RNA modifications can encrypt the RNA code and are responsible for a very sophisticated control of RNA function. A Danish-German research team has shown that modified RNA bases have a great impact on the dynamics of gene expression from DNA to functional RNA. The study yields important new insight into how the basis of RNA modifications can affect the function of mature RNA molecules.The genetic material, DNA, is located in the cell nucleus where gene expression is controlled. DNA is copied into the less stable RNA for translation into protein in the cytoplasm (mRNA or protein-coding RNA) or for mediating independent functions as non-coding RNA. RNA is processed through several maturation steps to ensure its proper expression and localization. One of these maturation steps is called splicing. The non-functional introns are excised from the newly made RNA in the splicing process to build a mature and functional RNA consisting of exons only.
RNA is composed of four bases (abbreviated A, U, G and C), thereby disseminating its message with a fairly simple code. In recent years, research has shown an unprecedented impact of RNA modifications at all steps of the maturation process. More than a hundred RNA modifications have been identified with roles in both inhibiting and facilitating binding to proteins, DNA and other RNA molecules. This encryption by RNA modification is a way to prevent the message of the RNA in being read by the wrong recipients.
(Score: 4, Funny) by Runaway1956 on Monday June 25 2018, @01:51AM
When fully decrypted, it is necessary to read the message all the way to the end. "This is alpha software, in testing stage. It is anticipated that a complete rewrite will be necessary before beta is released. Testing will be continued is a galaxy far, far away."