LL and Ll will both express the dominant gene, in this case short hair. Only an animal with both recessive genes (ll) will have long hair.
If short hair, represented by L, is the dominant trait, then both animals with LL genes and Ll genes will have short hair because they have the short hair gene. The Ll animal, however, may have a long haired offspring if they mate with another animal carrying the long hair gene and they both pass it on.
Well, it really depends. You have to look at their pedigree and find out if anyone in their family has long hair. Such as the grandpa or grandma. 2 short hair dachsunds had 4 puppies. 3 were short haired and one was long. Their next litter was 2:2 and their last litter was 2:2 again. The dads parents both had long hair.
That depends on the parents. They can be a cross between the long and short hair. They can just be the short hair. They can be the long hair. It will just be a surprise there is no way to predict it.
short hair
i think short hair
If short hair, represented by L, is the dominant trait, then both animals with LL genes and Ll genes will have short hair because they have the short hair gene. The Ll animal, however, may have a long haired offspring if they mate with another animal carrying the long hair gene and they both pass it on.
Not necessarily, although it can be. The dominant trait depends upon the breed of the dog. Golden Retrievers are dominant to have long hair, while Labradors are dominant to have smooth hair.
Well, it really depends. You have to look at their pedigree and find out if anyone in their family has long hair. Such as the grandpa or grandma. 2 short hair dachsunds had 4 puppies. 3 were short haired and one was long. Their next litter was 2:2 and their last litter was 2:2 again. The dads parents both had long hair.
That depends on the parents. They can be a cross between the long and short hair. They can just be the short hair. They can be the long hair. It will just be a surprise there is no way to predict it.
50 % out of hundred. Some babies may come out long haired and some short.
Long hair is in.
L = long hair ; l = short hairS = white spotted ; s=not white spottedthis example shows that the long hair and white spots alleles are dominant, and short hair and not spotted are not dominate.assorted independence means that there are two alleles one will always be dominate.example Ll or Ss
short hair
They have hair, because they don't shed, and animals with fur, do shed!
It's obvious from this problem that short hair is dominant in guinea pigs. In that case, if we have 25 out of 100 offspring that have long hair, then there is no doubt that the parents are heterozygous for short hair. If you use the punnet square, and hypothesize that both parents are heterozygous for short hair and long hair, you will get a 25% chance that the offspring will be long haired. So, the answer to this problem is that both parents are heterozygous. Let H = short hair and h = long hair. Hh dam x Hh sire gives us, according to the Punnet Square: 25% HH 50% Hh 25% hh
short hair
She Has short hair