Answer: Study whether a different protein is produced or has a different function because another amino acid has been synthesized.
Explanation:
During DNA replication, a copy of one of its strands is synthesized. This duplication of genetic material occurs according to a semiconservative mechanism, indicating that the two polymers that are complementary to the original DNA, when separated, each serve as a template for the synthesis of a new complementary strand of the template strand, so that each new double helix contains one of the strands of the original DNA. T<u>hanks to the complementation between the bases that form the sequence of each of the chains, the DNA has the important property of reproducing itself identically, which allows the genetic information to be transmitted from a stem cell to the daughter cells and is the basis for the inheritance of the genetic material. </u>
The genetic material is used to store the genetic information of an organic life form and, in eukaryotes, is stored in the nucleus of the cell. This information is encoded in the sequence of nucleotides that make up DNA. A nucleotide consists of a sugar molecule (ribose in RNA or deoxyribose in DNA) attached to a phosphate group and <u>a nitrogenous base. The bases used in DNA are adenine (A), cytosine (C), guanine (G) and thymine (T). In RNA, the uracil base (U) takes the place of thymine. An A pairs up with T and U, while and C pais up with G</u> (remember DNA has 2 strand so the bases of the nucleotides of each strand are complementary to each other)
During the process of gene expression, <u>DNA is transcribed into RNA which is a molecule used for protein synthesis or translation.</u> During this process, the base sequences of the RNA nucleotides are read (remembering that RNA is synthesized in a complementary manner to RNA).
The genetic code is the set of rules by which the information encoded in genetic material (RNA sequences) is translated into proteins (amino acid sequences) in living cells. In RNA, three bases (called codon) are encoded for one amino acid. And several amino acids form a protein.
In the event that during DNA replication an error has occurred and an erroine base has been inserted, it is possible that now the codon which is different, codes for another amino acid and then a different protein is made. This is not always the case, however, as the genetic code is redundant. That means that most amino acids are encoded by more than one codon.
