After the Human Genome Project, scientists were amazed to find lots of RNA molecules that don't make proteins. In addition to the 19,000 genes that code for proteins, our genetic material contains at least 20,000 long noncoding RNA (lncRNA) genes. Some recent estimates even suggest there could be as many as 100,000 of these genes. Researchers are working hard to figure out what these lncRNA genes do, but they're discovering new ones faster than they can study them. Right now, we only know the functions of less than 1% of these lncRNAs. These findings have posed a big challenge: understanding the important roles of lncRNAs in our bodies. To do this, scientists need to answer a key question – how are the functions of lncRNAs determined by their chemical sequence? Scientists believe that, like proteins, lncRNAs are made up of different building blocks that give them specific shapes and functions. This project aimed to tackle this puzzle by creating a method that can identify different parts of lncRNA molecules and figure out what they do in the cell. For the first time, this allowed us to study many lncRNA components on a large scale, helping to unlock the secrets of how lncRNAs work.