Publications (10)21.58 Total impact
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Article: YqjD is an inner membrane protein associated with stationary-phase ribosomes in Escherichia coli.
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ABSTRACT: Here, we provide evidence that YqjD, a hypothetical protein of Escherichia coli, is an inner membrane and ribosome binding protein. This protein is expressed during the stationary growth phase, and expression is regulated by stress response sigma factor RpoS. YqjD possesses a transmembrane motif in the C-terminal region and associates with 70S and 100S ribosomes at the N-terminal region. Interestingly, E. coli possesses two paralogous proteins of YqjD, ElaB and YgaM, which are expressed and bind to ribosomes in a similar manner to YqjD. Overexpression of YqjD leads to inhibition of cell growth. It has been suggested that YqjD loses ribosomal activity and localizes ribosomes to the membrane during the stationary phase.Journal of bacteriology 06/2012; 194(16):4178-83. · 3.94 Impact Factor -
Article: Comparative proteomic analysis of the ribosomes in 5-fluorouracil resistance of a human colon cancer cell line using the radical-free and highly reducing method of two-dimensional polyacrylamide gel electrophoresis.
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ABSTRACT: Many auxiliary functions of ribosomal proteins (r-proteins) have received considerable attention in recent years. However, human r-proteins have hardly been examined by proteomic analysis. In this study, we isolated ribosomal particles and subsequently compared the proteome of r-proteins between the DLD-1 human colon cancer cell line and its 5-fluorouracil (5-FU)-resistant sub-line, DLD-1/5-FU, using the radical-free and highly reducing method of two-dimensional polyacrylamide gel electrophoresis, which has a superior ability to separate basic proteins, and we discuss the role of r-proteins in 5-FU resistance. Densitometric analysis was performed to quantify modulated proteins, and protein spots showing significant changes were identified by employing matrix-assisted laser desorption/ionization time-of-flight/time-of-flight mass spectrometry. Three basic proteins (L15, L37 and prohibitin) which were significantly modulated between DLD-1 and DLD-1/5-FU were identified. Two proteins, L15 and L37, showed down-regulated expression in DLD-1/5-FU in comparison to DLD-1. Prohibitin, which is not an r-protein and is known to be localized in the mitochondria, showed up-regulated expression in DLD-1/5-FU. These 3 proteins may be related to 5-FU resistance.International Journal of Oncology 11/2010; 37(5):1271-8. · 2.40 Impact Factor -
Article: The involvement of a PPR protein of the P subfamily in partial RNA editing of an Arabidopsis mitochondrial transcript.
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ABSTRACT: C-to-U RNA editing (i.e., alteration of a C in the genomic sequence to U in the transcript) has been confirmed widely in angiosperm organellar genomes. During the C-to-U RNA editing event, incomplete edited transcripts have been observed at many sites in the steady-state mRNA population (partial editing). Here, by using coexpression analysis and the surveillance of whole editing status on the mitochondrial genome, we have revealed that a pentatricopeptide repeat (PPR) protein classified into the P subfamily (PPR596) has site-specific influence on the efficiency of C-to-U RNA editing events at partial editing sites on the Arabidopsis thaliana mitochondrial genome. Previous works have revealed that PPR proteins classified into the PLS subfamily containing the E or E and DYW motif are involved in RNA editing as trans-factors; they are believed to recruit deaminase at editing sites. In contrast with the mutant analyses of PLS-subfamily PPR proteins, the editing efficiency at rps3eU1344SS was revealed to be significantly increased in ppr596 mutants. Our study implies P-subfamily PPR protein is involved in the control of the degree of partial editing.Gene 04/2010; 454(1-2):39-46. · 2.34 Impact Factor -
Article: Formation of 100S ribosomes in Staphylococcus aureus by the hibernation promoting factor homolog SaHPF.
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ABSTRACT: In the stationary growth phase of Escherichia coli, the 70S ribosomes are dimerized by the ribosome modulation factor (RMF) and hibernation promoting factor (HPF) proteins to form 100S ribosomes, which lose translational activity. In this study we found 100S ribosomes in the gram-positive bacterium Staphylococcus aureus, which has an HPF homolog (named SaHPF) but no RMF homolog. Unlike in E. coli, 100S ribosomes exist in all growth phases of S. aureus, with the highest levels at the transition from the exponential phase to the stationary phase. To find the key factors involved in 100S formation, we analyzed proteins associated with crude ribosomes using radical-free and highly reducing 2-D PAGE and MALDI TOF/MS. Only the SaHPF levels changed in parallel with the changes in 100S levels. SaHPF bound preferentially to 70S components in 100S ribosomes, with a molar ratio of 1 : 1 relative to the 70S, but some SaHPF was also detected in free 70S ribosomes. High-salt washing of the crude ribosomes released SaHPF and dissociated the 100S ribosomes to their 70S components. When these 70S components were incubated with purified SaHPF in vitro, they re-associated to form 100S. These results suggest that SaHPF is a key protein involved in 100S ribosome formation in S. aureus.Genes to Cells 12/2009; 15(1):43-58. · 2.68 Impact Factor -
Article: Solution structure of the E. coli ribosome hibernation promoting factor HPF: Implications for the relationship between structure and function.
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ABSTRACT: The 70S Escherichia coli ribosome dimerizes to form an inactive 100S ribosome during stationary phase, which is called "ribosome hibernation". The hibernation promoting factor HPF plays a crucial role in 100S ribosome formation. However, YfiA, a known paralog of HPF inhibits 100S formation, although it shares high sequence similarity. Here, we report the first solution structure of HPF as determined by multi-dimensional NMR. HPF adopts betaalphabetabetabetaalpha-fold and the overall structure is similar to YfiA as expected. However, detailed structure comparison based on the determined structure in this study revealed that there are remarkable differences around the C-terminal portion of helix alpha2, which is not predicted by homology modeling. Furthermore, some acidic residues conserved only in HPF are located at the rim of the common basic patch.Biochemical and Biophysical Research Communications 09/2009; 389(4):580-5. · 2.48 Impact Factor -
Article: Activities of Escherichia coli ribosomes in IF3 and RMF change to prepare 100S ribosome formation on entering the stationary growth phase.
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ABSTRACT: The canonical ribosome cycle in bacteria consists of initiation, elongation, termination, and recycling stages. After the recycling stage, initiation factor 3 (IF3) stabilizes ribosomal dissociation by binding to 30S subunits for the next round of translation. On the other hand, during the stationary growth phase, it has been elucidated that Escherichia coli ribosomes are dimerized (100S ribosome formation) by binding ribosome modulation factor (RMF) and hibernation promoting factor (HPF), leading to a hibernation stage. This indicates that 100S ribosomes are formed after these factors are scrambled for ribosomes concomitantly with transition from the log phase to the stationary phase. In this study, to elucidate the ribosomal events before 100S ribosome formation, the relationships between protein factors (RMF and HPF) involved in 100S ribosome formation and IF3 involved in initiation complex formation were examined. As a result of in vitro assays, it was found that ribosomal dissociation activity by IF3 fell, and that ribosomal dimerization activity by RMF and HPF was elevated more when using stationary-phase ribosomes than when using log-phase ribosomes. This suggests that ribosomes change into forms which are hard to bind with IF3 and easy to form 100S ribosomes by RMF and HPF concomitantly with transition from the log phase to the stationary phase.Genes to Cells 03/2009; 14(2):271-80. · 2.68 Impact Factor -
Article: Role of HPF (hibernation promoting factor) in translational activity in Escherichia coli.
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ABSTRACT: During the stationary phase of growth in Escherichia coli, ribosome modulation factor (RMF) and hibernation promoting factor (HPF) dimerize most 70S ribosomes to form 100S ribosomes. The process of 100S formation has been termed 'ribosomal hibernation'. Here, the contributions of HPF to 100S formation and translation were analysed in vitro. HPF bound to, but did not dimerize the 70S ribosome. RMF dimerized and formed immature 90S ribosomes. Binding of both HPF and RMF converted 90S ribosomes to mature 100S ribosomes, which is consistent with the in vivo data. The role of HPF in in vitro translation also was investigated. In an artificial mRNA poly (U)-dependent phenylalanine incorporation assay, HPF bound to ribosomal particles and inhibited translation. In contrast, in a natural MS2 mRNA-dependent leucine incorporation assay, bound HPF was removed and hardly inhibited normal translation. Multiple alignment and phylogenetic analyses indicates that the hibernation system mediated by the HPF homologue, RMF and 100S ribosome formation may be specific to the proteobacteria gamma group. In contrast, most bacteria have at least one HPF homologue, and these homologues can be classified into three types, long HPF, short HPF and YfiA.Journal of Biochemistry 04/2008; 143(3):425-33. · 2.37 Impact Factor -
Article: [Ribosomal hibernation induced by stress].
Tanpakushitsu kakusan koso. Protein, nucleic acid, enzyme 01/2007; 51(16 Suppl):2590-5. -
Article: [Structure and function of 100S ribosome found in the stationary growth phase of Escherichia coli].
Tanpakushitsu kakusan koso. Protein, nucleic acid, enzyme 08/2006; 51(8):966-71. -
Article: Ribosome binding proteins YhbH and YfiA have opposite functions during 100S formation in the stationary phase of Escherichia coli.
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ABSTRACT: During the stationary phase of Escherichia coli growth, ribosomal structure changes drastically. Proteins RMF, YhbH, YfiA and SRA are expressed and bind to ribosome particles. In a process named 'ribosomal hibernation,' RMF binding induces the dimerization and subsequent inactivation of 70S ribosomes. Here, we examined the functions of YhbH and YfiA in the formation of 70S dimers using deletion mutants of YhbH and YfiA. The yfiA deletion mutant expressed YhbH and RMF in the stationary phase and formed a greater number of 100S particles than the wild-type, showing that YhbH promotes and stabilizes 100S formation. In contrast, the yhbH deletion mutant expressed YfiA and RMF and produced no 70S dimers, suggesting that YfiA prevents 70S dimer formation. Thus, YhbH and YfiA have opposite functions in 70S dimer formation. YhbH and YfiA share 40% sequence homology, suggesting that their binding sites overlap and they compete for a region proximal to the P- and A-sites on 30S subunits. In the yhbH and yfiA double deletion mutant, which expresses only RMF, 70S dimers were observed as 90S particles. Since 100S particles were seen in the yfiA deletion mutant containing RMF and YhbH, YhbH probably converts immature 90S ribosomes into mature 100S particles.Genes to Cells 01/2006; 10(12):1103-12. · 2.68 Impact Factor
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Institutions
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2006–2012
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Osaka Medical College
- Department of Physics
Takatsuki, Osaka-fu, Japan
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