The product of the nuclear gene PET309 is required for translation of mature mRNA and stability or production of intron-containing RNAs derived from the mitochondrial COX1 locus of Saccharomyces cerevisiae.

Manthey, Glenn M.; McEwen, Joan E.

doi:10.1002/j.1460-2075.1995.tb00074.x

Cited by 202 publications

(218 citation statements)

References 75 publications

Supporting

Mentioning

206

Contrasting

Order By: Relevance

“…(McMullin et al, 1990;Haffter et al, 1991;Haffter and Fox, 1992) and interactions between of Nam1p and Rpo41p (mitochondrial RNA polymerase) (Rodeheffer et al, 2001) were reported previously. Two-hybrid and genetic interactions among Pet54p, Pet122p, and Pet494p were reported previously (Brown et al, 1994;Wiesenberger et al, 1995). without eliminating respiratory complex formation, by in vivo expression of chimeric mRNAs containing 5Ј-UTLs and coding sequences derived from different respiratory complex genes (Mü ller et al, 1984;Fox, 1986, 1988;Poutre and Fox, 1987;Rö del and Fox, 1987;Mulero and Fox, 1993b;Manthey and McEwen, 1995). Thus, although the interactions among translational activators for the core cytochrome c oxidase subunits are likely to confer a selective advantage, they are not absolutely required to form the enzyme.…”

Section: Discussionmentioning

confidence: 91%

“…The core of the cytochrome c oxidase complex of mammals and yeast comprises three mitochondrially coded subunits, Cox1p, Cox2p, and Cox3p, and is surrounded by imported subunits coded by nuclear genes (Tzagoloff and Dieckmann, 1990;Tsukihara et al, 1996). Translation of each mitochondrially coded mRNA is specifically activated by distinct nuclear gene products: Pet309p for COX1 (Manthey and McEwen, 1995), Pet111p for COX2 (Mulero and Fox, 1993a,b), and Pet54p, Pet122p, and Pet494p for COX3 (Costanzo and Fox, 1988;Brown et al, 1994). Pet309p, detected as an overproduced epitope-tagged protein, is an integral inner membrane protein partially exposed on the intermembrane space side (outside) (Man-they et al, 1998).…”

Section: Introductionmentioning

confidence: 99%

See 1 more Smart Citation

Interactions amongCOX1,COX2, andCOX3mRNA-specific Translational Activator Proteins on the Inner Surface of the Mitochondrial Inner Membrane ofSaccharomyces cerevisiae

Naithani

Saracco

Butler

et al. 2003

MBoC

143

117

View full text Add to dashboard Cite

The core of the cytochrome c oxidase complex is composed of its three largest subunits, Cox1p, Cox2p, and Cox3p, which are encoded in mitochondrial DNA of Saccharomyces cerevisiae and inserted into the inner membrane from the inside. Mitochondrial translation of the COX1,COX2, and COX3 mRNAs is activated mRNA specifically by the nuclearly coded proteins Pet309p, Pet111p, and the concerted action of Pet54p, Pet122p, and Pet494p, respectively. Because the translational activators recognize sites in the 5′-untranslated leaders of these mRNAs and because untranslated mRNA sequences contain information for targeting their protein products, the activators are likely to play a role in localizing translation. Herein, we report physical associations among the mRNA-specific translational activator proteins, located on the matrix side of the inner membrane. These interactions, detected by coimmune precipitation and by two-hybrid experiments, suggest that the translational activator proteins could be organized on the surface of the inner membrane such that synthesis of Cox1p, Cox2p, and Cox3p would be colocalized in a way that facilitates assembly of the core of the cytochrome c oxidase complex. In addition, we found interactions between Nam1p/Mtf2p and the translational activators, suggesting an organized delivery of mitochondrial mRNAs to the translation system.

show abstract

Section: Discussionmentioning

confidence: 91%

Section: Introductionmentioning

confidence: 99%

Interactions amongCOX1,COX2, andCOX3mRNA-specific Translational Activator Proteins on the Inner Surface of the Mitochondrial Inner Membrane ofSaccharomyces cerevisiae

Naithani

Saracco

Butler

et al. 2003

MBoC

143

117

View full text Add to dashboard Cite

show abstract

“…The identified sequence was that of PET309, which encodes a protein required for stability and translation of COX1 mitochondrial mRNA (29). Among the open reading frames present near PET309, we identified an uncharacterized gene that we have named SPC3 (accession no.…”

Section: High Copy Suppression Of Sec11 Reveals the Yeast Homolog Tomentioning

confidence: 99%

In Addition to SEC11, a Newly Identified Gene,SPC3, Is Essential for Signal Peptidase Activity in the Yeast Endoplasmic Reticulum

Fang

Mullins

Green

1997

Journal of Biological Chemistry

View full text Add to dashboard Cite

Among the three characterized subunits comprising the signal peptidase complex of the yeast Saccharomyces cerevisiae (Sec11p, Spc1p, and Spc2p), only Sec11p is essential for cell growth, signal peptide cleavage, and signal peptidase-dependent protein degradation. Here we report the cloning of the SPC3 gene encoding the homolog to mammalian signal peptidase subunit SPC22/ 23. We find that Spc3p is also required for cell growth and signal peptidase activity within the yeast endoplasmic reticulum.Amino-terminal signal sequences of proteins targeted to the endoplasmic reticulum (ER) 1 are cleaved by a membranebound endoprotease termed signal peptidase (1, 2). This enzyme has also been shown to catalyze the proteolytic fragmentation of some abnormal membrane proteins, thereby leading to their degradation (3, 4). Isolated from the yeast Saccharomyces cerevisiae, ER signal peptidase (SP) contains four nonidentical protein subunits (5-7). Three of the subunits of this signal peptidase complex (SPC) have been functionally examined. Sec11p (17 kDa) is required for signal peptide cleavage (8) and signal peptidase-dependent protein degradation (4). Sec11p is related to two subunits of the mammalian SPC (SPC18 and SPC21) (9, 10). In contrast to Sec11p, the Spc1p (11 kDa) and Spc2p (18 kDa) subunits of the yeast SPC are nonessential for cell growth and enzyme activity (6, 7). Spc1p and Spc2p, however, perform auxiliary and nonredundant roles. Spc1p facilitates signal peptide cleavages in cells burdened with high levels of a membrane protein substrate of the signal peptidase-dependent protein degradation pathway (6). Spc2p is important for enzyme activity and cell viability at elevated temperatures (7). Spc1p and Spc2p are homologous to mammalian subunits SPC12 and SPC25, respectively (6,7,11,12).Despite the fact that a multisubunit signal peptidase has been purified from yeast and mammalian cells, enzymes exhibiting less subunit complexity have been identified in other systems. Leader peptidase from the inner membrane of E. coli consists of a single polypeptide chain (13). This protein exhibits limited homology to Sec11p and to mammalian SPC18 and SPC21 (14, 15). Signal peptidase purified from hen oviduct contains two subunits, one related to Sec11p and a second related to SPC22/23 of the mammalian SPC (16 -19).In the present study, we have cloned and characterized the SPC3 gene encoding the yeast homolog to mammalian SPC22/ 23. We find that, as with Sec11p, Spc3p is essential for signal peptide cleavage and signal peptidase-dependent protein degradation. Our data are thus in agreement with in vitro studies, using an avian system, which show that a two-subunit complex functions to cleave signal peptides. The idea that both Sec11p and Spc3p are related to the prokaryotic signal peptidase is also discussed. EXPERIMENTAL PROCEDURESPlasmid Constructs Bearing the SPC3 Gene-Plasmid pSPC3 bearing SPC3 was isolated from a high copy (2 m) plasmid library marked with LEU2 (American Type Culture Collection ATCC No. 37323). Among 5,500 ...

show abstract

“…The rapid loss of respiratory function, even under selective conditions, suggested that the revertants might be heteroplasmic cells containing both the wildtype and suppressor r À genomes. This type of mitochondrial suppressor has been reported for a number of mitochondrial protein-coding genes that fail to be expressed because of mutations in nuclear gene products that promote translation of the mRNAs by interacting with their 59-UTRs (Dieckmann et al 1984;Muller et al 1984;Rodel and Fox 1987;Manthey and McEwen 1995). The presence in W303DATP22/ R3 of a suppressor r À genome was confirmed by the mitochondrial genotypes of 104 respiratory-deficient segregants (Table 3).…”

Section: Resultsmentioning

confidence: 58%

“…Mitochondrial r À genomes with heterologous 59 upstream sequences have been shown to suppress mutations in translation factors for COX1 (Manthey and McEwen 1995), COX2 (Poutre and Fox 1987), COX3 (Muller et al 1984), and COB (Rodel and Fox 1987). These transcript-specific translation factors interact with the 59-UTRs of their cognate mRNAs.…”

Section: Discussionmentioning

confidence: 99%

The Saccharomyces cerevisiae ATP22 Gene Codes for the Mitochondrial ATPase Subunit 6-Specific Translation Factor

2007

View full text Add to dashboard Cite

Mutations in the Saccharomyces cerevisiae ATP22 gene were previously shown to block assembly of the F 0 component of the mitochondrial proton-translocating ATPase. Further inquiries into the function of Atp22p have revealed that it is essential for translation of subunit 6 of the mitochondrial ATPase. The mutant phenotype can be partially rescued by the presence in the same cell of wild-type mitochondrial DNA and a r À deletion genome in which the 59-UTR, first exon, and first intron of COX1 are fused to the fourth codon of ATP6. The COX1/ATP6 gene is transcribed and processed to the mature mRNA by splicing of the COX1 intron from the precursor. The hybrid protein translated from the novel mRNA is proteolytically cleaved at the normal site between residues 10 and 11 of the subunit 6 precursor, causing the release of the polypeptide encoded by the COX1 exon. The ability of the r À suppressor genome to express subunit 6 in an atp22 null mutant constitutes strong evidence that translation of subunit 6 depends on the interaction of Atp22p with the 59-UTR of the ATP6 mRNA.

show abstract

The product of the nuclear gene PET309 is required for translation of mature mRNA and stability or production of intron-containing RNAs derived from the mitochondrial COX1 locus of Saccharomyces cerevisiae.

Cited by 202 publications

References 75 publications

Interactions amongCOX1,COX2, andCOX3mRNA-specific Translational Activator Proteins on the Inner Surface of the Mitochondrial Inner Membrane ofSaccharomyces cerevisiae

Interactions amongCOX1,COX2, andCOX3mRNA-specific Translational Activator Proteins on the Inner Surface of the Mitochondrial Inner Membrane ofSaccharomyces cerevisiae

In Addition to SEC11, a Newly Identified Gene,SPC3, Is Essential for Signal Peptidase Activity in the Yeast Endoplasmic Reticulum

The Saccharomyces cerevisiae ATP22 Gene Codes for the Mitochondrial ATPase Subunit 6-Specific Translation Factor

Contact Info

Product

Resources

About