CRISPR-Cas9 ) : What Is The Complex Code Of The Genomes?

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The world of genomes is more similar to the art of coding, than many may believe. For starters, they both share the ability of creating information that does an overwhelmingly important role in fabricating and supporting the final project - which in a genetical case is all living organisms. The complex code of genetics has been a pivoting factor in countless research done by scientists, as it is the literal makeup of each and every living organism, each unique in their own way. Research in genetics has been around for more than 150 years, and although the study is something relatively old and a seemingly immaculate process, there are cases where the result is not always as one would hope. Unfortunately, if a mutation occurs in the…show more content…
Granted there have been other gene editing techniques used before, but by far CRISPR has been reported to have the most potential to revolutionize different areas where the method is applicable. The fields that researchers believe these modification resources will be the most beneficial, include but are not limited to medicine for curing and preventing diseases, creating socially ideal children, and perhaps aiding in the decrease of world hunger. While these goals do seem quite optimistical, scientists have high hopes for what CRISPR will be able to accomplish with time. Currently the system is just now being tested out on living organisms, with the ambition of figuring ways to genetically terminate diseases (2).
Researchers affiliated with the Shanghai Institutes for Biological Sciences, decided to test this up-and-coming editing tool on mice with the dominant blurred vision or cataract-causing mutation in their CRYGC gene, hoping to correct it. The results of their experimentation showed that after the mice with the fixed mutation mated with mice without the mutated genes, their offspring received the correct mutant-free allele from the priorly disease carrying parent. This information provides proof that the CRISPR-Cas9 can be used to correct genetic diseases before they are passed down from one generation to the next (3).
After experimenting on rodents and finding triumphant results, scientists transferred over to testing the success of CRISPR-Cas9 on embryos, with
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