Abstract
In eukaryotes, 18S, 5.8S, and 28S rRNAs are transcribed as precursor molecules that undergo extensive modification and nucleolytic processing to form the mature rRNA species. Central in the process are the small nucleolar RNAs (snoRNAs). The majority of snoRNAs guide site specific chemical modifications but a few are involved in defining pre-rRNA cleavages. Here, we describe an unusual snoRNA (TtnuCD32) belonging to the box C/D subgroup from the ciliate Tetrahymena thermophila. We show that TtnuCD32 is unlikely to function as a modification guide snoRNA and that it is critical for cell viability. Cell lines with genetic knock-down of TtnuCD32 were impaired in growth and displayed two novel and apparently unrelated phenotypes. The most prominent phenotype is the accumulation of processing intermediates of 5.8S rRNA. The second phenotype is the decrease in abundance of a ~100 nt 26S rRNA fragment of unknown function. Sequence analysis demonstrated that TtnuCD32 share features with the essential snoRNA U14 but an alternative candidate (TtnuCD25) was more closely related to other U14 sequences. This, together with the fact that the observed rRNA processing phenotypes were not similar to what has been observed in U14 depleted cells, suggests that TtnuCD32 is a U14 homolog that has gained novel functions.
Highlights
The maturation of rRNA in eukaryotes is a complex process taking place mainly in the nucleolus.A large precursor ribosomal RNA is synthesized containing the 18S, 5.8S, and the 28S rRNAs with long external (50 ETS and 30 ETS) and internal (ITS-1 and ITS-2)transcribed spacers
Processing of pre-rRNA is a highly complex order of events involving a large number of protein factors such as endoand exonucleases, GTPases, ATPases, andinvolving helicases, as well as hundreds of Processing of pre-rRNA
Technical advances in recent years has made it possible to increase the understanding of the factors involved in ribosome biogenesis and their respective roles
Summary
The maturation of rRNA in eukaryotes is a complex process taking place mainly in the nucleolus.A large precursor ribosomal RNA (pre-rRNA) is synthesized containing the 18S, 5.8S, and the 28S rRNAs (human nomenclature) with long external (50 ETS and 30 ETS) and internal (ITS-1 and ITS-2)transcribed spacers. SnoRNAs, with the exception of MRP RNA, are divided into two sub-groups based on the presence of conserved sequence motives: Box C (UGAUGA) and box D (CUGA) in box C/D snoRNAs and box H (ANANNA) and ACA in box H/ACA snoRNAs. The vast majority of box C/D snoRNAs guide site-specific 20 -O-methylations (20 -O-me) whereas the box H/ACA snoRNAs guide pseudouridylations (Ψ’s) of the pre-rRNA [5,6]. The vast majority of box C/D snoRNAs guide site-specific 20 -O-methylations (20 -O-me) whereas the box H/ACA snoRNAs guide pseudouridylations (Ψ’s) of the pre-rRNA [5,6] Both sub-groups complete their undertaking through base-pairing to the target molecule with their guide sequence(s)
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