kocuria rosea
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2021 ◽  
Vol 43 ◽  
pp. S410
Author(s):  
G Kohl ◽  
MMPD Santos ◽  
G Bertoncelo ◽  
LM Volpi ◽  
JS Palaoro ◽  
...  
Keyword(s):  

AMB Express ◽  
2021 ◽  
Vol 11 (1) ◽  
Author(s):  
Elham Akbari ◽  
Behnam Rasekh ◽  
Keivan Beheshti Maal ◽  
Farahnaz Karbasiun ◽  
Fatemeh Yazdian ◽  
...  

AbstractBiosurfactants are amphiphilic molecules composed of a hydrophilic and hydrophobic moiety and had the ability to penetrate into different phases to reduce the surface tension. This features caused to oil recovery, lubrication and facilities of crude oil in pipeline. In current research Biosurfactant-producing strain was isolated from the storage tanks of the Isfahan Oil Refining Company in Iran, and screened by oil expansion test, droplet collapse, and surface tension reduction measurement. Hydrocarbon recovery from crude oil sludge was measured under constant conditions. The effect of factoring biosource lubrication on crude oil in pipelines was investigated in vitro. Also, the optimization of biosurfactant production in different conditions was measured as a single factor and using Response Surface Method (RSM). The best biosurfactant-producing bacterium was identified as Kocuria rosea ABR6, and its sequence was registered in the gene bank with access number of MK100469. Chemical analysis proved that the produced biosurfactant was a lipopeptide. 7% of crude oil was recovered from petroleum sludge by biosurfactant obtained from Kocuria rosea ABR6. Also, the speed of crude oil transfer in pipelines was upgraded as it could be said that for a certain distance the transfer time reduced from 64 to 35 s. The highest biosurfactant production was measured at pH 9, aeration rate of 120 rpm and 96 h after incubation. The use of biosurfactants produced by Kocuria rosea ABR6 is recommended to remove oil sludge and lubricate oil in pipelines recommended in the oil industry.


2021 ◽  
Vol 9 ◽  
Author(s):  
Ewelina Kruszewska ◽  
Henryk Grześ ◽  
Piotr Czupryna ◽  
Sławomir Pancewicz ◽  
Monika Groth ◽  
...  

Disinfection is a key element in controlling infections. Fogging, also known as fumigation, is one of the most effective chemical disinfection methods. Peracetic acid (PAA) is a powerful oxidant with bactericidal and fungicidal properties. The aim of this study is to determine the type of bacteria and fungi present in educational institutions and whether disinfection by PAA fumigation in these institutions is also effective and useful, as demonstrated previously in healthcare centers. This study was carried out in five kindergartens and five primary schools in Bialystok, Poland. Three rooms have been selected in each of these educational institutions, and the disinfection was carried out in 30 rooms in total. Fogging with PAA was performed in selected rooms. Before and after disinfection, samples were collected from four surfaces: walls, tables, doors, and chair backs. Most frequently detected microorganisms in schools and kindergartens were Micrococcus luteus (M. luteus), Staphylococcus warneri (S. warneri), Paracoccus yeei (P. yeei), Staphylococcus hominis ssp. hominis (S. hominis), Kocuria rhizophila (K. rhizophila), Kocuria rosea (K. rosea). In addition, Staphylococcus haemolyticus (S. haemolyticus), Acinetobacter lwoffii (A. lwoffii), Kocuria kristinae (K. kristinae), Lactococcus lactis ssp. lactis (L. lactis) were the most prevalent in kindergartens, whereas Kytococcus sedentarius (K. sedentarius) was the most prevalent in schools. Comparison of the bacterial flora of schools and kindergartens showed statistically significant differences in the prevalence of bacteria on different surfaces. A significant decrease in the number of colonies after disinfection was observed on all surfaces (p < 0.05). In addition, the calculated effectiveness of disinfection was 99.7% in kindergartens and 99.3% in schools. The results indicate that fogging of PAA is a highly effective method of surface disinfection in kindergartens and schools.


Author(s):  
Rosy Bala ◽  
Narinder Kaur ◽  
Nitin Gupta ◽  
Udit Narang

Kocuria sp. may cause bacteremia, peritonitis, brain abscesses, meningitis, endocarditis, and acute cholecystitis in immunocompromised individuals. Recent reports identified Kocuria rosea in bacteremia associated with in dwelling intravenous lines, continuous dialysis fluids etc. We report on the case of bacteremia caused by K.rosea, a gram-positive microorganism in a 65-year-old female with a known case of end-stage renal disease on hemodialysis. After Piperacillin and Tazobactam antibiotic treatment, the patient got cured of fever and infection. This report presents a rare case of K.rosea bacteremia successfully treated with common antibiotics. Proper identification systems should be there to know the cause of bacteremia. The bacteremia cases with rare organisms should not be ignored.


2021 ◽  
Author(s):  
Elham Akbari ◽  
Keivan Beheshti Maal ◽  
Behnam Rasekh ◽  
Farahnaz Karbasiun ◽  
Zarrin dokh Emami ◽  
...  

Abstract At various stages of crude oil refining, solid and semi-solid wastes, known as petroleum sludge, are produced. Accumulation of oil waste in the refinery leads to reduced efficiency of oil refining and its release causes environmental pollution Biosurfactant-producing isolates were isolated from the oil reservoirs of the Isfahan refinery, Iran, and screened by oil expansion test, droplet collapse, and surface tension reduction measurement. Oil recovery from oil sludge was measured under constant conditions. The effect of factoring biosource lubrication on crude oil in pipelines was investigated in vitro. Also, the optimization of biosurfactant production in different conditions was measured as a single factor and Response surface Methodology. The best biosurfactant-producing bacterium was identified as Kocuria rosea ABR6, and its sequence was registered in the gene bank with access number of MK100469 registered. Chemical analysis proved that the biosurfactant produced was a lipopeptide. 7% of crude oil was recovered from petroleum sludge by biosurfactant obtained from Kocuria rosea ABR6.Also, the speed of crude oil transfer in pipelines was reduced from 64 seconds to 35 seconds. The highest biosurfactant production was measured at pH 9, aeration rate of 120 rpm and 96 hours after incubation. The use of biosurfactants produced by Kocuria rosea ABR6 is recommended to remove oil sludge and lubricate oil in pipelines recommended in the oil industry


2021 ◽  
Author(s):  
Jia-qi Cui ◽  
Ya-qi Li ◽  
Qing-sheng He ◽  
Bing-zhi Li ◽  
Ying-jin Yuan ◽  
...  

Abstract Surfactant-enhanced remediation (SER) had been widely applied to remove petroleum hydrocarbon (PH) pollutants, but the degradation mechanism that how to affect the hydrocarbon metabolite ability of microorganism under added surfactant is raring. In this work, the combination bacteria and surfactant were selected to remove PH, and the degradation bottleneck concentration of single-bacteria was 10000.00 mg/L according to the PH degradation rate. However, the degradation efficient of mixed-bacteria was further increased in adding surfactant condition.. Among them, the PH degradation rate of Kocuria rosea + Bacillus odyssey and Microbacterium. sp + B. odyssey had been respectively reached to 81.58±6.29% (added tween-80) and 88.35±7.58% (added rhamnolipid) under above bottleneck concentration. Compared with non-added surfactant, the relative abundances of global overmaps, amino acid metabolism, and carbohydrate metabolism were increased in adding tween-80 condition. However, when added rhamnolipid, the relative abundances of ABC transporters, two-component system, and bacteria chemotaxis had been exhibited enhancement obviously, and aimed to improve of transportation, absorption and degradation of PH. Additionally, the gene abundance of alkB and nah was also significantly increased with above condition. Meanwhile, the gene abundance of alkB and nah was also significantly enhanced by above condition. Sum up, this work offers an important information to insights into the changes of mixed-bacteria function during different systems to degrade PH.


2020 ◽  
pp. 1932-1943
Author(s):  
Yasser Ali Hussein ◽  
Khalid Jaber Kadhum Luti

The aim of this study was to evaluate the possibility of using Staphylococcus epidermidis cells as a probiotic to treat some skin infections. For this purpose, S. epidermidis Y73, which is an active bacteriocin producer and non-biofilm forming isolate, was selected among 134 skin isolates through primary and secondary screening. Tryptic soya broth was selected as the best medium to support bacteriocin production, while the optimal pH and temperature for S. epidermidis Y73 growth were 7 and 37°C, respectively, which were invested in the formula preparation. Furthermore, the possibility of using this isolate as a probiotic was investigated by preparing 4 potential cellulosic pads with 4 different formulae which were all subjected to an in vitro trial to select the one which is superior to the others in terms of supporting bacteriocin production and cells viability. The shelf life of the pad was estimated and the results showed that the cells remained vital until the 20th week. The selected pad formula was used to treat artificially induced wounds on rabbit skin. The wounds were infected with Staphylococcus aureus, Kocuria rosea and Pseudomonas. aeruginosa. The symptoms in both control and treated animals were recorded and, based on the results; the healing process with the presence of the S. epidermidis Y73 pad was significantly faster compared with that for the control. This research will serve as a base for future studies on using vital cells of S. epidermidis as probiotics and, hence, make a contribution to the current literature on using live cells to treat bacterial skin infections. 


2020 ◽  
pp. 961-969
Author(s):  
Dina Hasan Nafal ◽  
Hind Suhail Abdulhay

      This study was carried out to isolate opportunistic hydrocarbons oil-degrading bacteria and develop a consortium or a mixture of bacteria with high biodegradation capabilities which can be used in biological treatment units of the contaminated water before release. The biological processes in general are environmentally friendly and cost effective, as they are easy to design and apply; as such they are more appropriate to the public.     The location of the study was in Al-Dora refinery sludge holes area. The samples were collected for three seasons (winter, spring and summer) each consisted of three months.  The sludge samples were analyzed for various physical and chemical parameters. Temperature values of the sludge were at maximum in summer season, reaching 32˚C, whereas they were at minimum in winter (24 ˚C). The values of sludge pH were at maximum in summer (9.70) and minimum in winter (9.20). Turbidity levels were 382 NTU in spring and 353 NUT in winter. Biological oxygen demand (BOD5) was at maximum in summer (760) and (690 mg/l) in winter. The maximum dissolved oxygen (DO) value of 5.20 mg/l was recorded in winter, while the minimum was 3.80 mg/l recorded in summer. The maximum electrical conductivity (EC) was 17130 μs/cm recorded in summer, while the minimum was 16150 μs/cm recorded in winter. The maximum total dissolved solids (TDS) values were 10335 mg/l recorded in summer, while the minimum (10015 mg/l) was recorded in winter. The maximum total petroleum hydrocarbon (TPH) value (431 mg/l) was recorded in summer, while the minimum (367 mg/l) was recorded in spring. Finally, the maximum salinity value (9.90%) was recorded in spring, while the minimum (9.30%) was recorded in winter. Also, hydrocarbon compounds in sludge samples were measured using Gas Chromatography - Mass Spectrometry (GC-MS), and the result showed that they were composed of 31 hydrocarbon compounds.In the present work, nineteen sludge degrading bacterial strains were isolated from the soil near Al-Dora refinery hole by primary and secondary screenings using a modified mineral salt medium supplemented with 1% (v/v) sludge as a carbon source. The most efficient two sludge degraded isolates identified by VITIK 2 compact were Kocuria rosea and Bacillus amyloliquefaciens. The tow isolates and there mixture showed best growth at 30°C for 12 days, as shown by the measurement of the optical density of the liquid culture and the final oil concentration by spectrophotometer.      The bacterial isolates in liquid media with 2% (v/v) sludge showed best growth and the maximum biodegradation percentage after 12-day incubation period, as determined by gas chromatographic (GC). The degradation values were 68.9, 93.8 and 95.5% for Bacillus amyloliquefaciens, Kocuria rosea and the mixture of the tow isolates, respectively. In optimum conditions of pH 7, 40°C, 12 days incubation, the mixed bacterial consortium showed maximum sludge degradation.


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