Transfer of small chromosome fragments of Agropyron elongatum to wheat chromosome via asymmetric somatic hybridization

~~Transfer of small chromosome fragments of Agropyron elongatum to wheat chromosome via asymmetric somatic hybridization1 .Dong,Y.C,GenePools of common wheat,Journal of Triticeae CroPs(in Chinese),2000,20(3):78-81. 2 .Wei,Y.M.,Zheng,YL.Zhou,R.H., Detectlon of the rye chro- matin in multisPikelet wheat germplasm 10-A background using fluorescence in situ hybridization(FISH)and RFLP markers,Acta Bot.Sinica(in Chinese),1999,41(7):722-725. 3 .Xiang,E N.,Xia,G M.…     

Asymmetric somatic hybridization between wheat (<Emphasis Type="Italic">Triticum aestivum</Emphasis>) and <Emphasis Type="Italic">Avena sativa</Emphasis> L.

Protoplasts from cell suspensions of young-embryo-derived calli, whichwere non- regenerable for long-term subculture and protoplasts from embryogenic calli with the regeneration capacity of 75% of the same wheat Jinan 177, were mixed as recipient. Protoplasts from embryogenic calli of Avena sativa (with the regeneration capacity of less than 10%) irradiated with UV at an intensity of300 μW/cm2 for 30 s, 1 min, 2 min, 3 min, 5 min were used as the donor. Protoplasts of the recipient and the donor were fused by PEG method. Many calli and normal green plants were regenerated at high frequency, and were verified as somatic hybrids by chromosome counting, isozyme, 5S rDNA spacer sequence analysis and GISH (genomic in situ hybridization). Fusion combination between protoplasts either from the cell suspensions or from the calli and UV-treated Avena sativa protoplasts could not regenerate green plants.     

<Emphasis Type="Italic">Agropyron elongatum</Emphasis> chromatin localization on the wheat chromosomes in an introgression line

The introgressed small-chromosome segment of Agropyron elongatum (Host.) Neviski (Thinopyrum ponticum Podp.) in F₅ line II-1-3 of somatic hybrid between common wheat (Triticum aestivum L.) and A. elongatum was localized by sequential fluorescence in situ hybridization (FISH), genomic in situ hybridization (GISH) and karyotype data. Karyotype analysis offered basic data of arm ratios and relative lengths of 21 pairs of chromosomes in parent wheat Jinan177 and hybrid II-1–3. Using special high repetitive sequences pSc119.2 and pAs1 for FISH, the entire B- and D-genome chromosomes were detected. The FISH pattern of hybrid II-1-3 was the same as that of parent wheat. GISH using whole genomic DNA from A. elongatum as probe determined the alien chromatin. Sequential GISH and FISH, in combination with some of the karyotype data, localized the small chromosome segments of A. elongatum on the specific sites of wheat chromosomes 2AL, 1BL, 5BS, 1DL, 2DL and 6DS. FISH with probe OPF-03₁₂₉₆ from randomly amplified polymorphic DNA (RAPD) detected E-genome chromatin of A. elongatum, which existed in all of the small chromosome segments introgressed. Microsatellite primers characteristic for the chromosome arms above were used to check the localization and reveal the genetic identity. These methods are complementary and provide comprehensive information about the genomic constitution of the hybrid. The relationship between hybrid traits and alien chromatin was discussed.     

Analysis of remote asymmetric somatic hybrids between common wheat and <Emphasis Type="Italic">Arabidopsis thaliana</Emphasis>

Callus-derived protoplasts of common wheat (Triticum aestivum L. cv. Hesheng 3) irradiated with ultraviolet light were fused by using the PEG method with cell suspension-derived protoplasts of Arabidopsis thaliana. Regenerated calli and green plants resembling that of wheat were obtained. The hybrid nature of putative calli and plants were confirmed by isozyme, random amplified polymorphic DNA and genomic in situ hybridization (GISH) analyses. GISH results indicated that 1∼3 small chromosome fragments of A. thaliana were found introgression into the terminals of wheat chromosomes, forming highly asymmetric hybrids. Cytoplasmic genome tests did not show any cytoplasmic genetic materials from A. thaliana. However, variations from the normal wheat cytoplasmic genome were found, indicating recombination or rearrangement occurred during the process of somatic hybridization. The chromosome elimination in the asymmetric somatic hybridization of remote phylogenetic relationship was discussed. A miniature inverted-repeat transposable element related sequence was found by chance in the hybrids which might accompany and impact the process of somatic hybridization. Jingyao Deng and Haifeng Cui provided same contribution to this work.     

Quantitative assessment of toxic and nontoxic <Emphasis Type="Italic">Microcystis</Emphasis> colonies in natural environments using fluorescence <Emphasis Type="Italic">in situ</Emphasis> hybridization and flow cytometry

Toxic cyanobacterial blooms constitute a threat to human safety because Microcystis sp. releases microcystins during growth, and particularly during cell death. Therefore, analysis of toxic and nontoxic Microcystis in natural communities is required in order to assess and predict bloom dynamics and toxin production by these organisms. In this study, an analysis combining fluorescence in situ hybridization (FISH) with flow cytometry (FCM) was used to discriminate between toxic and nontoxic Microcystis and also to quantify the percentage of toxic Microcystis present in blooms. The results demonstrate that the combination of FISH and flow cytometry is a useful approach for studying the ecology of Microcystis toxin production and for providing an early warning for toxic Microcystis blooms.     

Analysis of genetic diversity among <Emphasis Type="Italic">Swertia chirayita</Emphasis> genotypes

Inter simple sequence repeat (ISSR) markers were used to analyse genetic diversity of Swertia chirayita genotypes collected from the temperate Himalayas of India. Allied species of Swertia chirayita were used in the study as outliers. Nineteen UBC primers generated a total of 315 ISSR bands, revealing 98.7 % polymorphism among the genotypes assayed. This was reduced to 42.5 % when the outliers were excluded. The results revealed a high genetic diversity within the genotypes.     

Genotyping of somatic hybrids between <Emphasis Type="Italic">Festuca arundinacea</Emphasis> Schreb. and <Emphasis Type="Italic">Triticum aestivum</Emphasis> L.

In order to genotype hybrid genomes of distant asymmetric somatic hybrids, we synthesized hybrid calli and plants via PEG-mediated protoplast fusion between recipient tall fescue (Festuca. arundinacea Schreb.) and donor wheat (Triticum aestivum L.). Seventeen and 25 putative hybrid clones were produced from the fusion combinations I and II, each with the donor wheat protoplast treated by UV light for 30 s and 1 min, respectively. Isozyme and RAPD profiles confirmed that ten hybrid clones were obtained from combination I and 19 from combination II. Out of the 29 hybrids, 12 regenerated hybrid plants with tall fescue phenotype. Composition and methylation-variation of the nuclear and cytoplasmic genomes of some hybrids, either with or without regenerative ability, were compared by genomic in situ hybridization, restriction fragment length polymorphism, and DNA methylation-sensitive amplification polymorphism. Our results indicated that these selected hybrids all contained introgressed nuclear and cytoplasmic DNA as well as obvious methylation variations compared to both parents. However, there were no differences either in nuclear/cytoplasmic DNA or methylation degree between the regenerable and non-regenerable hybrid clones. We conclude that both regeneration complementation and genetic material balance are crucial for hybrid plant regeneration.     

New PCR based markers allowed to identify <Emphasis Type="Italic">Secale</Emphasis> chromatin in wheat-<Emphasis Type="Italic">Secale africanum</Emphasis> introgression lines

The genus of Secale has many agronomically important characters. In order to use the best of this species, markers tracking the rye chromatin incorporated into wheat must be developed. In this study, one rye genome-specific random amplified polymorphic DNA (RAPD) marker was isolated from Secale africanum (R^a genome). Two cloned markers, named OPP13₁₁₆₅ and OPP13₆₆₂, were 1165 bp and 662 bp, respectively. Sequence analysis revealed that OPP13₁₁₆₅ was highly homologous to a part of a new class of transposon-like gene called the Revolver family, and OPP13₆₆₂ was partially similar to LTR gypsy-like retrotransposon. Fluorescence in situ hybridization (FISH) showed only OPP13₁₁₆₅ localized within the whole arms of rye except their terminal regions and no signal was detected on wheat chromosomes, while OPP13₆₆₂ had no hybridization signal detected on wheat and rye genomes. Based on these sequences, two pairs of sequence-characterized amplified region (SCAR) primers were designed, and the resulted SCAR markers were able to target both cultivated and wild Secale species. The FISH patterns and the two SCAR markers should be able to identify and track all wheat-rye translocation lines, especially the S. africanum chromatin.     

The involvement of reactive oxygen species in defense of wheat lines with the genes introgressed from <Emphasis Type="Italic">Agropyron</Emphasis> species contributing the resistance against brown rust

The role of reactive oxygen species (ROS) in the defense of nearly isogenic lines of common wheat (Triticum aestivum L., cv. Thatcher) with the genes of resistance to brown rust introgressed from Agropyron species was studied using light microscopy. This disease is induced by the fungus Puccinia triticina Erikss. The presence of superoxide anion in the sites of infection was detected with the dye nitro blue tetrazolium. In addition, we studied fungus development on plants treated with the inhibitor of Ca²⁺-channels, verapamil, disturbing penetration into the cells of Ca²⁺ required for ROS generation. During fungus development in the immune line with the Lr38 resistance gene (from A. intermedium (Host) Beuv.), oxidative burst developed at the sites of contacts of appressoria with stomata and exerted a fungicidic effect. When ROS generation was suppressed, the fungus developed haustoria in the mesophyll cells. In plants with the Lr19 gene (from A. elongatum (Host) Beuv.), only moderate amount of superoxide anion accumulated on the cell walls of stomatal guard cells and in the infection structures when the fungus penetrated into the substomatal cavity and in mesophyll cells. In plants with the Lr24 gene (from A. elongatum), superoxide anion was detected only around haustoria. Suppression of ROS generation in plants harboring the Lr19 and Lr24 genes did not affect fungus entrance into the substomatal cavity but facilitated penetration of haustoria into the mesophyll cells. At the same time, in the lines with the Lr1 gene (from T. aestivum), cytological examination did not detect O ₂ ^? accumulation in plant cells, whereas treatment with verapamil enhanced mycelium development. In all lines, the suppression of oxidative burst slowed the development of hypersensitive response.     

Simple sequence repeat analyses of interspecific hybrids and MAALs of <Emphasis Type="Italic">Oryza </Emphasis><Emphasis Type="Italic">officinalis</Emphasis> and <Emphasis Type="Italic">Oryza sativa</Emphasis>

Wild rice is a valuable resource for the genetic improvement of cultivated rice (Oryza sativa L., AA genome). Molecular markers are important tools for monitoring gene introgression from wild rice into cultivated rice. In this study, Simple sequence repeat (SSR) markers were used to analyze interspecific hybrids of O. sativa-O. officinalis (CC genome), the backcrossing progenies and the parent plants. Results showed that most of the SSR primers (335 out of 396, 84.6%) developed in cultivated rice successfully amplified products from DNA samples of wild rice O. officinalis. The polymorphism ratio of SSR bands between O. sativa and O. officinalis was as high as 93.9%, indicating differences between the two species with respect to SSRs. When the SSR markers were applied in the interspecific hybrids, only a portion of SSR primers amplified O. officinalis-specific bands in the F(1) hybrid (52.5%), BC(1) (52.5%), and MAALs (37.0%); a number of the bands disappeared. Of the 124 SSR loci that detected officinalis-specific bands in MAAL plants, 96 (77.4%) showed synteny between the A and C-genomes, and 20 (16.1%) showed duplication in the C-genome. Sequencing analysis revealed that indels, substitution and duplication contribute to the diversity of SSR loci between the genomes of O. sativa and O. officinalis.     

Fine mapping of <Emphasis Type="Italic">S31</Emphasis>, a gene responsible for hybrid embryo-sac abortion in rice (<Emphasis Type="Italic">Oryza sativa</Emphasis> L.)

Partial abortion of female gametes and the resulting semi-sterility of indica × japonica inter-subspecific rice hybrids have been ascribed to an allelic interaction, which can be avoided by the use of wide compatibility varieties. To further understand the genetic mechanism of hybrid sterility, we have constructed two sets of hybrids, using as male parent either the typical japonica variety Asominori, or the wide compatibility variety 02428; and as female, a set of 66 chromosome segment substitution lines in which various chromosomal segments from the indica variety IR24 have been introduced into a common genetic background of Asominori. Spikelet semi-sterility was observed in hybrid between CSSL34 and Asominori, which is known to carry the sterility gene S31 (Zhao et al. in Euphytica 151:331–337, 2006). Cytological analysis revealed that the semi-sterility of the CSSL34 × Asominori hybrid was caused primarily by partial abortion of the embryo sac at the stage of the mitosis of the functional megaspore. A population of 1,630 progeny of the three-way cross (CSSL34 × 02428) × Asominori was developed to map S31. Based on the physical location of linked molecular markers, S31 was thereby delimited to a 54-kb region on rice chromsome 5. This fragment contains eight predicted open reading frames, four of which encode known proteins and four putative proteins. These results are relevant to the map-based cloning of S31, and the development of marker-assisted transfer of non-sterility allele inducing alleles to breeding germplasm, to allow for a more efficient exploitation of heterosis in hybrid rice.     

Cloning,characterization and localization of <Emphasis Type="Italic">CHS</Emphasis> gene from blood orange, <Emphasis Type="Italic">Citrus sinensis</Emphasis> (L.) Osbeck cv. Ruby

Chalcone synthase (CHS) is involved in the biosynthesis of anthocyanin. In this study, a full-length DNA of CHS gene (named as CsCHS-bo) was cloned from the blood orange, Citrus sinensis (L.) Osbeck cv. Ruby. The gene was 1,512 bp in size containing an open reading frame (1,176 bp) encoding 391 amino acids. Comparative and bioinformatic analyses revealed that the deduced protein of CsCHS-bo was highly homologous to CHS from other plant species. The protein of CsCHS-bo had four CHS-specific conserved motifs and a CHS-family signature sequence GFGPG. Phylogenetic analysis indicated that the protein of CsCHS-bo was in a subgroup with CHS of Ruta Palmatum. The CsCHS-bo was localized to the chromosomes 2p, 4p and 6p by an improved fluorescence in situ hybridization technique, indicating that at least three copies of CsCHS-bo were present in the genome. The novel nucleotide sequence data published here have been deposited in the EMBL/DDBJ/GenBank databases under accession number EU410483.     

Origin of new <Emphasis Type="Italic">Brassica</Emphasis> types from a single intergeneric hybrid between <Emphasis Type="Italic">B. rapa</Emphasis> and <Emphasis Type="Italic">Orychophragmus violaceus</Emphasis> by rapid chromosome evolution and introgression

Many novel lines were established from an intergeneric mixoploid between Brassica rapa (2n = 20) and Orychophragmus violaceus (2n = 24) through successive selections for fertility and viability. Pedigrees of individual F₂ plants were advanced to the 10th generation by selfing. Their breeding habit was self-compatible and different from the self-incompatibility of their female parent B. rapa, and these lines were reproductively isolated to different degrees from B. rapa and B. napus. The lines with high productivity showed not only a wide spectrum of phenotypes but also obvious variations in fatty acid profiles of seed oil and glucosinolate contents in seed meal. These lines had 2n = 36, 37, 38, 39 and 40, with 2n = 38 being most frequent (64.56%), and no intact O. violaceus chromosomes were detected by genomic in situ hybridization (GISH) analysis. Amplified fragment length polymorphism (AFLP) analyses revealed a high extent of variation in genomic compositions across all the lines. O. violaceus-specific bands, deleted bands in B. rapa and novel bands for two parents were detected in these lines, with novel bands being the most frequent. The morphological and genetic divergence of these novel types derived from a single hybrid is probably due to rapid chromosomal evolution and introgression, and provides new genetic resources for rapeseed breeding.     

Characteristics of the interspecific somatic hybrids <Emphasis Type="Italic">Solanum pinnatisectum</Emphasis> (+) <Emphasis Type="Italic">S. tuberosum</Emphasis> H-8105

The morphological, cytological and molecular analyses of the plants regenerated after PEG-induced fusion between mesophyll protoplasts from the dihaploid potato clone H-8105 and the wild tuberous disease-resistant species S. pinnatisectum, were performed. A single fusion experiment yielded 313 calli, although only two calli produced shoots. From the rooted shoots, two stable clones (PT-01-1 and PT-01-2) exhibiting different vigor and habitat, were developed. The plants of PT-01-1 clone grew slowly in vitro, produced tubers after transfer to soil but did not set flowers. In contrast, the plants of the vigorous clone PT-01-2 produced both tubers and flowers after transfer to soil. The flower and tuber morphology of PT-01-1 and PT-01-2 regenerants was intermediate in comparison to the parental species. Cytological analysis revealed that the PT-01-1 clone was pentaploid and the PT-01-2 clone was tetraploid. The molecular (RAPD) analysis confirmed hybridity of both clones. The preliminary tests on late blight resistance of the hybrids showed no differences with a potato parent.     

Mapping of esterase loci in <Emphasis Type="Italic">Aegilops uniaristata</Emphasis> and homoeologous group 3 chromosomes of wheat

This study was planned to identify the chromosomal location of esterase loci in wheat (Triticum aestivum), in comparison to Aegilops uniaristata, using wheat Ae. uniaristata disomic addition and translocation lines. Two loci (Est-N1 and Est-N8) were identified on 3N chromosome of Ae. uniaristata and their probable homoeoloci were, for the first time, mapped close to three RFLP probes (Xpsr56, Xpsr394, and Xpsr1196) on homoeologous group 3 wheat chromosomes.     

Characterizing HMW-GS alleles of decaploid <Emphasis Type="Italic">Agropyron elongatum</Emphasis> in relation to evolution and wheat breeding

Bread wheat quality is mainly correlated with high molecular weight glutenin subunits (HMW-GS) of endosperm. The number of HMW-GS alleles with good processing quality is limited in bread wheat cultivars, while there are plenty of HMW-GS alleles in wheat-related grasses to exploit. We report here on the cloning and characterization of HMW-GS alleles from the decaploid Agropyron elongatum. Eleven novel HMW-GS alleles were cloned from the grass. Of them, five are x-type and six y-type glutenin subunit genes. Three alleles Aex4, Aey7, and Aey9 showed high similarity with another three alleles from the diploid Lophopyrum elongatum, which provided direct evidence for the E^e genome origination of A. elongatum. It was noted that C-terminal regions of three alleles of the y-type genes Aey8, Aey9, and Aey10 showed more similarity with x-type genes than with other y-type genes. This demonstrates that there is a kind of intermediate state that appeared in the divergence between x- and y-type genes in the HMW-GS evolution. One x-type subunit, Aex4, with an additional cysteine residue, was speculated to be correlated with the good processing quality of wheat introgression lines. Aey4 was deduced to be a chimeric gene from the recombination between another two genes. How the HMW-GS genes of A. elongatum may contribute to the improvement of wheat processing quality are discussed.     

Micropropagation of <Emphasis Type="Italic">Kalopanax pictus</Emphasis> tree via somatic embryogenesis

Summary Kalopanax pictus (Thunb.) Nakai is a tall tree, and its wood has been used in making furniture, while its stem bark is used for medicinal purposes. Here, we report on the micropropagation of Kalopanax pictus via somatic embryogenesis. Embryogenic callus was induced from immature zygotic embryos. The frequency embryogenic callus induction is influenced by days of seed harvest. Callus formation was primarily observed along the radicle tips of zygotic embryos incubated on Murashige and Skoog (MS) medium with 4.4 μM 2,4-dichlorophenoxyacctic acid (2,4-D). Somatic embryogenesis was observed following transfer of embryogenic callus to MS medium lacking 2,4-D. Somatic embryos at the cotyledonary stage were obtained after 6 wk following culture. Frequency of conversion of somatic embryos into plantlets was low (35%) on a hormone-free MS basal medium, but it increased to 61% when the medium was supplemented with 0.05% charcoal. Gibberellic acid (GA₃) treatment markedly enhanced the germination frequency of embryos up to 83%. All plantlets obtained showed 98% survival on moist peat soil (TKS2) artificial soil matrix. About 30 000 Kalopanax pictus plants were propagated via somatic embryogenesis and grown to 3-yr-old plants. These results indicate that production of woody medicinal Kalopanax pictus plantlets through somatic embryogenesis can be practically applicable for propagation.     

Different rates of chromosome elimination in symmetric and asymmetric somatic hybridization between <Emphasis Type="Italic">Festuca arundinacea</Emphasis> and <Emphasis Type="Italic">Bupleurum scorzonerifolium</Emphasis>

The protoplasts of tall fescue (Festuca arundinacea Schreb.) were fused with those of Bupleurum scorzonerifolium Willd. The latter were irradiated with UV at an intensity of 380 μW/cm² for 0 s (combination I), 30 s (combination II), and 60 s (combination III) before fusion. Putative hybrid calli, leaves, and shoots were generated from the fusion products. They were recognized as somatic hybrids by a combined analysis of chromosome numbers, isozyme, RAPD, and 5S rDNA spacer sequence. The hybrid calli with morphogenetic ability and leaves/shoots differentiation had the B. scorzonerifolium phenotype, whether they were derived from symmetric fusion (UV 0 s) or asymmetric fusion (UV 30 s/60 s). Cytological tests revealed that these hybrids contained the complete set (12) of B. scorzonerifolium chromosomes and 0–4 partner tall fescue chromosomes. The tall fescue chromosomes were rapidly eliminated in combinations II and III, but gradually lost in combination I. It was noted that the green leaves and shoots were produced earlier, and the differentiation frequency was higher in combinations II and III than in combination I, which corresponded to the speed of elimination of the tall fescue chromosomes in the hybrids. Therefore, UV irradiation can indirectly promote elimination of tall fescue chromosomes and hybrid differentiation. B. scorzonerifolium can repel partner chromosomes with mechanism that differs from UV.