Why RNA Is A Better Measure Of A Patient’s Current Health Than DNA
By harnessing the combined power of NGS, machine learning and the dynamic nature of RNA we’re able to accurately measure the dynamic immune response and capture a more comprehensive picture of what’s happening at the site of the solid tumor. In the beginning, there was RNA – the first genetic molecule.
In the primordial soup of chemicals that represented the beginning of life, ribonucleic acid (RNA) had the early job of storing information, likely with the support of peptides. Today, RNA’s cousin – deoxyribonucleic acid – or DNA, has taken over most of the responsibilities of passing down genetic information from cell-to-cell, generation-to-generation. As a result, most early health technologies were developed to analyze DNA. But, RNA is a powerful force. And its role in storing information, while different from its early years, has no less of an impact on human health and is gaining more mindshare in our industry.
RNA is often considered a messenger molecule, taking the information coded in our DNA and transcribing it into cellular directives that result in downstream biological signals and proteins–level changes. And for this reason, RNA is becoming known not only as a drug target but perhaps more importantly, as a barometer of health.
3d illustration of a part of RNA chain from which the deoxyribonucleic acid or DNA is composed
How and why is RNA so useful? First, RNA is labile — changing in both sequence and abundance in response to genetic and epigenetic changes, but also external factors such as disease, therapy, exercise, and more. This is in contrast to DNA, which is generally static, changing little after conception.
Next, RNA is a more accurate snapshot of disease progression. When mutations do occur at the DNA level, these do not always result in downstream biological changes. Often, the body is able to compensate by repairing the mutation or overcome it by using redundancies in the pathway in which the gene resides. By instead evaluating RNA, we get one step closer to understanding the real impact disease is imparting on our body.
Finally, RNA is abundant. In most human cells, while only two copies of DNA are present, hundreds of thousands of mRNA molecules are present,representing more than 10,000 different species of RNA. Because even rare transcripts are present in multiple copies, biological signals can be confidently detected in RNA when the right technology is used.