This is a frameshift mutation.
Adenine and guanine are the two purines bases present in DNA.Two purines in DNA are adenine and guanine.
This is called an insertion mutation.Some repeats, such as the repeats in the Huntington's gene, can be repeated too many times and then you have the deleterious mutation in this gene.
The attraction between nitrogenous bases is due to hydrogen bonding. This bonding occurs between specific pairs of bases in DNA (adenine-thymine, guanine-cytosine) and RNA (adenine-uracil, guanine-cytosine), contributing to the stability of the double helix structure.
Adenine, Thymine, Guanine, and Cytosine
The four bases in RNA are Cytosine, Guanine, Adenine and Uracil
This is a frameshift mutation and will render the rest of the DNA sequence useless.
Frame shift mutation occurs when a new codon in inserted. Point mutations occurs when one base, sometimes two, are inserted.
An insertion mutation occurs when extra bases are added into a gene. This can disrupt the reading frame, leading to a shift in the way the genetic code is interpreted during protein synthesis.
Frameshift ~
Frameshift
Adenine and guanine are the two purines bases present in DNA.Two purines in DNA are adenine and guanine.
frameshift mutation
This is called an insertion mutation.Some repeats, such as the repeats in the Huntington's gene, can be repeated too many times and then you have the deleterious mutation in this gene.
A mutation in a gene can happen by addition, deletion or substitution of base pairs. This means that the order of the bases will change- a new base may be added, a base may be lost, or one base may be substituted for another. The result of these mutations is that it causes the DNA to code for a different protein. If a mutation occurs in a sex cell, the mutation can be passed on to an offspring and affect the offspring's phenotype.
A mutation in a gene can happen by addition, deletion or substitution of base pairs. This means that the order of the bases will change- a new base may be added, a base may be lost, or one base may be substituted for another. The result of these mutations is that it causes the DNA to code for a different protein. If a mutation occurs in a sex cell, the mutation can be passed on to an offspring and affect the offspring's phenotype.
The two nitrogenous bases that are purines are adenine and guanine.
The attraction between nitrogenous bases is due to hydrogen bonding. This bonding occurs between specific pairs of bases in DNA (adenine-thymine, guanine-cytosine) and RNA (adenine-uracil, guanine-cytosine), contributing to the stability of the double helix structure.