MOLECULE
Messenger RNA.
Exons are spliced together during gene expression to remove non-coding regions called introns and create a continuous sequence of coding regions that can be translated into a functional protein. This process ensures that the genetic information is accurately transcribed and translated into the correct protein, allowing for proper cellular function and organism development.
During the process of RNA splicing, introns are spliced out, while exons are joined together to form the mature mRNA molecule.
The regions of DNA that are transcribed to RNA are called exons. These exons will then be spliced together to form messenger RNA (mRNA), which will be translated into a polypeptide. Introns are the non-coding regions of DNA that are removed during the splicing process and are not translated into protein.
Exons, after the introns have been cleaved.
In mRNA, the non-coding regions called introns are spliced out during mRNA processing, leaving only the coding regions called exons to form the mature mRNA molecule. This process, known as splicing, is carried out by the spliceosome complex in eukaryotic cells.
In a eukaryotic gene, the portion that is not spliced out is the exons. Exons are the coding sequences that remain in the mature mRNA after the introns, which are non-coding regions, have been removed during the splicing process. These exons are then translated into proteins, while the introns are discarded.
The regions of the gene that are eliminated are called introns. In the process called splicing, introns are removed from the gene, leaving only the remaining regions called exons to form the mature mRNA transcript.
Non-coding sequences in pre-mRNA are called introns. These regions are removed during mRNA processing, and the remaining coding sequences, known as exons, are spliced together to form the mature mRNA that is translated into protein.
The codes for proteins are found in the exons of a gene. Exons are the coding regions of a gene that are transcribed into mRNA and translated into proteins. Introns, on the other hand, are non-coding regions that are spliced out during RNA processing and do not contribute to protein synthesis.
In RNA processing, introns are removed from pre-mRNA to generate mature mRNA. Introns are non-coding regions of the pre-mRNA that do not contain instructions for protein synthesis. The remaining exons are spliced together to form the mature mRNA that can be translated into a protein.
Introns are non-coding sequences within a gene that are transcribed but are later removed during RNA processing. Exons are the coding regions of a gene that are spliced together after introns are removed to form the mature mRNA transcript. This process is known as RNA splicing and is essential for producing functional proteins from genes.