Chromosome composition,stability and fertility of alloploids between Triticum turgidum var. carthlicum and Thinopyrum junceiforme

Alloploids, most of them hexaploid, from crosses between tetraploid wheat, Triticum carthlicum, and the perennial tetraploid Thinopyrum junceiforme were analysed for chromosome composition, stability and fertility using genomic in situ hybridization and meiotic analysis. The alloploids differed in their total number of chromosomes, 38-47 + telocentrics in "hexaploids" and 54 and 56 in "octoploids", and also in their number of Thinopyrum chromosomes (8-15). Translocations, mostly Robertsonian ones, were frequently found and intergenomic pairing was found to occur during meiosis. The stability was low which is reflected in the variability in chromosome number and in the number of univalents per PMC (2.3-4.0). The seedset was lower than in wheat, but high enough to secure a safe propagation and preservation. The alloploids are discussed in relation to widening the genetic variation of breadwheat and wheat breeding.     

Salt tolerance in the Triticeae: K/Na discrimination in some perennial wheatgrasses and their amphiploids with wheat

Perennial wheatgrasses of the genera Thinopynim, Leymus andPsathyrostachys were subjected to high and low salinities todetermine whether the enhanced K/Na discrimination trait wasexpressed in these members of the Triticeae. At low salinities,where the enhanced K/Na discrimination trait is most evident,the leaf cation concentrations were consistent with the operationof the trait. At higher salinities sodium exclusion and potassiumretention were greater than in tetraploid wheat. Experimentswith hexaploid or octoploid wheat x Thinopynim amphidiploidsshowed that the presence of the D genome of wheat greatly affectedcation discrimination, and pointed to the absence of enhancedK/Na discrimination in the perennial wheatgrasses. Results obtainedwith Thinopynim elongatum addition lines, and the uptake of²²Na into 'low-salt' amphiploid seedlings, are consistent withthe absence of the trait in Thinopynim. Key words: Wheat, Thinopyrum, Leymus, amphiploids, salt     

大赖草总DNA转化小麦的分子证据

用来自大麦组的４个高度重复序列克隆了ｐＨｖ７１６１,ｐＨｖ７１７８９,ｐＨｖ７１９１、ｐＨｖ７２９３,经地高辛和同位素２种方法标记后作为探针,对新疆大赖草（供体）、春麦７６１（受体）以及用大赖草总ＤＮＡ通过花粉管通道转化成功的大穗转化株基因组在高度严谨条件下进行了分子杂交。结果表明,这４个探针可以探查出基因内一种具有主串产重复单位的散在重复序列。比较受共体和转化体的杂交图谱,发现在转化株中出现了     

Molecular cytogenetics of Leymus: Mapping the Ns genome-specific repetitive sequences

The objective of this paper is to summarize the work in my group on FISH (fluorescent in situ hybridization) mapping of Ns-specific repetitive DNA sequences fromLeymus and discuss the results in the context of classification based on the genome system currently used among Triticeae researchers. The key question here is whether the genome composition of a tetraploid Leymus species should be NsXm or NsNs (Ns₁Ns₂). Different types of Leymus-specific dispersed retroelement-like repeats have been isolated and characterized. Because the sequences occur in significantly high copy number in Leymus, based on strong hybridization signal in Southern blots, they are considered essentially specific to Leymus. They are also abundant in Psathyrostachys, the progenitor of Ns genome in Leymus. These dispersed repeats are found to distribute over the whole of all Leymus chromosomes, without any differentiation between chromosomes that have been suggested to be of different genomic origins, meaning that all genomes in Leymus are the same. GISH (genomic in situ hybridization) experiments on Leymus chromosomes using Psathyrostachys genomic DNA as probes further support the NsNs (Ns₁Ns₂) genome constitution for Leymus. The Xm genome of an unknown origin might have been there in the beginning of the allopolyploidization process, but the Ns genome-specific elements must have spread predominantly and rapidly across genomes, thus homogenizing the nuclear genomes of Leymus. I present here for the first time evidence that Ns-specific dispersed repeats can spread in a very short time, from Leymus over to wheat in Triticum × Leymus hybrids growing in artificial conditions.     

内蒙古紫皮小麦紫皮性状的遗传分析

本文对内蒙古紫皮小麦进行了遗传分析。研究了这一材料的来源,普通小麦与内蒙古紫皮小麦杂交后代的细胞学特征,回交一代和杂种第二代的紫皮性状表现,以及内蒙古紫皮小麦、普通小麦和赖草的同工酶。综合研究的结果初步表明,这一紫皮小麦与国外报道的紫皮小麦材料不同。本材料是由普通小麦(Triticum aestivum L.)与赖草(Leymus dasystachys(Trin.) Dilger)杂交,经回交、自交后得到的,而国外报道的紫皮小麦材料是由普通六倍体小麦与四倍体紫皮小麦杂交得到的。内蒙古紫皮小麦很可能是一个异代换系,具有一对来自赖草的染色体,控制紫皮性状的基因在这对外源染色体上,其紫皮性状能稳定遗传,受控于一对显性基因。     

Absence of the J genome in Leymus species (Poaceae: Triticeae): evidence from DNA hybridization and meiotic pairing.

To test the presence of a J genome in the type species of Leymus, L. arenarius, its total genomic DNA and that of tetraploids L. mollis, L. salinus ssp. salmonis, L. ambiguus, L. chinensis, L. secalinus, L. alaicus ssp. karataviensis, and L. innovatus were probed with the 277-bp insert of pLeUCD2, which can hybridize with the J, S, and P but not with the N, R, V, Q, I, T, and ABD genomes. The DNA probe hybridized with PalI- or TaqI-digested total DNAs from Thinopyrum elongatum (JeJe diploid) and T. elongatum x Psathyrostachys juncea (JeN hybrid), but not with those from L. arenarius (NNNNXXXX octoploid) and all tetraploid Leymus species (NNXX). Attempts to cross diploid Thinopyrum and tetraploid Leymus species yielded only one triploid hybrid, T. elongatum x L. salinus ssp. salmonis. Meiotic chromosome associations at metaphase I of pollen mother cells in the triploid hybrid averaged 19.69 univalents, 0.64 bivalents, and 0.01 trivalents per cell. Chromosome pairings in the tetraploid hybrids of L. mollis x L. salinus ssp. salmonis, and the reciprocal cross, indicate that L. mollis and L. salinus ssp. salmonis shae the same genomic constitution. Both the DNA probe and genome analysis results confirm the absence of the J genome in the seven additional Leymus species tested. Meiotic data indicated that tetraploid Leymus species could not have the genome formula N1N1N2N2; thus their genome formulas should remain as NNXX until the source of X is identified.     

Genetic and genomic relationships in Leymus Hochst

Genetic and genomic relationships among three taxonomically related species of Leymus, northern European L. arenarius (octoploid, 2n = 56), northern American/Pacific L. mollis (tetraploid, 2n = 28) and central Eurasian L. racemosus (tetraploid, 2n = 28), were examined using molecular and cytogenetic methods. The amplified fragment length polymorphism (AFLP) analysis clearly differentiated Icelandic populations of L. arenarius from Alaskan populations of L. mollis. The former group is more genetically homogeneous than the latter. Leymus arenarius in Iceland has a common gene pool and a relatively recent origin. The Alaskan L. mollis, on the other hand, is probably a glacial survival that has accumulated high level of genetic variation and has differentiated into subspecies. Analysis of the 18S-26S ribosomal genes, by restriction fragment length polymorphism (RFLP) and fluorescence in situ hybridization (FISH), revealed a very close relationship between the octoploid northern European L. arenarius and the tetraploid Eurasian L. racemosus, such that the former could have originated from the latter, probably via interspecific hybridization. Leymus-specific DNA sequences were isolated and used for analyzing genetic relatedness among five Leymus species and four Psathyrostachys species. The RFLP analysis of retrotransposon sequence pLm44 and ribosomal clone pTa71 clearly revealed a close relationship between these two genera, i.e. higher variation was found within genera than between them. The results support the previous notion that Leymus is autopolyploid having all genomes being designated Ns as in Psathyrostachys, but a major taxonomic revision of this group would require analysis of more species.     

Haploid Wheat Induction by Crosses Between Different Ploidy Wheat and Different Populations of Maize

Haploid embryo and plant producing frequencies were studied by crossesing diploid, tetraploid and hexaploid wheat with landraces,hybrids and inbred lines of maize. It showed significant differences among the wheat and maize populations. The tetraploid and hexaploid wheat were better than the diploid. High frequencies were obtained by using tetraploid wheat of Triticum turgidum cv. TG14 and maize landraces cv. Xiaoyumi and Xiao Huangmaya. The highest haploid plant producing frequency (6.95 %) was obtained in the TG14 × Xiaoyumi.     

Tetraploid wheat crossability with rye (Secale)

Hybridisations carried out between a number of tetraploid wheats (Triticum turgidum (L) Thell, ssp. turgidum conv. durum (Desf.) MacKey, N. comb.) and rye (Secale) species revealed a range from high to low levels of crossability between them.Variation in crossability level was due to genetic variation, both in tetraploid wheat and rye. The presence of a significant (p<0.01) interaction in crossability between tetraploid wheat and rye indicates that the genetic system governing crossability is more complex than previously described.It appears that the mutation(s) in wheat from high to low crossability with rye took place at least as early as the tetraploid level of wheat evolution.     

不同倍性小麦对盐胁迫的适应性差异

植物染料在工业化应用过程中存在着资源限制,目标色相不丰富、色牢度不理想、植物染料本身的鉴别和成品的鉴别等问题。为了丰富染料植物资源的来源和提高染料植物资源的利用效率,该研究对西双版纳傣族利用的染料植物及其染色工艺涉及的相关植物进行了系统调查。2014年10月到2016年1月,采用半结构式访谈法对西双版纳14个村寨的56个关键信息人进行访谈,收集信息包括使用着色植物、媒染植物和助染植物的种类、傣名、利用部位和资源来历,以及预处理和染色过程工艺条件与技术步骤;采用参与式观察法对4种色相的10个染色工艺过程进行了记录,采集了凭证标本和图像资料;对调查信息进行了整理编目。结果表明：西双版纳地区的傣族使用11种着色植物和17种助染植物;目标色相有红、黄、蓝和绿。分析了傣族染料植物资源的发掘潜力、傣族利用植物染色对于染料植物利用的应用启发。该研究详细深入地记录了西双版纳傣族使用的染料植物的种类及其相关的组合和染色的过程。该研究结果对民族民间染料植物与染色工艺的产业化应用具有重要借鉴意义,为染料植物资源筛选及其染色工艺条件优化提供了参考。     

四部体小麦“简阳矮兰麦”与黑麦可杂交性及其在六倍体水平上的遗传特性

中国六倍体普通小麦地方品种有一个比较独特的特征-存在丰富的高亲和性材料。因此,研究中国四倍体小麦的亲和性问题具有特殊的意义。“简阳矮兰麦”是来源于四川省的一个四倍体小麦地方品种,它与黑麦有高的可杂交性,其杂交结实率达60%。遗传分析表明,“简阳矮兰麦”与黑麦的高可杂交性是受2-3对隐性基因所控制,但3对基因的可能性更大。而且,这些隐性基因的作用在合成六倍体小麦后仍能比较完全的表达。通过与六倍体普通小麦相比较,结果表明四倍体小麦的可杂交性系统与六倍体小麦的可杂交性系统的作用方式是类似的。 Abstract:It is a special characteristic that many Chinese common wheat landraces showed a high crossability with rye.Thus,it is important that elucidate the genetic control of the crossability of Chinese tetraploid wheat with rye.Triticum turgidum cv.Jianyangailanmai native to Sichuan,China has high crossability with rye,up to 60%.In this study,it is indicated that the crossability of Jianyangailanmai with rve is controlled by two or more probably three recessive genes,which was almost totally expressed in the hexaploid wheat level.The operation of these recessive genes influencing crossability with rye was similar to that of hexaploid common wheat.     

Independent evolution of functional Pm3 resistance genes in wild tetraploid wheat and domesticated bread wheat

The Pm3 alleles of cultivated bread wheat confer gene for gene resistance to the powdery mildew fungus. They represent a particular case of plant disease resistance gene evolution, because of their recent origin and possible evolution after the formation of hexaploid wheat. The Pm3 locus is conserved in tetraploid wheat, thereby allowing the comparative evolutionary study of the same resistance locus in a domesticated species and in one of its wild ancestors. We have identified 61 Pm3 allelic sequences from wild and domesticated tetraploid wheat subspecies. The Pm3 sequences corresponded to 24 different haplotypes. They showed low sequence diversity, differing by only a few polymorphic sequence blocks that were further reshuffled between alleles by gene conversion and recombination. Polymorphic sequence blocks are different from the blocks found in functional Pm3 alleles of hexaploid wheat, indicating an independent evolution of the Pm3 loci in the two species. A new functional gene was identified in a wild wheat accession from Syria. This gene, Pm3k , conferred intermediate race-specific resistance to powdery mildew, and consists of a mosaic of gene segments derived from non-functional alleles. This demonstrates that Pm3 -based resistance is not very frequent in wild tetraploid wheat, and that the evolution of functional resistance genes occurred independently in wild tetraploid and bread wheat. The Pm3 sequence variability and geographic distribution indicated that diversity was higher in wild emmer wheat from the Levant area, compared with the accessions from Turkey. Further screens for Pm3 functional genes in wild wheat should therefore focus on accessions from the Levant region.     

Polyploid origins in a circumpolar complex in Draba (Brassicaceae) inferred from cloned nuclear DNA sequences and fingerprints

Polyploid evolution has been of major importance in the arctic flora, but rarely addressed on the full circumpolar scale. Herein we study the allopolyploid Draba lactea and its close allies, which form a taxonomically intricate arctic-alpine complex including diploids, tetraploids, and hexaploids. Based on samples from the entire circumpolar area, we inferred the origins of polyploids in this complex using cloned DNA sequences from two nuclear regions (one intron from a gene encoding a second largest subunit in the RNA polymerase family, RPD2, and the ribosomal internal transcribed spacer region, ITS) and DNA fingerprints (random amplified polymorphic DNAs, RAPDs). Although D. lactea and all other polyploids examined in Draba are genetic alloploids showing fixed heterozygosity, the data obtained in the present study suggest that each of the polyploids analyzed here may have originated from a single diploid lineage: hexaploid D. lactea via tetraploid D. lactea from the D. palanderiana lineage (not from the D. fladnizensis and D. nivalis lineages as previously hypothesized), the tetraploid D. turczaninovii from the D. fladnizensis lineage, the tetraploid D. porsildii from the D. lonchocarpa lineage, and a tetraploid here named Draba spB from the D. nivalis lineage. Draba lactea has probably originated several times in the Beringian area, and it is not necessary to invoke complex origins based on a combination of different species lineages as previously suggested.     

Genome inheritance in populations derived from hexaploid/tetraploid and tetraploid/hexaploid wheat crosses

Hexaploid/tetraploid and tetraploid/hexaploid wheat hybrids were established using the hexaploid (Triticum aestivum L.) bread wheat LRC2010-150 and the tetraploid durum wheat (T. turgidum spp. durum) WID802. Thirty F₂ progeny from each cross were characterised using Diversity Arrays Technology (DArTseq?) markers to determine whether there are differences between the crosses in the proportion of A, B and D genomic material inherited from each parent. Inheritance of the A and B genome from the tetraploid durum parent varied from 32 to 63% among the 60 lines assessed, and results indicated significant differences between the two F₂ populations in the mean overall proportion of chromosomes A and B inherited from each parent. Significant differences were also observed between the crosses in the proportion of chromosomal segments on 2B, 3A, 3B and 4A inherited from the tetraploid parent. The F₂ populations also showed significant differences in the average retention of D chromosomes per line with the tetraploid/hexaploid cross retaining a mean of 2.83 chromosomes while the reciprocal cross retained a mean of 1.8 chromosomes per line. A strong negative correlation was observed in individual lines from both populations between the proportion of the A and B genome inherited from the tetraploid durum parent and the retention of the D genome. The implication of these results for the design of efficient crossing strategies between hexaploid and tetraploid wheats is discussed.     

Meiotic pairing in hybrids between tetraploid Triticale and related species: new elements concerning the chromosome constitution of tetraploid Triticale

Summary Two F5 strains of tetraploid triticale (2n= 4x=28), obtained from 6x triticaleX2 rye progenies, were crossed with diploid and tetraploid rye, some durum and bread wheats, and various 8x and 6x triticale lines. Meiosis in the different hybrid combinations was studied. The results showed that the haploid complement of these triticales consists of seven chromosomes from rye and seven chromosomes from wheat. High frequencies of PMCs showing trivalents were observed in hybrids involving the reference genotypes of wheat and triticale. These findings proved that several chromosomes from the wheat component have chromosome segments coming from two parental wheat chromosomes. The origin of these heterogeneous chromosomes probably lies in homoeologous pairing occurring at meiosis in the 6x triticaleX2x rye hybrids from which 4x triticale lines were isolated. A comparison among different hybrids combinations indicated that the involvement of D-genome chromosomes in homoeologous pairing is quite limited. In contrast, meiotic patterns in 4x triticale X 2x rye hybrids showed a quite high pairing frequency between some R chromosomes and their A and B homoeologues.     

Genomic influence on somatic embryogenesis in the Triticeae

Somatic embryogenesis is generally accepted to be under genetic control. The influence of genome interactions is not well understood given the difficulties of obtaining the appropriate vegetal material. Synthetic alloploids in which genomes from two species are fused together are suitable subject material to analyse this factor. In the Triticeae tribe amphiploids can be easily synthesised, which provides the opportunity to carry on this type of study. Crossing three autotetraploids, Hordeum chilense (HHHH), Triticum tauschii (DDDD) and Secale cereale (RRRR), we obtained three tetraploid amphiploids, ×Tritordeum (HHDD), ×Triticale (DDRR) and ×Hordecale (HHRR). Somatic embryogenesis from immature inflorescence and flag leaves were scored on parents and amphiploids. Immature inflorescences had a higher embryogenic response than the flag leaves. The amphiploids showed higher regeneration ability than their parents. The best genomic combination was the tetraploid triticale DDRR for every inflorescence and flag leaf size tested, followed by HHDD and HHRR. Heterosis was found to be the main genetic factor affecting the in vitro culture response although there are clear differences among the three amphiploids tested. Received: 11 February 1998 / Revision received: 8 April 1998 / Accepted: 22 November 1998     

Arbitrarily primed-PCR based diversity assessment reflects hierarchical groupings of Indian tetraploid wheat genotypes

Genetic diversity analysis using PCR with arbitrary decamer primers (RAPD — random amplified polymorphic DNA) was carried out in a set of 63 tetraploid wheat genotypes which comprised 24 durum landraces, 18 durum cultivars, nine dicoccum cultivars, ten less commonly cultivated species and two wild tetraploid species. The durum and dicoccum wheat genotypes are a part of the germplasm used in Indian tetraploid wheat breeding programs. A total of 206 amplification products were obtained with 21 informative primers, of which 162 were polymorphic. The highest degree of polymorphism was seen in the wild and less commonly cultivated species (68.9%). Durum released cultivars showed greater polymorphism (50.6%) than landraces (44.8%), while dicoccum cultivars showed a considerably low level of polymorphism (23.6%). Cluster analysis led to the separation of wild and cultivated genotypes, and among cultivated emmer wheat distinct groups were formed by the durum cultivars, durum landraces and dicoccum cultivars. The subgroupings of landraces had no relation to their geographical distribution. The durum cultivars formed subgroups based on common parentage in their pedigree. Among species, wild timopheevi wheat (T. araraticum) and its cultivated form (T. timopheevi) formed a distinct group distant from all other genotypes. The present study is a first attempt at determining the genetic variation in Indian tetraploid wheats at the molecular level. Received: 10 January 1999 / Accepted: 30 January 1999     

Development and annotation of perennial Triticeae ESTs and SSR markers

Triticeae contains hundreds of species of both annual and perennial types. Although substantial genomic tools are available for annual Triticeae cereals such as wheat and barley, the perennial Triticeae lack sufficient genomic resources for genetic mapping or diversity research. To increase the amount of sequence information available in the perennial Triticeae, three expressed sequence tag (EST) libraries were developed and annotated for Pseudoroegneria spicata, a mixture of both Elymus wawawaiensis and E. lanceolatus, and a Leymus cinereus x L. triticoides interspecific hybrid. The ESTs were combined into unigene sets of 8 780 unigenes for P. spicata, 11 281 unigenes for Leymus, and 7 212 unigenes for Elymus. Unigenes were annotated based on putative orthology to genes from rice, wheat, barley, other Poaceae, Arabidopsis, and the non-redundant database of the NCBI. Simple sequence repeat (SSR) markers were developed, tested for amplification and polymorphism, and aligned to the rice genome. Leymus EST markers homologous to rice chromosome 2 genes were syntenous on Leymus homeologous groups 6a and 6b (previously 1b), demonstrating promise for in silico comparative mapping. All ESTs and SSR markers are available on an EST information management and annotation database (http://titan.biotec.uiuc.edu/triticeae/).