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When Mendel crossed true -breeding pea plants that have inflated pods pp with those that have constricted pods pp it was observed that f1 offspring has a genotype of pp what would their phenotype be?
If Mendel crossed true-breeding pea plants with inflated pods (PP) and those with constricted pods (pp), the F1 offspring would inherit one allele from each parent, resulting in a genotype of Pp. Since inflated pods (P) are dominant over constricted pods (p), the phenotype of the F1 offspring would display inflated pods. Thus, all F1 offspring would have inflated pods.
Mendel crossed pea plants that produced inflated pods with those that produced constricted pods. From a total of 3325 F2 seeds 2474 were inflated and 851 were constricted. Using the symbols P for gene?
Using the symbols "P" and "p" for genes, symbolize the parental cross, the F1 cross. and the F2
What are the 7 characteristics that Gregor Mendel studied?
Gregor Mendel studied the following characteristics in pea plants:1. Flower color - purple as dominant, white as recessive2. Flower position - axial as dominant, terminal as recessive3. Seed color - yellow as dominant, green as recessive4. Seed shape - round as dominant, wrinkled as recessive5. Pod shape - inflated as dominant, constricted as recessive6. Pod color - green as dominant, yellow as recessive7. Stem length - tall as dominant, dwarf as recessiveCampbell, Neil A., et al. Biology. 8th ed. San Francisco: Pearson Benjamin Cummings, 2008. 265. Print.
What arethe traits in garden peas studies by gregor Mendel?
Mendel studied seven traits: Height of the plants (stunted or normal); Flower color (purple or white); Pea color (Green or yellow); Pod color (Green or yellow); Position of flowers on stem (axial or terminal); and Pod shape (inflated or constricted).
A student crosses two pea plants. One is homozygous dominant for axial flowers and the other is heterozygous for axial flowers. If the student examines 200 offspring pea plants which of the following?
In this cross, the homozygous dominant plant (AA) is crossed with a heterozygous plant (Aa). The possible genotypes of the offspring would be 50% homozygous dominant (AA) and 50% heterozygous (Aa), resulting in all offspring displaying axial flowers since axial (A) is dominant over terminal (a). Therefore, out of the 200 offspring, you would expect 100 plants to be AA and 100 to be Aa, all exhibiting axial flower phenotype.
When Mendel crossed true -breeding pea plants that have inflated pods pp with those that have constricted pods pp it was observed that f1 offspring has a genotype of pp what would their phenotype be?
If Mendel crossed true-breeding pea plants with inflated pods (PP) and those with constricted pods (pp), the F1 offspring would inherit one allele from each parent, resulting in a genotype of Pp. Since inflated pods (P) are dominant over constricted pods (p), the phenotype of the F1 offspring would display inflated pods. Thus, all F1 offspring would have inflated pods.
Mendel crossed pea plants that produced inflated pods with those that produced constricted pods. From a total of 3325 F2 seeds 2474 were inflated and 851 were constricted. Using the symbols P for gene?
Using the symbols "P" and "p" for genes, symbolize the parental cross, the F1 cross. and the F2
What was the dominant alleles in Mendel's pea plants?
The dominant alleles in Mendel's pea plants were those responsible for the traits of round seeds (R) versus wrinkled seeds (r), yellow seeds (Y) versus green seeds (y), purple flowers (P) versus white flowers (p), and inflated pods (I) versus constricted pods (i).
What are the 5 of the 7 traits that can be studied in pea plants?
it is like a process
Name 7 characteristics giving both dominant and recessive forms of the pea plants in mendels experiments?
characteristic . dominate trait .recessive trait1-flower color. purple .white2-seed color .yellow .green3-seed shape. round .wrinkled4-pod color. green. yellow5-pod shape. smooth .bumpy6-flower position. along stem. at tip7-plant height. tall. short
Which observation of dihybrid crosses led to mendels law of independent assortment?
When crosses were made taking into account two dominant charater in a parent with another parent having racessive genes for those characters, in F1 generation all plants had dominant characters but in F2 generation, on self-pollination, the segregation in both the characters were observed independent of each other.
What are the desert's dominant plants?
Most deserts have different plants but the most dominant would be the grasses.
What are the 7 characteristics that Gregor Mendel studied?
Gregor Mendel studied the following characteristics in pea plants:1. Flower color - purple as dominant, white as recessive2. Flower position - axial as dominant, terminal as recessive3. Seed color - yellow as dominant, green as recessive4. Seed shape - round as dominant, wrinkled as recessive5. Pod shape - inflated as dominant, constricted as recessive6. Pod color - green as dominant, yellow as recessive7. Stem length - tall as dominant, dwarf as recessiveCampbell, Neil A., et al. Biology. 8th ed. San Francisco: Pearson Benjamin Cummings, 2008. 265. Print.
What arethe traits in garden peas studies by gregor Mendel?
Mendel studied seven traits: Height of the plants (stunted or normal); Flower color (purple or white); Pea color (Green or yellow); Pod color (Green or yellow); Position of flowers on stem (axial or terminal); and Pod shape (inflated or constricted).
A student crosses two pea plants. One is homozygous dominant for axial flowers and the other is heterozygous for axial flowers. If the student examines 200 offspring pea plants which of the following?
In this cross, the homozygous dominant plant (AA) is crossed with a heterozygous plant (Aa). The possible genotypes of the offspring would be 50% homozygous dominant (AA) and 50% heterozygous (Aa), resulting in all offspring displaying axial flowers since axial (A) is dominant over terminal (a). Therefore, out of the 200 offspring, you would expect 100 plants to be AA and 100 to be Aa, all exhibiting axial flower phenotype.
What plants have a dominant gametophyte?
The sporophyte generation is dominant in ferns.
In pea plants tall (T) plants are dominant over short (t) plants. If a heterozygous (Tt) pea plant is crossed with a homozygous dominant (TT) pea plant all of the resulting pea plants should be tall (?
Dominant Allele
