23 from each parent
an allele refers to alternative form of a gen.each parent has his or her form of a gene.during mitosis,during anaphase,as the chromosomes separate,each cell end up with one chromatid and thus one kind of allele.therefore,each parent do donate one allele.
One copy of each allele, resulting in the offspring having one dominant allele and one recessive allele. This combination is known as heterozygous.
Offspring receive one allele from each parent. Alleles are variations of a gene that determine specific traits. One allele is inherited from the mother and one from the father, resulting in a total of two alleles for each gene in the offspring.
There are three common Blood type alleles: A, B, and O. We all have two alleles, one inherited from each parent. The possible combinations of the three alleles are: OO; AO; BO; AB; AA; BB.
This is known as Mendelian inheritance, where each parent contributes one allele for a trait to their offspring. This process follows Mendel's principles of segregation and independent assortment.
50% from each parent: one allele in each gene, each parent, for a total of two.
You get one allele for 1 trait from your mother. Alleles are alternative forms of a gene, and you inherit one allele for each trait from each parent.
an allele refers to alternative form of a gen.each parent has his or her form of a gene.during mitosis,during anaphase,as the chromosomes separate,each cell end up with one chromatid and thus one kind of allele.therefore,each parent do donate one allele.
The chance that any child will inherit the dominant allele in this scenario is 50%. If one parent does not carry the allele, they can only pass on the recessive allele. The parent who is heterozygous for the dominant allele can pass on either the dominant or recessive allele, resulting in a 50% chance for each allele to be inherited by the child.
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The probability of inheriting a specific allele in a hybrid plant would be 1/2 or 50%, as each parent contributes one allele and there are two possible alleles for a specific gene. Each offspring has an equal chance of inheriting either allele from the parent.
Yes. Both parents have an A allele and a B allele. Each parent can only pass on one of his/her two alleles. If each parent passes an A allele to the child, then the child will have group A blood. If at least one parent passes on an Rh positive allele to the child, then the child would also be type Rh positive. So these two parents could have an A positive child.
homozygous recessive
Segregation
One copy of each allele, resulting in the offspring having one dominant allele and one recessive allele. This combination is known as heterozygous.
one allele from each parentThe F1 generation inherited one dominant (tall) allele from the tall parent and a recessive (short) allele from the short parent. The F1 generation were heterozygous and tall.
Offspring receive one allele from each parent. Alleles are variations of a gene that determine specific traits. One allele is inherited from the mother and one from the father, resulting in a total of two alleles for each gene in the offspring.