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∙ 11y agoCertain traits can remain dormant and still be passed on to offspring. If a child has traits that neither parent possesses, chances are that it could have come from farther down the line.
Wiki User
∙ 15y agoTraits that are not manifested in the parents can still be passed on through their genes and show up in their offspring. These hidden traits can be carried in the genetic makeup of the parents and passed down to their offspring, where they may become visible if the necessary combinations of genes occur during the process of inheritance.
Wiki User
∙ 11y agoThe parent (mom) can be a carrier or both parents have the same recessive traits
Punnett squares are a visual representation of how alleles from two parents can combine to produce offspring with different genotypes. They are used to predict the probability of certain traits being passed on to offspring based on the parents' genotypes. By filling in the squares with possible allele combinations, geneticists can determine the likelihood of specific traits appearing in the offspring.
The offspring of hybrids may show a combination of traits from both parent species. In some cases, they may be sterile or have reduced fertility. Offspring can also exhibit variation in their traits due to genetic recombination.
No, a recessive trait will only show in the offspring if there is no dominant allele masking it. The trait that will always show in the offspring is the dominant allele, provided one parent was homozygous for it.
No, a recessive trait will only show in the offspring if there is no dominant allele masking it. The trait that will always show in the offspring is the dominant allele, provided one parent was homozygous for it.
The results in the offspring hinge on the genetic make up of the parents. Each expressed trait is either the result of a dominant or recessive phenotype. The relative dominance or recessiveness of the alleles doesn't change only the rate at which they are expressed based on the allele present for each obseerved trait in the parents.
it show which traits will result when two parents have offspring...... :)
No, the offspring of identical parents would not always look like the parents because everyone has dominant and recessive traits, where the recessive traits do not show but is still in DNA. That said, recessive traits not shown in parents can be passed on as dominant traits to offspring - making offspring not always identical to its parents. (this is also called genetic variation)
Gregor Mendel is basically known for being the founder of genetics through testing with peas and noticing traits passing down.
Punnett squares are a visual representation of how alleles from two parents can combine to produce offspring with different genotypes. They are used to predict the probability of certain traits being passed on to offspring based on the parents' genotypes. By filling in the squares with possible allele combinations, geneticists can determine the likelihood of specific traits appearing in the offspring.
Punnett Square
The offspring of hybrids may show a combination of traits from both parent species. In some cases, they may be sterile or have reduced fertility. Offspring can also exhibit variation in their traits due to genetic recombination.
Greg Wendel was the person who developed the cell theory in recessive and dominant traits. He studied generation to generation on plants and saw which traits would show up in the next generation he discovered how traits showed up from parents to offspring.
the law of independent assortment was formulated by Mendel. Alleles separate independently during the process of gamete production. The offspring show traits independent of the parents.
No, a recessive trait will only show in the offspring if there is no dominant allele masking it. The trait that will always show in the offspring is the dominant allele, provided one parent was homozygous for it.
No, a recessive trait will only show in the offspring if there is no dominant allele masking it. The trait that will always show in the offspring is the dominant allele, provided one parent was homozygous for it.
Mendel showed in his experiments that inherited traits are not passed through the blending of inheritance theory. According to the blending of inheritance theory, an offspring's traits are a blend between the traits of the parent organisms. In Mendel's experiments however, he showed that this was not true, and that inheritance is actually based on genes, through the observation of recessive traits. He observed that an offspring could have a trait that neither of the parents had, which is now explained through both of the parents having the recessive gene for the trait, but not showing it because they are heterozygous dominant. There is a 25% chance that the offspring of two heterozygous dominant parents will produce a homozygous recessive offspring that will show the trait that neither of the parents shows.
The results in the offspring hinge on the genetic make up of the parents. Each expressed trait is either the result of a dominant or recessive phenotype. The relative dominance or recessiveness of the alleles doesn't change only the rate at which they are expressed based on the allele present for each obseerved trait in the parents.