Sequence evidence for sporadic intergeneric DNA introgression from wheat into a wild Aegilops species

Introgressive hybridization has played a crucial role in the evolution of many plant species, especially polyploids. The duplicated genetic material and wide geographical distribution facilitate hybridization and introgression among polyploid species having either homologous or homoeologous genomes. Such introgression may lead to the production of recombinant genomes that are more difficult to form at the diploid level. Crop genes that have introgressed into wild relatives can increase the capability of the wild relatives to adapt to agricultural environments and compete with crops or to compete with other wild species. Although the transfer of genes from crops into their conspecific immediate wild progenitors has been reported, little is known about spontaneous gene movement from crops to more distantly related species. We describe recent spontaneous DNA introgression from domesticated polyploid wheat into distantly related, wild tetraploid Aegilops peregrina (syn. Aegilops variabilis) and the stabilization of this sequence in wild populations despite not having homologous chromosomes. Our results show that DNA can spontaneously introgress between homoeologous genomes of species of the tribe Triticeae and, in the case of crop-wild relatives, possibly enrich the wild population. These results also emphasize the need for fail-safe mechanisms in transgenic crops to prevent gene flow where there may be ecological risks.     

Insight into the genetic variability analysis and relationships among some Aegilops and Triticum species,as genome progenitors of bread wheat,using SCoT markers

We assessed the molecular genetic diversity and relationships among some Aegilops and Triticum species using 15 start codon-targeted (SCoT) polymorphism markers. A total of 166 bands amplified, of which 164 (98.79%) were polymorphic. Analysis of molecular variance and inter-population differentiation (Gst) indicated high genetic variation within the studied populations. Our analyses revealed high genetic diversity in T. boeoticum, Ae. cylindrica, T. durum and Ae. umbellulata, low diversity in Ae. crassa, Ae. caudata and Ae. speltoides, and a close relationship among Ae. tauschii, T. aestivum, T. durum, T. urartu, and T. boeoticum. Cluster analysis indicated 180 individuals divided into 8 genome homogeneous clades and 11 sub-groups. T. aestivum and T. durum accessions were grouped together, and accessions with the C and U genomes were grouped into the same clade. Our results support the hypothesis that T. urartu and Ae. tauschii are two diploid ancestors of T. aestivum, and also that Ae. caudata and Ae. umbellulata are putative donors of C and U genomes for other Aegilops species that possess these genomes. Our results also revealed that the SCoT technique is informative and can be used to assess genetic relationships among wheat germplasm.     

Molecular fingerprinting of some Mentha species by sequencing and RFLP analysis of the 5S-rRNA non-transcribed spacer region

The genus Mentha is of particular economic importance. The development of new methods for the characterisation of Mentha species is crucial for their unequivocal identification. Amplification of the non-transcribed spacer (NTS) of the 5S-rRNA gene was used to characterise some Mentha species, which revealed a high-specific variability. Cloning and sequencing of all amplified NTS fragments enabled the discrimination among almost all species. In silico and experimental analyses identified specific restriction sites on the amplified 5S-NTS regions, facilitating the rapid and unambiguous discrimination of all the different species by polymerase chain reaction–restriction fragment length polymorphism. A direct comparison between essential oil composition and DNA fingerprinting confirmed a relationship between chemical and molecular data.     

Evolutionary features of chondriome divergence in Triticum (wheat) and Aegilops shown by RFLP analysis of mitochondrial DNAs

The first comprehensive analysis was made of restriction fragment length polymorphism (RFLP) of the mitochondrial (mt) DNA of two related genera, Triticum (wheat) and Aegilops. This led to clarification of the nature of mtDNA variability and the inference of the phylogeny of the mitochondrial genomes (=chondriome). Forty-six alloplasmic lines and one euplasmic line of common wheat (2n = 42, genomes AABBDD) carrying plasmons (cytoplasmic genomes) of 47 accessions belonging to 33 species were used. This consisted of nearly all the Triticum and Aegilops species. RFLP analysis, carried out with seven mitochondrial gene probes (7.0 kb in total) in combination with three restriction endonucleases, found marked variation: Of the 168 bands detected, 165 were variable (98.2%), indicative that there is extremely high mtDNA variability in these genera. This high variability is attributed to the variation present in the intergenic regions. Most of the variation was between chondriomes of different plasmon types; only 8 bands (4.8%) between those of the same plasmon types were variable, evidence of clear chondriome divergence between different plasmon types. The first comprehensive phylogenetic trees of the chondriome were constructed on the basis of genetic distances. All but 1 of the polyploids had chondriomes closely related to those of 1 putative parent, indicative of uniparental chondriome transmission at the time of polyploid formation. The chondriome showed parallel evolutionary divergence to the plastome (chloroplast genome). Use of a minimum set of 3 mtDNA probe-enzyme combinations is proposed for tentative plasmon type identification and the screening of new plasmon types in those genera. Received: 20 March 1999 / Accepted: 22 June 1999     

Determination of phylogenetic relationships between some wild wheat species using amplified fragment length polymorphism (AFLP) markers

This study reports the molecular characterization, polymorphism, and phylogenetic relationships of Triticum aestivum , T. dicoccoides , T. urartu , and T. monococcum ssp. boeoticum , obtained from different locations in Anatolia, using 33 primer combinations to generate amplified fragment length polymorphism (AFLP) patterns in 31 individual plant samples. The objectives of this work were to estimate the phylogenetic relationships between these species and to investigate the genetic distance as a result of ecological and climatic factors. The origin of the A genome of polyploid wheats is also discussed. Eight hundred and seventy-five AFLP fragments had polymorphic loci, 133 of which were unique to T. monococcum ssp. boeoticum , 66 were unique to T. urartu , and 141 were unique to T. dicoccoides . Analysis using the program POPGENE showed polymorphism levels of T. monococcum ssp. boeoticum , T. urartu , and T. dicoccoides of 42.63, 32.34, and 27.71%, respectively. No correlation between genetic distance and ecological or climatic factors was recorded in this study. Our results support the hypothesis that T. urartu is a diploid ancestor of T. dicoccoides and T. aestivum .  © 2007 The Linnean Society of London, Botanical Journal of the Linnean Society , 2007, 153 , 67–72.     

山羊草属二倍体物种核rDNA ITS区序列及其系统发育关系分析

测定了山羊草属（Ａｅｇｉｌｏｐｓ）二倍物种核ｒＤＮＡ ＩＴＳ区序列,发现其碱基粉介于６０１－６０７之间,比报道的小ｒｉｕｃｅａｅ）其他属的ＩＴＳ区我略长,Ｇ＋Ｃ含量达６１．１％～６２．９％,序列间的分化距离为０．００５０～０．０４６８。用ＰＨＹＬＩＰ３．５ｅ软件包对所测得的ＤＮＡ数据进行聚类分析,结果显示：１．Ａｅ．ｓｐｅｌｔｏｉｄｅｓ与该组其他种相距很远,支持将其从Ｓｉｔｏｐｓｉｓ组中独立出来,     

松毛虫属（Dendrolimus) 部分种类亲缘关系与遗传分化的等位酶分析

采用等位酶聚丙烯酰胺凝胶电泳技术对松毛虫属5个种和亚种的野生种群进行了亲缘关系和遗传变异的研究.8种等位酶系统(乳酸脱氢酶LDH、苹果酸脱氢酶MDH、苹果酸酶ME、乙醇脱氢酶ADH、甲酸脱氢酶FDH、谷氨酸脱氢酶GDH、过氧化物酶POD、过氧化氢酶CAT)共检测到12个基因位点,其中6个位点为多态位点,检测到15个等位基因.松毛虫属5个种和亚种的总体水平多态位点比率P＝50%,平均有效基因数A = 1.917,平均期望杂合度He =0.267,平均遗传距离为0.0730～0.5701.遗传参数表明松毛虫属昆虫种间存在较高程度的遗传变异,聚类图和遗传距离数据表明赤松毛虫与马尾松毛虫亲缘关系最近,落叶松毛虫与思茅松毛虫亲缘关系最远.     

Restriction Fragment Length Polymorphism (RFLP) for protein disulfide isomerase (PDI) gene sequences in Triticum and Aegilops species

RFLP variation revealed by protein disulfide isomerase (PDI) coding gene sequences was assessed in 170 accessions belonging to 23 species of Triticum and Aegilops. PDI restriction fragments were highly conserved within each species and confirmed that plant PDI is encoded either by single-copy sequences or by small gene families. The wheat PDI probe hybridized to single EcoRI or HindIII fragments in different diploid species and to one or two fragments per genome in polyploids. Four Aegilops species in the Sitopsis section showed complex patterns and high levels of intraspecific variation, whereas Ae. searsii possessed single monomorphic fragments. T. urartu and Ae. squarrosa showed fragments with the same mobility as those in the A and D genomes of Triticum polyploid species, respectively, whereas differences were observed between the hybridization patterns of T. monococcum and T. boeoticum and that of the A genome. The single fragment detected in Ae. squarrosa was also conserved in most accessions of polyploid Aegilops species carrying the D genome. The five species of the Sitopsis section showed variation for the PDI hybridization fragments and differed from those of the B and G genomes of emmer and timopheevi groups of wheat, although one of the Ae. speltoides EcoRI fragments was similar to those located on the 4B and 4G chromosomes. The similarity between the EcoRI fragment located on the 1B chromosome of common and emmer wheats and one with a lower hybridization intensity in Ae. longissima, Ae. bicornis and Ae. sharonensis support the hypothesis of a polyphyletic origin of the B genome. Received: 25 June 1999 / Accepted: 14 September 1999     

RFLP and semi-multiplex PCR-based identification of four eel species from the south-western Indian Ocean region

To make the assignment of elvers to species more easily attainable and reliable, unpublished and recently published mitochondrial DNA sequences were used to design molecular determination approaches not based on sequencing. Two methods were proposed based on 16SrRNA single nucleotide polymorphism analysis, which improve identification of the four eel species living in the south-western Indian Ocean region.     

Identification ofArmillaria species from hokkaido by analysis of the intergenic spacer (IGS) region of ribosomal DNA using PCR-RFLP

The intergenic spacer (IGS) region, which is located between the 3′ end of 26S ribosomal DNA (rDNA) and the 5′ end of 5S rDNA, of sixArmillaria species from Hokkaido was investigated using polymerase chain reaction-restriction fragment length polymorphisms (PCR-RFLP). Restriction with onlyAlu I could distinguishA. mellea subsp.nipponica from the other species. WithAlu I andDde I,A. ostoyae andA. gallica could be distinguished from the other species. Digestion withAlu I resulted in two patterns (types A and B) ofA. singula and three patterns (types A, B, and C) ofA. jezoensis. One pattern (type B) of the former species and two patterns (types B and C) of the latter species were each different from those of the other species.Armillaria sinapina gave only oneAlu I digestion pattern, which was identical to that ofA. jezoensis (type A) andA. singula (type A). However, by digestion withDde I,A. singula (type A) could be distinguished fromA. jezoensis (type A) andA. sinapina.     

普通小麦祖先种类TaNAC2a基因的生物信息和表达分析

采用生物信息学方法,利用核酸、蛋白数据库对普通小麦祖先种乌拉尔图小麦(Triticum urartu L.)和粗山羊草(Aegilops tauschii L.)NAC转录因子基因家族进行分析,分别鉴定出107、126个NAC蛋白家族成员。根据拟南芥、水稻NAC基因家族分类系统,将其分为15个亚族。通过与抗逆相关基因TaNAC2a进行同源进化树分析,发现5个TuNAC、6个AetNAC基因与其高度同源,对这些基因的蛋白结构域、基因结构、启动子顺式作用元件及组织表达特性进行分析。结果表明,11个NAC蛋白具有典型的NAC结构域。进化关系较近的基因具有相似基因结构;启动子区域预测发现其均含有逆境胁迫响应作用元件。实时荧光定量PCR结果显示,TuNAC、AetNAC基因分别在乌拉尔图小麦和粗山羊草根、胚芽鞘、叶组织中均有表达,并呈现出明显的组织表达特异性。通过芯片表达数据和逆境胁迫基因表达试验,推测AetNAC2c基因可能参与植物干旱胁迫响应,AetNAC2b可能参与调控植物的耐旱、耐低温胁迫反应。上述分析结果为普通小麦祖先种基因家族的系统研究,优异候选功能基因的预测、筛选提供了试验依据。     

Characterization of natural populations of Nitrobacter spp. using PCR/RFLP analysis of the ribosomal intergenic spacer

DNA sequences from the intergenic spacer (IGS) region of the ribosomal operon were amplified by the polymerase chain reaction (PCR) technique using two primers derived from 16S and 23S rRNA conserved sequences. The PCR products, cleaved by 4 base cutting restriction enzymes, were used to differentiate Nitrobacter strains. This method offered a convenient alternative to serological testing for characterization of Nitrobacter isolates and enabled a large number of strains to be genotypically characterized easily and rapidly. This method was successfully used to characterize natural populations of Nitrobacter from various soils and a lake. A diversity was demonstrated in various soils, and in a lake both in freshwater and in sediments. Strains closely related to both WL and LL were found in these eco-systems. It seems that the diversity of Nitrobacter populations was not associated with global environments but may be related to the presence of locally coexisting niches.Non-commun abbreviations PCR polymerase chain reaction - RFLP restriction fragment length polymorphism - IGS intergenic spacer     

Genetic variability of the wild diploid wheat Triticum urartu revealed by RFLP and RAPD markers

 Genetic variability among 49 accessions of Triticum urartu was estimated by RFLP and RAPD marker analyses, and the two data sets were compared. One T. timopheevii accession and two accessions of T. durum and T. aestivum, respectively, were included to identify T. urartu accessions closely related to these polyploid wheats. Twenty eight RFLP clones and 29 RAPD primers generated 451 and 155 polymorphic bands, respectively. The three accessions from Armenia clustered together and were well separated from all other accessions, which showed less pronounced geographical patterns. Genetic similarity and co-phenetic values calculated with RAPD markers were very similar to those calculated with RFLP markers for the intraspecific comparisons, but not for the interspecific comparisons. The identification of individual T. urartu accessions which are more related to polyploid wheats than others was not possible. Received: 14 May 1996 / Accepted: 13 September 1996     

Chromosome substitutions of Triticum timopheevii in common wheat and some observations on the evolution of polyploid wheat species

Whether the two tetraploid wheat species, the well known Triticum turgidum L. (macaroni wheat, AABB genomes) and the obscure T. timopheevii Zhuk. (A^tA^tGG), have monophyletic or diphyletic origin from the same or different diploid species presents an interesting evolutionary problem. Moreover, T. timopheevii and its wild form T. araraticum are an important genetic resource for macaroni and bread-wheat improvement. To study these objectives, the substitution and genetic compensation abilities of individual T. timopheevii chromosomes for missing chromosomes of T. aestivum Chinese Spring (AABBDD) were analyzed. Chinese Spring aneuploids (nullisomic-tetrasomics) were crossed with a T. timopheevii x Aegilops tauschii amphiploid to isolate T. timopheevii chromosomes in a monosomic condition. The F₁ hybrids were backcrossed one to four times to Chinese Spring aneuploids without selection for the T. timopheevii chromosome of interest. While spontaneous substitutions involving all A^t- and G-genome chromosomes were identified, the targeted T. timopheevii chromosome was not always recovered. Lines with spontaneous substitutions from T. timopheevii were chosen for further backcrossing. Six T. timopheevii chromosome substitutions were isolated: 6A^t (6A), 2G (2B), 3G (3B), 4G (4B), 5G (5B) and 6G (6B). The substitution lines had normal morphology and fertility. The 6A^t of T. timopheevii was involved in a translocation with chromosome 1G, resulting in the transfer of the group-1 gliadin locus to 6A^t. Chromosome 2G substituted for 2B at a frequency higher than expected and may carry putative homoeoalleles of gametocidal genes present on group-2 chromosomes of several alien species. Our data indicate a common origin for tetraploid wheat species, but from separate hybridization events because of the presence of a different spectrum of intergenomic translocations.     

Phylogenetic relationship of Paenibacillus species based on putative replication origin regions and analysis of an yheCD-like sequence found in this region

To determine the phylogenetic relationship among Paenibacillus species, putative replication origin regions were compared. In the rsmG-gyrA region, gene arrangements in Paenibacillus species were identical to those of Bacillus species, with the exception of an open reading frame (orf14) positioned between gyrB and gyrA, which was observed only in Paenibacillus species. The orf14 product was homologous to the endospore-associated proteins YheC and YheD of Bacillus subtilis. Phylogenetic analysis based on the YheCD proteins suggested that Orf14 could be categorized into the YheC group. In the Paenibacillus genome, DnaA box clusters were found in rpmH-dnaA and dnaA-dnaN intergenic regions, known as box regions C and R, respectively; this localization was similar to that observed in B. halodurans. A phylogenetic tree based on the nucleotide sequences of the whole replication origin regions suggested that P. popilliae, P. thiaminolyticus, and P. dendritiformis are closely related species.     

Rapid identification of wine yeast species based on RFLP analysis of the ribosomal internal transcribed spacer (ITS) region

In this study, we identified a total of 33 wine yeast species and strains using the restriction patterns generated from the region spanning the internal transcribed spacers (ITS 1 and 2) and the 5.8S rRNA gene. Polymerase chain reaction (PCR) products of this rDNA region showed a high length variation for the different species. The size of the PCR products and the restriction analyses with three restriction endonucleases (HinfI, CfoI, and HaeIII) yielded a specific restriction pattern for each species with the exception of the corresponding anamorph and teleomorph states, which presented identical patterns. This method was applied to analyze the diversity of wine yeast species during spontaneous wine fermentation. Received: 2 July 1997 / Accepted: 7 December 1997     

普通小麦1BL—1RS K,V型雄性不育体系育性恢复的研究

对１ＢＬ－１ＲＳ Ｋ,Ｖ型雄性不育系及其保持素与中国春及其第一部分同源群染色体全部６个缺－四体杂种Ｆ１的育性恢复进行了研究。结果表明：Ｋ型杂种的育笥恢复主要受１ＢＳ上Ｒｆｖ１基因的控制;而Ｖ杂种则受Ｒｆｖ１的１Ｄ染色上育性恢复基因的共同控制;在保持１Ｄ正常剂量的情况下,使恢复系中载有Ｒｆｖ１的１Ｂ染色体（片段）加倍,如１Ａ缺体－１Ｂ四体能使Ｋ,Ｖ型杂种1Ｆ的育性完全恢复。