Barbora Vidová scite author profile

A simple and specific method for direct detection of bovine mastitis pathogens (Streptococcus agalactiae (GBS), Staphylococcus aureus and Escherichia coli) in milk products, bacterial samples from milk and isolated bacterial DNA was developed. The method is based on polymerase chain reaction (PCR) using sequence-specific primers only for GBS and species-specific primers derived from 16S and 23S rRNA for all chosen species. The presence of the gene of surface immunogenic protein (Sip) in bovine GBS isolates, described previously only in human GBS isolates was confirmed. The GBS detection was performed with the sequence coding for surface immunogenic protein from GBS human isolates designated as Sip specific sequence (SSS); this sequence was selected for specific primer design. The sequence is unique for GBS and was designed from a consensus of all known sip genes. The specific identification was shown on a collection of 75 GBS bovine isolates from different localities in Slovakia. All isolates were positive to SSS, 16S and 23S rRNA sequence. The 16S and 23S rRNA PCR detection was also performed with S. aureus and E. coli isolates and specific PCR products were also detected. The detection limit of this assay for milk products was 6 CFU/microL (i.e. 6000 CFU/mL) for GBS and E. coli, and 16 CFU/microL for S. aureus. This rapid, sensitive and specific diagnostic method can be performed within hours and represents an innovative diagnostic tool for the detection of milk pathogens in dairy products.

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The unique glycoside hydrolase family 77 amylomaltase fromBorrelia burgdorferiwith only catalytic triad conserved

Godány

Vidová

Janeček

2008

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Glycoside hydrolase family 77 (GH77) contains prokaryotic amylomaltases and plant‐disproportionating enzymes (both possessing the 4‐α‐glucanotransferase activity; EC 2.4.1.25). Together with GH13 and GH70, it forms the clan GH‐H, known as the α‐amylase family. Bioinformatics analysis revealed that the putative GH77 amylomaltase (MalQ) from the Lyme disease spirochaete Borrelia burgdorferi genome (BB0166) contains several amino acid substitutions in the positions that are important and conserved in all GH77 amylomaltases. The most important mutation concerned the functionally important arginine positioned two residues before the catalytic nucleophile that is replaced by lysine in B. burgdorferi MalQ. Similar remarkable substitutions were found in two other putative GH77 amylomaltases from related borreliae. In order to confirm the exclusive sequence features and to verify the eventual enzymatic activity, the malQ gene from B. burgdorferi was amplified using PCR. A c. 1.5‐kb amplified DNA fragment was sequenced, cloned and expressed in Escherichia coli, and the resulting recombinant protein was preliminarily characterized for its activity towards glucose (G1) and a series of malto‐oligosaccharides (G2–G7). This study confirmed that the remarkable substitution of the arginine really exists and the GH77 MalQ protein from B. burgdorferi is a functional amylomaltase because it is able to hydrolyse the malto‐oligosaccharides as well as to form their longer transglycosylation products.

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Bioinformatics analysis of bacteriophage and prophage endolysin domains

Vidová¹,

Šrámková²,

Tišáková³

et al. 2014

Biologia

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Endolysins as a class of antibacterial enzymes are expected to become a very useful tool for many purposes to control spreading of, e.g., multiresistant bacteria in different environments. Their antimicrobial properties could be broadened or altered by mutagenesis, domain swapping or gene shuffling. Therefore, the specific designing of endolysins to achieve their desired properties is challenging. This work is focused on the in silico analysis of protein domains presence in sequences of phage and prophage endolysins, followed by the study of variety of domain combinations in the individual endolysin types. The multiple sequence alignment of endolysin sequences revealed the recognition of sequence types with typical domain arrangement and conserved amino acids, divided according to the target substrate in bacterial cell walls. The five protein families of catalytic domains are specifically occurring in dependence of bacterial Gram-type. The presence, types and numbers of binding domains within endolysin sequences were also studied. The obtained results enable a more targeted design of endolysins with required antimicrobial properties.

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Bioaccumulation of 137Cs and 60Co by bacteria isolated from spent nuclear fuel pools

Tišáková

Pipíška

Godány

et al. 2012

J Radioanal Nucl Chem

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Non-Ferrous Metal Industry Waste Disposal Sites As A Source Of Poly-Extremotolerant Bacteria

Pristaš¹,

Stramová²,

Kvasnová³

et al. 2015

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Waste disposal sites from non-ferrous metal industry constitute environments very hostile for life due to the presence of very specialized abiotic factors (pH, salt concentration, heavy metals content). In our experiments microflora of two waste disposal sites in Slovakia – brown mud disposal site from aluminium production near Ziar nad Hronom and nickel sludge disposal site near Sered - was analyzed for cultivable bacteria. Isolated bacteria were characterized by a combination of classical microbiological approaches and molecular methods and the most of isolated bacteria shown a poly-extremotolerant phenotype. The most frequently halotolerant (resistant to the high level of salt concentrations) and alkalitolerant (resistant to the high pH level) bacteria belonging to the Actinobacteria class were detected. The most of bacteria shown very high level of heavy metal resistance e.g. more than 500 μg/ml for Zn2+ or Cu2+. Based on our data, waste disposal sites thus on one side represents an important environmental burden but on other side they are a source of new poly-extremotolerant bacterial strains and species possibly used in many biotechnology and bioremediation applications.

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Tyrosine 39 of GH13 α-amylase from Thermococcus hydrothermalis contributes to its thermostability

et al. 2010

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Abstract:The presented work is focused on the naturally thermostable α-amylase from the archaebacterium Thermococcus hydrothermalis. From the evolutionary point of view, the archaeal α-amylases are most closely related to plant α-amylases. In a wider sense, especially when the evolutionary trees are based on the less conserved part of their amino acid sequences (e.g. domain C succeeding the catalytic TIM-barrel), also the representatives of bacterial liquefying (Bacillus licheniformis) and saccharifying (Bacillus subtilis) α-amylases as well as the one from Thermotoga maritima should be included into the relatedness with the archaeal and plant α-amylases. Based on the bioinformatics analysis of the α-amylase from T. hydrothermalis, the position of tyrosine 39 (Y16 if the putative 23-residue long signal peptide is considered) was mutated to isoleucine (present in the α-amylase from T. maritima) by the in vitro mutagenesis. The biochemical characterization of the wild-type α-amylase and its Y39I mutant revealed that: (i) the specific activity of both enzymes was approximately equivalent (0.55 ± 0.13 U/mg for the wild-type and 0.52 ± 0.15 U/mg for the Y39I); (ii) the mutant exhibited decreased temperature optimum (from 85• C for the wild-type to 80• C for the Y39I); and (iii) the pH optimum remained the same (pH 5.5 for both enzymes). The remaining activity of the α-amylases was also tested by one-hour incubation at 80• C and 100• C. Since the wild-type α-amylase lost only 13% of its activity after one-hour incubation at the highest tested temperature (100 • C), whereas 27% decrease was seen for the mutant Y39I under the same conditions, it is possible to conclude that the position of tyrosine 39 could contribute to the thermostability of the α-amylase from T. hydrothermalis.

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Multiplex PCR for detection of Escherichia coli O157:H7 in foods

et al. 2011

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Escherichia coli O157:H7 is well known enterohemorrhagic pathogen responsible for infections among animals including a man. The main source of this bacterium is cattle, that is mostly asymptomatic and through that E. coli O157:H7 can simple transfer to food products. Therefore, there is a need for rapid, sensitive and specific detection method. The present work is focused on its detection by a heptaplex polymerase chain reaction, which targets genes from known virulent regions of E. coli O157:H7. According to obtained results this approach is able to reach the detection sensitivity of 4 colony-forming units (CFU) from a culture and 6 and 8 CFU from milk and meat samples, respectively, independently of tested sample volume.

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Bacteriophage endolysin Lyt μ1/6: characterization of the C-terminal binding domain

Tišáková

Vidová

Farkašovská

et al. 2013

FEMS Microbiol Lett

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The gene product of orf50 from actinophage μ1/6 of Streptomyces aureofaciens is a putative endolysin, Lyt μ1/6. It has a two-domain modular structure, consisting of an N-terminal catalytic and a C-terminal cell wall binding domain (CBD). Comparative analysis of Streptomyces phage endolysins revealed that they all have a modular structure and contain functional C-terminal domains with conserved amino acids, probably associated with their binding function. A blast analysis of Lyt μ1/6 in conjunction with secondary and tertiary structure prediction disclosed the presence of a PG_binding_1 domain within the CBD. The sequence of the C-terminal domain of lyt μ1/6 and truncated forms of it were cloned and expressed in Escherichia coli. The ability of these CBD variants fused to GFP to bind to the surface of S. aureofaciens NMU was shown by specific binding assays.

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Barbora Vidová

Development of specific and rapid detection of bacterial pathogens in dairy products by PCR

The unique glycoside hydrolase family 77 amylomaltase fromBorrelia burgdorferiwith only catalytic triad conserved

Bioinformatics analysis of bacteriophage and prophage endolysin domains

Bioaccumulation of 137Cs and 60Co by bacteria isolated from spent nuclear fuel pools

Non-Ferrous Metal Industry Waste Disposal Sites As A Source Of Poly-Extremotolerant Bacteria

Tyrosine 39 of GH13 α-amylase from Thermococcus hydrothermalis contributes to its thermostability

Multiplex PCR for detection of Escherichia coli O157:H7 in foods

Bacteriophage endolysin Lyt μ1/6: characterization of the C-terminal binding domain

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