HH and Hh; Hh & Hh;Hh &hh; HH & hh
Hh x HH
Hh x Hh
Hh x hh
If two blonde haired people have a child the child will be blonde as everybody has two hair genes (one from each parent) and you pass one of your genes to your child, to be blonde you have to have two blonde haired genes and as you can only pass blonde genes to your child they will certainly be blonde.Source(s):GCSE science lessons Hi I am sorry to rain on your party but i believe you are incorrect. The reason why is because you can carry a trait but if you are an owner of trait then you have that trait plus others. For example my aunt has blonde hair and her hubby has blonde hair that went to dirty blonde to brown naturally. However, they have a red-head. How is this possible? Doesn't heredity have rules? I am so confussed.
Yes, it is possible. In one of the parent's family tree there were probably some blonde people, and so it is one of the DNA possibilities. It probably won't happen a lot, but it does happen. Also, there are some families (like mine) where some of the kids have blonde hair when they are young, but it gets darker as they get older.
H is a dominant trait for the hair color red. The trait for white hair is recessiv.The parents genotypes are HH x hh.What will the genotype of the offspring be?
Yes, brown in general is a very common hair color because it is a dominant genetic trait. This means if one parent has it, the child almost indefinately will also.
With a HOT straightner or a Brazilian hot iron.
The side because they are the same. The top because they are different.
Its possible, hair color and eye color have different strengths when it comes to genes. Brown is the strongest (most likely outcome), blonde hair is the weakest, and blue eyes are the weakest. These liks are about a 75 25 ratio so it is still possible but its unlikely.
Both of the parents were heterozygous with the blonde hair allele, which is recessive. When there are two parents that are heterozygous, there is a 25% chance their offspring will get two of the recessive alleles. A punnett square can be useful when determining the different phenotypes and genotypes possible in offspring
ya
The genotype is the combination of genes, for example, one inherited brown hair gene is a B (dominant), and one blond hair gene is a b (recessive). The possible genotypes in this example are BB, Bb, and bb. A phenotype is the real-world description of the trait, so the phenotypes for the genotypes listed above would be, in order, brown, brown, and blond. obviously, this is a simplified example. Possible phenotypes for hair color vary widely, and are ever natural color of hair possible: black, brown, light brown, blonde, red, strawberry blonde, etc.
you jackass
Everyone has at least two genes for hair color, but brown is dominant. If both parents have Brown-Blond genes, then they will have brown hair (because it is dominant over blond), but the child could get one blond gene from each parent and thus be Blond-Blond, and thus be blond.
No, it's impossible to inherit a parent's dyed hair color.
the child received genetic information from each parent.
because some one in the family had and and it recessive trait
If two blonde haired people have a child the child will be blonde as everybody has two hair genes (one from each parent) and you pass one of your genes to your child, to be blonde you have to have two blonde haired genes and as you can only pass blonde genes to your child they will certainly be blonde.Source(s):GCSE science lessons Hi I am sorry to rain on your party but i believe you are incorrect. The reason why is because you can carry a trait but if you are an owner of trait then you have that trait plus others. For example my aunt has blonde hair and her hubby has blonde hair that went to dirty blonde to brown naturally. However, they have a red-head. How is this possible? Doesn't heredity have rules? I am so confussed.
If the parent complains, you could possibly get fired.