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MLVA fingerprinting of Brucella melitensis circulating among livestock and cases of sporadic human illness in Egypt
Author(s) -
Sayour Ashraf E.,
Elbauomy Essam,
AbdelHamid Nour H.,
Mahrous Ayman,
Carychao Diana,
Cooley Michael B.,
Elhadidy Mohamed
Publication year - 2020
Publication title -
transboundary and emerging diseases
Language(s) - English
Resource type - Journals
SCImago Journal Rank - 1.392
H-Index - 63
eISSN - 1865-1682
pISSN - 1865-1674
DOI - 10.1111/tbed.13581
Subject(s) - multiple loci vntr analysis , brucella melitensis , brucellosis , variable number tandem repeat , genotype , biology , genotyping , minisatellite , biovar , brucella , tandem repeat , virology , veterinary medicine , microsatellite , genetics , allele , medicine , genome , bacteria , gene
Abstract Brucella melitensis is a serious public health threat, with human infection exhibiting acute febrile illness and chronic health problems. The present study investigated the genetic diversity and epidemiological links of the important zoonotic bacterium B. melitensis in Egypt using multilocus variable‐number tandem repeat analysis (MLVA‐16) including eight minisatellite (panel 1) and eight microsatellite (panel 2, subdivided into 2A and 2B) markers. A total of 118 isolates were identified as B. melitensis biovar 3 by classical biotyping and Bruce–ladder assay. Although B. melitensis is primarily associated with infection in sheep and goats, most of B. melitensis isolates in this study were obtained from secondary hosts (cattle, buffaloes, humans and a camel) suggesting cross‐species adaptation of B. melitensis to large ruminants in Egypt. The MLVA‐16 scheme competently discriminated 70 genotypes, with 51 genotypes represented by single isolates, and the remaining 19 genotypes were shared among 67 isolates, suggesting both sporadic and epidemiologically related characteristics of B. melitensis infection. Matching of local genotypes with representatives of global genotypes revealed that the majority of Egyptian isolates analysed had a West Mediterranean descendance. As this study represents the first comprehensive genotyping and genetic analysis of B. melitensis from different sources in Egypt, the information generated from this study will augment knowledge about the main epidemiological links associated with this bacterium and will allow a better understanding of the current epidemiological situation of brucellosis in Egypt. Ultimately, this will help to adopt effective brucellosis intervention strategies in Egypt and other developing nations.