Yes, hemophilia is an example like Huntington’s where there’s a family of alleles. And of course, in that case, the allele is extremely lethal, killing a large fraction of males, and killing any female that is homozygous. So the allele has to stay really rare.
In general though for most proteins it is surprisingly difficult to break them. Most mutations will actually be neutral. They will be neutral either because the mutated codon actually codes for the same allele, or codes for a chemically similar allele, or because it is a section of the protein which provides something like structural support, if it mighta ctually have a phenotypical effect that just doesn’t matter much either way . Many other mutations might have a negative effect but it won’t be the same negative effect or it will be a negligible negative effect.. Moreover, some of the negative effects from mutated proteins aren’t because the protein itself is now broken at what it normally does but because the protein now in addition to what it is supposed to do gums something else up or isn’t as easily broken down or something like that. Those sorts of things also require specific mutations to occur. So in general, it is very rare for a mutation to get repeated.
Yes, hemophilia is an example like Huntington’s where there’s a family of alleles. And of course, in that case, the allele is extremely lethal, killing a large fraction of males, and killing any female that is homozygous. So the allele has to stay really rare.
In general though for most proteins it is surprisingly difficult to break them. Most mutations will actually be neutral. They will be neutral either because the mutated codon actually codes for the same allele, or codes for a chemically similar allele, or because it is a section of the protein which provides something like structural support, if it mighta ctually have a phenotypical effect that just doesn’t matter much either way . Many other mutations might have a negative effect but it won’t be the same negative effect or it will be a negligible negative effect.. Moreover, some of the negative effects from mutated proteins aren’t because the protein itself is now broken at what it normally does but because the protein now in addition to what it is supposed to do gums something else up or isn’t as easily broken down or something like that. Those sorts of things also require specific mutations to occur. So in general, it is very rare for a mutation to get repeated.