First Report on Molecular Identification of Moniezia expansa in Sheep from Mannavanur, Palani Hills, Tamil Nadu, India.

PURPOSE: Tape worm infection is common among sheep at SRRC, Mannavanur, Palani hills, Tamil Nadu, India. The aim of the present study is to find out the cestode species infecting the sheep being maintained at SRRC, Mannavanur, by means of molecular method. METHODS: During the second week of June 2021, the hogget flock of sheep (comprising both Bharat Merino and Avikalin sheep breeds) was drenched on empty stomach with commercial preparation of anthelmintic drug containing Niclosamide plus Albendazole, as per the standard dose specified by the manufacturer (Niclozole™: each 5 ml contains 500 mg of Niclosamide and 150 mg of Albendazole: dose for sheep-10 ml/15 kg body weight). The tapeworms expelled in dung by the drug-treated sheep were collected, washed in PBS (pH 7.2), and fixed in between two glass slides using 10% formalin. Furthermore, cytochrome c oxidase subunit I (Cox-I) gene-based PCR was carried out. Only partial sequence (1593 bp) of Cox-I gene of Moniezia expansa from Sheep at SRRC, Mannavanur, Tamil Nadu, India was obtained by PCR. The PCR amplified fragment was cloned into pGEM-T vector and the recombinant plasmid was sequenced. The obtained nucleotide sequences of Cox-I gene of the M. expansa from Indian sheep were analysed with that of 27 more cestode species from different mammalian species (available in GenBank) using bioinformatics tools. RESULTS: The species of the tapeworm was identified as Moniezia species by the Department of Veterinary Parasitology, VC& RI, Orathanadu, TANUVAS by the standard Acidic alum carmine staining method. Due to the ambiguity in the conventional method, Cox-I gene-based PCR and subsequent gene sequencing protocols were used for the identification of the species of cestode infecting sheep at SRRC, Mannavanur, and it was confirmed as M. expansa upon BLAST analysis. Moniezia expansa from SRRC, Mannavanur is having 100% sequence identity at nucleotide level with that of M. expansa from Sengal/Ethiopia. M. benedeni shared 87-88% nucleotide identity with Indian M. expansa. With taenids, the share of percent nucleotide identity of Indian M. expansa ranged from 79 to 81%. M. expansa from Indian sheep was clustering with other anaplocephalids from various mammalian species in the analysis of phylogenetic tree based on Cox-I nucleotide sequences. CONCLUSION: From the present study, it is concluded that M. expansa is the anoplocephalid cestode infecting the sheep at Mannavanur, Tamil Nadu, India. To our knowledge, this is the first report on partial nucleotide sequences of Cox-I gene of M. expansa from Sheep of Indian peninsula. An investigation on the involvement of oribatid mites as the vector in the transmission of M. expansa among sheep at SRRC, Mannavanur needs to be carried out.

Amplification of Mitochondrial DNA for detection of Plasmodiumvivax in Balochistan.

OBJECTIVE: To access a new step using PCR to amplify the targeted mtDNA sequence for detecting specifically Plasmodium vivax and its co-infections, false positive and false negative results with Plasmodium falciparum. METHODS: In this study we have standardized a new technical approach in which the target mitochondrial DNA sequence (mtDNA) was amplified by using a PCR technique as a tool to detect Plasmodium spp. Species specific primers were designed to hybridize with cytochrome c oxidase gene of P. vivax (cox I) and P. falciparum (cox III). Two hundred blood samples were collected on the basis of clinical symptoms which were initially examined through microscopic analysis after preparing Giemsa stained thick and thin blood smears. Afterwards genomic DNA was extracted from all samples and was then subjected to PCR amplification by using species specific primers and amplified segments were sequenced for confirmation of results. RESULTS: One-hundred and thirty-two blood samples were detected as positive for malaria by PCR, out of which 64 were found to be positive by PCR and 53 by both microscopy and PCR for P.vivax infection. Nine samples were found to be false negative, one P.vivax mono infection was declared as co infection by PCR and 3 samples identified as having P.falciparum gametes were confirmed as P.vivax by PCR amplification. Sensitivity and specificity were found to be 85% and 92% respectively. CONCLUSIONS: Results obtained through PCR method were comparatively better and reliable than microscopy.

New insights from molecular characterization of the tick Rhipicephalus (Boophilus) microplus in Brazil / Novos pontos de vista sobre a caracterização molecular em carrapatos Rhipicephalus (Boophilus) microplus, no Brasil

Abstract The Rhipicephalus (Boophilus) microplus complex currently consists of five taxa, namely R. australis, R. annulatus, R. (B.) microplus clade A sensu, R. microplus clade B sensu, and R. (B.) microplus clade C sensu. Mitochondrial DNA-based methods help taxonomists when they are facing the morpho-taxonomic problem of distinguishing members of the R. (B.) microplus complex. The purpose of this study was to perform molecular characterization of ticks in all five regions of Brazil and infer their phylogenetic relationships. Molecular analysis characterized 10 haplotypes of the COX-1 gene. Molecular network analysis revealed that haplotype H-2 was the most dispersed of the studied populations (n = 11). Haplotype H-3 (n = 2) had the greatest genetic differentiation when compared to other Brazilian populations. A Bayesian phylogenetic tree of the COX-1 gene obtained strong support. In addition, it was observed that the population of R. (B.) microplus haplotype H-3 exhibited diverging branches among the other Brazilian populations in the study. The study concludes that the different regions of Brazil have R. (B.) microplus tick populations with distinct haplotypes.

Resumo Carrapatos do complexo R. (B.) microplus se distribuem em cinco taxa: R. australis, R. annulatus, R. (B.) microplus clado A sensu R. microplus clado B sensue e R. (B.) microplus clado C sensu. Métodos baseados no DNA mitocondrial podem auxiliar taxonomistas quando há dificuldades em estabelecer diferenças morfológicas para distinguir membros do complexo R. (B.) microplus. O objetivo deste estudo foi a caracterização molecular e a inferência de relações filogenéticas em carrapatos de todas as cinco regiões geográficas do Brasil. Para o gene COX-1, a análise molecular caracterizou 10 haplótipos. Na análise molecular em rede foi observado que o haplótipo H-2 é o mais disperso entre as populações (n=11). O haplótipo H-3 (n=2) foi o que obteve maior diferenciação genética ao ser comparado com outras populações brasileiras. A árvore filogenética Bayesiana de gene COX-1 gerou suporte robusto e foi observado que a população de R. (B.) microplus haplótipo H-3 apresentou ramificação com divergência entre as outras populações brasileiras apresentadas neste estudo. Conclui-se que as populações brasileiras possuem diversidade haplotípica com divergência entre as diversas populações de R. (B.) microplus no Brasil.