Yes - but only if both parents are heterozygous. This means they must have the genotype AO and BO. If either parent is homozygous, AA or BB - then they cannot produce a child with blood type O.
Blood types that produce anti-B antibodies include type A and type O. Individuals with type A blood have A antigens and produce anti-B antibodies, while those with type O blood lack A and B antigens and produce both anti-A and anti-B antibodies. Therefore, only blood types A and O can produce the antibodies against type B antigens.
No, the o parent has to Have O,O alliesand the B parent would only have B,B or B,O allies. The only are B,O and O,O.
Yes
Anti-body antigen A & B
If you have the genotype BO, you will have blood type B. This means you will produce B antigens. You will also produce Anti-A antibodies, meaning you cannot receive a transfusion of type A or AB blood.
Yes, two B positives can produce an O positive child.
No, blood types O positive (O+) and B negative (B-) cannot produce a B positive (B+) offspring. Blood type O carries only the O antigen, while blood type B carries the B antigen. To have a B+ blood type, one would need to inherit the B antigen from both parents.
Since O blood is recessive and B is dominant, this scenario would be possible
yes
If the father has an AB positive blood type and the mother has an O positive blood type, the possible blood groups for their child could be A or B. The A allele from the father can combine with the O allele from the mother to produce an A blood type, while the B allele from the father can combine with the O allele to produce a B blood type. The child cannot have an AB or O blood type in this scenario.
Nope.
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.