the monohybrid cross contributed one of two paired unit factors to each offspring, and every possible combination of unit factors was equally likely.