it is present (shown) whenever it is present ( see Punnett Square) it will overthrow a recessive allele as long as it is there. it's effect is that you will get a certain trait for that allele. A Punnett Squar will help you the most.
To find the difference between -5°F and 20°F, you subtract the lower temperature from the higher one: 20°F - (-5°F) = 20°F + 5°F = 25°F. Thus, the difference between -5°F and 20°F is 25°F.
F D F F D F F D G F F D I'm sure you can determine the rhythm.
F = MA M = F / A A = F / M
The F-F bond (in F2) is covalent, and non polar covalent at that.
97.88 F
Red flower color is dominant because it is represented by the allele "F." Orange flower color is recessive and is represented by the allele "f."
A capital letter, example, Ff, F would be the dominant letter. Also, in Nn, N will be the dominant letter because its capital and dominant
The possible pairs of alleles that would produce the yellow-flower phenotype are FF and Ff. Since the F allele is dominant over f, having at least one F allele in the genotype will result in a yellow flower color.
generally capital letters are used to describe dominant alleles and recessive are indicated by lowercase. for example brown eyes might be B and green eyes would be b. the letter used could be anything and isn't relavent to the gene.
If all of the children have freckles, that means that both parents had dominant genotypes. (Mother; FF and Father; FF). Or, one parent could have a hybrid genotype. (For example, Mother; Ff and Father; FF). Based on the outcome of a Punnett Square, either one parent must have a hybrid and the other dominant, or both must have dominant genotypes.
AA would be used to represent a homozygous dominant gene. Aa would be hybrid or Heterozygous. aa would be homzygous recessive implying that the person would only carry the trait instead of physically showing it. AA and Aa however, would express that genes trait within their characteristics.
it is because the parents each were heterozyous dominant. meaning each of them had a dominant allele and a recessive allele. the dominant allele would be the curly hair, and the recessive allele would be the straight hair. There would be a 1/4 chance that the child would have curly hair, and a 3/4 chance that they would have curly hair. Say that the Curly hair allele was H and the straight hair allele was h. In order for the parents to have curly hair, they would either have to have an HH gamete or an Hh gamete. Seeing as though the child came out with curley hair, both parents would have to have an Hh gamete. In order to find out the probability, you multiply the parents gametes. (Hh)(Hh). This will give you HH, Hh, Hh, hh. seeing has three of the gametes have the dominant allele, this child will have curly hair, and one is a homozygous recessive, so it will turn out with straight hair.
If you are in the key of F, the Dominant key is C
They wouldhave to be f-f - otherwise they would surely have full pods as the full pod (F) is dominant. F-F would result in full pods, F-f likewise would result in full pods as F is dominant and f is recessive. The only combination that would result in flat pods is therefore f-f.
We'llsay F is dominant for freckles and f is recessive for non-freckled. The father is ff The mother is Ff The child is ff. Probability of this cross producing a homozygous recessive child is 50%. There isn't a precise term for this cross.
The allele combination,or gene pair,can be BB,Bb,bb
The dominant in a scale is the 5th, which in the key of F# major is C#.