Antimicrobial Activity of L-Lysine and Poly-L-Lysine with Pulsed Electric Fields

For the first time, the possibility to use L-lysine (Lys) and poly-L-lysine (PLL) as additives with pulsed electric fields (PEF) for antimicrobial treatment is reported. The antimicrobial efficacy of Lys and PLL for Escherichia coli, Staphylococcus aureus, Trichophyton rubrum and Candida albicans was determined. Inactivation of microorganisms was also studied by combining Lys and PLL with PEF of 15 and 30 kV/cm. For PEF treatment, pulses of 0.5, 1, 10 or 100 μs were applied in a sequence of 10 to 5000 at 1 kHz frequency. The obtained results showed that 100 μs pulses were the most effective in combination with Lys and PLL for all microorganisms. Equivalent energy PEF bursts with a shorter duration of the pulse were less effective independently on PEF amplitude. Additionally, various treatment susceptibility patterns of microorganisms were determined and reported. In this study, the Gram-negative E. coli was the most treatment-resistant microorganism. Nevertheless, inactivation rates exceeding 2 log viability reduction were achieved for all analyzed yeast, fungi, and bacteria. This methodology could be used for drug-resistant microorganism’s new treatment development.

Study of antimicrobial resistance for the causative agent of the bovine reproductive system infection by the NGS method

In the present study, the biomaterial specimen derived from a farm animal with a chronic reproductive system infection was carefully investigated using the Next Generation Sequencing method. The bacterial DNA of the genus Enterobacter was detected. The genetic determinants of resistance to 12 classes of antibiotics were identified in the genome of this microorganism. The data obtained highlight the necessity of strengthening global control over the spread of resistant microorganism strains in agriculture especially in the animal husbandry sector.

Colonization by multidrug-resistant microorganisms of hospitalized newborns and their mothers in the neonatal unit context

Introduction: The mother plays a fundamental role in the constitution and regulation of her child's healthy microbiota, however, preterm newborns are separated from their mothers soon after birth and transferred to Neonatal Intensive Care Units, being exposed the constant risk for the development of multidrug-resistant microorganisms’ infections. The aim of this study was to explore the multidrug-resistant microorganism colonization of hospitalized babies and their mothers in the neonatal unit context. Methodology: A prospective case study conducted with hospitalized babies and their mothers in the Neonatal Unit at a university hospital. The sample was composed of 433 binomials (mother-child). Colonization culture samples were taken at the moment of the baby’s discharge, via two swabs in the oral, nasal, axillary, inguinal, and rectal regions. Results: The colonization incidence among the binomials, 30 (6.9%) were both colonized by multi-resistant microorganisms. Mothers of colonized babies (24.4%) demonstrated a higher chance of colonization in comparison to mothers of non-colonized babies (11.9%) (p = 0.002). Relationships were drawn between baby colonization and prematurity, extremely low birth weight, and non-exclusive maternal breastfeeding (p<0.05). ESBL-producing Gram-negative microorganisms were more frequent in the cultures of the binomials, with 35.9% of the babies colonized with Klebsiella spp. ESBL and 42.0% of the mothers with Escherichia coli ESBL. Furthermore, 50% of the binomials were colonized with E. coli ESBL. Conclusion: The prematurity, extremely low birth weight, and non-exclusive breastfeeding at hospital discharge were associated with baby colonization by multidrug-resistant microorganism. Furthermore, mothers of colonized children presented higher chances of colonization.

Preparation and Characterization of a New Absorbent Pad from Rice Starch

Thisresearch was aimed to studying absorbent pad of adhesive bandage. The absorbent pad made from rice starch composite. This material used for healingprocessofwounds.One component of adhesive bandage is the part contact wound (absorbent pad) that obtained rice starch-based sponge for hemostatic and mixed with povidone-iodine for antibacteria. In this study, we prepared a new absorbent pad from rice starch by lyophilization and characterized by X-ray diffraction (XRD), scanning electron microscopy (SEM), water absortion, Fourier transform infrared spectroscopy (FTIR), and disk diffusion method. The rice strach content of this pad is up to 94 wt%. The diameter of the porous pad was found to be in the range of 10-100 mm. Water absorption of this pad was 6 times of dry weight. The addition of povidone iodine showed good antibiotic resistant microorganism of the rice sponge.

Prevalence of SUL(1,2), GYR(A, B) and OXA genes among multidrug resistance Klebsiella pneumoniae isolates recovered from women suffering urinary tract infection

Klebsiella pneumoniae is a significant concern multidrug-resistant microorganism and a one common gram negative bacteria associated with infections of women urinary tract. Therefore, this work aimed to the molecular screening of Sul(1and 2), Gyr(A and B) and OXA genes among K. pneumoniae isolates in Najaf City, Iraq. Out of 250 urine specimens were collected from women showing symptoms of urinary tract infection during five months January to of May 2019, bacterial growth was157 isolates, included 133 gram negative compared with 24 gram positive bacteria while 98 specimens were no growth. According to the Vitek-2 system, 30 K. pneumoniae isolates were obtained.Data on current work revealed that the 26-35 age group was the highest 14 K. pneumoniae isolates. Results of antimicrobial susceptible recorded all isolates were multi-drug resistant (MDR) and they have a different range of resistance. However, all 30 isolates(100%) resistant to ampicillin drugs, while the lowest rate was 1(3.33%) forImipenemdrug. PCR assay revealed exist of oxa, sul-1, sul-2, gyr-A and gyr-B genes among K. pneumoniae isolates with rates 20(66.66%), 11(36.66%), 22(73.33%), 3(10%) and 17(56.66%) respectively.

Potensi Mikroorganisme Resisten dari Pantai Timur Surabaya Sebagai Biosorben Seng

East coast of Surabaya is one of region in Indonesia which contaminated by heavy metals, such as zinc. Zinc is one of essential heavy metals for organisms but be dangerous for human if comsumed in high concentration. So, it is important to to solve the problem to reduce the concentration of zinc in east coast of Surabaya through bioremediation using microorganism. Zinc resistant microorganism could be isolated from zinc contaminated region and be used for bioremediation agent because some microorganism developed resistance mechanism to zinc by bioaccumulation or biosorption. The aims of this study are to isolate and characterize zinc resistant microorganism from east coast of Surabaya. The most resistant microorganism will be observed for the growth in medium supplemented with zinc and without zinc. The potency of the chosen isolate to biosorb of zinc was also analyzed. Water sample from east coast of Surabaya was serries dilluted and innoculated on Luria Bertani Agar medium using spread plated method. Microbial resistance to zinc was analyzed by grown the cell on medium containing various concentration of zinc to determine Minimum Inhibitory Concentration (MIC) value of each microbial isolate. Cell turbidity will be observed in the chosen isolate using spectrophotometer in wave length of 600 nm to get the growth curve. The potency of the chosen isolate to biosorb of zinc was analyzed using atomic absorption spectrophotometer. From this study, six bacteria and three yeast have been isolated from east coast of Surabaya, designated as PmbZn1, PmbZn2, PmbZn3, PmbZn4, PmbZn5, PmbZn6, PmbZn7, PmbZn8, dan PmbZn9. All isolates could grow on medium containing 8 mM ZnSO4. The most resistant bacterial was isolate PmbZn5 with the MIC of 9 mM ZnSO4. The potency of the isolate to biosorb of zinc was 94,79 and 93,57% in medium containing 4 mM and 7 mM ZnSO4, respectively.Key words: Bacteria, biosorb, resistant, yeast, zinc.

Antibacterial effect of verjuice against food-borne pathogens

Purpose Nowadays, natural products are preferred for food safety and preservation due to the demand of consumers. The industrial methods which have been in use for a long period of time have had an adverse impact on organoleptic properties of foods or on human health. The purpose of this paper is to investigate the antibacterial effects of unripe grape products on natural and inoculated micro-flora of lettuce as an alternative functional and natural antibacterial agent for consumers and food industry. Design/methodology/approach The antibacterial effects of products on initial micro-flora of lettuce were detected. The lettuce samples were treated with products for different treatment times (0, 5 and 10 min). The antibacterial effects of products against inoculated micro-flora on lettuce were obtained. Lettuce samples were separately inoculated with food-borne pathogens (~4 log CFU/g) and treated with products for the same treatment periods. Findings Unripe grape products decreased the initial micro-flora by approximately 1 log CFU/g in 5 min. Unripe grape products dramatically inhibited the inoculated E. coli on lettuce samples right after the treatment. Majority of the unripe grape products decreased the number of S. Typhimurium and L. monocytogenes to an undetectable level in 5 min. S. aureus was the most resistant microorganism among the tested cultures. It was concluded based on the conspicuous results on the inhibition of E. coli, S. Typhimurium and L. monocytogenes that unripe grape products can be considered as natural antimicrobial agents for food safety. Originality/value This study is also valuable since it enables the in situ testing of the potential usage of unripe grape products against food-borne pathogens.