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A research team from the Cancer Science Institute of Singapore (CSI Singapore) at the National University of Singapore has made a breakthrough in research.
Under the leadership of Professor Daniel Tenan and Dr.
"This work is one of the few studies showing that mRNA modification is related to cancer development
"In the past decade, the ability to sequence the human genome has changed the study of normal processes and diseases such as cancer
The team’s breakthrough was published in the well-known scientific journal "Science Advances" on August 4, 2021
What is RNA modification?
Although most people are familiar with DNA, RNA plays an equally important role in human cell function
For example, messenger RNA (mRNA) conveys genetic information that directs the production of different proteins
Other types of RNA perform other important functions
Small chemical modifications to RNA sometimes occur and change the function and stability of the molecule
In a large number of patient cohorts, collecting and processing patient samples is challenging
Software makes epitranscriptomics easier
The software developed by the CSI Singapore team used RNA sequences obtained from other large clinical cohort studies
Unlike other models, ModTect does not require a database of mismatch signal profiles corresponding to different types of RNA modifications to identify or classify them
By applying the software to the RNA sequencing dataset of approximately 11,000 cancer patients, the CSI Singapore team was able to conduct a new study investigating the association between RNA modification and patient clinical outcomes
Solve the mystery of sequence differences that escape detection
As mentioned earlier, transferring genetic information from the DNA in the nucleus to the RNA molecule and carrying it to the ribosome of the cell is a key process
The Singapore CSI team found a potential explanation why these RNA modification signals have not been detected for many years
To solve this problem, the research team used a newly developed reverse transcriptase, an enzyme known for bypassing the effects of these modification sites
Epitranscriptomics is still an emerging and rapidly developing field, with approximately 170 RNA modifications detected so far
.
By using ModTect, Professor Tenen and his team can provide new insights into the relationship between human diseases (such as cancer) and this RNA modification
.
The software will be made public on Github for other scientists to use
.
The team hopes that their contributions will help further research to establish any potential causal or mechanistic relationship between RNA modification and tumor formation
.
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