Diversity among male-sterility-inducing and male-fertile cytoplasms of onion

Hybrid-onion (Allium cepa) seed is produced using systems of cytoplasmic-genic male sterility (CMS). Two different sources of CMS (S and T cytoplasms) have been genetically characterized. Testcrosses of N-cytoplasmic maintaining and restoring genotypes to S and T cytoplasmic lines demonstrated that different alleles, or loci, restore male fertility for these two male-sterile cytoplasms. Other sources of CMS have been used or reported in Europe, Japan and India, and their relationships to S and T cytoplasms are not clear. Restriction fragment length polymorphisms were identified in the organellar genomes among commercially used male-sterile cytoplasms from Holland, Japan and India, and were compared to S and T cytoplasms. Mitochondrial DNA diversity among 58 non-S-cytoplasmic open-pollinated onion populations was also assessed. All five putative CMS lines selected from the Indian population Nasik White Globe were identical to S cytoplasm for all polymorphisms in the chloroplast genome, and always possessed the same-sized mitochondrial fragments as S cytoplasm. T cytoplasm, the male-sterile cytoplasm used to produce the Dutch hybrid Hygro F₁, and two sources of CMS from Japan, were similar and showed numbers of mitochondrial polymorphisms similar to those observed among the 58 non-S-cytoplasmic open-pollinated populations. This research demonstrates that the same, or very similar, male-sterile cytoplasms have been independently isolated and exploited for hybrid-seed production in onion. Received: 27 October 1999 / Accepted: 12 February 2000     

Sequence analysis of a chloroplast intergenic spacer for phylogenetic estimates in Allium section Cepa and a PCR-based polymorphism detecting mixtures of male-fertile and male-sterile cytoplasmic onion

Restriction-enzyme analysis of the chloroplast (cp) DNA yielded maternal phylogenies supporting a close phylogenetic relationship among normal (N) male-fertile and male-sterile (S) cytoplasmic bulb onion (Allium cepa), Allium altaicum, Allium fistulosum, Allium galanthum, Allium roylei, and Allium vavilovii. The S cytoplasm of onion is most likely an alien cytoplasm introduced in antiquity into onion populations. We previously showed that size differences in an intergenic spacer in the cp DNA distinguish N and S cytoplasms of onion. We cloned and sequenced this intergenic spacer from the N and S cytoplasms of onion, A. altaicum, A. fistulosum, A. galanthum, Allium pskemense, Allium oschaninii, A. roylei, and Allium ampeloprasm (outgroup) to identify the nature of previously described RFLPs and to develop a PCR-based marker revealing N-cytoplasmic contamination of S-cytoplasmic hybrid seed lots. Phylogenies based on restriction-enzyme analysis of the entire cp DNA were similar, but not identical, to those based on sequence divergence in this intergenic region. Received: 29 November 1999 / Accepted: 28 April 2000     

用线粒体DNA鉴定玉米雄性不育细胞质的研究

参照Kemble法,通过分析玉米线粒体DNA,鉴定出我国生产上应用的玉米双型和唐徐型雄性不育细胞质属于S组。近年新获得的不育类型Y型属于T组,为玉米种子生产合理应用雄性不育细胞质提供了可靠依据,并对鉴别玉米雄性不育细胞质的方法进行了讨论。     

Classification of normal and male-sterile cytoplasms in maize. I. Electrophoretic analysis of variation in mitochondrially synthesized proteins

Male-sterile cytoplasms of maize have previously been classified into three groups (T, S and C) according to their fertility ratings in various inbred backgrounds. In earlier studies, mitochondria from three male-sterile cytoplasms, representing each of these three groups, have been found to synthesize characteristic variant polypeptides that distinguish them from each other and from those of normal (N) cytoplasm. In order to determine the extent of cytoplasmic variation, we have now analyzed the translation products of mitochondria from 28 additional cytoplasmic sources. The results show that on this basis 18 of the cytoplasms are identical to the USDA (S) cytoplasm, three are identical to the Texas (T) cytoplasm and two are identical to the C cytoplasm. The five remaining cytoplasms are indistinguishable from normal, male-fertile (N) cytoplasm. Our classification of the cytoplasms is in general agreement with those based on fertility restoration. However, of three cytoplasms that have previously remained unclassified, two (B and D) have now been assigned to the S group and one (LF) to the N group. No heterogeneity in mitochondrial translation products was detected within the normal or any of the three male-sterile groups. The usefulness of the analysis of mitochondrial translation products as a method for classifying normal and male-sterile cytoplasms is discussed.     

A PCR-marker for the CMS(1) inducing cytoplasm in chives derived from recombination events affecting the mitochondrial gene atp9

The complete coding and 3′-flanking region of the mitochondrial gene atp9 of chives (Allium schoenoprasum L.) was determined in order to develop primers that allow the identification of atp9-related sequences in subsequent PCR-amplifications. One of these sequences is of a chimerical nature, consisting of atp9-homologous regions on its end, interrupted by an insertion that is composed of one atp6-homologous part and one part of unknown origin. This PCR-fragment is 762 bp in size and exclusively amplified in the sterility inducing cytoplasm of CMS₁. Thus it can be used as a PCR-marker in order to distinguish this cytoplasm type from the remaining cytoplasm types of chives. The chimerical marker sequence forms a putative open reading frame (orfA501), from which CMS₁ might originate. Received: 6 June 2001 / Accepted: 3 August 2001     

Mitochondrial genome diversity in connection with male sterility in Allium schoenoprasum L.

Mitochondrial genome diversity in chives (Allium schoenoprasum L.) was investigated with respect to different forms of male sterility. Cytoplasmic male-sterile (CMS) and restored genotypes of the known CMS system, compared to plants of the wi-, the st1- and the st2-sterility types and additional fertile plants of different origin were examined by means of RFLP analyses using mitochondrial gene probes. Besides the (S)-cytoplasm of the CMS system four additional cytoplasms were distinguished that differed in the organisation of their mitochondrial genomes. There is consequently a high degree of variability of the mitochondrial genome in chives, especially when compared with the closely related onion. A possible function of the atp9 gene in generating the different cytoplasm types of chives is discussed in relation to the origin of known CMS sequences in other plant species. The existence of different cytoplasm types offers the opportunity for further characterisation of the wi-, st1- and st2-sterility systems with respect to cytoplasmic factors which might be causally related to them. Whether these new sterilities are CMS or GMS (genic male sterilities) is of interest to plant breeders in order that restrictions on the genetic basis used in hybrid seed production be avoided. Received: 6 July 1999 / Accepted: 6 September 1999     

Identification of a novel chimeric gene, orf725, and its use in development of a molecular marker for distinguishing among three cytoplasm types in onion (Allium cepa L.)

A novel chimeric gene with a 5′ end containing the nearly complete sequence of the coxI gene and a 3′ end showing homology with chive orfA501 was isolated by genome walking from two cytoplasm types: CMS-S and CMS-T, both of which induce male-sterility in onion (Allium cepa L.). In addition, the normal active and variant inactive coxI genes were also isolated from onions containing the normal and CMS-S cytoplasms, respectively. The chimeric gene, designated as orf725, was nearly undetectable in normal cytoplasm, and the copy number of the normal coxI gene was significantly reduced in CMS-S cytoplasm. RT-PCR results showed that orf725 was not transcribed in normal cytoplasm. Meanwhile, the normal coxI gene, which is essential for normal mitochondrial function, was not expressed in CMS-S cytoplasm. However, both orf725 and coxI were transcribed in CMS-T cytoplasm. The expression of orf725, a putative male-sterility-inducing gene, was not affected by the presence of nuclear restorer-of-fertility gene(s) in male-fertility segregating populations originating from the cross between a male-sterile plant containing either CMS-T or CMS-S and a male-fertile plant whose genotypes of nuclear restorer gene(s) might be heterozygous. The specific stoichiometry of orf725 and coxI in the mtDNA of the three cytoplasm types was consistent among diverse germplasm. Therefore, a molecular marker based on the relative copy numbers of orf725 and coxI was designed for distinguishing among the three cytoplasm types by one simple PCR. The reliability and applicability of the molecular marker was shown by testing diverse onion germplasm.     

Polymorphism of mitochondrial DNA ‘S’ regions among normal cytoplasms of maize

Genomic variation in S1 and S2 homologous sequences, defined as the S regions, were examined in mitochondrial DNAs of 12 normal cytoplasm maize lines collected in the United States. Three genomic variants were detected among the 12 cytoplasms, eight of which were identical to the Wf9 model structure. Hybridization data with S1 and S2 DNAs and with two cosmids spanning these regions were consistent with the concept that S1 and S2 sequences are found in each normal cytoplasm. Three variations of the S1 region were established; the Wf9 structure, a second group consisting of F6, A188, and W182BN, and a third, Black Mexican. Genome structure was conserved through the S2 region in all lines examined. None of the cytoplasms included complete copies of S1; the 1400 bp repeat characteristic of S1 and S2 was absent in the S1 region of all lines. A 2.1 kb linear DNA was observed instead of a 2.3 kb DNA in F6, A188, and W182BN. Integrated copies of S1 and S2 sequences may be a constituitive characteristic of normal, male-fertile maize cytoplasms.     

Transfer of a male-sterility-inducing cytoplasm from onion to leek ( Allium ampeloprasum)

Two interspecific triploid (AAC) hybrids (84/1-94 and 99/1-94) from crosses between onion [ Allium cepa (2 n=2 x=16, CC)] and leek [ A. ampeloprasum (2 n=4 x=32, AAAA)] were backcrossed to leek in order to transfer a male-sterility-inducing cytoplasm from onion that would enable the production of hybrid leek. GISH evaluations of meiosis in the interspecific hybrids revealed irregularities due to univalent onion chromosomes producing micronuclei from onion chromatin, whereas the pairing of the two sets of leek chromosomes was nearly normal. Attempts to use colchicine to double the chromosome number of the hybrids failed. Backcrosses of 84/1-94 to leek as the pollen parent were not successful. The first backcross of 99/1-94 to tetraploid leek produced 11 BC(1) plants with chromosome numbers between 38 and 41. Identification of parental chromosomes by GISH showed that all eight onion chromosomes and 30-33 leek chromosomes were transmitted to the backcross progenies due to unreduced egg cells. Onion chromosomes were eliminated during the second backcross. Southern hybridization confirmed the transfer of the T-cytoplasm like source of CMS from onion to the BC(2) progenies. After the third backcross to leek, 158 plants were obtained with varying numbers of onion chromosomes and some intergenomic recombinant chromosomes. Alloplasmic leek plants without onion chromatin were selected for further characterization of male sterility and quality traits.     

Variations in mitochondrial DNA organisation between normal and male-sterile cytoplasms of maize.

Mitochondrial DNA from male-sterile lines of maize carrying S cytoplasm contains two small DNA species which are absent from N (fertile) and other male-sterile cytoplasms. Portions of these species have been purified and amplified by constructing recombinant plasmids in vitro. Probes made with these plasmids have been used to demonstrate; i) a homologous region in the N mitochondrial genome, which may indicate the origin of the S specific DNA species. ii) two other DNA species present in low amounts in S cytoplasm only. iii) the absence of strong homology to the S specific DNA species in mitochondria from C and T male-sterile cytoplasms.     

Genetic analyses supported by molecular methods provide evidence of a new genic (st1) and a new cytoplasmic (st2) male sterility in Allium schoenoprasum L.

Spontaneous mutations leading to male sterility have been described for many different crops and are of great importance to hybrid breeding, provided that their inheritance is resolved. This paper describes an efficient method to characterise male sterilities with respect to cytoplasmic factors that might be causally related to them. The differentiation of cytoplasmic (CMS) and genic (GMS) male sterility is achieved by a specific transfer of nuclear male sterility factors to different cytoplasm types which have previously been distinguished by means of RFLP analyses using mitochondrial gene probes. The nuclear sterility factors of Allium schoenoprasum used, st1 and st2, showed a monogenic recessive inheritance in their original cytoplasms. While st1 was expressed in four different cytoplasm types, st2 did not show itself in a cytoplasm type differing from the original. Therefore, the st1-sterility is a GMS, while a cytoplasmic factor is necessary for the occurrence of st2-sterility. This cytoplasmic factor was verified by a reciprocal cross, and the CMS system was completed by the selection of maintainer genotypes. Neither of these new sterilities were influenced by high temperatures or tetracycline. The benefits of a new CMS system to practical breeding and the advantages and disadvantages of the environmental influences on the expression of male sterility are discussed. Received: 24 November 1999 / Accepted: 3 December 1999     

Cloning of mtDNA fragments homologous to mitochondrial S2 plasmid-like DNA in maize

Summary Mitochondria from S-type cytoplasmic male-sterile maize contain two small DNA species, S1 and S2, which are absent from other fertile and male-sterile cytoplasms. These species have been cloned in plasmid pBR322 by the homopolymer extension method. Probes made with these recombinant plasmids have been used to establish the homology between high molecular weight mitochondrial DNAs of fertile and male-sterile cytoplasms, and small mitochondrial plasmid-like molecules. Hybridization and mapping data show that S2 DNA copies are homologuous with sequences of the normal mitochondrial genome. A comparison of physical maps of different isolated mtDNA fragments indicates a heterogeneous arrangement of S2 sequences in the mtDNA population of normal fertile maize cytoplasm. The origin of this heterogeneity is discussed.     

Classification of Normal and Male-Sterile Cytoplasms in Maize. II. Electrophoretic Analysis of DNA Species in Mitochondria

Mitochondrial DNA preparations were made from 31 maize lines carrying different sources of cytoplasm in the same nuclear genetic background. The DNAs were analyzed by agarose gel electrophoresis. A number of discrete low molecular weight bands were present in all lines. However, only four different DNA banding patterns were observed. These were correlated with the N, T, S and C cytoplasms defined by nuclear fertility restorer genes. Of the 31 cytoplasmic sources examined, six possessed DNA species characteristic of N cytoplasms, four possessed DNA species characteristic of T cytoplasm, 19 possessed DNA species characteristic of S cytoplasm and two possessed DNA species characteristic of C cytoplasm. This classification is in complete agreement with that based on mitochondrial translation products reported in the accompanying paper. No within-group heterogeneity was observed in the DNA banding patterns, indicating a lack of cytoplasmic variation within the four cytoplasmic groups. Attributes of the various methods available for classifying maize cytoplasms are compared and discussed.     

Heterogeneity of Maize Cytoplasmic Genomes among Male-Sterile Cytoplasms

Maize mitochondrial and chloroplast DNA's were prepared from normal (fertile) lines or single crosses and from members of the T, C, and S groups of male-sterile cytoplasms. Restriction endonucleases HindIII, BamI, EcoRI, and SalI were used to restrict the DNA, and the resultant fragments were electrophoresed in agarose gels. The results show that the N (fertile), T, C, and S cytoplasms each contained distinct mitochondrial DNA (mtDNA). These distinctive patterns were unaffected by nuclear genotype. No evidence of paternal inheritance of mtDNA was observed. Chloroplast DNA (ctDNA) from the N, C, and T cytoplasms was indistinguishable by HindIII, SalI, or EcoRI endonuclease digestion. The S cytoplasm ctDNA, however, was slightly different from that of other cytoplasms, as indicated by a slight displacement of one band in HindIII digests. The molecular weight of maize ctDNA was estimated to be as high as 88 x 10⁶. Estimates of the minimum molecular weight of maize mtDNA ranged from 116–131 x 10⁶, but the patterns were to complex for an unambiguous determination. Based on HindIII data, a comparison of the molecular weight of mtDNA bands common to the N, T. C, and S cytoplasms suggests that C cytoplasm most closely resembles N cytoplasm. The T and S sources are more divergent from the C and N cytoplasms. These results indicate a possible gradation of relatedness among male-sterile cytoplasms. The marked variation in mtDNA, with apparently less variation in ctDNA, represents circumstantial, but compelling, evidence that mtDNA may be involved in the male sterility and disease susceptibility traits in maize.     

Construction of SSR-based chromosome map in bunching onion (Allium fistulosum)

We have constructed a linkage map of bunching onion (Allium fistulosum L., 2n = 16) using an F(2) population of 225 plants. The map consists of 17 linkage groups with 212 bunching onion SSR markers and 42 bulb onion (A. cepa L.) SSR, InDel, CAPS or dCAPS markers, covering 2,069 cM. This is the first report of a linkage map mainly based on SSR markers in the genus Allium. With the 103 anchor markers [81 bunching onion SSRs, 11 bulb onion SSRs and 11 bulb onion non-SSRs (1 InDel, 9 CAPSs and 1 dCAPS)] whose chromosome assignments were identified in A. cepa and/or A. fistulosum, via the use of several kinds of Allium alien addition lines, 16 of the 17 linkage groups were connected to the 8 basic chromosomes of A. cepa.     

Molecular analysis of mitochondria from a fertility restorer line of maize

Summary Inbred line Ky21 carries nuclear genes which restore fertility to all three cytoplasmic male sterile (cms) types of maize: T, C and S. By substituting the Ky21 cytoplasm into a nuclear background lacking all of the nuclear restorer genes, we have demonstrated that Ky21 contains a fertile (normal) cytoplasm. Gel electrophoresis of mitochondrial DNA from Ky21 demonstrated an approximately 2.1 kb plasmid and no evidence for a 2.35 kb plasmid found in many normal cytoplasms of North American lines of maize. A 2.1 kb plasmid had been reported to be diagnostic for the T-type cms. However, the restriction endonuclease digestion pattern of Ky21 mtDNA more closely resembled that of normal lines than T-cms. Furthermore, mitochondria of Ky21 plants did not synthesize a 13 kilodalton polypeptide, which has only been found to be synthesized by T-type mitochondria. From these molecular criteria, as well as from the genetic analysis, we conclude that the mitochondria of the Ky21 universal restorer line are normal. In having a shorter form of a linear mtDNA plasmid, Ky21 resembles cytoplasms found in Mexican races of maize.     

玉米不育系及其保持系线粒体atp6基因转录本编辑位点研究

以玉米同核异质细胞质雄性不育系T黄早四、C黄早四、S黄早四以及保持系N黄早四为材料, 比较研究了供试材料小孢子发育到单核期的线粒体atp6基因转录本保守区域的编辑位点。结果表明, DNA序列在T、C、S 3种胞质中完全一致, 与N胞质相比除在27、28核苷酸处不同外, 其余均一致, 而各胞质cDNA序列却不尽相同。DNA和cDNA序列比较显示: atp6基因转录本保守区域内, N、S胞质中均存在19个编辑位点, T胞质存在22个, C胞质存在20个, 它们相同的编辑位点有18个。大多数编辑位点都发生在密码子的第一、二位点上, 可改变氨基酸的种类。18个相同的编辑位点大都为完全编辑, 其中第1位点在各胞质中为部分编辑, 第19位点除在N胞质中为完全编辑外其余胞质都为部分编辑。而各胞质特有编辑位点均以部分编辑的形式出现。由此可见, 在玉米中atp6基因RNA编辑不仅具有序列特异性, 同时还受到胞质背景的影响。通过分析还可看出, 编辑的C残基前一个碱基多为嘧啶类碱基, 编码氨基酸Ser和Pro的密码子较其他类的密码子更易受到编辑, 且植物RNA的编辑有着改变蛋白质疏水性、增加物种间保守性的倾向。     

Effects of Phosfon-D and of low temperature on the morphology of cell protoplasts

Summary The adventitious roots of onion (Allium cepa L.) or onion bulb scales were treated either with growth retardant Phosfon-D (2,4-dichlorobenzyltributylphosfonium chloride), or with low temperature (5° C). Low temperature, likewise Phosfon-D treatment, resulted in the appearance of membranous structures within the cytoplasm of the root cells fixed in chromaceto-formalin (CrAF) and in the occurrence of minute vacuoles in the living onion bulb scale cells. The cytochemical analysis revealed the membrane-like elements to contain basic and acid proteins as well as nucleic acids.It seems that the observed effect of Phosfon-D and that of low temperature were due to the local accumulation of protein resulting in changes of the physical properties of the cytoplasm. The fact that membranous structures do contain nucleic acid may suggest their important, metabolic role especially in the process of cold acclimation of plant tissue.This work was partly supported by Grant No. FG-PO-225 from U.S. Department of Agriculture, Agricultural Research Program, Public Law 480.