10 research outputs found
Detection of bacterial pathogens and antibiotic residues in chicken meat: a review
Detection of pathogenic microbes as well as antibiotic residues in food animals, especially in chicken, has become a matter of food security worldwide. The association of various pathogenic bacteria in different diseases and selective pressure induced by accumulated antibiotic residue to develop antibiotic resistance is also emerging as the threat to human health. These challenges have made the containment of pathogenic bacteria and early detection of antibiotic residue highly crucial for robust and precise detection. However, the traditional culture-based approaches are well-comprehended for identifying microbes. Nevertheless, because they are inadequate, time-consuming and laborious, these conventional methods are not predominantly used. Therefore, it has become essential to explore alternatives for the easy and robust detection of pathogenic microbes and antibiotic residue in the food source. Presently, different monitoring, as well as detection techniques like PCR-based, assay (nucleic acid)-based, enzyme-linked immunosorbent assays (ELISA)-based, aptamer-based, biosensor-based, matrix-assisted laser desorption/ionization-time of flight mass spectrometry-based and electronic nose-based methods, have been developed for detecting the presence of bacterial contaminants and antibiotic residues. The current review intends to summarize the different techniques and underline the potential of every method used for the detection of bacterial pathogens and antibiotic residue in chicken meat
Biocontrol Potential of Streptomyces hydrogenans strain DH16 Towards Alternaria brassicicola to Control Damping Off and Black Leaf Spot of Raphanus sativus
Biocontrol agents and their bioactive metabolites provide one of the best alternatives to decrease the use of chemical pesticides. In light of this, the present investigation reports the biocontrol potential of Streptomyces hydrogenans DH16 and its metabolites towards Alternaria brassicicola, causal agent of black leaf spot and damping off of seedlings of crucifers. In vitro antibiosis of strain against pathogen revealed complete suppression of mycelial growth of pathogen, grown in potato dextrose broth supplemented with culture supernatant (20% v/v) of Streptomyces hydrogenans DH16. Microscopic examination of the fungal growth showed severe morphological abnormalities in the mycelium caused by antifungal metabolites. In vivo studies showed the efficacy of streptomycete cells and culture supernatant as seed dressings to control damping off of Raphanus sativus seedlings. Treatment of pathogen infested seeds with culture supernatant (10%) and streptomycete cells significantly improved seed germination (75-80%) and vigour index (1167-1538). Furthermore, potential of cells and culture supernatant as foliar treatment to control black leaf spot was also evaluated. Clearly visible symptoms of disease were observed in the control plants with 66.81% disease incidence and retarded growth of root system. However, disease incidence reduced to 6.78 and 1.47% in plants treated with antagonist and its metabolites, respectively. Additionally, treatment of seeds and plants with streptomycete stimulated various growth traits of plants over uninoculated control plants in the absence of pathogen challenge. These results indicate that S. hydrogenans and its culture metabolites can be developed as biofungicides as seed dressings to control seed borne pathogens, and as sprays to control black leaf spot of crucifers
Antimicrobial Activity of Actinomycetes Against Multidrug Resistant <i>Staphylococcus aureus, E. coli</i> and Various Other Pathogens
Purpose: The rapid emergence of drug resistance among pathogenic
bacteria, especially multidrugresistant bacteria, underlines the need
to look for new antibiotics. Methods: In the present study, 134
different actinomycetes, isolated from the soil samples collected from
different localities of Punjab and Himachal Pradesh, were screened for
antimicrobial activity against various test organisms including
multidrug-resistant methicillin-resistant Staphylococcus aureus (MRSA)
and Escherichia coli in order to identify potential antibiotic
producers. Results: Among these isolates, 51 (38 %) showed
antimicrobial activity against one or more test organisms and six
exhibited promising broad-spectrum activity against all the tested
organisms. The observed cultural, morphological, physiological and
biochemical characteristics confirmed that these isolates are species
of the genus, Streptomyces. Conclusion: Further studies on the
bioactive metabolites from these cultures will be useful for
discovering novel compounds of clinical and agricultural use
Radiation losses in the microwave Ku band in magneto-electric nanocomposites
A study on radiation losses in conducting polymer nanocomposites, namely LaâCo-substituted barium hexaferrite and polyaniline, is presented. The study was performed by means of a vector network analyser, X-ray diffraction, Fourier transform infrared spectroscopy, transmission electron microscopy, electron spin resonance spectroscopy and a vibrating sample magnetometer. It is found that the maximum loss occurs at 17.9 GHz (â23.10 dB, 99% loss) which is due to the composition of a conducting polymer and a suitable magnetic material. A significant role of polyaniline has been observed in ESR. The influence of the magnetic properties on the radiation losses is explained. Further studies revealed that the prepared material is a nanocomposite. FTIR spectra show the presence of expected chemical structures such as CâH bonds in a ring system at 1512 cmâ1
Antimicrobial Activity of Actinomycetes Against Multidrug Resistant Staphylococcus aureus , Escherichia coli and Various Other Pathogens
Purpose: The rapid emergence of drug resistance among pathogenic
bacteria, especially multidrugresistant bacteria, underlines the need
to look for new antibiotics. Methods: In the present study, 134
different actinomycetes, isolated from the soil samples collected from
different localities of Punjab and Himachal Pradesh, were screened for
antimicrobial activity against various test organisms including
multidrug-resistant methicillin-resistant Staphylococcus aureus (MRSA)
and Escherichia coli in order to identify potential antibiotic
producers. Results: Among these isolates, 51 (38 %) showed
antimicrobial activity against one or more test organisms and six
exhibited promising broad-spectrum activity against all the tested
organisms. The observed cultural, morphological, physiological and
biochemical characteristics confirmed that these isolates are species
of the genus, Streptomyces. Conclusion: Further studies on the
bioactive metabolites from these cultures will be useful for
discovering novel compounds of clinical and agricultural use