homozygous dominant or recessive depending on what gene it is
codominance
The type of inheritance where both alleles are expressed equally in the offspring is known as codominance. In codominance, neither allele is dominant or recessive, resulting in a phenotype that displays characteristics of both alleles simultaneously. A classic example of this is seen in certain blood types, such as AB blood type, where both A and B alleles are fully expressed.
This is an example of co-dominance in which both alleles are expressed equally.
When both alleles contribute to the phenotype of a heterozygous the alleles are said to show the dominate alleles and sometimes the recessive but mostly the dominate alleles
Yes, that's correct. Heterozygous individuals have two different alleles at a specific gene locus, and they can express traits from both alleles. This can result in a combination of traits or an intermediate phenotype that differs from either homozygous condition.
codominance
The type of inheritance where both alleles are expressed equally in the offspring is known as codominance. In codominance, neither allele is dominant or recessive, resulting in a phenotype that displays characteristics of both alleles simultaneously. A classic example of this is seen in certain blood types, such as AB blood type, where both A and B alleles are fully expressed.
When both alleles contribute to the phenotype of a heterozygous the alleles are said to show the dominate alleles and sometimes the recessive but mostly the dominate alleles
This is an example of co-dominance in which both alleles are expressed equally.
Because both factors are present; when we talk about blood types, we have 2 individuals with 2 different blood types and they become codominant within the reproduction; meaning, there is a set of alleles and both of them show in the phenotype.
Yes, that's correct. Heterozygous individuals have two different alleles at a specific gene locus, and they can express traits from both alleles. This can result in a combination of traits or an intermediate phenotype that differs from either homozygous condition.
A heterozygote will show both phenotypes. For example, a tortoiseshell colored cat is heterozygous for black and orange coat color and it has both black and orange hairs in its coat. Refer to the following link for an illustration: http://www.great-pictures-of-cats.com/tortoiseshell-cats.html
A pattern where both versions, or alleles, of a gene are fully expressed in the phenotype is called codominance. In this scenario, the traits associated with both alleles are visible in the offspring. An example is the ABO blood group system, where an individual can have both A and B antigens expressed on their red blood cells if they inherit both A and B alleles.
No, recessive alleles are equally likely to be inherited (if your dealing with only those two types of alleles). BUT, dominant alleles are the ones that show up. That is precisely why they are called dominant. Compared to recessive alleles, dominant ones will overrule the others, making it the one inherited.
Yes there are some that show men just for women and some that show couples and are purchased equally by both
False. Blood type genes have two dominant alleles (A and B), and one recessive (O). When a person gets one A allele and one B allele, they then have the blood type AB. Both are expressed equally. In other genes, a dominant allele might not be completely dominant, allowing the recessive allele to be partially expressed.
Dominant alleles carry traits or characteristics that will show no matter what. Recessive alleles carry traits where you must be homozygous for the recessive trait in order for it to show. Dominant alleles are represented by capital letters (EX: R or M) Recessive alleles are represented by lower case letters (EX: r or m) In order for a dominant allele to show, you can have either RR or Rr, since it is dominant. However, in order for a recessive allele to show, you MUST have rr. Hope this helps!