A review on the molecular characterization of digenean parasites using molecular markers with special reference to ITS region

Choudhary, Kirti; Verma, Ashutosh; Swaroop, Suchit; Agrawal, Nirupama

doi:10.1515/helmin-2015-0031

Cited by 17 publications

(9 citation statements)

References 154 publications

(132 reference statements)

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“…Ideally, the genetic marker should have an optimal evolution rate to provide sufficient informative sites for phylogenetic analysis and molecular identification. The marker should also show high interspecific variation between closely related species, which can be assessed through genetic distances to ascertain whether the marker has ‘sufficient’ sequence variation between organisms [ 1 , 9 , 10 , 40 , 41 ]. In this study, we used the average genetic distances for determining sequence variation between the taxa studied.…”

Section: Methodsmentioning

confidence: 99%

“…The highly conserved sequences make the nuclear rRNA genes a potentially helpful source of genetic markers for resolving higher taxonomic levels for organisms [ 1 , 6 , 10 ]. Within nDNA, the internal transcribed spacer (ITS) regions possess a higher degree of sequence variation than the nuclear rRNA genes because of a faster nucleotide substitution rate [ 6 , 8 , 10 , 11 ]. Although multiple types of genetic markers are suitable for molecular systematics and identification purposes, the varying properties of the genetic markers complicate the choice for their respective applications.…”

Section: Introductionmentioning

confidence: 99%

“…For the purposes of molecular identification, the nuclear ITS regions have been utilized successfully for species differentiation because of their high degree of sequence variation. Numerous studies have demonstrated the applicability of species-specific ITS primers to identify helminths for diagnostic purposes [ 10 , 24 , 25 ]. MtDNA genes have also been used to discriminate between species and populations [ 26 – 28 ].…”

Section: Introductionmentioning

confidence: 99%

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Assessing the suitability of mitochondrial and nuclear DNA genetic markers for molecular systematics and species identification of helminths

et al. 2021

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Background Genetic markers are employed widely in molecular studies, and their utility depends on the degree of sequence variation, which dictates the type of application for which they are suited. Consequently, the suitability of a genetic marker for any specific application is complicated by its properties and usage across studies. To provide a yardstick for future users, in this study we assess the suitability of genetic markers for molecular systematics and species identification in helminths and provide an estimate of the cut-off genetic distances per taxonomic level. Methods We assessed four classes of genetic markers, namely nuclear ribosomal internal transcribed spacers, nuclear rRNA, mitochondrial rRNA and mitochondrial protein-coding genes, based on certain properties that are important for species identification and molecular systematics. For molecular identification, these properties are inter-species sequence variation; length of reference sequences; easy alignment of sequences; and easy to design universal primers. For molecular systematics, the properties are: average genetic distance from order/suborder to species level; the number of monophyletic clades at the order/suborder level; length of reference sequences; easy alignment of sequences; easy to design universal primers; and absence of nucleotide substitution saturation. Estimation of the cut-off genetic distances was performed using the ‘K-means’ clustering algorithm. Results The nuclear rRNA genes exhibited the lowest sequence variation, whereas the mitochondrial genes exhibited relatively higher variation across the three groups of helminths. Also, the nuclear and mitochondrial rRNA genes were the best possible genetic markers for helminth molecular systematics, whereas the mitochondrial protein-coding and rRNA genes were suitable for molecular identification. We also revealed that a general gauge of genetic distances might not be adequate, using evidence from the wide range of genetic distances among nematodes. Conclusion This study assessed the suitability of DNA genetic markers for application in molecular systematics and molecular identification of helminths. We provide a novel way of analyzing genetic distances to generate suitable cut-off values for each taxonomic level using the ‘K-means’ clustering algorithm. The estimated cut-off genetic distance values, together with the summary of the utility and limitations of each class of genetic markers, are useful information that can benefit researchers conducting molecular studies on helminths.

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Section: Methodsmentioning

confidence: 99%

Section: Introductionmentioning

confidence: 99%

Section: Introductionmentioning

confidence: 99%

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Assessing the suitability of mitochondrial and nuclear DNA genetic markers for molecular systematics and species identification of helminths

et al. 2021

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“…This is particularly so when phylogenetically divergent species are being compared and suggest that this region is not suitable for deep-level phylogenies [17]. At the level of genus and species, however, alignments of ITS sequences have proved valuable for phylogenetic studies and molecular taxonomy [17, 41, 42]. …”

Section: Discussionmentioning

confidence: 99%

The ribosomal transcription units of Haplorchis pumilio and H. taichui and the use of 28S rDNA sequences for phylogenetic identification of common heterophyids in Vietnam

Nguyen

et al. 2017

Parasites Vectors

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BackgroundHeterophyidiasis is now a major public health threat in many tropical countries. Species in the trematode family Heterophyidae infecting humans include Centrocestus formosanus, Haplorchis pumilio, H. taichui, H. yokogawai, Procerovum varium and Stellantchasmus falcatus. For molecular phylogenetic and systematic studies on trematodes, we need more prospective markers for taxonomic identification and classification. This study provides near-complete ribosomal transcription units (rTU) from Haplorchis pumilio and H. taichui and demonstrates the use of 28S rDNA sequences for identification and phylogenetic analysis.ResultsThe near-complete ribosomal transcription units (rTU), consisting of 18S, ITS1, 5.8S, ITS2 and 28S rRNA genes and spacers, from H. pumilio and H. taichui from human hosts in Vietnam, were determined and annotated. Sequence analysis revealed tandem repetitive elements in ITS1 in H. pumilio and in ITS2 in H. taichui. A phylogenetic tree inferred from 28S rDNA sequences of 40 trematode strains/species, including 14 Vietnamese heterophyid individuals, clearly confirmed the status of each of the Vietnamese species: Centrocestus formosanus, Haplorchis pumilio, H. taichui, H. yokogawai, Procerovum varium and Stellantchasmus falcatus. However, the family Heterophyidae was clearly not monophyletic, with some genera apparently allied with other families within the superfamily Opisthorchioidea (i.e. Cryptogonimidae and Opisthorchiidae). These families and their constituent genera require substantial re-evaluation using a combination of morphological and molecular data. Our new molecular data will assist in such studies.ConclusionsThe 28S rDNA sequences are conserved among individuals within a species but varied between genera. Based on analysis of 40 28S rDNA sequences representing 19 species in the superfamily Opisthorchioidea and an outgroup taxon (Alaria alata, family Diplostomidae), six common human pathogenic heterophyids were identified and clearly resolved. The phylogenetic tree inferred from these sequences again confirmed anomalies in molecular placement of some members of the family Heterophyidae and demonstrates the need for reappraisal of the entire superfamily Opisthorchioidea. The new sequences provided here supplement those already available in public databases and add to the array of molecular tools that can be used for the diagnosis of heterophyid species in human and animal infections.

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“…ITS is a degraded region during maturation in ribosomal transcript. (Choudhary et al, 2015) ITS due to more variation properties than ribosomal sequences have been commonly used for molecular markers to figure out phylogenetic analysis and/or identification of bacteria, plant and animal strains and/or species (Lee et al, 2017;Rocha et al, 2019;Ali et al, 2019;Fazeli-Nasab et al, 2020). Pourahmad et al (2019) performed sequence analysis of the mycobacterial 16S-23S ITS region to determine aquatic mycobacteria species, reporting effectiveness of this marker.…”

Section: Its (Internal Transcribed Spacer)mentioning

confidence: 99%

Application of different molecular markers in biotechnology

Kocaman

Toy

Marakli

2020

International Journal of Science Letters

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A review on the molecular characterization of digenean parasites using molecular markers with special reference to ITS region

Cited by 17 publications

References 154 publications

Assessing the suitability of mitochondrial and nuclear DNA genetic markers for molecular systematics and species identification of helminths

Assessing the suitability of mitochondrial and nuclear DNA genetic markers for molecular systematics and species identification of helminths

The ribosomal transcription units of Haplorchis pumilio and H. taichui and the use of 28S rDNA sequences for phylogenetic identification of common heterophyids in Vietnam

Application of different molecular markers in biotechnology

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