Characterization of Raphanus sativus Pentatricopeptide Repeat Proteins Encoded by the Fertility Restorer Locus for Ogura Cytoplasmic Male Sterility

Cytoplasmic male sterility is a maternally inherited trait in higher plants that prevents the production of functional pollen. Ogura cytoplasmic male sterility in radish (Raphanus sativus) is regulated by the orf138 mitochondrial locus. Male fertility can be restored when orf138 accumulation is suppressed by the nuclear Rfo locus, which consists of three genes putatively encoding highly similar pentatricopeptide repeat proteins (PPR-A, -B, and -C). We produced transgenic rapeseed (Brassica napus) plants separately expressing PPR-A and PPR-B and demonstrated that both encoded proteins accumulated preferentially in the anthers of young flower buds. Immunodetection of ORF138 showed that, unlike PPR-B, PPR-A had no effect on the synthesis of the sterility protein. Moreover, immunolocalization experiments indicated that complete elimination of ORF138 from the tapetum of anthers correlated with the restoration of fertility. Thus, the primary role of PPR-B in restoring fertility is to inhibit ORF138 synthesis in the tapetum of young anthers. In situ hybridization experiments confirmed, at the cellular level, that PPR-B has no effect on the accumulation of orf138 mRNA. Lastly, immunoprecipitation experiments demonstrated that PPR-B, but not PPR-A, is associated with the orf138 RNA in vivo, linking restoration activity with the ability to directly or indirectly interact with the orf138 RNA. Together, our data support a role for PPR-B in the translational regulation of orf138 mRNA.     

A male sterility-associated cytotoxic protein ORF288 in Brassica juncea causes aborted pollen development

Cytoplasmic male sterility (CMS) is a widespread phenomenon in higher plants, and several studies have established that this maternally inherited defect is often associated with a mitochondrial mutant. Approximately 10 chimeric genes have been identified as being associated with corresponding CMS systems in the family Brassicaceae, but there is little direct evidence that these genes cause male sterility. In this study, a novel chimeric gene (named orf288) was found to be located downstream of the atp6 gene and co-transcribed with this gene in the hau CMS sterile line. Western blotting analysis showed that this predicted open reading frame (ORF) was translated in the mitochondria of male-sterile plants. Furthermore, the growth of Escherichia coli was significantly repressed in the presence of ORF288, which indicated that this protein is toxic to the E. coli host cells. To confirm further the function of orf288 in male sterility, the gene was fused to a mitochondrial-targeting pre-sequence under the control of the Arabidopsis APETALA3 promoter and introduced into Arabidopsis thaliana. Almost 80% of transgenic plants with orf288 failed to develop anthers. It was also found that the independent expression of orf288 caused male sterility in transgenic plants, even without the transit pre-sequence. Furthermore, transient expression of orf288 and green fluorescent protein (GFP) as a fused protein in A. thaliana protoplasts showed that ORF288 was able to anchor to mitochondria even without the external mitochondrial-targeting peptide. These observations provide important evidence that orf288 is responsible for the male sterility of hau CMS in Brassica juncea.     

A new fertility restorer locus linked closely to the Rfo locus for cytoplasmic male sterility in radish

In this study, we have investigated a new fertility restorer (Rf) locus for cytoplasmic male sterility (CMS) in radish. We have obtained a CMS-Rf system consisting of sterile line '9802A1', maintainer line '9802B1' and restorer line '9802H'. F(1) plants from cross between sterile line '9802A1' and restorer line '9802H' were all male fertile, self pollination of F(1) plants produced an F(2) segregating population consisting of 600 individuals. The segregating population was found to fit a segregation ratio 3:1 for male fertile and sterile types, indicating that male fertility is restored by a single dominant gene (termed Rfo2) in the CMS-Rf system. Based on the DNA sequence of Rfo/Rfk1 (AJ535623), just one full length gene in the sterile line '9802A1', in the restorer line '9802H' and in the male fertile line '2006H', was cloned, respectively. The three sequences correspond to the same gene with two alleles: Rfob in '9802H' and rfob in '9802A1' and '2006H'. These two alleles differ from Rfo/Rfk1 and rfk1 (AJ535624) alleles by two synonymous base substitutions, respectively. Based on the differences between the Rfob and rfob genes, one PCR-based marker was developed, and designated Marker 1, which is identical to the corresponding region of Rfob by sequence analysis. In the F(2) segregating population described above, the Marker 1 was present in 5 sterile plants and in 453 fertile plants, absent in 4 fertile plants and in 138 sterile plants, and was found to fit a segregation ratio 3:1 indicating that Rfob was single copy in '9802H'. Linkage analysis showed that the Rfo2 locus for our CMS-Rf system was distant from the Rfo locus by about 1.6 cM. The sterile line '9802A1' was pollinated by the male fertile line '2006H' and the resulting F(1) plants were all male fertile. These results indicated that the male fertility of radish CMS can be restored by a new Rf locus, which linked tightly to the Rfo locus.     

The Ogura sterility-inducing protein forms a large complex without interfering with the oxidative phosphorylation components in rapeseed mitochondria

The Ogura cytoplasmic male sterility causing protein, ORF138, was found to be part of a complex with an apparent size of over 750 kDa in the inner membrane of mitochondria of sterile plants. ORF138 did not colocalize with any of the oxidative phosphorylation complexes, nor did its presence modify their apparent size or amount, compared to samples from fertile isogenic plants. We attempted to detect potential proteins or nucleic acids that could be involved in the large ORF138 complex by 2D PAGE, immunoprecipitation and nuclease treatments of native extracts. All our results suggest that the ORF138 protein is the main, if not only, component of this large complex. The capacities of complexes I, II, IV, and ATP synthase were identical in samples from sterile and fertile plants. Isolated mitochondria from sterile plants showed a higher oxygen consumption than those from fertile plants. In vivo respiration measurements suggest that the difference in O₂ consumption measured at the organelle level is compensated at the cell/tissue level, completely in leaves, but only partially in male reproductive organs.     

An anther-specific lipid transfer protein gene in sugar beet: its expression is strongly reduced in male-sterile plants with Owen cytoplasm

Differential screening of a sugar beet (normal cytoplasm line TK81-O) cDNA library made with anther tissues of various stages resulted in the isolation of a clone (#74-29) that hybridized to flower bud RNA but did not hybridize to RNA of vegetative organs. The clone contained an open reading frame (ORF) (designated bvLTP-1 ) that encoded a putative lipid transfer protein. We also identified a second copy ( bvLTP-2 ) of the gene. In situ hybridization analysis demonstrated that expression of bvLTP-1 was confined to the tapetal cells of the anthers at the young microspore stage. Flower bud RNA was prepared from male-sterile sugar beet with Owen cytoplasm and fertility-restored plants and used for northern hybridization with the bvLTP-1 probe. Interestingly, bvLTP-1 was found to be expressed in the flower buds from the restored plants producing 30% or more stainable pollen, but not in the flower buds from completely sterile or poorly fertility-restored plants. These results lead us to suppose that the expression of bvLTP-1 is strongly reduced in the tapetum in response to mitochondrial dysfunction and subsequent physiological changes caused by the Owen cytoplasm.     

大白菜雄性不育系RC7育性相关基因克隆与特性分析

根据orf138的保守序列设计引物,以大白菜萝卜胞质雄性不育系RC7的mtDNA为模板进行PCR扩增,扩增出大小为588 bp的特异条带,该片段在叶片和花蕾中均有表达,没有转录后加工,可编码75个氨基酸,定名为orf75。同源性分析结果表明:orf75推导的氨基酸序列N末端与萝卜Ogu CMS所具有的ORF138一致性为100%,有28个氨基酸完全相同,C末端与钾依赖钠钙交换蛋白-1一致性为54%。初步认为,orf75可能是orf138与钾依赖钠钙交换蛋白-1的编码基因发生重排产生的新的开放阅读框。RC7的不育性与Ogu CMS具有相似性。该588 bp片段还可编码1个含有1个疏水基团和1个跨膜区的67aa的蛋白片段,定名为orf67,属可溶性蛋白。     

Low-copy-number molecules are produced by recombination, actively maintained and can be amplified in the mitochondrial genome of Brassicaceae: relationship to reversion of the male sterile phenotype in some cybrids

A PCR analysis of mitochondrial (mt) genomes of cybrid rapeseed plants revealed substoichiometric concentrations of molecules bearing different configurations of the gene (orf138) responsible for Ogura cytoplasmic male sterility (CMS). These sub-stoichiometric molecules are also present in plants bearing the unmodified Ogura cytoplasm. In one cybrid family, which shows reversion of the male sterile phenotype, we observed changes in the respective proportions of these molecules. The phenotypic (sterility-fertility) reversion occurs as a result of a modification of the equilibrium state between the different forms of the orf138 gene and is very probably determined by the level of expression of this gene. Stable situations are always characterized by one predominant form; the others, when present, exist in substoichiometric amounts. We report results indicating that the different forms of the orf138 gene are continuously interconverted by recombination and that an active mechanism is involved in the maintenance of some substoichiometric molecules.     

Low-copy-number molecules are produced by recombination, actively maintained and can be amplified in the mitochondrial genome of Brassicaceae: relationship to reversion of the male sterile phenotype in some cybrids

A PCR analysis of mitochondrial (mt) genomes of cybrid rapeseed plants revealed substoichiometric concentrations of molecules bearing different configurations of the gene (orf138) responsible for Ogura cytoplasmic male sterility (CMS). These sub-stoichiometric molecules are also present in plants bearing the unmodified Ogura cytoplasm. In one cybrid family, which shows reversion of the male sterile phenotype, we observed changes in the respective proportions of these molecules. The phenotypic (sterility-fertility) reversion occurs as a result of a modification of the equilibrium state between the different forms of the orf138 gene and is very probably determined by the level of expression of this gene. Stable situations are always characterized by one predominant form; the others, when present, exist in substoichiometric amounts. We report results indicating that the different forms of the orf138 gene are continuously interconverted by recombination and that an active mechanism is involved in the maintenance of some substoichiometric molecules. Received: 14 July 1997 / Accepted: 16 September 1997     

Identification and expression of the kosena radish (Raphanus sativus cv. Kosena) homologue of the ogura radish CMS-associated gene,orf138

A CMS-associated gene, orf125, present in the Japanese radish cultivar Kosena, has a sequence homologous to that of the ogura CMS-associated gene, orf138, except for two amino acid substitutions and a 39 bp deletion in the orf138 coding region. In Kosena radish, orf125 is linked with orfB, whereas the orf125 locus differs in a Brassica napus CMS cybrid derived from protoplast fusion between Kosena radish and B. napus. A novel mtDNA sequence is present in the 3-flanking region of orf125 in the B. napus kosena CMS cybrid. The orf125 is expressed both in the radish and the B. napus kosena CMS cybrid. Its accumulation is strongly associated with the CMS phenotype in B. napus. Fertility restoration was accompanied by a decrease in the amount of ORF125 in B. napus.     

甘蓝型油菜pol CMS育性恢复基因对orf224/atp6的转录调控

用 10个线粒体基因探针对波里马细胞质雄性不育 (polimaCMS)三系 1141A(pol) ,1141B(nap)和 1141R(pol)的花蕾线粒体RNA进行了Northern检测。结果表明 ,只有 3个探针atp6、orf2 2 4和orf2 2 2检测到转录本的差异。atp6在可育的 1141B中只转录产生一个丰度很高的 1 1kb转录本 ,在雄性不育的 1141A和pol胞质恢复系 1141R中 ,这个转录本的丰度明显减少并出现了分子量较大的 2个转录本 2 2kb、1 9kb转录本。与 1141A相比 ,恢复系1141R的 2 2kb和 1 9kb转录本丰度明显减少 ,并伴随着两个新的转录本 1 4kb和 1 3kb。表明orf2 2 4 atp6的表达与polCMS有关 ,并且其转录受到恢复基因Rfp的调控。同时通过对杂种F1 ( 1141A× 1141R)与另一个恢复系RS35 (pol)的比较证实 ,Rfp对orf2 2 4 atp6的调控与Rfp纯合与否无关。orf2 2 4 atp6在 1141A的苗期叶片中还转录产生育性恢复特异的 1 4kb转录本 ,这可能与细胞核基因型和相对低温条件有关。     

Mitochondrial ORF79 levels determine pollen abortion in cytoplasmic male sterile rice

Cytoplasmic male sterility (CMS) is an important agricultural trait characterized by lack of functional pollen, and caused by ectopic and defective mitochondrial gene expression. The pollen function in CMS plants is restored by the presence of nuclear‐encoded restorer of fertility (Rf) genes. Previously, we cloned Rf2, which restores the fertility of Lead Rice (LD)‐type CMS rice. However, neither the function of Rf2 nor the identity of the mitochondrial gene causing CMS has been determined in LD–CMS rice. Here, we show that the mitochondrial gene orf79 acts as a CMS‐associated gene in LD–CMS rice, similar to its role in BT–CMS rice originating from Chinsurah Boro II, and Rf2 weakly restores fertility in BT–CMS rice. We also show that RF2 promotes degradation of atp6–orf79 RNA in a different manner from that of RF1, which is the Rf gene product in BT–CMS rice. The amount of ORF79 protein in LD–CMS rice was one‐twentieth of the amount in BT–CMS rice. The difference in ORF79 protein levels probably accounts for the mild and severe pollen defects in LD–CMS and BT–CMS rice, respectively. In the presence of Rf2, accumulation of ORF79 was reduced to almost zero and 25% in LD–CMS and BT–CMS rice, respectively, which probably accounts for the complete and weak fertility restoration abilities of Rf2 in LD–CMS and BT–CMS rice, respectively. These observations indicate that the amount of ORF79 influences the pollen fertility in two strains of rice in which CMS is induced by orf79.