Objective To assess the feasibility of using 28S ribosomal RNA （28S rRNA） and mitochondrial cytochrome c oxidase subunit Ⅰ （COⅠ） gene sequences of nine necrophagous Calliphorid flies for the identification of common necrophagous Calliphorid flies, and to provide technical support for postmortem interval （PMI） estimation. Methods Twenty-three Calliphorid flies were collected and identified morphologically, and DNA were extracted from legs. The gene fragments of 28S rRNA and COⅠ were amplified and sequenced, then the sequence alignment was performed with BLAST. The composition of obtained sequences was analyzed and evolutionary divergence rate between species and intraspecies were established. The phylogeny tree was constructed with neighbor-joining method. Results The 23 necrophagous Calliphorid flies were identified to 9 species of 5 genera. The 715 bp from 28S rRNA and 637 bp from COⅠ gene were obtained and the online BLAST result showed more than 99% of similarity. The phylogeny tree showed that the necrophagous flies could cluster well into 9 groups, which was consistent with morphological identification results. The intraspecific difference in 28S rRNA was 0 and the interspecific difference was 0.001-0.033. The intraspecific difference in COⅠ was 0-0.008 and the interspecific difference was 0.006-0.101. Conclusion Combined use of 28S rRNA and COⅠ gene sequence fragments can effectively identify the nine Calliphorid flies in this study. However, for closely related blowfly species, more genetic markers should be explored and used in combination in future.
Animals ; DNA, Mitochondrial/genetics* ; Diptera/genetics* ; Phylogeny ; RNA, Ribosomal, 28S/genetics* ; Sequence Analysis, DNA ; Species Specificity

The species identification plays a key role in forensic analysis. Generally, three methods have been applied for this purpose, they are morphologic-based, serologic-based and DNA-based techniques. This review mainly discussed the DNA-based technique and evaluate it's value in species identification of forensic science.
Animals ; DNA/genetics* ; DNA, Mitochondrial ; Forensic Medicine ; Humans ; Microsatellite Repeats/genetics* ; Polymorphism, Restriction Fragment Length ; RNA, Ribosomal, 28S/genetics* ; Species Specificity

Anopheles fluviatilis James (Diptera: Culicidae) is one of the known malaria vectors in south and southeastern Iran. Earlier ITS2 sequences analysis of specimens from Iran demonstrated only a single genotype that was identical to species Y in India, which is also the same as species T. We identified 2 haplotypes in the An. fluviatilis populations of Iran based on differences in nucleotide sequences of D3 domain of the 28S locus of ribosomal DNA (rDNA). Comparison of sequence data from 44 Iranian specimens with those publicly available in the Genbank database showed that all of the 28S-D3 sequences from Kazeroun and Khesht regions in Fars Province were identical to the database entry representing species U in India. In other regions, all the individuals showed heterozygosity at the single nucleotide position, which identifies species U and T. It is argued that the 2 species may co-occur in some regions and hybridize; however, the heterozygosity in the 28S-D3 locus was not reflected in ITS2 sequences and this locus for all individuals was identical to species T. This study shows that in a newly diverged species, like members of An. fluviatilis complex, a single molecular marker may not be sufficiently discriminatory to identify all the taxa over a vast geographical area. In addition, other molecular markers may provide more reliable information for species discrimination.
Animals ; Anopheles/classification/*genetics ; Base Sequence ; DNA, Ribosomal Spacer/genetics ; *Genetic Variation ; Insect Vectors/classification/genetics ; Iran ; Molecular Sequence Data ; Phylogeny ; RNA, Ribosomal, 28S/genetics ; Sequence Alignment ; Sequence Analysis, DNA

Species identification using DNA sequences is the basis for DNA taxonomy. In this study, we sequenced the ribosomal large-subunit RNA gene sequences (3,037-3,061 bp) in length of 13 Chinese Theileria stocks that were infective to cattle and sheep. The complete 28S rRNA gene is relatively difficult to amplify and its conserved region is not important for phylogenetic study. Therefore, we selected the D2-D3 region from the complete 28S rRNA sequences for phylogenetic analysis. Our analyses of 28S rRNA gene sequences showed that the 28S rRNA was useful as a phylogenetic marker for analyzing the relationships among Theileria spp. in ruminants. In addition, the D2-D3 region was a short segment that could be used instead of the whole 28S rRNA sequence during the phylogenetic analysis of Theileria, and it may be an ideal DNA barcode.
Animals ; Base Sequence ; China ; DNA, Ribosomal/chemistry/genetics ; Molecular Sequence Data ; Phylogeny ; RNA, Ribosomal, 28S/genetics ; Ruminants ; Sequence Alignment ; Sequence Analysis, DNA/veterinary ; Theileria/*classification/genetics/isolation & purification ; Theileriasis/*parasitology

BACKGROUND: The identification of molds in clinical laboratories is largely on the basis of phenotypic criteria, the classification of which can be subjective. Recently, molecular methods have been introduced for identification of pathogenic molds in clinical settings. Here, we employed comparative sequence analysis to identify molds. METHODS: A total of 47 clinical mold isolates were used in this study, including Aspergillus and Trichophyton. All isolates were identified by phenotypic properties, such as growth rate, colony morphology, and reproductive structures. PCR and direct sequencing, targeting the internal transcribed spacer (ITS) region, the D1/D2 region of the 28S subunit, and the beta-tubulin gene, were performed using primers described previously. Comparative sequence analysis by using the GenBank database was performed with the basic local alignment search tool (BLAST) algorithm. RESULTS: For Aspergillus, 56% and 67% of the isolates were identified to the species level by using ITS and beta-tubulin analysis, respectively. Only D1/D2 analysis was useful for Trichophyton identification, with 100% of isolates being identified to the species level. Performances of ITS and D1/D2 analyses were comparable for species-level identification of molds other than Aspergillus and Trichophyton. In contrast, the efficacy of beta-tubulin analysis was limited to genus identification because of the paucity of database information for this gene. CONCLUSIONS: The molecular methods employed in this study were valuable for mold identification, although the different loci used had variable usefulness, according to mold genus. Thus, a tailored approach is recommended when selecting amplification targets for molecular identification of molds.
Aspergillus/genetics/isolation & purification ; DNA, Fungal/analysis/isolation & purification ; Databases, Genetic ; Fungi/genetics/*isolation & purification ; Humans ; Polymerase Chain Reaction ; RNA, Ribosomal, 28S/*genetics ; Sequence Analysis, DNA ; Trichophyton/genetics/isolation & purification ; Tubulin/*genetics

To determine the molecular phylogenic location of Plagiorchis muris, 28S D1 ribosomal DNA (rDNA) and mitochondrial cytochrome C oxidase subunit I (mtCOI) were sequenced and compared with other trematodes in the family Plagiorchiidae. The 28S D1 tree of P. muris was found to be closely related to those of P. elegans and other Plagiorchis species. And, the mtCOI tree also showed that P. muris is in a separate clade with genus Glypthelmins. These results support a phylogenic relationship between members of the Plagiorchiidae, as suggested by morphologic features.
Animals ; Base Sequence ; DNA, Helminth/chemistry/genetics ; DNA, Mitochondrial/chemistry/genetics ; Electron Transport Complex IV/chemistry/*genetics ; Molecular Sequence Data ; Phylogeny ; Polymerase Chain Reaction ; RNA, Ribosomal, 28S/chemistry/*genetics ; Sequence Alignment ; Support, Non-U.S. Gov't ; Trematoda/classification/*genetics

We attempted to identify parasite DNA in the biliary stones of humans via PCR and DNA sequencing. Genomic DNA was isolated from each of 15 common bile duct (CBD) stones and 5 gallbladder (GB) stones. The patients who had the CBD stones suffered from cholangitis, and the patients with GB stones showed acute cholecystitis, respectively. The 28S and 18S rDNA genes were amplified successfully from 3 and/or 1 common bile duct stone samples, and then cloned and sequenced. The 28S and 18S rDNA sequences were highly conserved among isolates. Identity of the obtained 28S D1 rDNA with that of Clonorchis sinensis was higher than 97.6%, and identity of the 18S rDNA with that of other Ascarididae was 97.9%. Almost no intra-specific variations were detected in the 28S and 18S rDNA with the exception of a few nucleotide variations, i.e., substitution and deletion. These findings suggest that C. sinensis and Ascaris lumbricoides may be related with the biliary stone formation and development.
Aged ; Aged, 80 and over ; Animals ; Ascaridida/genetics/isolation & purification ; Ascaris lumbricoides/genetics/isolation & purification ; Base Sequence ; Clonorchis sinensis/genetics/isolation & purification ; Common Bile Duct/*parasitology ; DNA, Helminth/*genetics ; DNA, Ribosomal/genetics ; Face/parasitology ; Female ; Gallbladder/parasitology ; Gallstones/*parasitology ; Helminths/genetics/*isolation & purification ; Humans ; Male ; Middle Aged ; Molecular Sequence Data ; Polymerase Chain Reaction/*methods ; RNA, Ribosomal, 18S/genetics ; RNA, Ribosomal, 28S/genetics ; Sequence Alignment

Geosmithia argillacea, an anamorph of Talaromyces eburneus, is a thermophilic filamentous fungus that has a phenotype similar to that of the Penicillium species, except for the creamy-white colonies and cylindrical conidia. Recently, a new genus called Rasamsonia has been proposed, which is to accommodate the Talaromyces and Geosmithia species. Here, we report the first Korean case of G. argillacea isolated from a patient with a fungal ball. The patient was a 44-yr-old Korean man with a history of pulmonary tuberculosis and aspergilloma. The newly developed fungal ball in his lung was removed and cultured to identify the fungus. The fungal colonies were white and slow-growing, and the filaments resembled those of Penicillium. Molecular identification was carried out by sequencing the internal transcribed spacer (ITS) region of the 28S rDNA and the beta-tubulin genes. A comparative sequence analysis using the GenBank (http://blast.ncbi.nlm.nih.gov/) database was performed with the basic local alignment search tool (BLAST) algorithm. The results revealed a 97-100% similarity with the G. argillacea ITS sequence. This case should increase awareness among physicians about the pathogenic potential of G. argillacea in humans and help them accurately identify this fungus, because it can be easily confused with Penicillium and Paecilomyces species owing to their similar phenotypic and microscopic characteristics. A molecular approach should be employed to enable accurate identification of G. argillacea.
Adult ; Databases, Genetic ; Eurotiales/classification/*isolation & purification ; Humans ; Lung/microbiology/radiography ; Male ; Phylogeny ; RNA, Ribosomal, 28S/chemistry/genetics ; Sequence Analysis, DNA ; Tomography, X-Ray Computed ; Tuberculosis/*diagnosis/microbiology/radiography ; Tubulin/chemistry/genetics

We compared the DNA sequences of the genus Metagonimus: M. yokogawai, M. takahashii, and M. miyatai. We obtained 28S D1 ribosomal DNA (rDNA) and mitochondrial cytochrome c oxidase subunit I (mtCOI) fragments from the adult worms by PCR, that were cloned and sequenced. Phylogenetic relationships inferred from the nucleotide sequences of the 28S D1 rDNA and mtCOI gene. M. takahashii and M. yokogawai are placed in the same clade supported by DNA sequence and phylogenic tree analysis in 28S D1 rDNA and mtCOI gene region. The above findings tell us that M. takahashii is closer to M. yokogawai than to M. miyatai genetically. This phylogenetic data also support the nomination of M. miyatai as a separate species.
Animals ; Base Sequence ; Comparative Study ; DNA, Helminth/*chemistry/genetics ; DNA, Mitochondrial/chemistry/genetics ; DNA, Ribosomal/chemistry/genetics ; Electron Transport Complex IV/chemistry/*genetics ; Heterophyidae/classification/enzymology/*genetics ; Molecular Sequence Data ; Phylogeny ; RNA, Ribosomal, 28S/chemistry/*genetics ; Research Support, Non-U.S. Gov't ; Sequence Alignment ; Trematode Infections/*parasitology

The rumen parasite, Gastrothylax crumenifer (Platyhelminthes: Gastrothylacidae), is a highly pathogenic trematode parasite of goat (Capra hircus). It sucks blood that causes acute disease like anemia, and severe economic losses occur due to morbidity and mortality of the ruminant infected by these worms. The study of these rumen paramphistomes, their infection, and public health importance remains unclear in India especially in the western part of state Uttar Pradesh (U.P.), Meerut, India, where the goat meat consumption is very high. This paper provides the molecular characterization of G. crumenifer recovered from the rumen of Capra hircus from Meerut, U.P., India by the partial sequence of 28S rDNA. Nucleotide sequence similarity searching on BLAST of 28S rDNA from parasites showed the highest identity with those of G. crumenifer from the same host Capra hircus. This is the first report of molecular identification of G. crumenifer from this part of India.
Animals ; Cluster Analysis ; DNA, Helminth/chemistry/genetics ; DNA, Ribosomal/chemistry/genetics ; Goat Diseases/*parasitology ; Goats ; India ; Microscopy, Electron, Scanning ; Molecular Sequence Data ; Phylogeny ; Platyhelminths/*classification/genetics/*isolation & purification/ultrastructure ; RNA, Ribosomal, 28S/genetics ; Rumen/parasitology ; Sequence Analysis, DNA ; Trematode Infections/parasitology/*veterinary