A cross between two hybrid Tt pea plants would be expected to produce 1/4 TT, 1/2 Tt, and 1/4 tt offspring.
50%
Gregor Mendel prevented self-fertilization in his pea plants by removing the stamens (male reproductive organs) from the flowers before they matured, thus preventing the plants from self-pollinating. This allowed him to control the pollination process and ensure that only desired crosses were made between different plants.
In pea plants, round seeds are dominant (R) over wrinkled seeds (r), and yellow seeds are also dominant (Y) over green seeds (y). A hybrid round pure yellow pea would have the genotype RrYY, where "Rr" indicates it is heterozygous for the round seed trait and "YY" indicates it is homozygous for the yellow seed trait.
Dominant Allele
Hi, The Austrian monk Gregor Mendel grew pea plants to find out the Law of Segregation and Law of Independent Assortment. Gregor Mendel used two true breeding plants with distinctive traits and fertilized hybrids from them. He set up seven traits which he was going to inspect, they included: seed shape, seed color, seed coat color, pod shape, pod color, flower position, and plant height. As the hybrid only should one possible outcome from each trait, and in the second level of hybrid other traits reappeared again, Mendel came up with two laws. The first saying that separate alleles pass independently and only one allele from each parent is passed to the offspring.
It is 1/4.
50%
It is 1/4.
3 in 4 or 3 out of 4
losers
yes
The terms Mendel used to describe the heterozygous pea plant was the hybrid term....i hope that helped
seriosly i dont know
Pea plants are easy to cultivate and have a short life cycle, allowing for quick observations and experiments. Pea plants have distinct traits that are easy to observe and manipulate, such as seed shape, color, and height. Pea plants can self-fertilize or be cross-fertilized, providing opportunities to study inheritance patterns. Mendel could control the crosses of pea plants to carefully track the transmission of traits from one generation to the next.
Whenever Mendel performed a cross with pea plants, he carefully categorized and counted the many offspring. Every time Mendel repeated a particular cross, obtained similar results. For example, whenever Mendel crossed two plants that were hybrid for stem height (Tt), about three fourths of the resulting plants were tall and about one fourth were short. Mendel realized that the principles of probability could be used to explain the results of genetic crosses.
A pea plant grows faster than a corn plant
Yes. It can.