Protein Synthesis

The creation of a protein is a several step process. It starts with an enzyme unzipping the DNA. Another enzyme then goes along the DNA and reads the sequence and puts a the matching base pair with each base. Instead of matching A with T, it replaces the T with a U. The completed RNA then detaches from the DNA and travels to a ribosome. The mRNA is read and every 3 bases represents a codon. Each codon represents an amino acid. The ribosome goes down the line and reads every codon until it reaches a stop codon. The amino acids then break off and the protein is complete.


Mutations can either change a gene dramatically or not at all. A simple substitution in the DNA either causes one or two codons to change or sometimes, none at all. A frameshift mutation such as an insertion or deletion can cause big changes and change every codon after it. A frameshift mutation at the beginning of a sequence would cause more damage than at the end, because a frameshift causes every codon after it to change. If it occurred at the end, only a few would change.

When I chose the mutation I would like to do on a DNA strand, I chose an insertion. I chose this because it would allow me to stop the translation right after it started. It caused the most change out of all mutations because it didn't allow for any amino acids to be coded for except the start codon. It mattered where th mutation occurred, because it occurred right after the start codon. If it had been towards the end, the amino acids that came before would have still been coded for.

Having a mutation could result in several things. A mutation could result in death, a disease, or nothing at all. We all have many proteins in our body that carry out essential functions such as carrying oxygen in the blood. An alteration to one of these important proteins could have some major consequences. For example, Parkinson disease in often caused by a mutation in one of several genes. It causes loss of control of muscles. Some mutations can guarantee that an individual will develop Parkinson, and another mutation increases an individuals risk of getting the disease.


Works Cited:

Eisen, Jonathan. “Fact Sheet: DNA-RNA-Protein.” MicroBEnet: the Microbiology of the Built Environment Network., Alfred P. Sloan Foundation, 29 Oct. 2013, www.microbe.net/simple-guides/fact-sheet-dna-rna-protein/. 

“What Kinds of Gene Mutations Are Possible? - Genetics Home Reference.” U.S. National Library of Medicine, National Institutes of Health, 6 Dec. 2016, ghr.nlm.nih.gov/primer/mutationsanddisorders/possiblemutations.

“Animal Genetics.” Print Page, web2.mendelu.cz/af_291_projekty2/vseo/print.php?page=315&typ=html.

http://web2.mendelu.cz/af_291_projekty2/vseo/print.php?page=315&typ=html

“National Institutes of Health.” National Institutes of Health, U.S. Department of Health and Human Services, 21 July 216ADAD, www.niehs.nih.gov/health/topics/conditions/parkinson/.