40S ribosomal protein S30 (Q6CUH5)

Publications
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PDB publications (8)
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Yeast Eukaryotic Initiation Factor 4B Remodels the MRNA Entry Site on the Small Ribosomal Subunit.
Datey A, Sharma P, Khaja FT, Rahil H, Hussain T et al.
Biochemistry (2025)
Related PDB entries: 8i7j go to PDBe 
Structural basis of AUC codon discrimination during translation initiation in yeast.
Villamayor-Belinchón L, Sharma P, Gordiyenko Y, Llácer JL, Hussain T et al.
Nucleic Acids Res (2024)
Related PDB entries: 8rw1 go to PDBe,  8s8d go to PDBe,  8s8e go to PDBe,  8s8f go to PDBe,  8s8g go to PDBe,  8s8h go to PDBe,  8s8i go to PDBe,  8s8j go to PDBe,  8s8k go to PDBe 
Large-scale movement of eIF3 domains during translation initiation modulate start codon selection.
Llácer JL, Hussain T, Dong J, Villamayor L, Gordiyenko Y et al.
Nucleic Acids Res 20 11491-11511 (2021)
Related PDB entries: 6gsm go to PDBe,  6gsn go to PDBe 
Long-range interdomain communications in eIF5B regulate GTP hydrolysis and translation initiation.
Huang BY, Fernández IS
Proc Natl Acad Sci U S A 3 1429-1437 (2020)
Related PDB entries: 6uz7 go to PDBe 
Translational initiation factor eIF5 replaces eIF1 on the 40S ribosomal subunit to promote start-codon recognition.
Llácer JL, Hussain T, Saini AK, Nanda JS, Kaur S et al.
Elife (2018)
Related PDB entries: 6fyx go to PDBe,  6fyy go to PDBe 
Structural characterization of ribosome recruitment and translocation by type IV IRES.
Murray J, Savva CG, Shin BS, Dever TE, Ramakrishnan V et al.
Elife (2016)
Related PDB entries: 5it7 go to PDBe,  5it9 go to PDBe 
Conformational Differences between Open and Closed States of the Eukaryotic Translation Initiation Complex.
Llácer JL, Hussain T, Marler L, Aitken CE, Thakur A et al.
Mol Cell 3 399-412 (2015)
Related PDB entries: 3jam go to PDBe,  3jap go to PDBe,  6gsm go to PDBe,  6gsn go to PDBe 
Structural changes enable start codon recognition by the eukaryotic translation initiation complex.
Hussain T, Llácer JL, Fernández IS, Munoz A, Martin-Marcos P et al.
Cell 3 597-607 (2014)
Related PDB entries: 3j80 go to PDBe,  3j81 go to PDBe 
PDB-related reviews (71)
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Making sense of mRNA translational "noise".
Related PDB entries: 6fyx go to PDBe,  6fyy go to PDBe 
The molecular basis of translation initiation and its regulation in eukaryotes.
Related PDB entries: 5it9 go to PDBe,  6fyx go to PDBe,  6fyy go to PDBe,  6gsm go to PDBe,  6gsn go to PDBe,  6uz7 go to PDBe 
Targeting paraptosis in cancer: opportunities and challenges.
Related PDB entries: 6fyx go to PDBe,  6fyy go to PDBe 
Eukaryotic translation initiation factor eIF4G2 opens novel paths for protein synthesis in development, apoptosis and cell differentiation.
Related PDB entries: 3j80 go to PDBe,  3j81 go to PDBe 
Archaea/eukaryote-specific ribosomal proteins - guardians of a complex structure.
Related PDB entries: 6fyx go to PDBe,  6fyy go to PDBe 
Surviving and Adapting to Stress: Translational Control and the Integrated Stress Response.
Related PDB entries: 3jam go to PDBe,  3jap go to PDBe 
Ribosomal Protein uS5 and Friends: Protein-Protein Interactions Involved in Ribosome Assembly and Beyond.
Related PDB entries: 6fyx go to PDBe,  6fyy go to PDBe 
Translational regulation by uORFs and start codon selection stringency.
Related PDB entries: 3j80 go to PDBe,  3j81 go to PDBe,  3jam go to PDBe,  3jap go to PDBe,  6fyx go to PDBe,  6fyy go to PDBe 
Minding the message: tactics controlling RNA decay, modification, and translation in virus-infected cells.
Related PDB entries: 5it7 go to PDBe,  5it9 go to PDBe 
RNA-Binding Proteins as Regulators of Internal Initiation of Viral mRNA Translation.
Related PDB entries: 3jam go to PDBe,  3jap go to PDBe,  6fyx go to PDBe,  6fyy go to PDBe 
UniProt publications (8)
Go to page:
Reference download: Click to download the data displayed below.
Click to download annotations in .csv format
Click to download annotations in .bibtex format
Structural basis of AUC codon discrimination during translation initiation in yeast.
Villamayor-Belinchon L., Sharma P., Gordiyenko Y., Llacer J.L., Hussain T. et al.
Nucleic Acids Res. 11317-11335 (2024)
Large-scale movement of eIF3 domains during translation initiation modulate start codon selection.
Llacer J.L., Hussain T., Dong J., Villamayor L., Gordiyenko Y. et al.
Nucleic Acids Res. 11491-11511 (2021)
Long-range interdomain communications in eIF5B regulate GTP hydrolysis and translation initiation.
Huang B.Y., Fernandez I.S.
Proc. Natl. Acad. Sci. U.S.A. 1429-1437 (2020)
Translational initiation factor eIF5 replaces eIF1 on the 40S ribosomal subunit to promote start-codon recognition.
Llacer J.L., Hussain T., Saini A.K., Nanda J.S., Kaur S. et al.
Elife e39273- (2018)
Structural characterization of ribosome recruitment and translocation by type IV IRES.
Murray J., Savva C.G., Shin B.S., Dever T.E., Ramakrishnan V. et al.
Elife e13567- (2016)
Conformational differences between open and closed states of the eukaryotic translation initiation complex.
Llacer J.L., Hussain T., Marler L., Aitken C.E., Thakur A. et al.
Mol. Cell 399-412 (2015)
Structural changes enable start codon recognition by the eukaryotic translation initiation complex.
Hussain T., Llacer J.L., Fernandez I.S., Munoz A., Martin-Marcos P. et al.
Cell 597-607 (2014)
Genome evolution in yeasts.
Dujon B., Sherman D., Fischer G., Durrens P., Casaregola S. et al.
Nature 35-44 (2004)