Stoichiometric differences in DNA molecules containing the atpA gene suggest mechanisms for the generation of mitochondrial genome diversity in maize

Four genomic arrangements of the maize mitochondrial atpA gene (encoding the α subunit of the F₁ ATPase), have been characterized. Most N (fertile) and S (male-sterile) cytoplasms contain two atpA arrangements of equal abundance. Prolonged exposure of blots of maize mitochondrial DNA probed with atpA-specific sequences show that cytoplasms previously reported to lack one of the atpA arrangements do contain the second arrangement but at low levels. Similarly, restriction fragments containing the atpA gene previously thought unique to male-sterile S and T cytoplasms are present in low abundance in fertile cytoplasms. These observations suggest that fertile and male-sterile cytoplasms of maize may be more closely related than previously thought, and suggest possible mechanisms to explain the observed mitochondrial genome diversity.     

Cytoplasmic-nuclear male sterility in pearl millet: comparative RFLP and transcript analyses of isonuclear male-sterile lines

The identification of diagnostic cytoplasmic molecular markers is of prime interest to pearl millet breeders wishing to identify sources of cytoplasmic-nuclear male sterility (CMS) which can be used as an alternative to the single source currently used in the production of F₁ hybrid seed. Here, we report the classification of five pearl millet CMS sources based on RFLP analysis of isonuclear lines carried out using mitochondrial gene-specific DNA probes in combination with eight restriction endonucleases. On the basis of RFLP data, the five CMS cytoplasms can be distinguished from each other and from the isonuclear fertile cytoplasm. In addition, based on cox1, cox3, atp6 and atp9 polymorphisms, these lines can be classified into two major groups: one corresponds to A₅, A_egp, A_v and A₁ cytoplasms, and the other consists of the A₄ cytoplasm. Our results suggest that a rearrangement involving the cox1 gene might be related to CMS in the first group (A₅, A_egp, A_v and A₁), whereas a rearrangement within the atp6/cox3 cluster region might be related to CMS in the second group (A₄).     

Mitochondrial Plasmids in Sorghum: Presence of Linear Plasmids in Indian Male Sterile and Milo 296 Lines

The presence of plasm ids of sizes 5.8 kbp, 5.3 kbp, 2.3 kbp, 1.7 kbp and 1.36 kbp was detected in 3 Indian male sterile cytotypes viz. Maldandi, Guntur, Vizianagaram but not in their fertile maintainer lines. The 5.8 kbp and 5.3 kbp plasm ids do not possess any homology with the nuclear or chloroplastic DNA as also with the main mitochondrial genome of sterile and maintainer fertile lines. The detection of these plasm ids in the male sterile, maintainer fertile and fertility restored lines of 296 variety is surprising as the male sterile 296A and restored line possess a milo cytoplasm that has as yet not been shown to contain such plasmids. This observation suggests that plasm ids have no role to play in male sterility but their presence could be used as a marker for characterization/classification of certain cytoplasms especially the Indian cytoplasms.     

Mitochondrial DNA-RFLP Analysis Distinguishes New CMS Sources in Pearl Millet (Pennisetum glaucum (L.) R. Br.)

Restriction fragment length polymorphism (RFLP) of mitochondrial (mt) DNA provides a rapid and effective method to assess heterogeneity among male sterile cytoplasms. Six isonuclear A-lines (81 A₁, with Tift 23A₁, cytoplasm, ICMA 88001 (= 81A_v) with Violaceum cytoplasm, 81A (=81A₄) with monodli = violaceum cytoplasm, Pb 310A₂ and Pb 311A₂ with A₂ cytoplasm from L 66A, and Pb 406A₃ with A₃ cytoplasm from L 67A), nine cytoplasmic male-sterility sources from Large-Seeded Genepool (LSGP 6, LSGP 14, LSGP 17, LSGP 22, LSGP 28, LSGP 36, LSGP 43, LSGP 55 and LSGP 66) and two each from Early Genepool (EGP 33 and EGP 15) and Population Varieties (PV 1 and PV 2) were characterized for variation in their mitochondrial genomes following Southern blot hybridizations using homologous (pearl millet 13.6 kb, 10.9 kb, 9.7 kb and 4.7 kb clones) and heterologous (maize atp6 and coxl clones) mitochondrial DNA (mtDNA) probes. Following cluster analysis based on similarity indices for the RFLP banding patterns observed, we identified seven cytoplasmic groups within LSGP. Two (LSGP 43 and LSGP 66) of these were quite distinct from each other as well as from other cytoplasms. This clearly indicates that besides serving as a source of diversity for agronomic and adaptation traits, broad-based gene pools can also provide diverse sources of cytoplasmic male sterility. These new CMS sources were also compared with standard CMS systems and cytoplasm-specific restriction fragments were identified.     

Cytoplasmic male sterility in hybrids of sterile wild beet (Beta vulgaris ssp. maritima) and O-type fertile sugar beet (Beta vulgaris L.): molecular analysis of mitochondrial and nuclear genomes

The organization of the mitochondrial genome of B3, B4 and B5generations of hybrids created by backcrossing sterile wild beet Betamaritima with a fertile O-type sugar beet line was studied usingrestriction fragment length polymorphism (RFLP) analysis. Random amplifiedpolymorphic DNA (RAPD) analysis was used to study restoration of the fertile(O-type) sugar beet genotype in hybrids after multiple backcrossings.Restriction of mtDNAs from the cytoplasm of B. maritimaandhybrids revealed BamHI, EcoRI andXhoI restriction patterns different from those for sterileand fertile sugar beet lines. The most conspicuous feature of our accession ofsterile wild beet mtDNA was the absence of the 10.7-kbEcoRI fragment detected in the cytoplasm of S-type sterileB. maritima and sugar beet. The hybridization of digestedmtDNAs with coxII, atpA andatp6 homologous probes revealed alterations within thesegene loci that distinguished wild beet and hybrids from sugar beets.Characteristic hybridization profiles for the wild beet and B3, B4 and B5hybrids were observed for all probes regardless of the restrictase used todigest mtDNA. Notable changes in atpA andatp6 genes resulted when probes that comprised the5flanking sequences of these genes and a small part of the coding sequences wereused. RFLP analysis of the sterile B. maritimamitochondrial genome further supported the unique character of this source ofwild beet sterility. The genotypic differences between hybrids and parentalaccessions were determined by scoring PCR-RAPD reaction products for nineselected primers. The diversity of the B. maritimagenotyperesulted in a lower genetic similarity index in comparison with hybrids,sterileand fertile lines of sugar beet. The dendrogram obtained after cluster analysisdistinguished hybrids as a group that differed from wild beet and themaintainersugar beet line used for backcrossing. These results may indicate incompleterestoration of the fertile sugar beet genotype in hybrids.     

Instability in mitochondrial membranes in Polima cytoplasmic male sterility of Brassica rapa ssp. chinensis

Cytoplasmic male sterility (CMS) is an important factor to observe heterosis in Brassica rapa. Although several studies have documented the rearrangements of mitochondrial DNA and dysfunction in the mitochondria have been observed in most types of CMS, the basis of the molecular mechanisms involved in these processes and other effects on CMS remain unclear. In this study, suppression subtractive hybridization was performed in the flowers of an alloplasmic Polima CMS system from B. rapa ssp. chinensis to identify genes that are differentially expressed between fertile and sterile plants. A total of 443 clones were isolated (156 were upregulated in fertile buds, and 287 were upregulated in sterile ones). Real-time RT-PCR further demonstrated the credibility of SSH. Among these genes, many membrane protein genes (LTP12, PIP2A, and GRP14) were inhibited in the sterile male line. Mitochondrial membrane potential (MMP) assay was then performed. Results showed that the sterile MMP was unstable and failed to create a potential difference; thus, mitochondrial dysfunction occurred. Moreover, abnormal microtubules and photosynthetic pathways were found in sterile male cells. Unstable MMP, nutritional deficiency, and abnormal microtubules were the causes of Polima CMS in Brassica campestris. H₂O₂, MDA, and O^2–, accumulated as byproducts of energy metabolism disorder in sterile male cells.     

普通小麦Ｔ型细胞质雄性不育系及其保持系线粒体ＤＮＡ的比较研究

以小麦Ｔ细胞质雄性不育系７５－３３６９Ａ和相应保系７５－３３６９Ｂ为材料,用限制性内切酶ＢamHⅠ、EcoRⅠ、hINDⅢ完全酶解,以Ｏenothera mtDNA qtp6,小麦线粒体基因nad3/rps12、cos1为探针进行Southern杂交,杂交结果表明,７５－３３６９Ａ和 75-3369B在这３个基因上或附近有显著的组织结果差异,推测这些差异可能影响了线粒体基因组的正常功能,最终引起了７５－３３６９Ａ雄性不育。     

Molecular diversity of male sterility inducing and male-fertile cytoplasms in the genus Helianthus

The organisation of mtDNA was investigated for 28 sources of cytoplasmic male sterility (CMS) and a fertile line (normal cytoplasm) of Helianthus annuus by Southern hybridisation. In addition to nine known mitochondrial genes (atp6, atp9, cob, coxI, coxII, coxIII, 18S, 5S and nd5) three probes for the open reading frames in the rearranged area of PET1, orfH522, orfH708 and orfH873, were used. Genetic similarities of the investigat-ed cytoplasms varied between 0.3 and 1. Cluster analyses using the UPGMA method allowed the distinction of ten mitochondrial (mt) types between the 29 investigated cytoplasms. Most mitochondrial types comprise two or more CMS sources, which could not be further separated, like the PET1-like CMS sources (with the exception of ANO1 and PRR1), or ANN1/ANN2/ANN3, ANN4/ ANN5, ARG3/RIG1, BOL1/EXI1/PEF1/PEP1 and GIG1/ PET2. ANL1, ANL2 and the fertile cytoplasms are also regarded as one mitochondrial type. Unique banding patterns were only observed for ANT1 (atp6), MAX1 (atp6, orfH522 and orfH708) and PRR1 (coxII). However, four of the mitochondrial types showed unique hybridisation signals: ANN4/ANN5 had characteristic bands for atp6 and orfH708, PEF1/PEP1/EXI1/BOL1 for atp6 and coxII, and PET2/GIG1 for atp9. The PET1-like cytoplasms all shared the same patterns for orfH522, orfH708 and cob (except ANO1). It could be demonstrated that CMS sources, like, e.g., PET2 and PEF1, are different from PET1 in mtDNA organisation and the CMS mechanism. Therefore, these CMS sources represent interesting candidates for the development of new hybrid breeding systems based on new CMS mechanisms. Received: 20 April 2001 / Accepted: 3 August 2001     

A CMS-Related Gene, Ψatp6-2, Causes Increased ATP Hydrolysis Activity of the Mitochondrial F1Fo-ATP Synthase and Induces Male Sterility in Pepper (Capsicum annuum L.)

Pollen formation is a complex process that is strictly controlled by genetic factors. Although many novel mitochondrial genes have been implicated in the dysfunction of mitochondrial enzymes and the cytoplasmic male sterility (CMS), there is little empirical evidence to show that CMS-related genes actually result in the dysfunction of enzyme and little is known about the regulatory mechanisms of the aberrant mitochondrial enzymes in male sterility in CMS lines. Here, we report the characterization of a novel mitochondrial gene, Ψatp6-2, which is hypothesized to play a role in male sterility in pepper. Using virus-induced gene silencing (VIGS), we observed that silencing the atp6-2 gene in the maintainer line resulted in an increase in ATP hydrolysis activity of the mitochondrial F₁F_o-ATP synthase along with pollen abortion, while silencing the truncated Ψatp6-2 gene in the CMS line resulted in an inhibition of ATP hydrolysis activity and restoration of fertility. Altered ATP hydrolysis also affected the tolerance of the gene-silenced plants to abiotic stresses. Localization experiments showed that premature ATP hydrolysis occurred at the tetrad stage of pollen development in the CMS line, but no ATPase activity was observed in the microspores at the later stage. These results suggest that the Ψatp6-2 gene causes the alteration in ATP hydrolysis activity of the mitochondrial F₁F_o-ATP synthase during pollen development, which eventually leads to male sterility in pepper.