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

The major spliceosome is abundant in cells and has been extensively investigated for more than four decades. Its long-separated twin – the minor spliceosome, is much more scarce and remains enigmatic, ...

The spliceosome does the genetic cutting and pasting. It is a complicated complex, made up of four major parts and more than 100 accessory proteins that come together and break apart throughout the ...

There are two varieties of spliceosomes, the so-called major and minor. The major spliceosome is by far the most abundant, such that the role of its minor counterpart is often disregarded.

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 ...

In most eukaryotic cells, two types of spliceosome work in parallel to stitch gene pieces together: the major spliceosome and the minor spliceosome.

Researchers explored the role of the minor intron-containing gene (MIG)-encoded proteins (MIG-Ps) depending on minor spliceosome-MiG excision to be expressed in infections by pathogenic viruses.

The spliceosome does the genetic cutting and pasting. It is a complicated complex, made up of four major parts and more than 100 accessory proteins that come together and break apart throughout ...

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 ...