RNA splicing is a cellular process that is critical for gene expression. After genes are copied from DNA into messenger RNA, portions of the RNA that don't code for proteins, called introns, are cut ...

RNA splicing is a cellular process that is critical for gene expression. After genes are copied from DNA into messenger RNA, portions of the RNA that don't code for proteins, called introns, are cut ...

RNA splicing is crucial for gene expression. After DNA is copied into messenger RNA (mRNA), noncoding parts called introns are removed, and the coding parts are spliced together.

Introns, once thought to be useless RNA segments, help regulate protein production by degrading mRNA. Researchers found that introns become more stable under stress, hinting at a possible survival ...

The nucleotide sequence of a gene consists of coding (exons) and noncoding (introns) regions. The exons determine the amino acid sequence of the protein. The coding sequence can be interrupted by ...

2009; Fang et al., 2017). Figure 1. The exon/intron structure of selected plant stress-related genes in representatives of different taxa. Exons are indicated by boxes, and introns are indicated by ...

Pathways related to extracellular matrix, mammalian target of rapamycin signalling, splicing of introns and exons and the ribosome complex are ... of the Institut Universitaire de Cardiologie et de ...

With the advancements of molecular genetics and the identification of mutations in the genes encoding the cardiac ryanodine receptor and cardiac calsequestrin 2 in patients with CPVT, the central role ...