High-throughput sequencing of <Emphasis Type="Italic">Prunus ferganensis</Emphasis> indicates that it is a geographical population of <Emphasis Type="Italic">P. persica</Emphasis>

Peach belongs to the genus Prunus, which includes Prunus persica and its relative species, P. mira, P. davidiana, P. kansuensis, and P. ferganensis. Of these, P. ferganensis have been classified as a species, subspecies, or geographical population of P. persica. To explore the genetic difference between P. ferganensis and P. persica, high-throughput sequencing was used in different peach accessions belonging to different species. First, low-depth sequencing data of peach accessions belonging to four categories revealed that similarity between P. ferganensis and P. persica was similar to that between P. persica accessions from different geographical populations. Then, to further detect the genomic variation in P. ferganensis, the P. ferganensis accession “Xinjiang Pan Tao 1” and the P. persica accession “Xia Miao 1” were sequenced with high depth, and sequence reads were assembled. The results showed that the collinearity of “Xinjiang Pan Tao 1” with the reference genome “Lovell” was higher than that of “Xia Miao 1” and “Lovell” peach. Additionally, the number of genetic variants, including single nucleotide polymorphisms (SNPs), structural variations (SVs), and the specific genes annotated from unmapped sequence in “Xia Miao 1” was higher than that in “Xinjiang Pan Tao 1” peach. The data showed that there was a close distance between “Xinjiang Pan Tao 1” (P. ferganensis) and reference genome which belong to P. persica, comparing “Xia Miao 1” (P. persica) and reference ones. The results accompany with phylogenetic tree and structure analysis confirmed that P. ferganensis should be considered as a geographic population of P. persica rather than a subspecies or a distinct species. Furthermore, gene ontology analysis was performed using the gene comprising large-effect variation to understand the phenotypic difference between two accessions. The result revealed that the pathways of gene function affected by SVs but SNPs and insertion-deletions markedly differed between the two peach accessions.     

A novel riboregulator switch system of gene expression for enhanced microbial production of succinic acid

In this paper, a novel riboregulator Switch System of Gene Expression including an OFF-TO-ON switch and an ON-TO-OFF switch was designed to regulate the expression state of target genes between “ON” and “OFF” by switching the identifiability of ribosome recognition site (RBS) based on the thermodynamic stability of different RNA–RNA hybridizations between RBS and small noncoding RNAs. The proposed riboregulator switch system was employed for the fermentative production of succinic acid using an engineered strain of E. coli JW1021, during which the expression of mgtC gene was controlled at “ON” state and that of pepc and ecaA genes were controlled at the “OFF” state in the lag phase and switched to the “OFF” and “ON” state once the strain enters the logarithmic phase. The results showed that using the strain of JW1021, the yield and productivity of succinic acid can reach 0.91 g g^?1 and 3.25 g L^?1 h^?1, respectively, much higher than those using the strains without harboring the riboregulator switch system.     

Single-strand conformational polymorphism markers associated with a major QTL for fusarium head blight resistance in wheat

A major quantitative trait locus (QTL) associated with resistance to Fusarium head blight (FHB) was identified on chromosome 3BS between simple sequence repeat (SSR) markers Xgwm389 and Xgwm493 in wheat “Ning 7840”, a derivative from “Sumai 3”. However, the marker density of SSR in the QTL region was much lower than that required for marker-assisted selection (MAS) and map-based cloning. The objective of this study was to exploit new markers to increase marker density in this QTL region by using single-strand conformational polymorphism (SSCP) markers developed from wheat-expressed sequence tags (ESTs) on 3BS bin 8-0.78-1.0. Sixty-nine out of 85 SSCP primer pairs amplified PCR (polymerase chain reaction) products from the genomic DNA of “Chinese Spring”. Thirty-four primer pairs amplified PCR products that could form clear ssDNA (single strand DNA) bands through denaturation treatment. Ten SSCP markers had polymorphisms between Ning 7840 and “Clark”. Five of the ten polymorphic SSCP markers were located on chromosome 3B by nullitetrasomic analysis. Three SSCP markers (Xsscp6, Xsscp20, and Xsscp21) were mapped into the region between Xgwm493 and Xgwm533 and possessed a higher coefficient of determination (R²) than Xgwm493 and Xgwm533. The SSCP markers, Xsscp6, Xsscp20, and Xsscp21, can be used for map-based cloning of the QTL and for marker-assisted selection in FHB resistance breeding.     

Isolation and characterization of 20 polynucleotide microsatellite markers in a vulnerable Korean snail, <Emphasis Type="Italic">Ellobium chinense,</Emphasis> using 454 pyrosequencing

A small and air-breathing snail, Ellobium chinense (Ellobiidae), is a vulnerable species by International Union for Conservation of Nature (IUCN). To protect and manage habitat and population of E. chinense, microsatellite markers were developed using 454 pyrosequencing and 20 polymorphic microsatellite markers were identified. A total of 146,704 sequences containing a minimum of four repeat motifs (mean, 631 base pairs) were identified from 499,505 reads. Among 80 loci containing more than nine repeat units, 34 primer sets (42.5 %) produced strong PCR products, of which 20 were polymorphic among 48 samples of E. chinense. All loci exhibited high genetic variability, with an average of 18.9 alleles per locus, and the mean observed and expected heterozygosities were 0.65 and 0.90, respectively. In addition, cross-amplification was tested for all 20 loci in the same family species, Melampus sincaporensis. None of the primer pairs resulted in effective amplification, which might be due to their high mutation rates. Our work demonstrated the utility of next-generation 454 sequencing as a method for the rapid and cost-effective identification of microsatellites. The high degree of polymorphism exhibited by the 20 newly developed microsatellites will be useful in future conservation genetic studies of this species.     

Genetic Diversity,Genotype Discrimination,and Population Structure of Mexican <Emphasis Type="Italic">Opuntia</Emphasis> sp., Determined by SSR Markers

The Opuntia (prickly pear) genus, an important horticultural crop in Mexico, is essentially a fruit crop with two variants: sweet (“tunas”) or acid (“xoconostles”) fruits; it is also a source of vegetables “nopalitos” or fodder for livestock, among other uses. Its taxonomical classification has been reported as complex, although few studies on the genetic structure of Mexican Opuntia are available, and genetic differences between the two types of fruits are unknown. Opuntia genotype identification and classification are still mainly based on morphological characters. In this study, the genetic diversity of Mexican Opuntia germplasm with agronomic and economic importance was revealed, using 88 accessions and 13 SSR markers, in an attempt to explore the genetic relationships among them. A total of 159 alleles were detected ranging from 7 to 23 per locus with an average of 12.2. The SSR markers generated unique fingerprints for each Opuntia accession confirming their usefulness for genetic analysis. The accessions’ grouping was defined by several complementary clustering methods, and the moderate incongruences between the different methods did not influence the overall clustering. DAPC and STRUCTURE analyses grouped the accessions into five groups, thus confirming the incorrect delimitation of species in this genus. The following species had no clear boundaries: Opuntia ficus-indica, Opuntia albicarpa, Opuntia megacantha, Opuntia streptacantha, Opuntia lasiacantha, and Opuntia hyptiacantha. However, Opuntia robusta was separated from the rest of the species. Opuntia joconostle and Opuntia matudae, which produce acid fruits, tended to differ from the others. Median-joining simulation classified all genotypes into a complex network, and both linear and reticular ties between Mexican Opuntia genotypes were revealed. The genetic distance revealed in the present study shows the importance of Mexican accessions for conservation and use in breeding programs.     

Association between SSR markers and fibre traits in sea island cotton (<Emphasis Type="BoldItalic">Gossypium barbadense</Emphasis>) germplasm resources

Identification of molecular markers associated with fibre traits can accelerate cotton marker-assisted selection (MAS) programmes. In this study, Gossypium barbadense germplasm accessions with diverse origins (\(n = 123\)) were used to perform association analysis of fibre traits with 120 polymorphic simple sequence repeat (SSR) markers. In total, 120 polymorphic primer pairs amplified 258 loci with a mean of 2.15 loci per primer. Population structure analysis identified three main clusters for the accessions, which indicated agreement of genetic and predefined populations. Marker–trait associations (\(n= 58\)) were detected for 10 fibre traits with 26 SSR markers located on 15 chromosomes. The \(R^{2}\) (phenotypic variation explained) ranged from 3.19 to 15.21%. Two markers (NAU5465 and NAU3013) were found to be stably associated with boll number per plant (BNP) and fibre uniformity (UI), respectively. Four markers (BNL252, NAU3424, NAU3324 and CGR5202) associated with fibre quality traits preferentially clustered on the D8 chromosome, which was thus identified as an important candidate region for study molecular mechanisms underlying fibre quality and for use in breeding cotton cultivars for improving fibre quality. This study generated molecular data with a potential for better understanding of the genetic basis of the fibre traits and provided new markers for MAS in G. barbadense breeding programmes.     

<Emphasis Type="Italic">Miscanthus</Emphasis> sp.: Genetic Diversity and Phylogeny in China

Miscanthus genetic resources are widely distributed throughout China. However, genetic studies on Miscanthus lagged far behind other crops (e.g., sorghum, maize). To establish the comprehensive genetics knowledge of Miscnathus in China, here we report the genetic and phylogenetic diversity of 174 domestic Miscanthus accessions, along with an external Miscanthus × giganteus control. Cytological observations and flow cytometry analyses indicated that there were two major Miscanthus cytotypes in China: diploid (86.86%) and tetraploid (12.57%) without triploid. A total of 108 polymorphic loci generated from 25 SSR primers were used to evaluate the genetic variation. Large variations in genetic similarity coefficients (GSCs), ranging from 0.08 to 0.97 with a mean value of 0.39, were observed between these Miscanthus accessions. Our phylogenetic data revealed that these accessions were clustered into four main clades: M. section Miscanthus, M. section Diandranthus, M. section Triarrhena, and hybrids. The average percentage of polymorphic loci (P), gene diversity (H), and Shannon’s diversity index (I) among Miscanthus species are 70.93%, 0.22, and 0.34, respectively. These were consistent with the analysis of molecular variance (AMOVA) results, showing that 85% of genetic variation was found within clades. This study investigated the clear phylogenetic relationship of Miscanthus species in China, which will be valuable for further utilization of the germplasm in genetic improvement and hybrid breeding of Miscanthus.     

Genome-wide association mapping for seedling and field resistance to <Emphasis Type="Italic">Puccinia striiformis</Emphasis> f. sp. <Emphasis Type="Italic">tritici</Emphasis> in elite durum wheat

Key message

Genome-wide association analysis in tetraploid wheat revealed novel and diverse loci for seedling and field resistance to stripe rust in elite spring durum wheat accessions from worldwide.

Abstract

Improving resistance to stripe rust, caused by Puccinia striiformis f. sp. tritici, is a major objective for wheat breeding. To identify effective stripe rust resistance loci, a genome-wide association study (GWAS) was conducted using 232 elite durum wheat (Triticum turgidum ssp. durum) lines from worldwide breeding programs. Genotyping with the 90 K iSelect wheat single nucleotide polymorphism (SNP) array resulted in 11,635 markers distributed across the genome. Response to stripe rust infection at the seedling stage revealed resistant and susceptible accessions present in rather balanced frequencies for the six tested races, with a higher frequency of susceptible responses to United States races as compared to Italian races (61.1 vs. 43.1% of susceptible accessions). Resistance at the seedling stage only partially explained adult plant resistance, which was found to be more frequent with 67.7% of accessions resistant across six nurseries in the United States. GWAS identified 82 loci associated with seedling stripe rust resistance, five of which were significant at the false discovery rate adjusted P value <0.1 and 11 loci were detected for the field response at the adult plant stages in at least two environments. Notably, Yrdurum-1BS.1 showed the largest effect for both seedling and field resistance, and is therefore considered as a major locus for resistance in tetraploid wheat. Our GWAS study is the first of its kind for stripe rust resistance in tetraploid wheat and provides an overview of resistance in elite germplasm and reports new loci that can be used in breeding resistant cultivars.

     

Study on chloroplast DNA diversity of cultivated and wild pears (<Emphasis Type="Italic">Pyrus</Emphasis> L.) in Northern China

Eight pairs of chloroplast DNA (cpDNA) universal primers selected from 34 pairs were used to assess the genetic diversity of 132 pear accessions in Northern China. Among them, six amplified cpDNA fragments showed genetic diversity. A total of 24 variable sites, including 1 singleton variable site and 23 parsimony informative sites, as well as 21 insertion-deletion fragments, were obtained from the combined cpDNA sequences (5309–5535 bp). Two trnL-trnF-487 haplotypes, five trnL-trnF-413 haplotypes, five rbcL haplotypes, six trnS-psbC haplotypes, eight accD-psaI haplotypes and 12 rps16-trnQ haplotypes were identified among the individuals. Twenty-one haplotypes were identified based on the combined fragments. The values of nucleotide diversity (P_i), average number of nucleotide differences (k) and haplotype diversity (H_d) were 0.00070, 3.56408 and 0.7960, respectively. No statistical significance was detected in Tajima’s D test. Remarkably, the important cpDNA haplotypes and their representing accessions were identified clearly in this study. H_19 was considered as one of the ancient haplotypes and was a divergent centre. H_16 was the most common haplotype of the wild accessions. H_2 was the haplotype representing the most pear germplasm resources (46 cultivars and two wild Ussurian Pear accessions), followed by haplotype H_5 (30 cultivars, two wild Ussurian Pear accessions and four sand pears in outgroups) representing the cultivars ‘Dangshan Suli’ and ‘Yali’, which harbour the largest and the second largest cultivation areas in China. More importantly, this study demonstrated, for the first time, the supposed evolution routes of Pyrus based on cpDNA divergence in the background of pear phylogeny in Northern China.     

Intraspecific divergence in wheats of the Emmer group using in situ hybridization with the Spelt-1 family of tandem repeats

Fluorescence in situ hybridization (FISH) was used to study the distribution of Spelt-1 repetitive DNA sequences on chromosomes of 37 accessions representing eight polyploidy wheat species of the Emmer evolutionary lineage: Triticum dicoccoides Körn, T. dicoccum (Schrank) Schuebel, T. durum Desf., T. polonicum L., T. carthlicum Nevski, T. aethiopicum Jakubz., T. aestivum L., and T. spelta L. Substantial polymorphism in the number, distribution, and the sizes of the Spelt-1 loci was revealed. On the chromosomes of the accessions examined, Spelt-1 tandem repeats were found in seven different positions (per haploid chromosome set). These were “potential hybridization sites”, including the subtelomeric regions of either short or long arms of chromosomes 2A and 6B, the short arm of chromosome 1B, and the long arms of chromosomes 2B and 3B. However, in individual genotypes, only from one to three Spelt-1 loci were revealed. Furthermore, no hybridization with Spelt-1 probe was detected on chromosomes from 12 accessions. Thus, the total number of Spelt-1 sites in karyotypes varied from zero to three, with the average number of 1.16. This was substantially lower than in the species of the Timopheevi section and diploid Aegilops speltoides Tausch, a putative donor of the B genome. The decrease of the content of Spelt-1 sequences in the genomes of the Emmer group wheats in comparison with the species of the Timopheevii group and diploid Ae. speltoides was assumed to result from the repetitive sequences reorganization during polyploidization and the repeat elimination during wheat evolution.     

Constructing a genetic linkage map of <Emphasis Type="Italic">Vitis aestivalis</Emphasis>-derived “Norton” and its use in comparing Norton and Cynthiana

The first microsatellite-based linkage map for Vitis aestivalis was constructed using 183 progeny from the crosses of V. aestivalis-derived “Norton” and V. vinifera “Cabernet Sauvignon”. A total of 1157 simple sequence repeat (SSR) markers were tested, 859 were amplified via PCR and 413 were polymorphic for at least one parent. The map for Norton consisted of 376 markers and covered 1496.6 centimorgan (cM) on 19 chromosomes. The consensus map consisted of 411 markers on 19 linkage groups with a total distance of 1678.6 cM. Although isozyme and SSR marker analyses in 1993 and 2009 provided preliminary evidence that Norton and Cynthiana grapes are genetically identical, only five banding patterns and four microsatellite loci were reported. This study characterized the relationship between these two cultivars using 185 microsatellites spanning 19 linkage groups for a genome-wide analysis. Four accessions of Norton and three accessions of Cynthiana were used; capillary electrophoresis results revealed Norton and Cynthiana to be identical at all selected loci.     

Proteinase inhibitors from <Emphasis Type="Italic">Cajanus platycarpus</Emphasis> accessions active against pod borer <Emphasis Type="Italic">Helicoverpa armigera</Emphasis>

Cajanus platycarpus, a wild relative of Cajanus cajan, is an important source for various agronomically desirable traits, including resistance towards pod borer, Helicoverpa armigera. In the present study, the inhibitory activity of proteinase inhibitors (PIs) present in crude protein extracted from different accessions of C. platycarpus and cultivars of C. cajan was evaluated against H. armigera under in vitro and in vivo conditions. The PIs active against H. armigera gut trypsin-like proteinases (HGPs), referred to as ‘HGPIs’, were more pronounced in mature dry seeds of C. platycarpus accessions when compared with cultivars, which is also evident through gelatin activity staining studies. Therefore, the inhibitory activity of HGPIs was further evaluated in various plant organs of C. platycarpus accessions, such as leaves, flowers, pods, developing seeds at 8–10 days (DAP-I), 18–20 days (DAP-II), and 28–32 days after pollination (DAP-III). However, the HGPI activity was more pronounced in mature dry seeds > DAP-III > DAP-II > DAP-I > flowers > pods > leaves. The observed quantitative allocation of HGPIs closely resembled “Optimal Defense Theory”. Further, bioassays demonstrated that there was a significant reduction in the body weight of the larvae fed upon crude PI extracts of C. platycarpus accessions with concomitant increase in mortality rate and the formation of larval–pupal intermediates. Nevertheless, such changes were not observed when the larvae were fed on crude PI extracts of C. cajan cultivars. These results suggest that the PI gene(s) from C. platycarpus accessions could be exploited in the management of H. armigera by introgression into C. cajan cultivars.     

Mining and characterization of EST-SSR markers for <Emphasis Type="Italic">Zingiber officinale</Emphasis> Roscoe with transferability to other species of Zingiberaceae

Zingiber officinale is a model spice herb, well known for its medicinal value. It is primarily a vegetatively propagated commercial crop. However, considerable diversity in its morphology, fiber content and chemoprofiles has been reported. The present study explores the utility of EST-derived markers in studying genetic diversity in different accessions of Z. officinale and their cross transferability within the Zingiberaceae family. A total of 38,115 ESTs sequences were assembled to generate 7850 contigs and 10,762 singletons. SSRs were searched in the unigenes and 515 SSR-containing ESTs were identified with a frequency of 1 SSR per 25.21 kb of the genome. These ESTs were also annotated using BLAST2GO. Primers were designed for 349 EST-SSRs and 25 primer pairs were randomly picked for EST SSR study. Out of these, 16 primer pairs could be optimized for amplification in different accessions of Z. officinale as well as other species belonging to Zingiberaceae. GES454, GES466, GES480 and GES486 markers were found to exhibit 100% cross-transferability among different members of Zingiberaceae.     

Natural genetic variation in <Emphasis Type="Italic">Brassica</Emphasis> homologs of <Emphasis Type="Italic">FLOWERING LOCUS T</Emphasis> and characterization of its expression domains

FLOWERING LOCUS T (FT), a major effect gene, regulates flowering time in Arabidopsis. We analyzed evolutionary changes distinguishing two FT homeologous loci in B. rapa, described genetic variation in homologs isolated and reported expression pattern of FT in B. juncea. Synteny analysis confirmed presence of two FT genomic copies in B. rapa ssp. pekinensis and resolved pre-existing anomalies regarding copy number in “AA” genome. Synteny analysis of B. rapa homeologous regions CR1 (129 kb) and CR2 (232 kb) revealed differential gene fractionation and wide-spread re-arrangements. Seven genomic DNA (gDNA) variants (2.1–2.2 kb) and 10 complementary DNA (cDNA) variants (528 bp) were isolated from 6 Brassica species. The gDNA variants shared 72–99 % similarity within Brassica and 58–60 % between Arabidopsis and Brassica. FT cDNA variants shared 92–100 % similarity within Brassica and 87 % between Arabidopsis and Brassica. Phylogenetic analysis of FT gDNA, cDNA and protein sequences revealed two major clades, differentiating homologs derived from species containing shared “BB” and “CC” genomes. Phylogram based on Brassica FT gDNA differentiated homeologs derived from AA-LF (Least fractioned) and AA-MF1 (Moderately fractioned) sub-genomes. Analysis of FT expression pattern in B. juncea revealed increasing levels correlating with attainment of physiological maturity; highest levels were detected in older leaves implying conservation in spatio-temporal expression pattern vis-à-vis Arabidopsis. In conclusion, our study reveals that polyploidy in Brassicas resulted in expansion of FT gene copies with homologs charting independent evolutionary course through accumulation of mutations. However, expression domains of FT remained conserved across Brassicaceae to preserve the critical function of FT in controlling flowering time.     

Evaluation of the Use of Selective PCR Amplification of LPS Biosynthesis Genes for Molecular Typing of <Emphasis Type="Italic">Leptospira</Emphasis> at the Serovar Level

Leptospirosis is an important epidemic zoonosis worldwide. Currently, there are more than 250 Leptospira pathogenic serovars known that can potentially infect humans. Conventional classification of leptospires with the serovar as the basic taxon, based on serological recognition of lipopolysaccharide (LPS) composition does not correlate well with species determination, based on general genomic features. Here, we investigate the selective amplification of polymorphic regions from the LPS biosynthesis loci (rfb) as a potential tool for serovar typing of Leptospira interrogans species. Eight pairs of primers were designed to target six ORFs from the rfb operon with varying levels of sequence polymorphism. They were tested both separately and multiplexed. Half of these primer pairs produced serovar-specific amplicons, allowing the identification of some specific serovars and also groups of serovars. It was shown that the serovar classification of Leptospira can be accessed by selective amplification of rfb operons in some cases, which may permit a parallel between the serological and the genomic classifications of Leptospira. As a conclusion, the selective amplification of rfb generated promising and already useful results, but it appears necessary to characterize a larger variety of Leptospira genomes or rfb operons to fully develop this method.