dominance and segregation.
It means that there is a high possibility of offspring inheriting the specific trait. For example, a 'normal patterned' snake that is 'hetero for albino' - would likely produce a mixed clutch of babies. The clutch could have all 'normal', all albino or a varying mixture of colour patterns.
That is the correct spelling of "albino" (animal that is white, lacking skin pigment).
The opposite of albino is melanic.The definition of albino is being totally absent of any color pigment; so the opposite would be an abundance of color pigmentation.the opposite of being albino is not albinomwahahahaha!
There is no specific breed of albino pitbulls. However, there can be individual pitbulls that exhibit albinism, a genetic condition resulting in lack of pigment in the skin, hair, and eyes. Albino dogs may have health issues such as skin sensitivity or vision problems.
albinas - femialbinos - masc thats how you say it in spanish!!!
Dominance and Segregation
Both parents would each have one dominant gene for normal pigmintation and each would have one recessive albino gene. Say P is the dominant gene and q is the albino gene. Then the parents genotype would both be Pq. Below is a Punnet Square. The child's genotype is qq P q ------------------------------------- P / PP / Pq (carrier) / / / / ///////////////////////////////////////// q / Pq (carrier) / qq (albino) / / / / ////////////////////////////////////////
For the mother to have a non-albino offspring, she would need to have at least one dominant allele for the trait, so her genotype could be either Aa or AA. The father must have two recessive alleles (aa) to pass on albinism to the offspring. The albino offspring's genotype would be aa.
50 are produced
Albino animals are born due to a rare recessive genetic mutation that prevents any pigments in the skin from developing, making the animal appear pink or white with red eyes. Two normal looking animals can produce albino offspring if they both carry one normal gene which allows pigment development and one albino gene. If they breed together and both pass on the albino gene to the offspring, it will appear albino.
Albino animals are born due to a rare recessive genetic mutation that prevents any pigments in the skin from developing, making the animal appear pink or white with red eyes. Two normal looking animals can produce albino offspring if they both carry one normal gene which allows pigment development and one albino gene. If they breed together and both pass on the albino gene to the offspring, it will appear albino.
It's certainly possible ! Any species on Earth (including humans and mudpuppies) is capable of producing albino offspring. Albinism is simply a genetic 'mutation'.
aibino or American white
you have a 99% chance of the gecko coming out naturally colored. The albino gene for all animals is recessive. That means that both the mother and father would have to have the recessive gene and it would be blind luck for the recessive gene to be passed on by both parents. Best way to have an albino gecko is to breed 2 albino geckos. It is still not 100% that the babies will be albinos.
No idea i am guessing it is kinda like people. if a black and a white cross it is a 50/50 chance the child will be black or white so its unpredictable it was a 50/50 chance the baby pigs would be blacks or albinos. hope this helps YOU ARE SO RACIST!!!!!
it will most likely die in the wild mostly because the offspring would then mate and then possibly reproduce more of its kind then the habitat would flood with albino. Then albino would think they were the grater species and killing the non albino. However if a albino is born and taken to a zoo of some sort it would have a grater chance of having solving. seeing the fact that it is away from almost any kind of danger.
The parents of an albino plant are likely to be heterozygous for the gene controlling albinism. This means they carry one normal allele and one albino allele. When these two alleles combine in the offspring, it results in the expression of the albino trait.