Search for solar neutrons using NM-64 equipment

Two years (1980 to 1982) neutron monitor data from the Chacaltaya (geographic coordinates: N16.32 deg W68. 15 deg; cutoff rigidity: 13.1 GV; altitude: 5,300 m a.s.l.) station has been scanned; the sampling time of the 12NM-64 neutron monitor is 5 min. The nucleonic component increases have been correlated with 66 hard X-, gamma rays satellite data from solar origin, as reported by several groups. Typical neutron monitor time profiles of the events are presented. Chree-analysis was performed discriminating the events according to its solar coordinates. Ground data from solar limb locii are more enhanced at the time of the onset than other geometrically visible flares. Chree histograms of neutron monitor output profiles are also presented from geometrically invisible events from the Chacaltaya station

A Single-Step Sequencing Method for the Identification of Mycobacterium tuberculosis Complex Species

The Mycobacterium tuberculosis complex (MTC) comprises several closely related species responsible for strictly human and zoonotic tuberculosis. Some of the species are restricted to Africa and were responsible for the high prevalence of tuberculosis. However, their identification at species level is difficult and expansive. Accurate species identification of all members is warranted in order to distinguish between strict human and zoonotic tuberculosis, to trace source exposure during epidemiological studies, and for the appropriate treatment of patients. In this paper, the Exact Tandem Repeat D (ETR-D) intergenic region was investigated in order to distinguish MTC species. The ETR-D sequencing unambiguously identified MTC species type strain except M. pinnipedii and M. microti, and the results agreed with phenotypic and molecular identification. This finding offers a new tool for the rapid and accurate identification of MTC species in a single sequencing reaction, replacing the current time-consuming polyphasic approach. Its use could assist public health interventions and aid in the control of zoonotic transmission in African countries, and could be of particular interest with the current emergence of multidrug-resistant and extended-resistance isolates

Use of restriction fragment length polymorphism as a genetic marker for typing Mycobacterium avium strains.

Restriction fragment length polymorphism (RFLP) was used to study 75 clinical isolates identified as Mycobacterium avium. Two repetitive insertion sequences, IS1311 and IS900, were used as DNA probes. Although less than 25% of isolates showed RFLP patterns with IS900, all strains gave banding patterns with IS1311. M. avium strains isolated from patients with AIDS exhibited marked polymorphism with both probes

Re-analysis of epidemiologically linked tuberculosis cases not supported by IS6110-RFLP-based genotyping

AbstractTuberculosis microepidemics are considered as such when a proven epidemiological link is identified between the cases. However, some studies have found microepidemics that were not supported by genotyping data. In a cross-sectional study, 44 linked pairs from 33 microepidemics identified during a 5-year period in Madrid, Spain were analysed to evaluate whether the epidemiological findings were consistent with the molecular analysis by IS6110-RFLP. Twelve pairs (27.3%) were not initially confirmed by molecular typing, and a refined re-analysis was performed to identify the reasons for the discrepancies. The possible causes were as follows: (i) laboratory errors or cross-contamination events, (ii) undetected clonally complex infections, and (iii) lack of refinement in the genotyping analysis that could be clarified by applying second-line fingerprinting tools. One discrepant pair was caused by laboratory error. No discrepant pairs were the result of incorrect assignment of genotypes due to clonally complex infections. The application of spoligotyping, MIRU-15 and RFLP enabled the establishment of matching shared genotypes in four linked pairs initially considered as discrepant; therefore, the percentage of discrepant pairs was reduced from 27.3% to 15.9% (7/44). However, in the remaining seven pairs, second-line fingerprinting identified differences with at least two of the three genotyping tools applied. This finding alerts us to the need to (i) refine as much as possible the molecular analysis to establish more accurate identification of truly discrepant cases, and (ii) broaden the search for epidemiological links to include non-conventional contexts outside the household or work/school settings