Researchers have identified microRNA-93 as a key genetic driver of fatty liver disease and discovered that vitamin B3 can effectively shut it down. This finding suggests a safe, widely available ...

A new study suggests Vitamin B3 may help reverse fatty liver disease by targeting microRNA-93, which drives fat buildup. By ...

Once considered cellular junk, non-coding RNAs are emerging as key players in everything from brain development to cancer — ...

Scientists profiling small non-coding RNAs in postmortem brain tissue from people with schizophrenia and bipolar disorder have identified sweeping molecular disruptions that extend well beyond the ...

Metabolic-associated fatty liver disease (MASLD) impacts roughly 30% of people globally and has long lacked effective, ...

The agreement was rolled back following strong opposition from community members who were present at the meeting.

Fatty liver disease has become increasingly common worldwide, on par with obesity, and is rising at an alarming rate. It is ...

A new study in Nature has mapped, at atomic resolution, how the enzyme DICER slices precursor microRNAs at exactly the right ...

A new study suggests that a common nutrient-vitamin B3-may help treat metabolic-associated fatty liver disease, a condition ...

Good morning, and welcome to Sarepta's preliminary data readout of its Phase I/II studies for DM1 and FSHD. As a reminder, today's program is being recorded. At this time, I'll turn the call over to ...

Researchers have discovered that a tiny molecule, known as microRNA-93 (miR-93), is the primary driver of fatty liver disease ...

Orphan designation reflects unmet need in RP rather than evidence of efficacy, while offering development incentives and ...