Answer:
1.) Inflated pod shapes (Cc) in the F1 generation
2) See attached image for the work out of the cross from P generation to F2 generation.
3). CC- 1/4, Cc- 1/2, cc- 1/4
Explanation:
This question is related to the pod shape trait encoded by a single gene in pea plants. The alleles for inflated pod shape (C) is dominant over the allele for constricted pod shape (c). This means that allele "C" will be expressed over allele "c" in a heterozygous state.
The two truebreeding parent plants will have genotypes: CC (inflated pod shape) and cc (constricted pod shape). When these two plants are crossed, an all heterozygous plant with genotype: Cc will be formed in the F1 generation. Since, C is dominant over c, the F1 Cc plants will have an inflated pod shape phenotype.
The F1 Cc plants are self-crossed to produce the F2 generation offsprings i.e. Cc × Cc. The gametes C and c will be produced by each F1 parent, which will be used to draw a punnet square (see attached image). From the cross, offsprings with genotypes: CC, Cc and cc are produced in the F2 generation.
CC (phenotypically inflated pod shape)- 1/4
Cc (phenotypically inflated pod shape)- 1/2 or 2/4
cc (phenotypically constricted pod shape)- 1/4
Hello! Capillary action is the ability of liquids to move upward or downward without the help of gravity through small spaces. Different materials affect capillary action: the more absorbent a material is, the better the capillary action. One example is a paper towel. When you put one side of a paper towel in water, notice how the water moves to the other regions of the paper towel that were not exposed directly to the water. It can even move upward! Plants have the ability of capillary action, as the water from the roots are absorbed and move up to the plant where water is needed. Hope this helps! :)
Answer:
A.
Explanation:
why? because the way that the sperm worked it would need help seperatin the ratrianial with the gene and hyprothermiciya! your welcome!! :)