In this study, the researchers reveal the structure of U11 snRNP—one of the five subunits of the minor spliceosome, which initiates the intron selection process. Stitching gene pieces together ...

In this new study, the researchers reveal the structure of U11 snRNP – one of the five subunits of the minor spliceosome, which initiates the intron selection process. Stitching Gene Pieces Together ...

In this new study, the researchers reveal the structure of U11 snRNP -- one of the five subunits of the minor spliceosome, which initiates the intron selection process. Stitching gene pieces together ...

image: Structure of U11 snRNP, one of the subunits of the minor spliceosome. view more . Credit: Jiangfeng Zhao/EMBL, Daniela Velasco/EMBL. In human cells, only a small proportion of the ...

The minor spliceosome is a ribonucleoprotein complex that catalyses the removal of an atypical ... J. A. A novel spliceosome containing U11, U12, and U5 snRNPs excises a minor class (AT–AC ...

Almost 20 years after the discovery of introns and RNA splicing, a second spliceosome was uncovered. Although this new spliceosome is structurally and functionally analogous to the well ...

Think of the spliceosome as an old Transformers robot — it has individual pieces that operate independently but can also come together to form a larger structure. Sometimes, such as in the case of ...

In this new study, the researchers reveal the structure of U11 snRNP – one of the five subunits of the minor spliceosome, which initiates the intron selection process. Stitching gene pieces together ...

Researchers have revealed the structure of U11 snRNP – one of the five subunits of the minor spliceosome, which initiates the intron selection process.

Researchers unveil detailed structural insights into the minor spliceosome, shedding light on its role in gene expression and potential disease implications. ... Researchers have revealed the ...