Dorota Żakowska scite author profile

Brucellae are Gram-negative, small rods infecting mammals and capable of causing disease called brucellosis. The infection results in abortion and sterility in domestic animals (sheeps, pigs, rams etc). Especially dangerous for humans are: Brucella melitensis, Brucella suis, Brucella abortus, and Brucella canis that trigger unspecific symptoms (flu-like manifestation). Brucella rods are introduced via host cells, by inhalation, skin abrasions, ingestion or mucosal membranes. The most important feature of Brucella is the ability to survive and multiply within both phagocytic and non-phagocytic cells. Brucella does not produce classical virulence factors: exotoxin, cytolisins, exoenzymes, plasmids, fimbria, and drug resistant forms. Major virulence factors are: lipopolysaccharide (LPS), T4SS secretion system and BvrR/BvrS system, which allow interaction with host cell surface, formation of an early, late BCV (Brucella Containing Vacuole) and interaction with endoplasmic reticulum (ER) when the bacteria multiply. The treatment of brucellosis is based on two-drug therapy, the most common combinations of antibiotics are: doxycycline with rifampicin or fluoroquinolones with rifampicin. Currently, also other methods are used to disrupt Brucella intracellular replication (tauroursodeoxycholic acid or ginseng saponin fraction A).

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Use of Long-Range Repetitive Element Polymorphism-PCR To Differentiate Bacillus anthracis Strains

Brumlik

Szymajda

Żakowska

et al. 2001

Appl Environ Microbiol

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The genome of Bacillus anthracis is extremely monomorphic, and thus individual strains have often proven to be recalcitrant to differentiation at the molecular level. Long-range repetitive element polymorphism-PCR (LR REP-PCR) was used to differentiate various B. anthracis strains. A single PCR primer derived from a repetitive DNA element was able to amplify variable segments of a bacterial genome as large as 10 kb. We were able to characterize five genetically distinct groups by examining 105 B. anthracis strains of diverse geographical origins. All B. anthracis strains produced fingerprints comprising seven to eight bands, referred to as "skeleton" bands, while one to three "diagnostic" bands differentiated between B. anthracis strains. LR REP-PCR fingerprints of B. anthracis strains showed very little in common with those of other closely related species such as B. cereus, B. thuringiensis, and B. mycoides, suggesting relative heterogeneity among the non-B. anthracis strains. Fingerprints from transitional non-B. anthracis strains, which possessed the B. anthracis chromosomal marker Ba813, scarcely resembled those observed for any of the five distinct B. anthracis groups that we have identified. The LR REP-PCR method described in this report provides a simple means of differentiating B. anthracis strains. Anthrax is often a fatal bacterial infection that results afterBacillus anthracis spores enter a suitable host either via inhalation or ingestion or through the contamination of a wound or abrasion (8). Since death occurs within a few days after the onset of symptoms, B. anthracis presents a very serious threat if deployed as a biological weapon (13). Naturally occurring human B. anthracis infections are rare and generally result from contact with contaminated animals or their products (5).Due to the highly monomorphic nature of B. anthracis, differentiation of strains from diverse origins has proven to be very difficult. DNA fingerprinting of B. anthracis strains using ribotyping has shown some strain-to-strain variations, presumably due to changes in the organization and number of rrn loci (18). However, due to insufficient numbers of variant strains, ribotyping was found to have limited discriminatory potential.Neither arbitrarily-primed PCR fingerprints (1) nor amplified fragment length polymorphisms fingerprints (15) have been useful in discriminating between B. anthracis strains, although some genetic diversity has been observed. In this case, the diversity was due to the presence of a variable-number tandem repeat (14) sequence in the open reading frame (ORF) vrrA. Recently, seven additional loci containing these sequences were discovered in B. anthracis, leading to the identification of six genetically distinct groups of B. anthracis (16).The presence of multiple copies of highly conserved repetitive extragenic palindromic (REP) sequences in DNA (12) has been identified in a number of microorganisms (28). The technique of REP-PCR takes advantage of the fact that multiple copies of these REP sequences...

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Prevalence of Coxiella burnetii in environmental samples collected from cattle farms in Eastern and Central Poland (2011–2012)

Bielawska-Drózd¹,

Cieślik²,

Mirski³

et al. 2014

Veterinary Microbiology

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Coxiella burnetii is the etiologic agent of Q fever. It may occur as two different morphological forms, a large cell variant (LCV) and a small cell variant (SCV). The SCV is characterized by unique resistance to physical and chemical factors and may survive in the environment for many months. The objective of this study was to examine environmental samples for the presence of C. burnetii using real-time PCR in areas where Q fever was previously reported and in randomly selected animal farms where Q fever was not reported. The samples were collected in the following provinces in Poland: Lublin, Subcarpathian and Masovian. Monitoring was performed with real-time PCR and serological methods. Of the 727 environmental samples, 33 (4.54%) contained the multi-copy insertion sequence IS1111, which is specific for C. burnetii. Subsequently, the presence of C. burnetii antibodies was determined using serological tests in selected herds in which positive genetic results were obtained. Serological analyses of 169 serum samples using CFT and ELISA were performed on Polish black-and-white Holstein-Friesian cows and one cow imported from Denmark. Using the CFT method, 11 samples were positive for phase I antibodies and six were positive for phase II antibodies. Moreover, in two cases, the presence of antibodies specific for both phase I and phase II antigens of C. burnetii was detected. However, of the 169 examined serum samples, 20 were positive by ELISA test, of which six were also positive by CFT. Additionally, multi spacer typing (MST) of isolated C. burnetii strains was performed. The MST results identified two new genotypes in Poland, ST3 and ST6. The results indicate that continued research regarding spread of this pathogen within a country is necessary.

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Detection of Coxiella burnetii and Francisella tularensis in Tissues of Wild-living Animals and in Ticks of North-west Poland

Bielawska-Drózd

Cieślik

Żakowska

et al. 2018

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A b s t r a c t This work presents results of the research on the occurrence of Coxiella burnetii and Francisella tularensis in the tissues of wild-living animals and ticks collected from Drawsko County, West Pomeranian Voivodeship. The real-time PCR testing for the pathogens comprised 928 samples of animal internal organs and 1551 ticks. The presence of C. burnetii was detected in 3% of wild-living animals and in 0.45-3.45% (dependent on collection areas) of ticks. The genetic sequences of F. tularensis were present in 0.49 % of ticks (only in one location -Drawa) and were not detected in animal tissues. The results indicate respectively low proportion of animals and ticks infected with C. burnetii and F. tularensis. K e y w o r d s: Coxiella burnetii, Francisella tularensis, reservoirs, real-time PCR Bielawska-Drózd A. et al.

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<i>Bacillus anthracis</i> infections – new possibilities of treatment

Żakowska

Bartoszcze

Niemcewicz

et al. 2015

Ann Agric Environ Med.

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