Study discovers cellular activity that hints recycling is in our DNA
Originally published by by Rose Miyatsu, University of California - Santa Cruz , on May 11, 2024 Shown is the splicing pathway. The pre-messenger RNA (pre-mRNA) has exons (blue) and introns (pink). The spliceosome (not shown) was known to catalyze two chemical reactions (black arrows) in a two-step process (green arrows labeled 1 and 2) that splice the exons together and removes the intron as a lariat. This study demonstrates that after splicing is finished, the spliceosome is still active and can convert the lariat intron into a circle using a third reaction (green arrow 3) marked by an asterix. Credit: Manuel Ares, UC Santa Cruz Although you may not appreciate them, or have even heard of them, throughout your body , countless microscopic machines called spliceosomes are hard at work . As you sit and read, they are faithfully and rapidly putting back together the broken information in your genes by removing sequences called " introns " so that your messenger RNAs can