We used 2D protein gel electrophoresis and DNA microarray technologies to systematically analyze genes under glucose repression in B:acillus subtilis. In particular, we focused on genes expressed after the shift from glycolytic to gluconeogenic at the middle logarithmic phase of growth in a nutrient sporulation medium, which remained repressed by the addition of glucose. We also examined whether or not glucose repression of these genes was mediated by CcpA, the catabolite control protein of this bacterium. The wild-type and ccpA1 cells were grown with and without glucose, and their proteomes and transcriptomes were compared. 2D gel electrophoresis allowed us to identify 11 proteins, the synthesis of which was under glucose repression. Of these proteins, the synthesis of four (IolA, I, S and PckA) was under CcpA-independent control. Microarray analysis enabled us to detect 66 glucose-repressive genes, 22 of which (glmS, acoA, C, yisS, speD, gapB, pckA, yvdR, yxeF, iolA, B, C, D, E, F, G, H, I, J, R, S and yxbF ) were at least partially under CcpA-independent control. Furthermore, we found that CcpA and IolR, a repressor of the iol divergon, were involved in the glucose repression of the synthesis of inositol dehydrogenase encoded by iolG included in the above list. The CcpA-independent glucose repression of the iol genes appeared to be explained by inducer exclusion.
Male gametogenesis in plants can be impaired by an incompatibility between nuclear and mitochondrial genomes, termed cytoplasmic male sterility (CMS). A sterilizing factor resides in mitochondria, whereas a nuclear factor, Restorer-of-fertility (Rf), restores male fertility. Although a majority of plant Rf genes are thought to encode a family of RNA-binding proteins called pentatrico-peptide repeat (PPR) proteins, we isolated a novel type of Rf from sugar beet. Two BACs and one cosmid clone that constituted a 383-kbp contig covering the sugar beet Rf1 locus were sequenced. Of 41 genes borne by the contig, quadruplicated genes were found to be associated with specific transcripts in Rf1 flower buds. The quadruplicated genes encoded a protein resembling OMA1, a protein known from yeast and mammals to be involved in mitochondrial protein quality control. Construction of transgenic plants revealed that one of the four genes (bvORF20) was capable of restoring partial pollen fertility to CMS sugar beet; the level of restoration was comparable to that evaluated by a crossing experiment. However, the other genes lacked such a capability. A GFP-fusion experiment showed that bvORF20 encoded a mitochondrial protein. The corresponding gene was cloned from rf1rf1 sugar beet and sequenced, and a solitary gene that was similar but not identical to bvORF20 was found. Genetic features exhibited by sugar beet Rf1, such as gene clustering and copy-number variation between Rf1 and rf, were reminiscent of PPR-type Rf, suggesting that a common evolutionary mechanism(s) operates on plant Rfs irrespective of the translation product.
SUMMARYGenetic conflict between cytoplasmically inherited elements and nuclear genes arising from their different transmission patterns can be seen in cytoplasmic male sterility (CMS), the mitochondrion-encoded inability to shed functional pollen. CMS is associated with a mitochondrial open reading frame (ORF) that is absent from non-sterility inducing mitochondria (S-orf). Nuclear genes that suppress CMS are called restorer-of-fertility (Rf) genes. Post-transcriptional and translational repression of S-orf mediates the molecular action of Rf that encodes a class of RNA-binding proteins with pentatricopeptide repeat (PPR) motifs. Besides the PPR-type of Rfs, there are also non-PPR Rfs, but the molecular interactions between non-PPR Rf and S-orf have not been described. In this study, we investigated the interaction of bvORF20, a non-PPR Rf from sugar beet (Beta vulgaris), with preSatp6, the S-orf from sugar beet. Anthers expressing bvORF20 contained a protein that interacted with preSATP6 protein. Analysis of anthers and transgenic calli expressing a FLAGtagged bvORF20 suggested the binding of preSATP6 to bvORF20. To see the effect of bvORF20 on pre-SATP6, which exists as a 250-kDa protein complex in CMS plants, signal bands of preSATP6 in bvORF20-expressing and non-expressing anthers were compared by immunoblotting combined with Blue Native polyacrylamide gel electrophoresis. The signal intensity of the 250-kDa band decreased significantly, and 200-and 150-kDa bands appeared in bvORF20-expressing anthers. Transgenic callus expressing bvORF20 also generated the 200-and 150-kDa bands. The 200-kDa complex is likely to include both preSATP6 and bvORF20. Post-translational interaction between preSATP6 and bvORF20 appears to alter the higher order structure of preSATP6 that may lead to fertility restoration in sugar beet.
Twenty-nine mitochondrial genomes from 19 angiosperm species have been completely sequenced and have been found to vary in genome size and gene content. Seven of these mitochondrial genomes are known to induce cytoplasmic male sterility (CMS), and thus can be utilized for hybrid seed production or the prevention of pollen dispersal. Genome rearrangement frequently is observed in MS-inducing mitochondria, but it also occurs as part of the normal inter- or intraspecific variation in male fertile (MF) mitochondria. Sequence analyses have revealed that the repertoire of genuine genes is indistinguishable between MS-inducing and MF mitochondria. Deleterious mutations appear to be rare in MS-inducing mitochondria, which may be consistent with the lack of systemic manifestation of CMS. On the other hand, several nucleotide substitutions remain to be investigated for their potential mild effects. Various mitochondrial ORFs are associated with CMS (CMS-ORFs). There are some common but not strict features shared by CMS-ORFs such as their uniqueness to the CMS mitochondrial genome, their association with genes for ATPase subunits, and the hydrophobic nature of their putative translation products. It should be noted that some CMS-ORFs do not satisfy all of these criteria, and ORFs that satisfy these criteria are not necessarily associated with CMS. Therefore, it is difficult to infer the capability of MS induction of mitochondrial genomes solely from their nucleotide sequences. Morphological, physiological, and molecular biological studies suggest that multiple mechanisms cause CMS. Nuclear genes that suppress CMS have been identified. Post-transcriptional suppression of CMS-ORFs mediated by a certain class of RNA binding proteins (pentatrico peptide repeat proteins) is the predominant mechanism of fertility restoration. On the other hand, CMS suppression that is not associated with post-transcriptional suppression of CMS-ORFs has also been reported, suggesting that various types of gene-products are involved in fertility restoration
A sensitive assay system for receptor activity of gangliosides to paramyxovirus was developed. This system involves incorporation of gangliosides into neuraminidase-treated chicken erythrocytes (asialoerythrocytes) followed by estimation of virus-mediated agglutination and hemolysis. The asialoerythrocytes coated with I-active ganglioside (Sia alpha 2-3Gal beta 1-4GlcNAc beta 1-3(Gal alpha 1-3Gal beta 1-4GlcNAc beta 1-6)Gal beta 1-4GlcNAc beta 1-3Gal beta 1-4Glc beta 1-Cer) were effectively agglutinated by hemagglutinating virus of Japan (HVJ, Sendai virus). The hemolysis of the asialoerythrocytes mediated by HVJ was restored to the highest level by labeling the cells with gangliosides possessing lacto-series oligosaccharide chains, i.e., I-active ganglioside, N-acetylneuraminosylparagloboside (SiaPG(NeuAc)), and i-active ganglioside (Sia alpha 2-3Gal beta 1-4GlcNAc beta 1-3Gal beta 1-4GlcNAc beta 1-3Gal beta 1-4Glc beta 1-Cer). The specific receptor activity of ganglioside GD1a possessing a gangliotetraose chain was lower than those of the gangliosides described above. Gangliosides GM3, GD3, GM1a, GD1b, SiaPG(NeuGc) showed little effect on the restoration of HVJ-mediated hemolysis. On infection with Newcastle disease virus (NDV), the highest specific restoration of lysis was found in chicken asialoerythrocytes coated with SiaPG(NeuAc or NeuGc) and GM3(NeuAc or NeuGc), whereas those coated with I-active ganglioside, GD3, GM1a, and GD1b showed very low NDV-mediated hemolysis. The above results indicate that the determinants of receptor for HVJ contain sialylated branched and/or linear lacto-series oligosaccharides carried by I,i-active gangliosides and SiaPG(NeuAc) and sialosylgangliotetraose chain carried by GD1a. The determinants for NDV are carried by SiaPG(NeuAc or NeuGc) containing linear lacto-series oligosaccharide and GM3(NeuAc or NeuGc). The absence of detectable binding of free oligosaccharides obtained from I-active ganglioside and sialoglycoprotein GP-2 isolated from bovine erythrocyte membranes as HVJ receptor (Suzuki, Y., et al. J. Biochem. (1983) 93, 1621-1633; (1984) 95, 1193-1200) indicates that HVJ recognizes the sialooligosaccharides oriented out of the lipid bilayer in the cell membranes where the hydrophobic ceramide or peptide backbone of the receptor is integrated.
Identification and characterization of a semi-dominant restorer-of-fertility 1 allele in sugar beet (Beta vulgaris
We investigated the organization and expression of the Bacillus subtilis sigY operon, the first gene of which codes for sigmaY, a member of the extracytoplasmic function (ECF) family of sigma factors. The sigY operon, comprising six genes (sigY, yxlC, D, E, F, and G), was induced upon nitrogen starvation; it was continuously transcribed from the 31st base upstream of sigY to a neighboring convergent gene, yxlH, resulting in a 4.2-kb mRNA. The expression of the sigY operon was also positively autoregulated through sigmaY, suggesting that its transcription is likely to be directed by sigmaY. Deletion analysis of the sigY promoter, which was localized by primer extension, revealed the promoter region of sigY with the "-10" and "-35" sequences of CGTC and TGAACG, respectively. The latter sequence was distinct from those recognized by sigmaW, sigmaX, and sigmaM. The sigmaY-directed transcription of sigY was under negative regulation involving YxlD. sigY disruption affected sporulation induced by nitrogen starvation, but sigY induction upon nitrogen starvation was not associated with the sporulation process. The organization and function of the sigY operon are significantly conserved in several microorganisms living in adverse living environments.
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