RNA splicing is a cellular process that is critical for gene expression. After genes are copied from DNA into messenger RNA, ...

Human genes that encode proteins often contain non-coding segments known as introns. Removing introns is crucial for the proper expression of genetic information. Understanding how our cells ...

A complex molecular machine, the spliceosome, ensures that the genetic information from the genome, after being transcribed ...

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 ...

The fit between a splice site and the spliceosome components that bind it influences splicing activity. Strong splice sites closely match consensus sequences and are efficiently recognized by the ...

In human cells, only a small proportion of the information written in genes is used to produce proteins. How does the cell ...

A complex molecular machine, the spliceosome, ensures that the genetic information from the genome, after being transcribed ...

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 ...

The major spliceosome consists of five subunits, U1, U2, U4, U6, and U5 small nuclear ribonucleoprotein particles (snRNPs, read “snurps”) – and about 150 proteins, involved in different stages of the ...

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.