10个线粒体基因在甘蓝型油菜NCa不育系统不同组织中的转录调控及其与育性的关系

用10个线粒体基因为探针,对NCα不育系、保持系和可育F1的苗期叶片、幼蕾及未成熟种子的线粒体RNA进行了Northern分析。结果表明,这10个线粒体基因除atp6外,其余9个基因在同一材料的不同组织中没有表达差异,都属于组成型表达的线粒体基因。其中,off139、orf222、atp1、cox1、cox2、cob、rm5S、rm26S等8个线粒体基因在不育系、保持系和可育F1的苗期叶片、幼蕾及未成熟种子中有着相同的表达,属于表达不受核基因型影响,没有组织特异性的类型：atp9基因分别在同一材料的不同组织中的转录也基本没有变化,但是在3个不同的材料间具有表达差异：可能属于表达受核基因型影响、没有组织特异性的线粒体基因。atp6基因也在3个材料的叶、蕾和种子中都产生相同大小的转录本,但是在各个材料的不同组织中存在着信号强度的差异,可能是属于表达既受核基因型影响、又有组织特异性的线粒体基因。Orf222和off139分别在不育系和可育F1幼蕾中产生相同大小和丰度的转录本,但是在保持系幼蕾中没有检测到转录本;orf222检测到的3条转录本分别为1．1kb、0．9kb、0．6kb,而off139检测到0．8kb和0．6kb两条带。atp9探针在不育系和保持系幼蕾中都检测到1条0．6kb的转录本,而在可育F1幼蕾中检测到0．6kb和1．2kb的转录本。讨论了orf222、off139、atp9基因的表达与NCα细胞质雄性不育的可能关系。     

Organizational differences between cytoplasmic male sterile and male fertile Brassica mitochondrial genomes are confined to a single transposed locus.

Comparison of the physical maps of male fertile (cam) and male sterile (pol) mitochondrial genomes of Brassica napus indicates that structural differences between the two mtDNAs are confined to a region immediately upstream of the atp6 gene. Relative to cam mtDNA, pol mtDNA possesses a 4.5 kb segment at this locus that includes a chimeric gene that is cotranscribed with atp6 and lacks an approximately 1kb region located upstream of the cam atp6 gene. The 4.5 kb pol segment is present and similarly organized in the mitochondrial genome of the common nap B.napus cytoplasm; however, the nap and pol DNA regions flanking this segment are different and the nap sequences are not expressed. The 4.5 kb CMS-associated pol segment has thus apparently undergone transposition during the evolution of the nap and pol cytoplasms and has been lost in the cam genome subsequent to the pol-cam divergence. This 4.5 kb segment comprises the single DNA region that is expressed differently in fertile, pol CMS and fertility restored pol cytoplasm plants. The finding that this locus is part of the single mtDNA region organized differently in the fertile and male sterile mitochondrial genomes provides strong support for the view that it specifies the pol CMS trait.     

Development of SCAR markers for early identification of cytoplasmic male sterility genotype in chili pepper (Capsicum annuum L.)

We previously used Southern blot analysis to detect restriction-length polymorphisms between male fertile and cytoplasmic male sterile (CMS) cytoplasms at the coxII and atp6 loci of the mtDNA of Capsicum annuum L. Two copies of atp6 were found in each male fertile and CMS pepper lines. Interestingly, one of the copies of atp6 in CMS pepper was a 3'-truncated pseudogene. The open reading frame of the coxII gene was the same in the fertile (N-) and CMS (S-) lines. However, the nucleotide sequence in the S-cytoplasm diverged from that in the N-cytoplasm 41 bp downstream of the stop codon. To develop CMS-specific sequence-characterized amplified region (SCAR) markers, inverse PCR was performed to characterize the nucleotide sequences of the 5' and 3' flanking regions of mitochondrial atp6 and coxII from the cytoplasms of male fertile (N-) and CMS (S-) pepper plants. Based on these data, two CMS-specific SCAR markers, 607 and 708 bp long, were developed to distinguish N-cytoplasm from S-cytoplasm by PCR. The CMS-specific PCR bands were verified for 20 cultivars containing either N- or S-cytoplasm. PCR amplification of CMS-specific mitochondrial nucleotide sequences will allow quick and reliable identification of the cytoplasmic types of individual plants at the seedling stage, and assessment of the purity of F1 seed lots. The strategy used in this report for identifying CMS-specific markers could be adopted for many other crops where CMS is used for F1 seed production.     

Analysis of a 120-Kilobase Mitochondrial Chromosome in Maize

The organization of the mitochondrial genome in plants is not well understood. In maize mitochondrial DNA (mtDNA) several subgenomic circular molecules as well as an abundant fraction of linear molecules have been seen by electron microscopy. It has been hypothesized that the circular molecules are the genetic entities of the mitochondrial genome while the linear molecules correspond to randomly sheared mtDNA. A model has been proposed that explains the mechanism of generation of subgenomic circles (of a predictable size) by homologous recombination between pairs of large direct repeats found on a large (approximately 570 kb for the fertile (N) cytoplasm) master circle. So far the physical entities of the mitochondrial genome, as they exist in vivo, and the genes they carry, have not been identified. For this purpose, we used two gel systems (pulsed field gel electrophoresis and Eckhardt gels) designed to resolve large DNA. Large DNA was prepared from the Black Mexican Sweet (BMS) cultivar. We resolved several size classes of mtDNA circles and designate these as chromosomes. A 120 kb chromosome was mapped in detail. It is shown to contain the three ribosomal genes (rrn26, rrn18 and rrn5) plus two genes encoding subunits of cytochrome oxidase (Cox1 and Cox3); it appears to be colinear with the 570-kb master circle map of another fertile cytoplasm (B37N) except at the "breakpoints" required to form the 120-kb circle. The presence of the 120-kb chromosome could not have been predicted by homologous recombination through any of the known repetitive sequences nor is it a universal feature of normal maize mitochondria. It is present in mitochondria of BMS suspension cultures and seedlings, but is not detectable in seedlings of B37N. No master genome was detected in BMS.     

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。     

Somaclonal variation of the mitochondrial ATPase subunit 6 gene region in regenerated triticale shoots and full-grown plants

Comparative hybridization analyses of total DNA from fertile and cytoplasmic male-sterile (CMS) triticale plants which had been regenerated from embryogenic callus cultures revealed the organization and variation of the mitochondrial atp6 gene region. In order to compare different developmental phases, we analysed mitochondrial DNA (mtDNA) from both the shoots and full-grown regenerants. Somaclonal variants were identified on the basis of differences in the mtDNA from fertile and CMS triticale. Several shoots as well as all of the full-grown plants analysed showed somaclonal variation. This phenomenon could be traced back to having primarily orginated from the influence of the nuclear background, which give rise to a stoichiometric increase in a rye-specific orf25 gene copy, and a tissue culture-induced combination of fertile and CMS-specific mtDNA organization of the atp6 gene area. The latter event is probably caused by the homologous recombination of repetitive sequences that may be accompanied by selective amplifications.     

向日葵细胞质雄性不育系线粒体基因组atpA位点的研究

对21种向日葵细胞质雄性不育(CMS)品系的线粒体基因组atpA基因位点处的DNA分子变异进行了分析和研究。首次通过基因组DNA及mtDNA与一含有部分atpA基因和orf H522的4.1kb探针Southern分子杂交分析及mtDNA限制性内切酶图谱分析证明,在atpA基因位点区域有4种DNA序列存在于21种细胞质雄性不育品系中。首次指出在向日葵CMS品系中即使细胞质来源相同,不育基因却有多种存在形式,并通过实验结果推测了导致细胞质雄性不育的机理。     

Extensive structural variations between mitochondrial genomes of CMS and normal peppers (Capsicum annuum L.) revealed by complete nucleotide sequencing

Background

Cytoplasmic male sterility (CMS) is an inability to produce functional pollen that is caused by mutation of the mitochondrial genome. Comparative analyses of mitochondrial genomes of lines with and without CMS in several species have revealed structural differences between genomes, including extensive rearrangements caused by recombination. However, the mitochondrial genome structure and the DNA rearrangements that may be related to CMS have not been characterized in Capsicum spp.

Results

We obtained the complete mitochondrial genome sequences of the pepper CMS line FS4401 (507,452 bp) and the fertile line Jeju (511,530 bp). Comparative analysis between mitochondrial genomes of peppers and tobacco that are included in Solanaceae revealed extensive DNA rearrangements and poor conservation in non-coding DNA. In comparison between pepper lines, FS4401 and Jeju mitochondrial DNAs contained the same complement of protein coding genes except for one additional copy of an atp6 gene (ψatp6-2) in FS4401. In terms of genome structure, we found eighteen syntenic blocks in the two mitochondrial genomes, which have been rearranged in each genome. By contrast, sequences between syntenic blocks, which were specific to each line, accounted for 30,380 and 17,847 bp in FS4401 and Jeju, respectively. The previously-reported CMS candidate genes, orf507 and ψatp6-2, were located on the edges of the largest sequence segments that were specific to FS4401. In this region, large number of small sequence segments which were absent or found on different locations in Jeju mitochondrial genome were combined together. The incorporation of repeats and overlapping of connected sequence segments by a few nucleotides implied that extensive rearrangements by homologous recombination might be involved in evolution of this region. Further analysis using mtDNA pairs from other plant species revealed common features of DNA regions around CMS-associated genes.

Conclusions

Although large portion of sequence context was shared by mitochondrial genomes of CMS and male-fertile pepper lines, extensive genome rearrangements were detected. CMS candidate genes located on the edges of highly-rearranged CMS-specific DNA regions and near to repeat sequences. These characteristics were detected among CMS-associated genes in other species, implying a common mechanism might be involved in the evolution of CMS-associated genes.

Electronic supplementary material

The online version of this article (doi:10.1186/1471-2164-15-561) contains supplementary material, which is available to authorized users.     

Three copies of a single recombination repeat occur on the 443 kb master circle of the Petunia hybrida 3704 mitochondrial genome.

At 443 kb, the map of Petunia hybrida line 3704 mitochondrial DNA is the largest yet produced from a dicot plant. Regions of similarity to known plant mitochondrial genes and to the chloroplast genome have been placed on a master circle. One long repeated sequence, apparently active in recombination, is present in three copies. Two copies of 6.6 kb occur in a direct orientation and are separated by 199 kb. A third truncated copy of 3.5 kb is inverted relative to the other two and is separated from the others by 99 and 145 kb. The presence of the recombination repeats predicts a multipartite molecular organization, consisting of four master circles and three subgenomic circles. Two other repeated regions were found not to be substrates for, or products of recombination. The absence of recombination at certain reiterated regions indicates that there is specificity of recombination at the recombination repeats.     

A fertile revertant from petaloid cytoplasmic male-sterile carrot has a rearranged mitochondrial genome

 A spontaneously derived fertile plant was recovered from a petaloid cytoplasmic male-sterile (CMS) carrot inbred line. Genetic analysis indicated a single nuclear gene was responsible for the restoration to fertility. Within a family segregating for the nuclear restorer in combination with the sterility-inducing cytoplasm, fertile plants were recovered that could not restore fertility when crossed to sterile genotypes. Genetic analysis indicated cytoplasmic reversion for fertility, and Southern analysis, comparing mtDNA organization of the fertile revertant and its CMS progenitor, identified mitochondrial genome rearrangements. Hybridization of cosmids representing a 108-kb subgenomic circle of the sterile line to DNA of a fertile maintainer and fertile revertant lines indicated a similar mtDNA organization for these genotypes that was distinct from that of the sterile line. Six restriction fragments totalling 43.2 kb were common to the fertile maintainer and revertant and absent in the sterile; other restriction fragments totalling 38.2 kb were present only for the sterile line. Unique fragments of low stoichiometry, two for the fertile maintainer and three for the revertant, distinguished these lines. The reversion to fertility in the sterile line could have resulted from the amplification of a mitochondrial submolar genome highly homologous to that found in the fertile maintainer line. Received: 4 October 1997/Accepted: 12 December 1997