Distribution of Mycobacterium leprae genotypes from Surabaya and Bandung Clinical Isolates by Multiple Locus Variable Number of Tandem Repeat Analysis

Multiple Locus Variable Number of Tandem Repeat (VNTR) analysis has been proposed as a means of genotyping for tracking leprosy transmission due to tandem repeats’ potential as genetic markers to differentiate M. leprae strains. However, characteristics of polymorphism can vary depending on the population. This study aimed to compare the copy number of repeats in four genetic markers: TTC, AC8a, AC9 and 6-7 in leprosy patients from Surabaya and Bandung. Twenty three patients from Dr. Soetomo General Hospital and 21 from Hasan Sadikin Hospital were recruited. Multiple locus VNTR analysis was applied using total DNA extracts from Slit Skin Smear (SSS). From Surabaya, 7 samples showed the same copy number of four genetic markers (TTC=15; AC8a=10; AC9=10 and 6-7=6) and 2 showed another (TTC=16; AC8a=10; AC9=11 and 6-7=6); as for samples from Bandung, 2 showed the same copy number (TTC=15; AC8a=8; AC9=10 and 6-7=8) and 2 showed another (TTC=16; AC8a=10; AC9=11 and 6-7=6). The multiple locus VNTR analysis showed two identical M. leprae VNTR profiles from Bandung and Surabaya which supports the use of VNTR loci for transmission studies.

Assessment of Genetic Diversity of ZoonoticBrucellaspp. Recovered from Livestock in Egypt Using Multiple Locus VNTR Analysis

Brucellosis is endemic in most parts of Egypt, where it is caused mainly byBrucella melitensisbiovar 3, and affects cattle and small ruminants in spite of ongoing efforts devoted to its control. Knowledge of the predominantBrucellaspecies/strains circulating in a region is a prerequisite of a brucellosis control strategy. For this reason a study aiming at the evaluation of the phenotypic and genetic heterogeneity of a panel of 17Brucellaspp. isolates recovered from domestic ruminants (cattle, buffalo, sheep, and goat) from four governorates during a period of five years (2002–2007) was carried out using microbiological tests and molecular biology techniques (PCR, MLVA-15, and sequencing). Thirteen strains were identified asB. melitensisbiovar 3 while all phenotypic and genetic techniques classified the remaining isolates asB. abortus(n=2) andB. suisbiovar 1 (n=2). MLVA-15 yielded a high discriminatory power (h=0.801), indicating a high genetic diversity among theB. melitensisstrains circulating among domestic ruminants in Egypt. This is the first report of the isolation ofB. suisfrom cattle in Egypt which, coupled with the finding ofB. abortus, suggests a potential role of livestock as reservoirs of several zoonoticBrucellaspecies in the region.

Development of Multiple-Locus Variable-Number Tandem-Repeat Analysis for the Molecular Subtyping of Enterobacter sakazakii

ABSTRACT The genomic content of Enterobacter sakazakii strain ATCC BAA-894 was analyzed for variable-number tandem repeats (VNTRs). In this study we report the development of a multiple-locus VNTR analysis (MLVA) strategy for the subtyping of E. sakazakii. The method is based on a GeneScan analysis of four VNTR loci labeled with multiple fluorescent dyes. This approach was applied to a collection of 112 isolates representing all 16 of the currently defined E. sakazakii biogroups. MLVA successfully discriminated among these isolates and compared favorably with pulsed-field gel electrophoresis. The method was relatively fast and easy to perform. The potential value of MLVA as an epidemiological tool is discussed.

Bacillus anthracis Diversity in Kruger National Park

The Kruger National Park (KNP), South Africa, has a recorded history of periodic anthrax epidemics causing widespread disease among wild animals. Bacillus anthracis is the causative agent of anthrax, a disease primarily affecting ungulate herbivores. Worldwide there is little diversity among B. anthracis isolates, but examination of variable-number tandem repeat (VNTR) loci has identified six major clones, with the most dissimilar types split into the A and B branches. Both the A and B types are found in southern Africa, giving this region the greatest genetic diversity of B. anthracis worldwide. Consequently, southern Africa has been hypothesized to be the geographic origin of B. anthracis. In this study, we identify the genotypic types of 98 KNP B. anthracis isolates using multiple-locus VNTR analysis. Two major types are evident, the A branch and the B branch. The spatial and temporal distribution of the different genotypes indicates that anthrax epidemic foci are independent, though correlated through environmental cues. Kruger B isolates were found on significantly higher-calcium and higher-pH soils than were Kruger type A. This relationship between genotype and soil chemistry may be due to adaptive differences among divergent anthrax strains. While this association may be simply fortuitous, adaptation of A types to diverse environmental conditions is consistent with their greater geographic dispersal and genetic dissimilarity.