SBDS
Template:Cs1 config Template:Short description Template:Infobox gene Ribosome maturation protein SBDS is a protein that in humans is encoded by the SBDS gene.[1] An alternative transcript has been described, but its biological nature has not been determined. This gene has a closely linked pseudogene that is distally located.[2] This gene encodes a member of a highly conserved protein family that exists in all archaea and eukaryotes.
Function
The encoded protein plays an essential role in ribosome biogenesis. SBDS interacts with elongation factor-like GTPase 1 (Efl1) to disassociate eukaryotic initiation factor 6 (eIF6) from the late cytoplasmic pre-60S ribosomal subunit allowing assembly of the 80S.[2] Dynamic rotation of the SBDS protein in the ribosomal P site is coupled to a conformational switch in EFL1 that promotes eIF6 displacement through competition for an overlapping binding site on the 60S ribosomal subunit.[3] Yeast SBDS ortholog, Sdo1, functions within a pathway containing Efl1 to facilitate the release and recycling of the nucleolar shuttling factor Tif6 (yeast eIF6 ortholog) from late cytoplasmic pre-60S ribosomal subunit.[4] Knockdown of SBDS expression results in increased apoptosis in erythroid cells undergoing differentiation due to elevated ROS levels.[5] Hence SBDS is critical for normal erythropoiesis.[6]
This family is highly conserved in species ranging from archaea to vertebrates and plants. The family contains several Shwachman-Bodian-Diamond syndrome (SBDS) proteins from both mouse and humans. Shwachman-Diamond syndrome is an autosomal recessive disorder with clinical features that include pancreatic exocrine insufficiency, haematological dysfunction and skeletal abnormalities. Members of this family play a role in RNA metabolism.[1][7]
A number of uncharacterised hydrophilic proteins of about 30 kDa share regions of similarity. These include,
- Mouse protein 22A3.
- Saccharomyces cerevisiae chromosome XII hypothetical protein YLR022c.
- Caenorhabditis elegans hypothetical protein W06E11.4.
- Methanococcus jannaschii hypothetical protein MJ0592.
This particular protein sequence is highly conserved in species ranging from archaea to vertebrates and plants.[1]
Structure
The SBDS protein contains three domains, an N-terminal conserved FYSH domain, central helical domain and C-terminal domain containing an RNA-binding motif.[5]
N-terminal domain
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This protein domain appears to be very important, since mutations in this domain are usually the cause of Shwachman-Bodian-Diamond syndrome. It shares distant structural and sequence homology to a protein named YHR087W found in the yeast Saccharomyces cerevisiae. The protein YHR087W is involved in RNA metabolism, so it is probable that the SBDS N-terminal domain has the same function.[7]
The N-terminal domains contains a novel mixed alphabeta fold, four beta-strands, and four alpha-helices arranged as a three beta stranded anti-parallel-sheet.[7]
Central domain
The function of this protein domain has been difficult to elucidate. It is possible that it has a role in binding to DNA or RNA. Protein binding to form a protein complex is also another possibility. It has been difficult to infer the function from the structure since this particular domain structure is found in archea.[7]
This domain contains a very common structure, the winged helix-turn-helix.[7]
C-terminal domain
Template:Pfam box In molecular biology, the SBDS C-terminal protein domain is highly conserved in species ranging from archaea to vertebrates and plants.[1]
Members of this family are thought to play a role in RNA metabolism.[7] However, its precise function remains to be elucidated. Furthermore, its structure makes it very difficult to predict the protein domain's function.[7]
The structure of the C-terminal domain contains a ferredoxin-like fold[8] This structure has a four-stranded beta-sheet with two helices on one side.[7]
Clinical significance
Mutations within this gene are associated with Shwachman-Bodian-Diamond syndrome.[2] The two most common mutations associated with this syndrome are at positions 183–184 (TA→CT) resulting in a premature stop-codon (K62X) and a frameshift mutation at position 258 (2T→C) resulting in a stopcodon (C84fsX3).[5]
References
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Further reading
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External links
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