Which statement describes the blood type of a person with the alleles IAi?
It is type AB because I and i are codominant.
It is type AB because A and i are codominant.
It is type A because i is dominant and A is recessive.
It is type A because A is dominant and i is recessive.
Which statement describes the blood type of a person with the alleles IAi?
It is type AB because I and i are codominant.
It is type AB because A and i are codominant.
It is type A because i is dominant and A is recessive.
It is type A because A is dominant and i is recessive.
O
* Type A alleles could be : IAIA or IAi* Type B alleles could be : IBIB or IBi* Type AB alleles : IAIB* Type O alleles : ii
Type O is ii. The alleles are i and i. Type A is iIA. The alleles are i and IA. Thus, it can form either O or A. Type O blood is the absence of genes that code for transferases. Therefore the H substance (L-fucose) on the surface of RBCs remains unmodified. The A gene codes for the production of alpha-3-N-acetylgalactosaminyltransferase. This enzyme is responsible for adding N-acetyl-D-galactosamine to the H substance.
If I am not mistaken, blood type A has IaIa and Iai. Blood type O is ii. So it really depends on what allele they inherited, they could either be an O or an A.
The gentotype is ii that will produce blood type O. The allele i is recessive, so both parents must have at least one i allele, and the child must be ii (double recessive) to be blood type O. The parents' blood types do not have to be type O- the genotypes Ai (blood type A, as A is dominant), and Bi (blood type B) can produce blood type O offspring, as long as the child inherits the i allele.
No, a person with type a blood and a person with type O blood can not produce an offspring with AB blood. The person with type A has either two genes which code for the A protein or one gene (either IAIA or IAi) while the person with type O blood is ii. there are therefore on genes which code for B available and the production of a child with AB blood is not possible.
* Type A alleles could be : IAIA or IAi* Type B alleles could be : IBIB or IBi* Type AB alleles : IAIB* Type O alleles : ii
Blood type is controlled by multiple alleles. Blood type is inherited by three alleles, one A, one B, and an O, which is recessive Ex. A= IAIA IAi B= IBIB or IBi AB= IAIB O=ii
Yes, this is possible the alleles for B-type are (I^B i ) or (I^B I^B ) for a perent to be O which alleles is (ii) the child should be (I^B i ) and in this way the child got the (i) from father, and I^B from mother.
Yes. Blood type is the common product of three different alleles: Co-dominant IA, and IB, and the recessive i.If the mother has blood type O, she has the alleles ii. Her offspring will have blood type A if the father donates an IA allele. For this, he must be blood type A (IAIA or IAi) or AB (IAIB)Read more: What_cross_could_produce_a_child_with_blood_type_A
There are three alleles for blood type which can be represented by IA, IB, and i. A person with blood type O has the genotype ii. A person with blood type AB has genotype IAIB. If these two people produce children, those children will inherit one allele from each parent. They will therefore certainly inherit the i allele from their mother and either the IA or the IB from their father. The children with the genotype IAi will have type A blood, since the IA allele is dominant to the i allele. The children with the genotype IBi will have type B blood, since the IB allele is also dominant to the i allele.
Type O is ii. The alleles are i and i. Type A is iIA. The alleles are i and IA. Thus, it can form either O or A. Type O blood is the absence of genes that code for transferases. Therefore the H substance (L-fucose) on the surface of RBCs remains unmodified. The A gene codes for the production of alpha-3-N-acetylgalactosaminyltransferase. This enzyme is responsible for adding N-acetyl-D-galactosamine to the H substance.
1-Type A ... which has antibodies : B ... and Antigene : A2-Type B ... which has antibodies : A ... and Antigen : B3-Type AB . which has No antibodies ... and has Antigen : A and B4-Type O .. which has antibodies : A and B ... and has No Antigens* Type A alleles could be : IAIA or IAi* Type B alleles could be : IBIB or IBi* Type AB alleles : IAIB* Type O alleles : ii
1-Type A ... which has antibodies : B ... and Antigene : A2-Type B ... which has antibodies : A ... and Antigen : B3-Type AB . which has No antibodies ... and has Antigen : A and B4-Type O .. which has antibodies : A and B ... and has No Antigens* Type A alleles could be : IAIA or IAi* Type B alleles could be : IBIB or IBi* Type AB alleles : IAIB* Type O alleles : ii
In human beings blood group is determined by four alleles IA, IB, Ii A gene contain only two alleles either IA IA-- result A group IA IB--- result AB group- because of the phenomenon of co-dominance IA Ii---- result A group- A is dominant over i IBIi--- result B group- B is dominant over i IB IB-- result B group Ii Ii-- result O group dr.sreejithnamboodiri@gmaill.com
If I am not mistaken, blood type A has IaIa and Iai. Blood type O is ii. So it really depends on what allele they inherited, they could either be an O or an A.
If the father is homozygous (ii, BB): the baby will be type B. If the father is heterozygous (ii, Bi): the baby will be type B or O.
No, blood type is an example of a gene that has more than two alleles, not a trait that is controlled by more than one gene. In the case of blood type, there are 3 alleles, I^a, I^b and i. I^a and I^b are co-dominant, and therefore the blood type of I^a and I^b is AB, where blood cells have both kinds of sugar on the surface of the cell, and is a universal donor. i is recessive to both, and as a result, AO only has the A type sugars, and antibodies against B are produced; and BO only has B type sugars, and antibodies are produced against A are produced. ii, or O blood type has no sugars on the surface and produces antibodies against both A and B. Examples of multi-factoral traits are height, a trait controlled both by genes and environment.