M-PCR： a powerful method for rapid molecular identification of Trichogramma wasps （Hymenoptera： Trichogrammatidae）

Two species-specific primers were designed depending on ITS2 sequence variation of 37 Trichogramma wasps, and these primers were applied to establish an assay,multiplex PCR (M-PCR), for molecular diagnosis of two important Trichogramma wasps,T. confusum and T. dendrolimi, in China. Multiplex-PCR results showed that only target species produced two PCR products, one product of ITS2 region species-specific amplification and one product of its ITS 1 region universal amplification, but other species produced only one ITS1 universal PCR product. Using this method, the target Trichogramma species can be distinguished from other Trichogramma species. Molecular identification based on M-PCR has particular value over morphological technology and other approaches, such as normal molecular and biochemical methods. Furthermore, because M-PCR assay can avoid false negative results, which frequently happen in PCR reaction, this method will be much more accurate and useful for Trichogramma identification, and can be developed as an easy and rapid diagnostic kit applied in the identification and quality monitoring of Trichogramma mass products both in the factory and in the field. Such an easy and rapid diagnostic kit will be valuable in the application of Trichogramma species as a biological control.     

Single-strand restriction fragment length polymorphism analysis of the second internal transcribed spacer (ribosomal DNA) for six species of Eimeria from chickens in Australia

Species of Eimeria from chickens from Australia were characterised using a polymerase chain reaction-linked restriction fragment length polymorphism (PCR-RFLP) approach. The ribosomal DNA region spanning the second internal transcribed spacer (ITS-2) was amplified from genomic DNA by PCR, digested separately with three restriction endonucleases (CfoI, Sau3AI and TaqI) and the fragments separated by denaturing gel electrophoresis. The PCR products amplified from the six species varied from approximately 70 to 620 bp on agarose gels, with differences in size and number of bands among species, but no apparent variation within a species. The PCR-RFLP analysis of ITS-2 amplicons on denaturing gels gave characteristic profiles for individual species (except for minor variation in profiles within some species). The results indicate that ITS-2 contains useful genetic markers for the identification of six Eimeria species occurring in Australia.     

诊断引物应用于我国三种重要赤眼蜂分子鉴定的研究

本研究根据螟黄赤眼蜂rDNA-ITS2序列设计了螟黄赤眼蜂Trichogramma chilonis Ishii特异引物,同时采用文献中发表的松毛虫赤眼蜂Trichogramma dendrolimi Matsumura 和玉米螟赤眼蜂Trichogramma ostriniae Pang et Chen的特异引物以及赤眼蜂属Trichogramma 特异引物对赤眼蜂成虫和寄主卵样品进行了PCR特异扩增分析。结果表明,采用上述特异引物可从单头蜂稳定地扩增出明显的目的DNA条带,并且分子鉴定结果与形态学鉴定结果完全吻合。因此,采用上述3对特异引物可以实现对我国3种重要赤眼蜂种,即松毛虫赤眼蜂、螟黄赤眼蜂和玉米螟赤眼蜂的分子鉴定。     

Multiplex PCR and RFLP approaches for identification of rabbitfish (Siganus) species using mitochondrial gene regions

Molecular assays are described for the identification of six rabbitfish (Siganus) species. A multiplex PCR assay using primers targeting the mitochondrial cytochrome b region simultaneously identifies four species: Siganus canaliculatus, S. fuscescens, S. javus, and S. spinus. Subsequent RFLP assays of multiplex amplicons differentiate between S. virgatus and S. corallinus based on diagnostic fragments from the mitochondrial cytochrome oxidase I region. Assays were validated with known specimens demonstrating accuracy of the molecular identification. Applied to morphologically indistinguishable early developmental stages, these assays can facilitate studies on species-specific spatio-temporal patterns of larval dispersal and population connectivity to aid fishery management.     

The nuclear rDNA region of Gyrodactylus arcuatus and G. branchicus (Monogenea: Gyrodactylidae)

The primary structure of the ribosomal DNA internal transcribed spacers (ITS-1 and ITS-2) and 5.8S rRNA gene were used to characterize and identify 2 monogenean species of Gyrodacrylus living externally on the threespine stickleback (Gasterosteus aculeatus). The ITS region was amplified by PCR from freshwater, brackish, and marine isolates of Gyrodactylus arcuatus and G. branchicus, and the ends of the coding regions were identified by comparative alignment. No intraspecific and very low interspecific variation were observed in the 5.8S rRNA gene; high inter- and low intraspecific variation were revealed in the ITS-1 and ITS-2 regions. The morphological species identification was in all cases confirmed by the molecular identification. Intraspecifically, samples from 2 locations in the North Sea could be differentiated, but the Baltic sample resembled North Sea genotypes. Our approach offers perspectives for a multimetric genetical, morphometrical, and ecological taxonomy of the genus Gyrodactylus.     

Internal transcribed spacer-2 restriction fragment length polymorphism (ITS-2-RFLP) tool to differentiate some exotic and indigenous trichogrammatid egg parasitoids in India

ITS-2-RFLP method was employed to distinguish 12 different trichogrammatids consisting of indigenous and exotic species such as Trichogrammatoidea armigera and Tr. bactrae, Trichogramma achaeae, T. chilonis, T. japonicum, T. embryophagum, T. pretiosum (Thelytokous Form—TF), T. brassicae, T. dendrolimi, T. evanescens and T. mwanzai. ITS-2 region was amplified; complete ITS-2 sequences of nine species were deposited in Genbank. The size of the amplified product ranged from 500 to 900 bp. Restriction enzyme digestion of ITS-2 region showed different banding profiles for these 12 species. Dichotomous keys using the size of the ITS-2 product and the restriction fragment length polymorphism for the enzymes (EcoRI, MseI, MvaI, and TaqI) allowed quick species identification of these trichogrammatids.     

Species-specific mitochondrial DNA markers for identification of non-invasive samples from sympatric carnivores in the Iberian Peninsula

Genetic species identification of non-invasively collected samples has become an important tool in ecological research, management and conservation and wildlife forensics. This is especially true for carnivores, due to their elusive nature, and is crucial when several ecologically and phylogenetically close species, with similar faeces, hairs, bones and/or pelts, occur in sympatry. This is the case of the Iberian Peninsula, a region with a carnivore community of 16 species—about two-thirds of the European carnivore fauna. Here we present a simple, efficient and reliable PCR-based protocol, using a novel set of species-specific primers, for the unambiguous identification to species of non-invasively collected samples or forensic materials from Iberian carnivores. For each species, from the consensus of all cytochrome b haplotypes, found here and previously reported, we designed species-specific primer pairs for short fragments, the most likely to persist in low-quantity and degraded DNA samples. The predicted specificity of each primer pair was assessed through PCR of positive DNA extracts from the carnivore species, from an exhaustive array of potential prey and from humans. The robustness of PCR amplification for non-invasively sampled DNA was tested with scat samples. The primers did not produce false positives and correctly identified all carnivore samples to the species level. In comparison with sequencing and PCR-RFLP assays, our method is, respectively, cost- and time-effective, and is especially suited for monitoring surveys targeting multiple populations/species. It also introduces an approach that works for a whole community of carnivores living sympatrically over a large geographic area.     

Discrimination of Six Pratylenchus Species Using PCR and Species-Specific Primers

A PCR-based assay for identification of six species of Pratylenchus common in California is described. In this assay, five forward species-specific primers were designed from the internal variable portion of the D3 expansion region of the 26S rDNA and were each used with a single, common reverse primer. The optimized species-specific primers produced unique amplicons from their respective target and did not amplify DNA from other Pratylenchus species. With this assay we were able to identify single females to species level. This method obviates the need for subsequent RFLP or sequence analysis of the PCR product and can be used as a rapid diagnostic tool in epidemiological and management studies.     

Discrimination of <Emphasis Type="Italic">Tricholoma</Emphasis> species by species-specific ITS primers

The ITS region of ectomycorrhizal fungi was analyzed, and species-specific PCR primers were designed for 8 ectomycorrhizal Tricholoma species. Although a high degree of intraspecific homology was observed, interspecific variation was sufficient to design species-specific primers based on sequence of the ITS region. PCR amplification with the specific primers generated fragments of the expected sizes from DNA extracted from the strains of each species but gave no amplified products from the strains of the other 16 species in eight genera. These results suggest that sequence of the ITS region is appropriate to be used for species-level identification of ectomycorrhizal fungi.     

Identification of four scallop species using PCR and restriction analysis of the ribosomal DNA internal transcribed spacer region

Polymerase chain reaction (PCR) and restriction fragment length polymorphism (RFLP) analysis of the ribosomal DNA region spanning the 5.8S RNA gene and the 2 flanking internal transcribed spacers (ITSs) was performed to establish DNA-based molecular markers for the identification of the scallops Aequipecten opercularis, Chlamys distorta, Mimachlamys varia, and Pecten maximus. Chlamys distorta was distinguished simply by ITS size. Species-specific restriction patterns were found with the restriction enzyme AluI, and also with SmaI for A. opercularis and M. varia. When ITS sizes and the RFLPs obtained with SmaI were combined, the 4 scallops were also differentiated. Additional species-specific RFLPs were revealed after ITS-2 PCR amplification and subsequent digestion with Hsp92II. Using this marker, canned scallops were identified. Thus this work provides a simple, reliable, and rapid method for the identification of scallops that can be used when species-specific morphologic characteristics are removed or when specimens are small in size.     

A rapid PCR-based method for identification of four important Candida species

The rapid detection and identification of Candida species in clinical laboratories are extremely important for the management of patients with hematogenous candidosis. Currently available culture and biochemical methods for detection and identification of Candida species are time-consuming. This study describes the use of a simple and rapid PCR method using species-specific oligonucleotides for the detection of clinical isolates of Candida species. These species-specific oligonucleotides are complementary to unique sequences within the intergenic transcribed spacer 2, located in between the 5.8S and 28S ribosomal DNA, and generated DNA fragments by both the conventional and hemi-nested PCR reactions. Conventional PCR produced a single DNA fragment of variable size in all isolates, while the hemi-nested PCR produced two discrete DNA fragments, both with the expected sizes of 111bp/57bp (C. albicans), 84bp/42bp (C. glabrata), 94bp/45bp (C. krusei) and 95bp/49bp (C. parapsilosis). In conclusion, the PCR-based method described in this study is fast and specific for the identification of clinically important Candida species.     

First genetic evidence for the presence of the rumen fluke Paramphistomum epiclitum in Pakistan

More than 70 species of the Superfamily Paramphistomoidea, have been identified in ruminants in different parts of the world. Most are pathogenic, causing amphistomosis. Adult flukes within this family have a predilection for the forestomach (rumen) or bile duct of the liver, where they may cause epithelial damage. Identification of adult Paramphistomum, Calicophoron, Gastrothylax and Fischoederius at the species level based on morphology requires specialised expertise, whereas molecular genetic marker analysis is more precise and transferable. In the present study, we performed molecular characterisation of twenty seven adult flukes collected from the forestomachs of buffalo, cattle and goats in the Punjab province of Pakistan. PCR and sequencing of the ITS-2 rDNA region revealed a single haplotype in all cases. Phylogenetic comparison of P. epiclitum ITS2-rDNA sequences with those from other Paramphistomum, Calicophoron, Gastrothylax and Fischoederius species was performed to assess within and between species variation and validate the use of ITS-2 rDNA as a robust species-specific marker for P. epiclitum identification. This work provides a validated species-specific marker of P. epiclitum and the first report of this parasite species from Pakistan. The results of this study also have implications for the diagnosis and control of rumen flukes in the region and the need for accurate species identification to understand parasite distribution and population genetics.     

Differentiation of dorsal-spined elaphostrongyline larvae by polymerase chain reaction amplification of ITS-2 of rDNA

Molecular genetics was used to devise the first reliable diagnostic tool for differentiating morphologically indistinguishable dorsal-spined, first-stage larvae (L1's) and other stages of the nematode protostrongylid subfamily Elaphostrongylinae. A polymerase chain reaction (PCR) assay employing specifically designed primers was developed to selectively amplify DNA of the ITS-2 region of the ribosomal gene. Amplification of the entire ITS-2 region differentiated between larvae of the genera Elaphostrongylus and Parelaphostrongylus, based on the lengths of fragments produced. Three sets of primers were designed and used successfully to distinguish larvae at the species level. Although it was demonstrated that one primer set in a single PCR assay was capable of distinguishing each of the three Parelaphostrongylus spp., a second primer set would be required for confirmation in routine diagnostic use. Two of the three primer sets were capable of amplifying DNA from all six elaphostrongyline species and of identifying Elaphostrongylus alces and Parelaphostrongylus odocoilei. Although two separate fragments were produced from each Elaphostrongylus cervi and Elaphostrongylus rangiferi, it was not possible to distinguish these two parasites from each other based on the fragment size. The use of various nematodes, hosts, and fecal controls demonstrated the reliability of the primers for all developmental stages including L1's, third-stage larvae, and adult worms. These primers also have potential for identifying other lungworms as was shown by the amplification of Umingmakstrongylus pallikuukensis, the muskox protostrongylid, and Dictyocaulus sp. from white-tailed deer. Although this assay may benefit from further refinement, its present design provides researchers, wildlife managers, clinicians, and animal health regulators with a practical tool for the control, management, and study of meningeal and tissue worms and their close relatives.     

A new cost‐effective and fast direct PCR protocol for insects based on PBS buffer

Insect DNA barcoding is a species identification technique used in biodiversity assessment and ecological studies. However, DNA extraction can result in the loss of up to 70% of DNA. Recent research has reported that direct PCR can overcome this issue. However, the success rates could still be improved, and tissues used for direct PCR could not be reused for further genetic studies. Here, we developed a direct PCR workflow that incorporates a 2‐min sample preparation in PBS‐buffer step for fast and effective universal insect species identification. The developed protocol achieved 100% success rates for amplification in six orders: Mantodea, Phasmatodea, Neuroptera, Odonata, Blattodea and Orthoptera. High and moderate success rates were obtained for five other species: Lepidoptera (97.3%), Coleoptera (93.8%), Diptera (90.5%), Hemiptera (81.8%) and Hymenoptera (75.0%). High‐quality sequencing data were also obtained from these amplifiable products, allowing confidence in species identification. The method was sensitive down to 1/4th of a 1‐mm fragment of leg or body and its success rates with oven‐dried, ethanol‐preserved, food, bat guano and museum specimens were 100%, 98.6%, 90.0%, 84.0% and 30.0%, respectively. In addition, the pre‐PCR solution (PBS with insect tissues) could be used for further DNA extraction if needed. The workflow will be beneficial in the fields of insect taxonomy and ecological studies due to its low cost, simplicity and applicability to highly degraded specimens.     

A genetic technique to identify the diet of cownose rays,Rhinoptera bonasus: analysis of shellfish prey items from North Carolina and Virginia

Cownose rays are implicated in the consumption of commercially important shellfish on the U.S. East Coast. We tested this assumption by developing a molecular technique for species identification from cownose ray gut contents. Digestive tracts sampled from 33 rays in Pamlico Sound, NC and Chesapeake Bay, VA contained pieces of partially-digested tissue, well-digested tissue, fluid, and minute shell fragments which made visual identification to the species level nearly impossible. We sequenced the cytochrome oxidase subunit I (COI) for seven locally acquired bivalve species, chosen for their commercial and ecological importance in NC and VA. Sequences were used to design species-specific primers for each bivalve species to amplify polymerase chain reaction (PCR) products. We designed primers such that PCR products were sufficiently different in size to be distinguishable from one another when resolved on an agarose gel, and multiplexing of several species in one reaction was possible. Digestive tract sample testing revealed that cownose rays in Chesapeake Bay ate stout tagelus and soft shell clams. There was no evidence of the rays in the study consuming commercially important oysters, hard clams, and bay scallops. Further sampling over an extended period of time and additional locations is required to confirm these results. Our diagnostic tests could easily be expanded to elucidate the impact of cownose ray predation on prey populations.     

Molecular identification of dolphinfish species (genus Coryphaena) using multiplex haplotype-specific PCR of mitochondrial DNA

A rapid and reliable method of dolphinfish species identification was designed based on PCR amplification of diagnostic DNA fragments from the mitochondrial cytochrome b gene. It consisted in a tetraplex reaction producing a positive control amplicon and species-specific fragments in Coryphaena hippurus and C. equiselis. It was successfully tested in specimens of known identity and in nominal C. hippurus samples among which two C. equiselis were discovered. This approach has significant advantages over other molecular species identification methods and may help in determining species composition of mixed catches, and in forensic and food control applications of dolphinfish specimens or products.     

Multiplex 16S rRNA haplotype-specific PCR, a rapid and convenient method for fish species identification: an application to West African Clupeiform larvae

A multiplex haplotype-specific polymerase chain reaction (MHS-PCR) method was developed, which identified seven Clupeiform species living in the tropical Eastern Atlantic region: Sardinella aurita, Sardinella maderensis, Ethmalosa fimbriata, Sardina pilchardus, Engraulis encrasicholus, Pellonula leonensis and Ilisha africana. 16S rRNA fragments were amplified using a species-specific set of primers, yielding species-specific size fragments, and then separated using agarose gel electrophoresis, enabling direct visual identification of targeted species. This method provides an accurate, easy and rapid tool for identifying species within large Clupeiform samples. It is suitable for investigations on early Clupeiform stages, species and identification in fishery management in the tropical Eastern Atlantic area.     

Novel polymerase chain reaction-restriction fragment length polymorphism assay to determine internal transcribed spacer-2 group in the Chagas disease vector,Triatoma dimidiata (Latreille, 1811)

Triatoma dimidiata is the most important Chagas disease insect vector in Central America as this species is primarily responsible for Trypanosoma cruzi transmission to humans, the protozoan parasite that causes Chagas disease. T. dimidiata sensu lato is a genetically diverse assemblage of taxa and effective vector control requires a clear understanding of the geographic distribution and epidemiological importance of its taxa. The nuclear ribosomal internal transcribed spacer 2 (ITS-2) is frequently used to infer the systematics of triatomines. However, oftentimes amplification and sequencing of ITS-2 fails, likely due to both the large polymerase chain reaction (PCR) product and polymerase slippage near the 5'' end. To overcome these challenges we have designed new primers that amplify only the 3''-most 200 base pairs of ITS-2. This region distinguishes the ITS-2 group for 100% of known T. dimidiata haplotypes. Furthermore, we have developed a PCR-restriction fragment length polymorphism (RFLP) approach to determine the ITS-2 group, greatly reducing, but not eliminating, the number of amplified products that need to be sequenced. Although there are limitations with this new PCR-RFLP approach, its use will help with understanding the geographic distribution of T. dimidiata taxa and can facilitate other studies characterising the taxa, e.g. their ecology, evolution and epidemiological importance, thus improving vector control.     

安荔赤眼蜂在中国野外首次发现及其体内Wolbachia的检测

【目的】为丰富赤眼蜂Trichogramma的种类资源,明确野外新采集的一种赤眼蜂的种类,探明该赤眼蜂所感染Wolbachia的类型。【方法】采用挂米蛾Corcyra cephalonica卵卡法在华南农业大学树木园诱集到两批赤眼蜂,通过形态鉴定和PCR扩增ITS2序列并测序分析的分子鉴定手段对野外采集的赤眼蜂材料进行种类鉴定;通过PCR扩增Wolbachia的外膜蛋白基因(wsp)序列,检测赤眼蜂体内Wolbachia的感染情况;通过PCR扩增wsp序列和多位点序列分型(multilocus sequence typing, MLST)对检测到的赤眼蜂体内的Wolbachia进行同源性分析。【结果】所诱集到的两批赤眼蜂均被鉴定为安荔赤眼蜂Trichogramma oleae Voegelé & Pointel,体内Wolbachia的感染率达100%。该Wolbachia株系与安荔赤眼蜂(前南斯拉夫品系)、短管赤眼蜂T. pretiosum(乌拉圭品系)以及T. deion(荷兰品系)体内Wolbachia亲缘关系较近,属于B超组Sib亚组,对应MLST序列型为ST486。【结论】安荔赤眼蜂T. oleae为中国野外首次发现,是完全感染Wolbachia的产雌孤雌生殖品系。本研究为害虫生物防治提供了一种新的天敌种类资源,并为进一步探明Wolbachia与赤眼蜂的互作提供了研究材料。     

Identification of scuticociliates (Pseudocohnilembus persalinus,P. longisetus,Uronema marinum and Miamiensis avidus) based on the cox1 sequence

Scuticociliatosis is characterized as highly histophagous, causing systemic tissue destruction and high mortality in cultured marine fish. Some of the scuticociliates have been implicated as the causative agents of scuticociliatosis. Here, we describe our study to differentially identify various species in complex animal-sourced samples, namely olive flounder Paralichthys olivaceus and black rockfish Sebastes schlegelii suffering from scuticociliatosis. The mitochondrial cytochrome c oxidase 1 (cox1) gene from the scuticociliates was amplified and sequenced. The divergence percentage of small subunit ribosomal DNA sequence between average scuticociliate species was found to be low (8.3%) but the genetic divergence of cox1 sequence reached 23.5%, suggesting that a hyper-variable region of the cox1 gene could be used as a diagnostic DNA barcoding region. Thus, we developed species-specific primers for use in multiplex PCR of complex (pooled) samples. The primers yielded species-specific fragments (of distinct size) that allowed for simple, rapid, and effective identification and differentiation of multiple species present in a single sample.