Microsatellite analysis of Aegilops tauschii germplasm

The highly polymorphic diploid grass Aegilops tauschii isthe D-genome donor to hexaploid wheat and represents a potential source for bread wheat improvement. In the present study microsatellite markers were used for germplasm analysis and estimation of the genetic relationship between 113 accessions of Ae. tauschii from the gene bank collection at IPK, Gatersleben. Eighteen microsatellite markers, developed from Triticum aestivum and Ae. tauschii sequences, were selected for the analysis. All microsatellite markers showed a high level of polymorphism. The number of alleles per microsatellite marker varied from 11 to 25 and a total of 338 alleles were detected. The number of alleles per locus in cultivated bread wheat germplasm had previously been found to be significantly lower. The highest levels of genetic diversity for microsatellite markers were found in accessions from the Caucasian countries (Georgia, Armenia and the Daghestan region of Russia) and the lowest in accessions from the Central Asian countries (Uzbekistan and Turkmenistan). Genetic dissimilarity values between accessions were used to produce a dendrogram of the relationships among the accessions. The result showed that all of the accessions could be distinguished and clustered into two large groups in accordance with their subspecies taxonomic classification. The pattern of clustering of the Ae. tauschii accessions is according to their geographic distribution. The data suggest that a relatively small number of microsatellites can be used to estimate genetic diversity in the germplasm of Ae. tauschii and confirm the good suitability of microsatellite markers for the analysis of germplasm collections. Received: 8 September 1999 / Accepted: 7 October 1999     

Chloroplast and nuclear microsatellite analysis of Aegilops cylindrica

Aegilops cylindrica Host (2n=4x=28, genome CCDD) is an allotetraploid formed by hybridization between the diploid species Ae. tauschii Coss. (2n=2x=14, genome DD) and Ae. markgrafii (Greuter) Hammer (2n=2x=14, genome CC). Previous research has shown that Ae. tauschii contributed its cytoplasm to Ae. cylindrica. However, our analysis with chloroplast microsatellite markers showed that 1 of the 36 Ae. cylindrica accessions studied, TK 116 (PI 486249), had a plastome derived from Ae. markgrafii rather than Ae. tauschii. Thus, Ae. markgrafii has also contributed its cytoplasm to Ae. cylindrica. Our analysis of chloroplast and nuclear microsatellite markers also suggests that D-type plastome and the D genome in Ae. cylindrica were closely related to, and were probably derived from, the tauschii gene pool of Ae. tauschii. A determination of the likely source of the C genome and the C-type plastome in Ae. cylindrica was not possible.     

Genetic diversity of the cytoplasm in Triticum and Aegilops

Summary Twelve kinds of common wheat nuclei were placed into the cytoplasms of 23 species of Aegilops and Triticum by repeated backcrosses in the Laboratory of Genetics, Kyoto University. Using these nucleus-cytoplasm hybrids, the distribution of the variegation-inducing cytoplasms was investigated. The variegation was maternally inherited, and was found to be temperature-dependent; it was expressed only at low temperatures, accompanied by a remarkable reduction in the content of chlorophyll a and b, and recovered to almost normal level in a greenhouse kept at 25 °C. The variegation was expressed only by special combinations of the wheat nuclei and alien cytoplasms; nine common wheat nuclei, Tve, P168, CS, N26, Slm, Sk, S615, Sphr, and Splt, and six cytoplasms, T. boeoticum, Ae. umbellulata, Ae. triuncialis, Ae. biuncialis, Ae. columaris, and Ae. triaristata 6x, expressed weak to strong variegation in almost all combinations. Combinations of three common wheat nuclei (JF , Comp and Macha) and 17 other cytoplasms showed no variegation: JF , Comp and Macha appeared to have a sort of restoring gene(s) against variegation. Since distribution of the variegation-inducing cytoplasms was confined to the A and C^u type plasmas, it was assumed that the plasmagene(s) responsible for the variegation originated in the diploid level and was transmitted from Ae. umbellulata to three tetraploid and one hexaploid species of Polyeides section through the process of amphidiploidization.Contribution from the Laboratory of Genetics, Faculty of Agriculture, Kyoto University, No. 399. The present work was supported in part by a Grant-in-Aid (No. 036023) from the Ministry of Education, Japan.     

Copper Toxicity Tolerance in Aegilops and Haynaldia Seedlings

The seedling response to high Cu concentrations (1 and 10 μM CuSO₄ . 5 H₂O) was studied in Aegilops triuncialis, Ae. geniculata, Ae. cylindrica and Haynaldia villosa. The negative effect of Cu on the root growth was recorded at both concentrations, while the shoot growth was inhibited at 10 μM. The most tolerant was Ae. triuncialis, followed by Ae. geniculata. Ae. cylindrica and H. villosa were more sensitive. This revised version was published online in July 2006 with corrections to the Cover Date.     

二角山羊草Pinb基因的克隆与表达分析

根据已报道的小麦Pinb基因的保守序列,设计合成了1对特异性引物,对二角山羊草(Aegilops bicornis,SS)的基因组DNA进行Pinb基因扩增、克隆、序列分析,发现了1个新型Pinb等位基因,基因长360bp,编码119个氨基酸残基,对应于麦类作物PinB成熟蛋白结构区域,具有其特有的WPTKWWK色氨酸结构域和10个半胱氨酸所形成的5个二硫键结构。与软粒小麦cv.Capitole的Pinb-D1a相比较,其核苷酸和氨基酸同源性分别为93.1%和91.6%。RT-PCR证实了Pinb基因在籽粒胚乳中的表达。研究结果表明,二角山羊草中包含着与小麦差异较大的籽粒硬度控制基因,为栽培小麦品质改良提供了丰富的遗传资源。     

Relationships between the chromosomes of Aegilops umbellulata and wheat

 A comparative genetic map of Aegilops umbellulata with wheat was constructed using RFLP probes that detect homoeoloci previously mapped in hexaploid bread wheat. All seven Ae. umbellulata chromosomes display one or more rearrangements relative to wheat. These structural changes are consistent with the sub-terminal morphology of chromosomes 2 U, 3 U, 6 U and 7 U. Comparison of the chromosomal locations assigned by mapping and those obtained by hybridization to wheat/Ae. umbellulata single chromosome addition lines verified the composition of the added Ae. umbellulata chromosomes and indicated that no further cytological rearrangements had taken place during the production of the alien-wheat aneuploid lines. Relationships between Ae. umbellulata and wheat chromosomes were confirmed, based on homoeology of the centromeric regions, for 1 U, 2 U, 3 U, 5 U and 7 U. However, homoeology of the centromeric regions of 4 U with wheat group-6 chromosomes and of 6 U with wheat group-4 chromosomes was also confirmed, suggesting that a re-naming of these chromosomes may be pertinent. The consequences of the rearrangements of the Ae. umbellulata genome relative to wheat for gene introgression are discussed. Received: 10 July 1997 / Accepted: 19 September 1997     

粗山羊草(Aegilops tauschii)中Pinb基因的克隆和表达分析

puroindoline a(Pina)和puroindoline b(Pinb)是控制小麦籽粒硬度的主效基因。根据已报道的小麦Pinb基因的保守序列,设计合成了一对特异性引物,对粗山羊草Aegilops tauschii(DD)的基因组DNA进行Pinb基因扩增、克隆和序列分析,发现了一个新型Pinb等位基因。该基因长447 bp,编码148个氨基酸残基,具有麦类作物PinB蛋白所特有的WPTKWWK色氨酸结构域和10个半胱氨酸所形成的5个二硫键结构。与软粒小麦cv.Capitole的Pinb-D1a相比较,该基因含有14个氨基酸变异位点,其中包括一个紧邻色氨酸结构域的变异位点(Val66Phe),其核苷酸和氨基酸同源性分别为93.3%和90.5%。RT-PCR和Western Blot证实了Pinb基因在籽粒胚乳中的表达。Southern Blot分析结果表明,粗山羊草中Pinb基因为单拷贝。研究结果表明,粗山羊草中包含着与小麦差异较大的籽粒硬度控制基因,对此基因的进一步研究将加深对小麦籽粒硬度形成分子机制的了解。     

Isolation and characterization of gliadins from Aegilops squarrosa seeds

The major gliadin components were isolated from the seeds of the diploid species Aegilops squarrosa, a putative source of polyploid wheat D-genome. The isolation procedure included gel-filtration and reversed-phase high-performance liquid chromatography (HPLC). The purified proteins were characterized by electrophoretic mobility in polyacrylamide gel using acid Al-lactate system and a system containing sodium dodecyl sulfate. The amino acid composition of isolated omega-gliadins was determined. Using covalent chromatography on thiopropyl-Sepharose 6B it was found that omega-gliadins of A. squarrosa contain no SH-groups and/or S-S-bonds. The N-terminal amino acid sequences of A. squarrosa gliadins were determined. omega-Gliadins were found to contain three types of N-terminal amino acid sequences, one of which, SRQ, in hexaploid wheat is encoded by 1B chromosome. It was shown that some omega-gliadins of A. squarrosa have blocked N-terminal amino acids. The major component of the gamma-fraction was found to contain an N-terminal sequence of gamma 2 type encoded in polyploid wheat by 1D chromosome. Gliadins with electrophoretic mobility in the beta-zone of the spectrum possess the N-terminal sequence of alpha-type. The results obtained are discussed in terms of the origin of polyploid wheat genomes.     

New phenolic diglycerides from Aegilops ovata

Two novel phenolic diglycerides have been isolated from Aegilops ovata together with scopoletin and p-coumaric acid. Spectroscopic evidence and a synthesis confirmed the proposed structures which are presented together with the CMR data for these diglycerides and related model compounds.     

Nitrate reductases in hexaploid and tetraploid wheats and Aegilops

Summary Nitrate reductase activity (NR activity), protein content (NR protein) and polypeptides were compared in shoots of Triticum aestivum ssp. vulgare (L.) cv Fidel (bread wheat, AABBDD genome), Triticum dicoccum cv Vernal (AABB genome), Aegilops squarrosa var. strangulata (DD genome) and the amphiploid 365 (AABBDD genome), produced by crossing T. dicoccum cv Vernal and Ae. squarrosa var. strangulata. Constitutive NR protein and activity were found in shoots of all seedlings grown without nitrate, with the highest activity in the bread wheat. The inducible NR protein and activity developed upon the addition of nitrate. A 116-K polypeptide was identified as the main component of the NR from the bread wheat, while a faint, sometimes discernable 94-K band appeared on Western blots. Only one NR polypeptide could be identified in Ae. squarrosa —the 94 K. An intermediary situation was observed with the tetraploid T. dicoccum and the amphiploid: The 94-K polypeptide was the only one separated from NR of seedlings grown in the absence of nitrate. The 116-K polypeptide appeared after the addition of nitrate. The intensity of its band on the gel increased with the duration of the nitrate treatment. When comparing Ae. squarrosa and T. dicoccum, the constitutive isozyme (94-K polypeptide) was found in the D as well as in the AB genomes, while the inducible NR (116-K polypeptide) was absent from the D genome. Addition of the D genome into the AB genome slightly reinforced the expression of the inducible form (AB genome expression) in the amphiploid wheat. We postulate that the inducible form of NR in the bread wheat resulted from an evolutionary selection pressure favoured by cultivation.     

Influence of Genome on Leaf Anatomy of Triticum and Aegilops

The leaf mesophyll of Triticum and Aegilops is constructed fromcells with one to ten arms. Volume of mesophyll cells per unitleaf area was larger in some monogenomic (A and B genome) plantsthan in polyploids, while leaf volume per unit leaf area wassmaller in the former than in the latter. Consequently, thecompactness of leaf blade is higher in these monogenomic plantsthan in the polyploids. D genome plants showed a much lowervolume of both mesophyll cells and leaf blade per unit leafarea, but the compactness of the leaf blade was generally higherthan in the polyploids. Mesophyll surface area per unit leaf area tended to be largerin the A and B genome than in the D genome and polyploid plants.Out of the polyploids, AB genome plants showed a larger mesophyllsurface area per unit leaf area as compared with AG and ABDgenome plants. Therefore, either the D or the G genome seemsto have the effect of decreasing the mesophyll surface areaper unit leaf area. A decrease of the compactness of leaf bladeand the mesophyll surface area per unit leaf area in the polyploidswas considered to be associated with the reduction of theirphysiological activities on the unit leaf area basis. Triticum, Aegilops, wheat, mesophyll surface area, leaf anatomy, genome, photosynthesis     

拟斯卑尔脱山羊草基因的克隆与表达研究

Avenin—like基因是近年来发现的一类新基因。根据小麦avenin-like基因的保守序列,设计合成了一对特异性引物,对拟斯卑尔脱山羊草（Aegilops spehoides,ss）的基因组DNA进行avenin-like基因扩增、克隆、序列测定和表达分析,发现了一个新型avenin—like基因。基因长855bp,编码284个氨基酸残基,分子量约为33kD。Souchern blot结果表明其属于多基因家族。RT—PCR证实了avenin-like基因在籽粒胚乳中特异性表达。其对应的氨基酸序列含有18个半胱氨酸残基,可以形成7对分子内二硫键。研究表明Avenin-like蛋白是一类新型的储藏蛋白。这为小麦加工品质的改良提供了理论依据和遗传资源。     

Morphological and genetic variation in Aegilops geniculata from Algeria

Aegilops geniculata Roth is an annual grass relative to cultivated wheats and is widely distributed in North Africa. In order to understand the diversity of this species, 14 populations collected in different bioclimatic areas in northern Algeria were analyzed using morphological and biochemical characters. Principal component analyses (PCA) based on the inflorescence characters and ecological parameters allowed the separation of populations in two mainly bioclimatic clusters characterized by different morphological patterns. Populations originated from humid and sub-humid coastal areas were characterized by vigorous spikes. Samples collected from intermediate and high mountains with humid and semi-arid conditions had long and lanceolate spikes. Individuals with small and narrow spikes were characteristics of steppic highlands in semi-arid conditions and high mountains with humid bioclimate. Individuals were distinguished successively by spike width, spike length, rachis length and awns number. Electrophoretic analyses of high molecular weight glutenin subunits (HMW-GS) based on the phenotypic variability and genetic distances revealed a significant variation within and between populations associated with bioclimatic conditions, in particular winter temperature. Genetic diversity was higher in populations growing under warm bioclimates than in those from cold bioclimates. These results suggest that a part of the variation for HMW glutenin variability is adaptive.     

Inheritance of dense spike in diploid wheat and Aegilops squarrosa

The individuals of diploid wheat Triticum boeoticum, T. monococcum and T. sinskajae and goatgrass Aegilops squarrosa were picked out with screening the dense spike characteristics. The dense-spike accessions were discovered in diploid wheat (T. sinskajae) and Ae. squarrosa. Inheritance of the dense spike was studied. The trait was found to be controlled by a recessive gene in T. sinskajae and by an incomplete dominant gene in Ae. squarrosa. The dosage effect of dominant gene C was detected in interspecific pentaploid F1 hybrid plants T. compactum x T. palmovae (2n =35, A(u)A(b)BDD genome). The spike of pentaploid hybrid was not so dense as compared to hexaploid wheat T. compactum. This is the first report showing similarity of the expression of dominant gene C on D genome of the hexaploid wheat to that of dense spike gene in Ae. squarrosa. The existence of dense-spike accessions of Ae. squarrosa allows us to hypothesize that the origin of T. compactum is independent from that of common wheat.     

Aegilops conservation and collection evaluation in the Czech Republic

Aegilops distribution was revised on localities in the territory of the Czech Republic and the former Czechoslovakia, based on herbarium data, literature and floristic databases. The only surviving species Ae. cylindrica forms the northern limit of distribution in the Danube basin, other sites are secondary. In situ conservation was proposed for two Czech sites where Aegilops have been naturalized. An ex situ gene bank collection has been maintained in the Gene Bank Prague since 1985. The collection includes 21 species and 1099 accessions. The whole collection was evaluated for breeding-valuable characters: resistance to leaf diseases, cereal aphids, viral diseases, and qualitative parameters. Recently, the collection was retested for the present races of leaf and stem rust including new introductions from Kazakhstan. Six different leaf rust races and five different stem rust races collected from the Czech Republic were applied in the older tests, and three races from each rust species in the recent tests. The highest number of accessions resistant both to wheat leaf rust and wheat stem rust and powdery mildew was found in Ae. speltoides (90%). Different reactions of individual accessions of the tested species to the three different pathotypes of each rust species indicates that several diverse genes for specific resistance are present in the accessions of the tested species.     

Molecular cytogenetic analysis of Aegilops cylindrica host.

The genomic constitution of Aegilops cylindrica Host (2n = 4x = 28, DcDcCcCc) was analyzed by C-banding, genomic in situ hybridization (GISH), and fluorescence in situ hybridization (FISH) using the DNA clones pSc119, pAs1, pTa71, and pTA794. The C-banding patterns of the Dc- and Cc-genome chromosomes of Ae. cylindrica are similar to those of D-and C-genome chromosomes of the diploid progenitor species Ae. tauschii Coss. and Ae. caudata L., respectively. These similarities permitted the genome allocation and identification of the homoeologous relationships of the Ae. cylindrica chromosomes. FISH analysis detected one major 18S-5.8S-25S rDNA locus in the short arm of chromosome 1Cc. Minor 18S-5.8S-25S rDNA loci were mapped in the short arms of 5Dc and 5Cc. 5S rDNA loci were identified in the short arm of chromosomes 1Cc, 5Dc, 5Cc, and 1Dc. GISH analysis detected intergenomic translocation in three of the five Ae. cylindrica accessions. The breakpoints in all translocations were non-centromeric with similar-sized segment exchanges.     

牡山羊草Aegilops juvenalis Puroindoline b基因的克隆

Puroindoline a（Pina）和puroindoline b（Pinb）是控制小麦籽粒硬度的主效基因。根据已报道的小麦Pinb基因的保守序列,设计合成了一对特异性引物,对六倍体牡山羊草Aegilops juvenalis（UUMMDD）的基因组DNA和胚乳eDNA进行Pinb基因扩增、克隆和序列测定,发现了两个新型Pinb等位基因Pinb-allele-1和Pinb-allele-2。该基因全长360bp,编码119个氨基酸残基。它编码的蛋白和麦类作物Puroindoline B（PinB）的成熟蛋白有非常高的同源性,具有麦类作物PinB蛋白所特有的WPTKWWK的色氨酸结构域和10个半胱氨酸所形成的5个二硫键结构。与软粒小麦ev．Capitole的Pinb-D1a相比较,其核苷酸同源性为93．1％、93．3％,氨基酸同源性为90．8％、92．4％。Pinb。allele。1和Pinb—allele一2分别含有11和9个氨基酸变异位点。RT—PCR证实了Pinb—allele一2基因在籽粒胚乳中的表达。SouthernBlot分析结果表明,牡山羊草中含有两个拷贝的Pinb基因,其中包含着与小麦差异较大的籽粒硬度控制基因。     

Cytogenetic comparison of N-genome Aegilops L. species

Differential C-banding and in situ hybridization were employed in a cytogenetic comparison of thee N-genome Aegilops species: diploid Ae. uniaristata, tetraploid Ae. ventricosa, and hexaploid Ae. recta. The formation of Ae. recta was shown to involve only minor functional modifications of the parental genomes, while intraspecific divergence was accompanied by large genome rearrangements, namely, translocations involving the total chromosome arms of all of the three genomes. The formation of tetraploid Ae. ventricosa involved substantial structural chromosome rearrangements, including a partial deletion of the short arm of chromosome 5D, including the nucleolus-organizing region; a redistribution of C bands on chromosomes of the D and N genomes along with a reduction of the heterochromatin content; and a considerable decrease in the hybridization intensity of the pAs1 repeat. Chromosomes of the Ae. ventricosa D genome were more similar to chromosomes of the Ae. crassa D1 genome than to Ae. tauschii chromosomes.