AI Article Synopsis
- The SBDS gene in humans and its yeast version SDO1 are crucial for creating ribosomes, with SDO1 helping recycle factors important for ribosome assembly.
- Researchers characterized the SBDS ortholog from Trypanosoma cruzi (TcSBDS), which shows it also plays a role in ribosome biosynthesis by co-fractionating with polysomes.
- TcSBDS has a unique 200 amino acid long C-terminal extension that helps it interact with RNA, suggesting that this extended region could provide extra functions in ribosome biogenesis for certain organisms, especially those in the Trypanosomatidae family.
Article Abstract
The human SBDS gene and its yeast ortholog SDO1 encode essential proteins that are involved in ribosome biosynthesis. SDO1 has been implicated in recycling of the ribosomal biogenesis factor Tif6p from pre-66S particles as well as in translation activation of 60S ribosomes. The SBDS protein is highly conserved, containing approximately 250 amino acid residues in animals, fungi and Archaea, while SBDS orthologs of plants and a group of protists contain an extended C-terminal region. In this work, we describe the characterization of the Trypanosoma cruzi SBDS ortholog (TcSBDS). TcSBDS co-fractionates with polysomes in sucrose density gradients, which is consistent with a role in ribosome biosynthesis. We show that TcSBDS contains a C-terminal extension of 200 amino acids that displays the features of intrinsically disordered proteins as determined by proteolytic, circular dichroism and NMR analyses. Interestingly, the C-terminal extension is responsible for TcSBDS-RNA interaction activity in electrophoretic mobility shift assays. This finding suggests that Trypanosomatidae and possibly also other organisms containing SBDS with extended C-terminal regions have evolved an additional function for SBDS in ribosome biogenesis.
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| http://dx.doi.org/10.1016/j.biochi.2008.12.001 | DOI Listing |
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