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The change is a mutation.
There would be no change in no. of amino acids as this mutation is miscense mutation, no . of amino acids changes with frame shift mutations .
A frame shift mutation destroys the correct sequence of amino acids from the point of the mutation. The protein produced by a frame shift mutation would more than likely be nonfunctional.
Missence mutation
All organic compounds are made of amino acids
The change is a mutation.
Well consider the substitution of one hydrophillic amino acid for another hydrophillic amino acid. This type of mutation changes nothing but a molecular marker. or Silent
There would be no change in no. of amino acids as this mutation is miscense mutation, no . of amino acids changes with frame shift mutations .
Frameshift mutations MAY change every amino acid that follows the point of mutation.
Amino Acids.
A frame shift mutation destroys the correct sequence of amino acids from the point of the mutation. The protein produced by a frame shift mutation would more than likely be nonfunctional.
A possible effect on an error during transcription is that a nonfunctioning protein will be produced. The protein would be made of the wrong amino acids chain will be produced (and wrong shape). The wrong protein will be produced. the wrong amino acid chain will be produced
Well consider the substitution of one hydrophillic amino acid for another hydrophillic amino acid. This type of mutation changes nothing but a molecular marker. or Silent
Missence mutation
point mutation
If one base in a codon was changed, this would be a point mutation. This may not cause any change in the structure of the protein, or it could be severely damaging. Since most amino acids have more than one codon, it's possible that the mutation would result in one of the other codons for that amino acid. In that case, there would be no change in the sequence of amino acids, and no change in the structure or function of the protein. A point mutation might also result in a codon that codes for a totally different amino acid, which can cause a genetic disorder. One example of a genetic disorder caused by a point mutation is sickle cell anemia. It's also possible that the point mutation could cause the codon to code for a stop signal. Please read the article in the related links for more information.
A point mutation can affect the protein in a different ways. If the point change causes a silent mutation then it doesnt affect at all. When the point nucleotide change make a different amino acid, then it may alters the function of protein. If it make to forma a stop codon (TAA, TAG, TGA) then the protein synthesis stops at the point where it is changed.