The mitochondrial DNA markers for distinguishing Phalaenopsis species and revealing maternal phylogeny

Moth orchids (Phalaenopsis) are among the top-traded blooming potted plants in the world. To explore mitochondrial DNA (mtDNA) markers for species identification, we located simple sequence repeats in the mtDNA of Phalaenopsis aphrodite subsp. formosana and then pre-screened them for polymorphic markers by their comparison with corresponding mtDNA regions of P. equestris. The combination of 13 selected markers located in intergenic spacers could unambiguously distinguish 15 endemic moth orchids. Five most variable markers with polymorphic information content (PIC) ≥ 0.7 could be combined to classify 18 of 19 endemic moth orchids including parental strains most commonly used in breeding programs. The sequences of four selected mtDNA regions were highly variable, and one region (MT2) could be used to completely distinguish 19 endemic moth orchids. Though mitochondrial introns were highly conserved among moth orchids, evolutionary hotspots, such as variable simple sequence repeats and minisatellite repeats, were identified as useful markers. Furthermore, a marker technology was applied to reveal the maternal inheritance mode of mtDNA in the moth orchids. Moreover, phylogenetic analysis indicates that the mtDNA was nonmonophyletic below the Phalaenopsis genus. In summary, we have revealed a set of mtDNA markers that could be used for identification and phylogenetic study of Phalaenopsis orchids.     

Argonaute 5 family proteins play crucial roles in the defence against Cymbidium mosaic virus and Odontoglossum ringspot virus in Phalaenopsis aphrodite subsp. formosana

The orchid industry faces severe threats from diseases caused by viruses. Argonaute proteins (AGOs) have been shown to be the major components in the antiviral defence systems through RNA silencing in many model plants. However, the roles of AGOs in orchids against viral infections have not been analysed comprehensively. In this study, Phalaenopsis aphrodite subsp. formosana was chosen as the representative to analyse the AGOs (PaAGOs) involved in the defence against two major viruses of orchids, Cymbidium mosaic virus (CymMV) and Odontoglossum ringspot virus (ORSV). A total of 11 PaAGOs were identified from the expression profile analyses of these PaAGOs in P. aphrodite subsp. formosana singly or doubly infected with CymMV and/or ORSV. PaAGO5b was found to be the only one highly induced. Results from overexpression of individual PaAGO5 family genes revealed that PaAGO5a and PaAGO5b play central roles in the antiviral defence mechanisms of P. aphrodite subsp. formosana. Furthermore, a virus-induced gene silencing vector based on Foxtail mosaic virus was developed to corroborate the function of PaAGO5s. The results confirmed their importance in the defences against CymMV and ORSV. Our findings may provide useful information for the breeding of traits for resistance or tolerance to CymMV or ORSV infections in Phalaenopsis orchids.     

Infestation of Phalaenopsis aphrodite Rchb.f. (Asparagales: Orchidaceae) flower buds by Japanagromyza tokunagai (Sasakawa) (Diptera: Agromyzidae) in a greenhouse on Shikoku Island,Japan

To protect endangered and commercially important orchid species, it is important to monitor and accurately identify orchid pests. Japanagromyza tokunagai (Sasakawa) larvae are known to infest the flower buds, stems, and ovaries of various Japanese orchid species. Given that J. tokunagai can infest diverse orchid hosts, J. tokunagai has the potential to be an economically important orchid pest in greenhouses. However, damage by J. tokunagai has previously only been reported in outdoor habitats. Here we revealed that the dipteran larvae infesting the flower buds of Phalaenopsis aphrodite Rchb.f. (Orchidaceae) cultivated in a greenhouse are J. tokunagai based on DNA barcoding, using COI sequences. Infested flower buds remained closed and eventually dropped to the ground, making the P. aphrodite plants commercially worthless. Phalaenopsis aphrodite is one of the most economically important ornamental orchids. Therefore, J. tokunagai is a potential threat to orchid production and we recommend taking precautions to prevent its spread.     

基于转录组测序的枫香EST-SSR引物开发及有效性评价

枫香是广西重要的乡土树种之一，具有较高的用材、观赏及药用价值。为验证枫香SSR引物的实际应用效果，该研究基于转录组测序技术，检测枫香SSR位点并设计引物，通过PCR扩增和聚丙烯酰胺凝胶电泳筛选出具有较高多态性的枫香EST-SSR引物，并对1个枫香天然群体进行遗传多样性分析。结果表明：(1)共发掘到23 777个SSR位点，单核苷酸重复类型SSR位点占总位点比例最高(46.54%),在重复次数上5～12次之间的SSR位点占比最高(72.36%)。(2)共开发出262对SSR引物，有效扩增率为53.1%,最终筛选出扩增稳定、条带清晰的引物18对。(3)多态性检测结果显示所有位点均具有多态性，天然群体遗传多样性结果显示该天然群体中等位基因数量(Na)、有效等位基因数量(Ne)、Shannon多样性指数(I)、观测杂合度(Ho)变化范围分别为2～4、1.112 8～2.609 6、0.208 9～1.112 7和0.275 9～1.000 0,平均值分别为2.333 3、1.957 4、0.708 5和0.722 6。综上认为，枫香中占优势的SSR位点重复类型和重复基序与其他物种基本相同，所开...     

Ploidy doubling by in vitro culture of excised protocorms or protocorm-like bodies in <Emphasis Type="Italic">Phalaenopsis</Emphasis> species

Endopolyploidy was observed in the protocorms of diploid Phalaenopsis aphrodite subsp. formosana with ploidy doubling achieved by in vitro regeneration of excised protocorms, or protocorm-like bodies (PLBs). Thirty-four per cent of the PLBs regenerated from the first cycle of sectioned protocorms were found to be polyploids with ploidy doubled once or twice as determined by flow-cytometry. The frequency of ploidy doubling increased as the sectioning cycles increased and was highest in diploid followed by the triploid and tetraploid. Regeneration of the endopolyploid cells in the tissue of the protocorms or PLBs is proposed as the source of the development of ploidy doubled plantlets. The frequency of ploidy doubling was similar in seven other Phalaenopsis species, although the rate of increase within cycles was genotype specific. In two species, a comparison of five parameters between 5-month-old diploid and tetraploid potted plants showed only the stomata density differed significantly. The flowers of the tetraploid plant were larger and heavier than those of the diploids. This ploidy doubling method is a simple and effective means to produce large number of polyploid Phalaenopsis species plants as well as their hybrids. The method will be beneficial to orchid breeding programs especially for the interspecific hybridization between varieties having different chromosome sizes and ploidy levels.     

EST-SSR markers derived from Laminaria digitata and its transferable application in Saccharina japonica

The public availability of numerous expressed sequence tag (EST) enables EST-based SSR (simple sequence repeat) markers to be widely used for genetics and breeding studies. In the present study, EST-SSR markers were developed from ESTs of Laminaria digitata and were transferred to the non-congeneric species Saccharina japonica. Among the 2,668 non-redundant ESTs, 83 (3.1%) ESTs containing SSR were identified totally, with an average of one SSR per 13.6 kb. Analysis of SSR motifs revealed that the trinucleotide and tetranucleotide were major motifs, accounted for 44.58% and 16.87%, respectively. Based on the 83 ESTs containing SSR, we designed 45 pairs of primers in the flanking regions of the SSR, of which 13 pairs showed polymorphism in a wild S. japonica population, and the mean alleles per locus was 3.6 (ranging from 2 to 6). The observed (Ho) and expected (He) heterozygosities of these EST-SSRs were 0.234–0.632 and 0.260–0.635, respectively. All loci were in Hardy–Weinberg equilibrium in the wild population and no linkage disequilibrium was detected among loci. The obtained EST-SSR markers can facilitate and promote related research such as ecological investigation, genetic diversity assessment and breeding practice of S. japonica as well.     

SSR allelic variation in almond (Prunus dulcis Mill.)

Sixteen SSR markers including eight EST-SSR and eight genomic SSRs were used for genetic diversity analysis of 23 Chinese and 15 international almond cultivars. EST- and genomic SSR markers previously reported in species of Prunus, mainly peach, proved to be useful for almond genetic analysis. DNA sequences of 117 alleles of six of the 16 SSR loci were analysed to reveal sequence variation among the 38 almond accessions. For the four SSR loci with AG/CT repeats, no insertions or deletions were observed in the flanking regions of the 98 alleles sequenced. Allelic size variation of these loci resulted exclusively from differences in the structures of repeat motifs, which involved interruptions or occurrences of new motif repeats in addition to varying number of AG/CT repeats. Some alleles had a high number of uninterrupted repeat motifs, indicating that SSR mutational patterns differ among alleles at a given SSR locus within the almond species. Allelic homoplasy was observed in the SSR loci because of base substitutions, interruptions or compound repeat motifs. Substitutions in the repeat regions were found at two SSR loci, suggesting that point mutations operate on SSRs and hinder the further SSR expansion by introducing repeat interruptions to stabilize SSR loci. Furthermore, it was shown that some potential point mutations in the flanking regions are linked with new SSR repeat motif variation in almond and peach. Electronic Supplementary Material Supplementary material is available for this article at and is accessible for authorized users.     

Development of a large number of SSR and InDel markers and construction of a high-density genetic map based on a RIL population of pepper (<Emphasis Type="Italic">Capsicum annuum</Emphasis> L.)

Capsicum annuum, the most widely cultivated species of pepper, is used worldwide for its important nutritional and medicinal values. The construction of an intraspecific high-density genetic linkage map would be of practical value for pepper breeding. However, the numbers of PCR-based simple sequence repeat (SSR) and insertion/deletion (InDel) markers that are available are limited, and there is a need to develop a saturated, intraspecific linkage map. The non-redundant Capsicum species’ expressed sequence tag (EST) database from the National Center for Biotechnology Information was used in this study to develop a total of 902 usable EST-SSR markers. Additionally, 177,587 SSR loci were identified based on the pepper genomic information, including 9182 SSR loci 500 bp both upstream and downstream of coding regions. Another 4497 stable and reliable InDel loci were also developed. From 9182 SSR and 4497 InDel loci, 3356 pairs of genomic SSR primers and 1400 pairs of InDel primers that were evenly distributed in 12 chromosomes were selected. A high-density intraspecific genetic map of C. annuum was constructed using the F₁₀-generation recombinant inbred line of parents PM702 and FS871 as the mapping population, screening the selected 3356 pairs of genomic SSR primers and 1400 pairs of InDel primers and the 902 EST-SSR markers developed earlier, and 524 published SSR markers and 299 orthologous markers (including 263 COSII markers and 36 tomato-derived markers) used previously to develop an interspecific genetic map (C. annuum × C. frutescens). Eventually, a high-density complete genetic intraspecific linkage map of C. annuum containing 12 linkage groups and 708 molecular markers with a length of 1260.00 cM and an average map distance of 1.78 cM was produced. This intraspecific, high-density, complete genetic linkage map of C. annuum contains the largest number of SSR and InDel markers and the highest amount of saturation so far, and it will be of considerable significance for the breeding of improved cultivars of this important field crop in the future.     

EST-SSRs characterization and in-silico alignments with linkage map SSR loci in grape (Vitis L.) genome

11,581 grape (Vitis L.) EST-SSRs were produced and characterized from a total of 381,609 grape ESTs. Among the EST-SSRs, the tri repeat (5,560, 45.4%) represented the most abundant class of microsatellites in grape EST. Most of grape EST-SSR motifs fall within 18-24 bps in length. The EST-SSRs tri-repeats occurred a higher percentage in 5??-end (59.3%) than in 3??-end (48.3%). And EST-SSR tri-repeats had abundant codon repeats for putative amino acid runs as Proline, Arginine in grape ESTs. To better utilizing these markers, 142 of newly developed and validated EST SSR loci as well as 223 linkage map SSR loci were in silico aligned and mapped in grape genome. The orders of these SSR loci in the chromosomal physical locations and in the linkage groups were compared, and about twenty linkage map loci positions were switched or rearranged in grape genome. The EST-SSR markers extended the linkage map in grape genome. The method of in silico mapping reported in this study provided an initial collection for grape mapping resources. This approach offers great opportunities to understand the genetic variations in nucleotide sequences differences in physical map, and genetic recombination in linkage maps, as well as benefits for markers enrichment in a specific grape genome region for fine mapping or QTL mapping.     

Mining and validating grape (<Emphasis Type="Italic">Vitis</Emphasis> L.) ESTs to develop EST-SSR markers for genotyping and mapping

Grape expressed sequence tags (ESTs) are a new resource for developing simple sequence repeat (SSR) functional markers for genotyping and genetic mapping. An integrated pipeline including several computational tools for SSR identification and functional annotation was developed to identify 6,447 EST-SSR sequences from a total collection of 215,609 grape ESTs retrieved from NCBI. The 6,447 EST-SSRs were further reduced to 1,701 non-redundant sequences via clustering analysis, and 1,037 of them were successfully designed with primer pairs flanking the SSR motifs. From them, 150 pairs of primers were randomly selected for PCR amplification, polymorphism and heterozygosity analysis in V. vinifera cvs. Riesling and Cabernet Sauvignon, and V. rotundifolia (muscadine grape) cvs. Summit and Noble, and 145 pairs of these primers yielded PCR products. Pairwise comparisons of loci between the parents Riesling and Cabernet Sauvignon showed that 72 were homozygous in both cultivars, while 70 loci were heterozygous in at least one cultivar of the two. Muscadine parents Noble and Summit had 90 homozygous SSR loci in both parents and contained 50 heterozygous loci in at least one of the two. These EST-SSR functional markers are a useful addition for grape genotyping and genome mapping.     

Effect of low irradiance on the photosynthetic performance and spiking of Phalaenopsis

Lowering irradiance can delay the flower stalk, i.e., spike development, in order to schedule flowering time of Phalaenopsis; however, the effect on photosynthetic performance and spiking inhibition remains poorly understood. We compared light and shade treatments of Phalaenopsis aphrodite subsp. formosana in order to determine how limiting light affects day-night changes in the photosynthetic capacity of leaves and the carbon pool of leaves and stems resulting in delayed spiking. The low irradiance treatment [20 μmol(photon) m^?2 s^?1] for six weeks did not affect potential functions of photosynthetic apparatus estimated by chlorophyll a fluorescence analysis, but it significantly reduced the net CO₂ uptake and O₂ evolution rates, carbohydrate and organic acid concentrations, and amplitudes of CAM activity in new and fully expanded leaves of Phalaenopsis and delayed the spiking compared with the control kept at 150 μmol(photon) m^?2 s^?1. The shortened stem contained a remarkably high sucrose concentration, accounting for more than 80% of total soluble sugars for both treatments throughout the day. Moreover, the sucrose concentration was unaffected by the lowering of irradiance. The relationship between the sucrose content and spiking seemed to be loose; the major factor(s) for spiking in Phalaenopsis remained to be ascertained as the flower stalk bud is attached to the shortened stem.     

Transferability and polymorphism of barley EST-SSR markers used for phylogenetic analysis in Hordeum chilense

Background

Hordeum chilense, a native South American diploid wild barley, is a potential source of useful genes for cereal breeding. The use of this wild species to increase genetic variation in cereals will be greatly facilitated by marker-assisted selection. Different economically feasible approaches have been undertaken for this wild species with limited direct agricultural use in a search for suitable and cost-effective markers. The availability of Expressed Sequence Tags (EST) derived microsatellites or simple sequence repeat (SSR) markers, commonly called as EST-SSRs, for barley (Hordeum vulgare) represents a promising source to increase the number of genetic markers available for the H. chilense genome.

Results

All of the 82 barley EST-derived SSR primer pairs tested for transferability to H. chilense amplified products of correct size from this species. Of these 82 barley EST-SSRs, 21 (26%) showed polymorphism among H. chilense lines. Identified polymorphic markers were used to test the transferability and polymorphism in other Poaceae family species with the aim of establishing H. chilense phylogenetic relationships. Triticum aestivum-H. chilense addition lines allowed us to determine the chromosomal localizations of EST-SSR markers and confirm conservation of the linkage group.

Conclusion

From the present study a set of 21 polymorphic EST-SSR markers have been identified to be useful for diversity analysis of H. chilense, related wild barleys like H. murinum, and for wheat marker-assisted introgression breeding. Across-genera transferability of the barley EST-SSR markers has allowed phylogenetic inference within the Triticeae complex.     

Frequency, type, and distribution of EST-SSRs from three genotypes of Lolium perenne, and their conservation across orthologous sequences of Festuca arundinacea, Brachypodium distachyon, and Oryza sativa

Background  

Simple sequence repeat (SSR) markers are highly informative and widely used for genetic and breeding studies in several plant species. They are used for cultivar identification, variety protection, as anchor markers in genetic mapping, and in marker-assisted breeding. Currently, a limited number of SSR markers are publicly available for perennial ryegrass (Lolium perenne). We report on the exploitation of a comprehensive EST collection in L. perenne for SSR identification. The objectives of this study were 1) to analyse the frequency, type, and distribution of SSR motifs in ESTs derived from three genotypes of L. perenne, 2) to perform a comparative analysis of SSR motif polymorphisms between allelic sequences, 3) to conduct a comparative analysis of SSR motif polymorphisms between orthologous sequences of L. perenne, Festuca arundinacea, Brachypodium distachyon, and O. sativa, 4) to identify functionally associated EST-SSR markers for application in comparative genomics and breeding.     

Identification and characterization of SSRs from soybean (Glycine max) ESTs

Microsatellites, or simple sequence repeats (SSRs), are very useful molecular markers for a number of plant species. We used a new publicly available module (TROLL) to extract microsatellites from the public database of soybean expressed sequence tag (EST) sequences. A total of 12,833 sequences containing di- to penta-type SSRs were identified from 200,516 non-redundant soybean ESTs. On average, one SSR was found per 7.25?kb of EST sequences, with the tri-nucleotide motifs being the most abundant. Primer sequences flanking the SSR motifs were successfully designed for 9,638 soybean ESTs using the software primer3.0 and only 59 pairs of them were found in earlier studies. We synthesized 124 pairs of the primers to determine the polymorphism and heterozygosity among eight genotypes of soybean cultivars, which represented a wide range of the cultivated soybean cultivars. PCR amplification products with anticipated SSRs were obtained with 81 pairs of primers; 36 PCR products appeared to be homozygous and the remaining 45 PCR products appeared to be heterozygous and displayed polymorphism among the eight cultivars. We further analysed the EST sequences containing 45 polymorphic EST-SSR markers using the programs BLASTN and BLASTX. Sequence alignment showed that 29 ESTs have homologous sequences and 15 ESTs could be classified into a Uni-gene cluster with comparatively convincing protein products. Among these 15 ESTs belonging to a Uni-gene cluster, 9 SSRs were located in 3'-UTR, 4 SSRs were located in the intron region and 2 SSRs were located in the CDS region. None of these SSRs was located in the 5'-UTR. These novel SSRs identified in the ESTs of soybean provide useful information for gene mapping and cloning in future studies.