The lack of red color detecting cones may be a genetic disorder, and thus be able to be inherited.
x-linked
x-linked
No, the term "red-green colorblindness" means that you cannot tell the difference between red and green. There are several different types of colorblindness; red-green colorblindness is the most common kind. For example, another kind is blue-yellow colorblindness, where a person cannot tell the difference between blue and yellow. All types of colorblindness are much more common in men. See the Related Link below for the Wikipedia entry on colorblindness.
2
colorblindness and hemophilia.
Not necessarily. The allele for colorblindness is recessive. For a female, in order to be colorblind she must have to recessive alleles for colorblindness. Example: XcXc would be colorblind. XCXc would be a carrier for colorblindness, but not colorblind. For a male, because colorblindness is a sex-linked gene, he only needs one allele to be colorblind. Example: XcY is colorblind. XCY is not colorblind.
The most co on type of colorblindness is red-green colorblind.
X-Linked Inheritance
Dogs can see some pigments and not others. It is very much like red/green colorblindness: they can see blue and yellow, but red and green appear grayish to them.
Certain colors look identical. The most common type is Red-Green colorblindness, in which red - orange - yellow - green all look about the same.
by the same DNA fault in genes
Well the person can somewhat see the color based on the severity of their colorblindness but usually the person will see colors with a gray tint.
You must be lying. There's no type of colorblindness that would make one confusing red and blue. Green and red yes, blue and green yes, and sometimes blue and purple, but not red and blue. No matter what type of colorblindness you have, whether it's protanopia, deuteranopia, or tritanopia, blue and red would look different.