FOG00107
EOG88W9PF
RPP1A
sce:RPP1A
Genes: 34
EOG88W9PF
RPP1A
sce:RPP1A
Genes: 34
Protein description
RPP1A Ribosome stalk protein
SGD Description
Ribosomal stalk protein P1 alpha; involved in the interaction between translational elongation factors and the ribosome; free (non-ribosomal) P1 stimulates the phosphorylation of the eIF2 alpha subunit (Sui2p) by Gcn2p; accumulation of P1 in the cytoplasm is regulated by phosphorylation and interaction with the P2 stalk component
PomBase Description
60S acidic ribosomal protein A1|60S acidic ribosomal protein A3|60S acidic ribosomal protein Rpp1-3
AspGD Description
Ortholog(s) have protein kinase activator activity, structural constituent of ribosome activity, role in cytoplasmic translation, positive regulation of protein kinase activity and cytosolic large ribosomal subunit localization
References
Mitsui K, et al. (1988 Apr 25). cDNA and deduced amino acid sequence of acidic ribosomal protein A1 from Saccharomyces cerevisiae.
Mitsui K, et al. (1989 Jun 30). Identification of A1 protein as the fourth member of 13 kDa-type acidic ribosomal protein family in yeast Saccharomyces cerevisiae.
Newton CH, et al. (1990 Feb). A family of genes encode the multiple forms of the Saccharomyces cerevisiae ribosomal proteins equivalent to the Escherichia coli L12 protein and a single form of the L10-equivalent ribosomal protein.
Beltrame M, et al. (1990 May). A gene family for acidic ribosomal proteins in Schizosaccharomyces pombe: two essential and two nonessential genes.
Santos C, et al. (1993 Apr 27). The acidic phosphoproteins from Saccharomyces cerevisiae ribosomes. NH2-terminal acetylation is a conserved difference between P1 and P2 proteins.
Planta RJ, et al. (1998 Mar 30). The list of cytoplasmic ribosomal proteins of Saccharomyces cerevisiae.
Arnold RJ, et al. (1999 Dec 24). The action of N-terminal acetyltransferases on yeast ribosomal proteins.
Guarinos E, et al. (2001 Aug 31). Asymmetric interactions between the acidic P1 and P2 proteins in the Saccharomyces cerevisiae ribosomal stalk.
Krokowski D, et al. (2006 Apr). Yeast ribosomal P0 protein has two separate binding sites for P1/P2 proteins.
Ben-Shem A, et al. (2011 Dec 16). The structure of the eukaryotic ribosome at 3.0 Å resolution.
Carpy A, et al. (2014 Aug). Absolute proteome and phosphoproteome dynamics during the cell cycle of Schizosaccharomyces pombe (Fission Yeast).
Sideri T, et al. (2014 Dec 1). Parallel profiling of fission yeast deletion mutants for proliferation and for lifespan during long-term quiescence.
Ban N, et al. (2014 Feb). A new system for naming ribosomal proteins.
Lucena R, et al. (2015 May 11). Nucleocytoplasmic transport in the midzone membrane domain controls yeast mitotic spindle disassembly.
| Mitochondrial localization predictions | ||
|---|---|---|
| Predotar | TargetP | MitoProt |
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| Raw data
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| Phobius transmembrane predictions
0 genes with posterior transmembrane prediction > 50% |
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FOG00108
EOG88W9PF
RPP1B
sce:RPP1B
Genes: 25
EOG88W9PF
RPP1B
sce:RPP1B
Genes: 25
Protein description
RPP1B Ribosome stalk protein
SGD Description
Ribosomal protein P1 beta; component of the ribosomal stalk, which is involved in interaction of translational elongation factors with ribosome; free (non-ribosomal) P1 stimulates the phosphorylation of the eIF2 alpha subunit (Sui2p) by Gcn2p; accumulation is regulated by phosphorylation and interaction with the P2 stalk component
References
Remacha M, et al. (1988 Jul 5). Independent genes coding for three acidic proteins of the large ribosomal subunit from Saccharomyces cerevisiae.
Newton CH, et al. (1990 Feb). A family of genes encode the multiple forms of the Saccharomyces cerevisiae ribosomal proteins equivalent to the Escherichia coli L12 protein and a single form of the L10-equivalent ribosomal protein.
Santos C, et al. (1993 Apr 27). The acidic phosphoproteins from Saccharomyces cerevisiae ribosomes. NH2-terminal acetylation is a conserved difference between P1 and P2 proteins.
Planta RJ, et al. (1998 Mar 30). The list of cytoplasmic ribosomal proteins of Saccharomyces cerevisiae.
Guarinos E, et al. (2001 Aug 31). Asymmetric interactions between the acidic P1 and P2 proteins in the Saccharomyces cerevisiae ribosomal stalk.
Krokowski D, et al. (2006 Apr). Yeast ribosomal P0 protein has two separate binding sites for P1/P2 proteins.
Ben-Shem A, et al. (2011 Dec 16). The structure of the eukaryotic ribosome at 3.0 Å resolution.
Ban N, et al. (2014 Feb). A new system for naming ribosomal proteins.
| Mitochondrial localization predictions | ||
|---|---|---|
| Predotar | TargetP | MitoProt |
 |
 |
 |
| Raw data
|
||
| Phobius transmembrane predictions
0 genes with posterior transmembrane prediction > 50% |
||
FOG00109
EOG88W9PF
RPP2A
sce:RPP2A
Genes: 2
EOG88W9PF
RPP2A
sce:RPP2A
Genes: 2
Protein description
RPP2A Ribosome stalk protein
SGD Description
Ribosomal protein P2 alpha; a component of the ribosomal stalk, which is involved in the interaction between translational elongation factors and the ribosome; free (non-ribosomal) P2 stimulates the phosphorylation of the eIF2 alpha subunit (Sui2p) by Gcn2p; regulates the accumulation of P1 (Rpp1Ap and Rpp1Bp) in the cytoplasm
References
Mitsui K, et al. (1988 Apr 25). cDNA and deduced amino acid sequence of acidic ribosomal protein A2 from Saccharomyces cerevisiae.
Remacha M, et al. (1988 Jul 5). Independent genes coding for three acidic proteins of the large ribosomal subunit from Saccharomyces cerevisiae.
Newton CH, et al. (1990 Feb). A family of genes encode the multiple forms of the Saccharomyces cerevisiae ribosomal proteins equivalent to the Escherichia coli L12 protein and a single form of the L10-equivalent ribosomal protein.
Santos C, et al. (1993 Apr 27). The acidic phosphoproteins from Saccharomyces cerevisiae ribosomes. NH2-terminal acetylation is a conserved difference between P1 and P2 proteins.
Planta RJ, et al. (1998 Mar 30). The list of cytoplasmic ribosomal proteins of Saccharomyces cerevisiae.
Arnold RJ, et al. (1999 Dec 24). The action of N-terminal acetyltransferases on yeast ribosomal proteins.
Ballesta JP, et al. (1999 Oct). Phosphorylation of the yeast ribosomal stalk. Functional effects and enzymes involved in the process.
Guarinos E, et al. (2001 Aug 31). Asymmetric interactions between the acidic P1 and P2 proteins in the Saccharomyces cerevisiae ribosomal stalk.
Krokowski D, et al. (2006 Apr). Yeast ribosomal P0 protein has two separate binding sites for P1/P2 proteins.
Ben-Shem A, et al. (2011 Dec 16). The structure of the eukaryotic ribosome at 3.0 Å resolution.
Starita LM, et al. (2012 Jan). Sites of ubiquitin attachment in Saccharomyces cerevisiae.
Ban N, et al. (2014 Feb). A new system for naming ribosomal proteins.
| Mitochondrial localization predictions | ||
|---|---|---|
| Predotar | TargetP | MitoProt |
 |
 |
 |
| Raw data
|
||
| Phobius transmembrane predictions
0 genes with posterior transmembrane prediction > 50% |
||
FOG00110
EOG88W9PF
RPP2B
sce:RPP2B
Genes: 42
EOG88W9PF
RPP2B
sce:RPP2B
Genes: 42
Protein description
RPP2B Ribosome stalk protein
SGD Description
Ribosomal protein P2 beta; a component of the ribosomal stalk, which is involved in the interaction between translational elongation factors and the ribosome; free (non-ribosomal) P2 stimulates the phosphorylation of the eIF2 alpha subunit (Sui2p) by Gcn2p; regulates the accumulation of P1 (Rpp1Ap and Rpp1Bp) in the cytoplasm
PomBase Description
60S acidic ribosomal protein A2|60S acidic ribosomal protein A4
AspGD Description
Ortholog(s) have protein kinase activator activity, structural constituent of ribosome activity, role in cytoplasmic translation, positive regulation of protein kinase activity and cytosolic large ribosomal subunit localization
References
Itoh T, et al. (1981 Nov 30). Primary structure of an acidic ribosomal protein YPA1 from Saccharomyces cerevisiae. Isolation and characterization of peptides and the complete amino acid sequence.
Remacha M, et al. (1988 Jul 5). Independent genes coding for three acidic proteins of the large ribosomal subunit from Saccharomyces cerevisiae.
Newton CH, et al. (1990 Feb). A family of genes encode the multiple forms of the Saccharomyces cerevisiae ribosomal proteins equivalent to the Escherichia coli L12 protein and a single form of the L10-equivalent ribosomal protein.
Beltrame M, et al. (1990 May). A gene family for acidic ribosomal proteins in Schizosaccharomyces pombe: two essential and two nonessential genes.
Santos C, et al. (1993 Apr 27). The acidic phosphoproteins from Saccharomyces cerevisiae ribosomes. NH2-terminal acetylation is a conserved difference between P1 and P2 proteins.
Planta RJ, et al. (1998 Mar 30). The list of cytoplasmic ribosomal proteins of Saccharomyces cerevisiae.
Arnold RJ, et al. (1999 Dec 24). The action of N-terminal acetyltransferases on yeast ribosomal proteins.
Guarinos E, et al. (2001 Aug 31). Asymmetric interactions between the acidic P1 and P2 proteins in the Saccharomyces cerevisiae ribosomal stalk.
Krokowski D, et al. (2006 Apr). Yeast ribosomal P0 protein has two separate binding sites for P1/P2 proteins.
Chi A, et al. (2007 Feb 13). Analysis of phosphorylation sites on proteins from Saccharomyces cerevisiae by electron transfer dissociation (ETD) mass spectrometry.
Beltrao P, et al. (2009 Jun 16). Evolution of phosphoregulation: comparison of phosphorylation patterns across yeast species.
Paul SK, et al. (2009 Sep). A large complex mediated by Moc1, Moc2 and Cpc2 regulates sexual differentiation in fission yeast.
Stewart EV, et al. (2011 Apr 22). Yeast SREBP cleavage activation requires the Golgi Dsc E3 ligase complex.
Ben-Shem A, et al. (2011 Dec 16). The structure of the eukaryotic ribosome at 3.0 Å resolution.
Starita LM, et al. (2012 Jan). Sites of ubiquitin attachment in Saccharomyces cerevisiae.
Chen Z, et al. (2012 Oct). A genetic screen to discover pathways affecting cohesin function in Schizosaccharomyces pombe identifies chromatin effectors.
Carpy A, et al. (2014 Aug). Absolute proteome and phosphoproteome dynamics during the cell cycle of Schizosaccharomyces pombe (Fission Yeast).
Ban N, et al. (2014 Feb). A new system for naming ribosomal proteins.
Lucena R, et al. (2015 May 11). Nucleocytoplasmic transport in the midzone membrane domain controls yeast mitotic spindle disassembly.
| Mitochondrial localization predictions | ||
|---|---|---|
| Predotar | TargetP | MitoProt |
 |
 |
 |
| Raw data
|
||
| Phobius transmembrane predictions
1 genes with posterior transmembrane prediction > 50% |
||
FOG00111
EOG88W9PF
sce:absent
Genes: 3
EOG88W9PF
sce:absent
Genes: 3
| Mitochondrial localization predictions | ||
|---|---|---|
| Predotar | TargetP | MitoProt |
 |
 |
 |
| Raw data
|
||
| Phobius transmembrane predictions
0 genes with posterior transmembrane prediction > 50% |
||
FOG00112
sce:absent
Genes: 2
sce:absent
Genes: 2
| Mitochondrial localization predictions | ||
|---|---|---|
| Predotar | TargetP | MitoProt |
 |
 |
 |
| Raw data
|
||
| Phobius transmembrane predictions
0 genes with posterior transmembrane prediction > 50% |
||
