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.     

Intra- and inter-specific variations in the mitochondrial gene orf138 of Ogura-type male-sterile cytoplasm from Raphanus sativus and Raphanus raphanistrum

In order to gain a better understanding of the evolution of Ogura male-sterile cytoplasm in radish, a large-scale sequence analysis of mitochondrial orf138 was conducted using 107 Japanese wild radishes, 29 cultivated radishes and seven Raphanus raphanisturum. A single approximately 0.8-kb fragment containing the orf138 locus was amplified from each plant by PCR, and the nucleotide sequence of an entire coding region of orf138 was determined by direct-sequencing procedures. An identical sequence to the published orf138 (Type A) was identified in Japanese wild radish, including a single plant in a population near Kagoshima prefecture where Ogura (1968) first found ’Ogura male-sterile radish’. Thus, it was confirmed that the ’Ogura male-sterile cytoplasm’ was derived from Japanese wild radish, with a Type A orf138 sequence, growing in this area. A total of six nucleotide changes and a single insertion/deletion (indel) were found in orf138 from both wild and cultivated radishes. By a combination of mutations, the orf138 sequences of the 143 radish plants were classified into nine types. Based on the pattern of mutations and the distribution of orf138 variants, it was concluded that the orf138 variants are derived from Type B or C, after Ogura-type cytoplasm was introduced from R. raphanistrum into Japanese wild radish. Received: 19 December 2000 / Accepted. 26 January 2001     

Identification of a novel mitochondrial genome type and development of molecular markers for cytoplasm classification in radish (<Emphasis Type="Italic">Raphanus sativus</Emphasis> L.)

Plant mitochondrial genomes have complex configurations resulting from the multipartite structures and highly rearranged substoichiometric molecules created by repetitive sequences. To expedite the reliable classification of the diverse radish (Raphanus sativus L.) cytoplasmic types, we have developed consistent molecular markers within their complex mitochondrial genomes. orf138, a gene responsible for Ogura male-sterility, was detected in normal cultivars in the form of low-copy-number substoichiometric molecules. In addition to the dominant orf138-atp8 Ogura mitochondrial DNA (mtDNA) organization, three novel substoichiometric organizations linked to the atp8 gene were identified in this study. PCR amplification profiles of seven atp8- and atp6-linked sequences were divided into three groups. Interestingly, the normal cytoplasm type, which had previously been considered a single group, showed two patterns by PCR amplification. The most prominent difference between the two normal mtDNAs was size variation within four short-repeat sequences linked to the atp6 gene. This variation appeared to be the result of a double crossover, mediated by these homologous, short-repeat sequences. Specific PCR amplification profiles reflecting the stoichiometry of different mtDNA fragments were conserved within cultivars and across generations. Therefore, the specific sequences detected in these profiles were used as molecular markers for the classification of diverse radish germplasm. Using this classification system, a total of 90 radish cultivars, or accessions, were successfully assigned to three different mitotypes.     

Molecular and biological studies on male-sterile cytoplasm in the Cruciferae. III. Distribution of Ogura-type cytoplasm among Japanese wild radishes and Asian radish cultivars

The distribution of Ogura male-sterile cytoplasm among Japanese wild radish populations and Asian cultivated radishes was studied by means of polymerase chain reaction (PCR)-aided assays using mitochondrial atp6 and orf138 loci as molecular markers. Three separate PCR experiments were performed to amplify the target sequences in normal-type atp6, Ogura-type atp6, and Ogura-specific orf138, and the cytoplasm of each plant was classified as either normal or Ogura. Among 217 wild radish plants, 93 had both Ogura-type atp6 and orf138 (or its modified form), whereas 124 had normal-type atp6. Of the 93 plants with Ogura-type cytoplasm, only a single plant showed male sterility. A complete linkage between Ogura-type atp6 and orf138 loci was found in Japanese wild radishes, confirming our findings that Ogura-type cytoplasm is distributed widely among Japanese wild radish populations. A modified form of orf138 (orf138-S) was identified in a few wild radish populations in a limited area of Japan, and the nucleotide sequence of the orf138-S revealed a 39-bp deletion shared in common with Kosena male-sterile cytoplasm. Among the 44 Asian cultivars analyzed, 40 were determined to have normal cytoplasm since all 4 plants tested in each cultivar showed the same PCR amplification profiles as that of Uchiki-Gensuke, a reference cultivar with normal cytoplasm. The plants with Ogura-type cytoplasm (or its modified form) were found in 1, 1, and 2 cultivars from Tibet, Japan, and Taiwan, respectively. Except for 1 cultivar from Taiwan, those with Ogura-type cytoplasm included a few plants having male sterility. The multiple and independent introduction of Ogura-type cytoplasm from the wild radish in Asia into these cultivars is suggested.     

Development of a molecular marker specific to a novel CMS line in radish (Raphanus sativus L.)

In this study, we have investigated the cytoplasmic male sterility (CMS) of a novel male sterile radish line, designated NWB CMS. The NWB CMS was crossed with 16 fertile breeding lines, and all the progenies were completely male sterile. The degree of male sterility exhibited by NWB CMS is more than Ogura CMS from the Cruciferae family. The NWB CMS was found to induce 100% male sterility when crossed with all the tested breeding lines, whereas the Ogura CMS did not induce male sterility with any of the breeding lines. PCR analysis revealed that the molecular factor that influenced Ogura CMS, the orf138 gene, was absent in the NWB CMS line, and that the orf138 gene was not also expressed in this CMS line. In order to identify the cytoplasmic factors that confer male sterility in the NWB CMS line, we carried out RFLP analyses with 32 mitochondrial genes, all of which were used as probes. Fourteen genes exhibited polymorphisms between the NWB CMS line and other radish cultivars. Based on these RFLP data, intergenic primers were developed in order to amplify the intergenic regions between the polymorphic genes. Among these, a primer pair at the 3′ region of the atp6 gene (5′-cgcttggactatgctatgtatga-3′) and the 5′ region of the nad3 gene (5′-tcatagagaaatccaatcgtcaa-3′) produced a 2 kbp DNA fragment as a result of PCR. This DNA fragment was found to be specific to NWB CMS and was not present in other CMS types. It appears that this fragment could be used as a DNA marker to select NWB CMS line in a radish-breeding program.     

Identification of Cytoplasmic Male Sterility in Chinese Radish Following PCR Analysis of Mitochondrial DNA

In order to understand the molecular characteristics of the Chinese radish, the mitochondrial DNA structure and sequence were analyzed in Chinese wild radish and cultivated varieties. A total of four male-sterile lines, four maintainer lines, 17 cultivars, and a single Chinese wild radish were used, along with 25 male-sterile individuals and 159 fertile plants. We found that the cytoplasm of Chinese radishes could be classified into two types: the normal type and the Ogura type. The Ogura-type cytoplasm was detected in 25 male-sterile plants. The 159 fertile plants had normal cytoplasm. Both the Ogura cytoplasm and the normal cytoplasm were detected in the male-sterile ??RA??. The orf138 gene in mitochondrial DNA was detected in cultivated Chinese radish cultivars but not in the wild radish. The Chinese radish orf138 nucleotide sequence was determined in four male-sterile lines and displayed complete homology to the known orf138 type A nucleotide sequence. Three types of mitochondrial orfB (type 1, type 2 and type 3) were found in Chinese radishes. Type 1 was only present in the male-sterile lines. Chinese cultivated radishes were divided into type 2 and type 3, while the Chinese wild radish only had type 3 cytoplasm.