Answer:
A truncated protein refers to a protein that gets shortened due to a mutation, which does not allow the process of translation to take place properly. The formation of a truncated protein can take place due to a frameshift mutation of one or two base pairs. In such kind of mutation, a single or two base pairs get withdrawn from the sequence resulting in the formation of a completely changed triplicate codon sequence, which may result in the generation of a truncated protein comprising a different set of amino acids.
A nonsense mutation can also result in the formation of a truncated protein. A nonsense mutation generally codes for certain kinds of amino acid, however, post mutation can get converted into a stop codon. This transformation can result in the formation of a truncated protein.
Deletion or insertion at the chromosomal level can also result in the formation of a truncated protein. As insertion and deletion of a certain concentration of DNA can probably lead to the formation of a novel codon that can either be a nonsense codon or a stop codon, which may eventually result in the formation of a truncated protein.
Hence, the correct answers are statements 1st, 2nd, 3rd, 4th, and 6th
Answer:
this is the answer to number 2
Explanation:
the answer is nutrients and energy
The answer is.... (DRUMROLL).... <span>Bacteriophages</span>
In the eastern parts of Australia. Good luck.
ATP is the phosphoryl
group donor
<span>The free energy of the
phosphorylation reaction is large.</span>
Phosphorylation is known to
be an effective way of regulating protein and in eukaryotic cells, about 30% pf
the protein are phosphorylated. Thus, the enzyme responsible for the phosphorylation
reaction is known as kinases. However, ATP is required in the process
phosphorylation because it is needed as a donor.
