Molecular and Conventional Detection of Antimicrobial Activity of Zinc Oxide Nanoparticles and Cinnamon Oil against Escherichia coli and Aspergillus flavus

| The antimicrobial activity of zinc oxide nanoparticles (ZnONPs) and cinnamon oils (C.O.) was evaluated by conventional and molecular methods against Aspergillus flavus (A.flavus) and Escherichia coli 0157 (E.coli) that recovered from cattle mastitis. In agar well diffusion method (WD), Minimum inhibitory concentration (MIC) of ZnONPs and C.O. for A.flavus was (100 μg/ml; 0.25%) and for E.coli 0157 were (50 μg/ml; 0.25%), respectively. The synergistic effects of these materials caused higher significant inhibition of all microbial growth by low and high doses by agar method. But, the molecular detection of virulent genes of E. coli (stx1) and A. flavus (AflR) by polymerase chain reaction (PCR) and the real-time PCR (RT-PCR) yielded uncorrelated results with WD tests. It is concluded that no direct correlation between WD, PCR, and RT-PCR and the WD tests are still inexpensive, eco-friendly, and rapidly applicable for screening of antimicrobials activity than genetic methods.


Advances in Animal and Veterinary Sciences
September 2020 | Volume 8 | Issue 8 | Page 840 diffusion (DD), microdilution tests (MD) were more applicable than genotyping RT-PCR. Therefore, this study was undertaken to evaluate the antimicrobial potentials of ZnONPs singly and/or in combination with cinnamon oil against recovered E. coli and A. flavus from dairy cattle mastitis. Moreover, the comparison between the conventional agar diffusion tests and molecular methods was investigated to evaluate the use of any of them in the rapid and effective detection of antimicrobial activities in large scales application.

sAmples
Two hundred samples (125 of mastitis milk and 25 of each of water, litter, and ration) were collected from dairy cattle farms in which animals suffered from mastitis. Milk and water samples were collected in sterile bottles, while, ration and litter samples taken in sterile polyethylene bags. All methods of collection and preparations were done as a method of (APHA, 2003). Each sample was divided into two parts and subjected for mycological and bacteriological examination.

Zinc oxide nAnopArticles And cinnAmon oil
ZnONPs were synthesized and characterized by the laboratory of ALDRIK Sigma chemical company, USA and it was in powder form with 50 nm particle size. While cinnamon oil was purchased in crud form from Al Gomhorya chemical company, Egypt.

mycologicAl exAminAtion
Ten grams of finely grind rations and litter samples and 10 ml of milk sediment and water samples were added separately to 90 ml of 1% peptone water and stirred vigorously by electric blender for preparation of homogenate (APHA, 2003). One milliliter of homogenate was inoculated into Petri-dish plates and mixed with Sabouraud's dextrose agar (SDA) and incubated 3-5 days at 25-28 o C and identification of appeared mold and yeast colonies were identified according to, Pitt and Hocking (2009).

bActeriologicAl exAminAtion
Samples were cultured onto MacConkey agar medium for 24 hr s at 37 o C, then a peptone water cultures were prepared from appeared colonies to inoculate biochemical tests (Quinn et al., 2002). While, serological identification for E. coli species was undertaken according to (Neville and Bryant, 1986). The A.flavus and E.coli O157 that recovered from the present samples and the standard control of each were cultivat-ed on (SDA and MacConkey agar) and incubated for (1-3 days at 28°C or 24 hours at 37°C), respectively. The spore suspension was prepared and counted in the hemocytometer slide. One ml of 10 5 spores of microbes was aseptically added to plates and covered with SDA medium (for fungus) and nutrient agar (for bacteria). Wells of 5 mm in Φ were made on surface of plates and add 100 μl of ZnO NPs (0,25,50,100,150,200,250 μg/ ml) or 100 μl of C.O (0, 0.25%, 0.5% , 1%, 2%, 3%) and incubated for 1-5 days at 28-37 o C.

AntimicrobiAl potentiAl of Znonps
synergistic AntimicrobiAl potentiAl of Znonps witH c.o. : In a separate 4 wells in plates, we added 50 μl of ZnONPs+ 50 μl of C.O. of the following concentrations: (0.25% of C.O.+ 100 μg/ml ZnONPs), (1% C.O+ 100 μg/ml ZnONPs), ( 0.25% C.O.+ 200 μg/ml ZnONPs) and (1% C.O.+ 200 μg/ ml ZnONPs). Incubation of plates for 1-5 days at 28-37 o C. Then the plates were tested for the growth inhibitory zones around wells. All procedures were repeated 3 times to pooled data. detection virulent genes of E. coli o157 and a.flavus BY pcr. prepArAtion of treAted strAins of a.flavus And E. coli o157: The A.flavus and E. coli O157 that recovered from the present samples were subjected to PCR detection of virulent gene expression before and after treatments with ZnONPs and C.O. In 50 ml sterile test tubs, add 20 ml of sterilized SD broth medium (for fungus) and nutrient broth (for bacteria) and 0.2 ml of 10 5 spore suspensions of 7 days old for all used microbes was inoculated into the tubes. Each strain was subjected for 6 doses treatments (low, 100 μg /ml ZnO NPs), (high, 500 μg/ml ZnONPs) (low, 0.25% C.O.), (high, 1%C.O.), (combination, 100 μg /ml ZnONPs+ 0.25% C.O.), (combination, 100 μg /ml ZnONPs+ 1% C.O.). The negative control was (Fusarium for A.flavus)( Staph aureus for E.coli O157) and the positive were (A,flavus and E.coli O157). All the tubes were incubated at 30°C for 3 days and kept at 5-8 °C till DNA extraction. dnA extrAction (Fittipaldi et al., 2012And Hossain et al., 2015: Genomic DNA of the strains was obtained using the genomic DNA Extraction Kit (Quick-DNA Miniprep DNA purification kit, cat. No. D3024) following the manufacturer's instructions. DNA concentration was determined spectrophotometrically at 260/230 nm using SPECTROstar Nano" BMG LABTECH" and stored at −20°C until PCR amplification.

Advances in Animal and Veterinary Sciences
September 2020 | Volume 8 | Issue 8 | Page 841      The RT-PCR was used to detect the DNA cycle threshold for aflR and stx1 genes using specific oligonucleotide primers and syber green Mix. The quantities were determined by RT-PCR in 20 μL containing 1 μL of DNA template, 10 μL of syber Green (Biosystems, and Catalog number: A25741). 7 μL PCR grade water, 1 μL of primer with a level of 10 pmol/μL. cycle was done in real-time PCR machine (Chrom4-BIO-RAD, USA), amplification condition as Standard cycling mode (Table 2) stAtisticAl AnAlysis The obtained data were computerized and analyzed for calculation mean ± standard error according to SPSS 14 (2006).

rESultS And dIScuSSIon
In the current study, the most common recovered fungi was A. flavus from mastitis milk, letter, water and ration (16%, 36%, 76% and 32%), respectively. While, the yeasts spp. were detected only in mastitis milk samples as C. albicans and Rhodotorela sp. (16%,12%), respectively (Table 3). Whereas other genera of molds were recovered in variable frequencies. Aspergillus flavus constitute a public health hazard due to the production of aflatoxins which cause some degree of acute toxicity and are potential carcinogens (FDA, 2000). On the other hand, E. coli potentiated the occurrence of bovine clinical mastitis (Hogan and Smith,2003) and recovered from milk and its product (Quinn et al., 2002). Herein, E. coli was the most predominant isolates from mastitis milk, letters, water, and animals' ration (16%, 28%, 12%, and 4%), respectively. Currently, the strains of E.coli O157 and E.coli O111 were recovered from all examined samples at the rates of (12%, 8%) in mastitic milk, (4%, 4%) in water, (4%, 4%) in the ration and (4%, 8%) in letter samples respectively (  (Vali et al., 2007) and dairy cattle is the primary reservoir of infection (Perera et al., 2015). Hence, the discovery of the novel effective antimicrobial agents is required to overcome the microbial infections and resistance to commercial antibiotics (Whitesides, 2003). Today, ZnONPs have significant antimicrobial potentials and friendly safe to the environment (Violeta et al., 2011 (Sabir et al., 2014). This is due to the penetration of ZnO-NPs the microbial cell wall, destruction and death of cells (Brayner, et al., 2006). Currently, MIC of C.O. against A.flavus and E.coli O157 were (0.25% for each) and inhibition zones increased as concentration levels increased (Table 6)     tion with natural materials. Similarly, Hassan et al. (2019) detected the MIC of ZnONPs against Fusarium sp. was (500 μg/ml) and significantly decreased to (100 μg /ml) when combined with curcumin or probiotic (0.25% for each). This enables to prevent drug resistance and resulted in significant antimicrobial efficacy (Chow and Yu, 1999).
In the present study, PCR detection of the virulent genes in isolated A. flavus (aflR) and E. coli O157( stx1) from cattle mastitis (4 representative isolates). The DNA bands of 2 isolates of A.flavus were similar to the standard strain, while others showed no bands for aflR gene (Figure 1). The expression of the stx1 gene of E.coli O157, 2 isolates not showed any DNA fragment and other isolates were positive for the stx1 gene similar to the standard strain ( Figure 2). Cruz and Buttner (2008) detected the alfR gene in A.flavus by PCR and different results of DNA bands occurred. While, Scherm et al. (2005), detected alfR and alfQ in A.flavus isolated from animal feeds. PCR detection of virulent genes stx1 and stx2 in E. coli isolated food and beef samples (Godambe et al., 2017) that cause food-born infection (Ferens and Hovde, 2011). Currently, the positive isolates of virulent genes were used for PCR detection of antimicrobial potentials of ZnONPs and C.O. (Figures, 1, 2). The PCR amplification of DNA bands of control for each used isolate was similar to the general characters of a standard reference untreated species of A.flavus and E.coli O157 (Figures 3, 4). Whereas, treating A.flavus by low (100 g/ml) and high (500 g/ml) doses of ZnO NPs eliminated the signals of DNA bands (Figure 3). But DNA bands were observed in the case of E. coli O157 with low or high doses of ZnO NPs ( Figure  4). The C.O. effects on genes of A.flavus, either at low and

Advances in Animal and Veterinary Sciences
September 2020 | Volume 8 | Issue 8 | Page 844 high doses (0.25%, 1%), not cause any changes in DNA bands signals. On the contrary, the treatment of E.coli O157 with a high dose of C.O.(1%) resulted in the absence of DNA band, but a low dose (0.25%) not cause any changes. Whereas, the combination of ZnO NPs and C.O. presence of DNA band in E. coli. While, there was low faint DNA band in treatment of A.flavus with (100 μg / ml of ZnONPs+ 1% C.O.). Recently, the RT-PCR help in the generation of a specific fluorescent signal in real-time analysis and quantitation of DNA targets (Schena et al., 2004) and allow rapid, sensitive, specific, and high accurate activity than traditional DNA-PCR method (Bilodeau, 2011). Herein, the RT-PCR system directed against DNA extracted from isolates of A.flavus and E.coli 0157 was done (Figures 1-4 and Table 8). The treatment doses of ZnONPs alone or in combination with C.O. increased the DNA cycle threshold (C.T). The treatments of A.flavus with ZnO NPs (100g/ml) resulted in a significant increase in DNA C. T. values (26.62, 28.34) higher than that DNA of non-treated isolates (26.33).    (Table 8). It is suggested that the higher DNA C.T. due to the lower number of DNA copies of the genes in treated isolates with ZnONPs than that of untreated ones and contrary to this were reported in C.O. (Table 8). Several studies used RT-PCR for rapid detection of genes pathogens as Sharma and Nystromi (2003) and Hu et al. (2020) for stx1 and stx2 in E.coli O157: H7 in food, Scherm et al. (2005), for detecting aflatoxin regulatory genes. Copping et al. (2005) found that the inhibitory concentration of antifungals against

Advances in Animal and Veterinary Sciences
September 2020 | Volume 8 | Issue 8 | Page 845 C.albicans elevated the activity of secreted proteinase (Sap) and SAP genes detection by RT-PCR. Labeed et al. (2016) and Hassan et al. (2017) detected the absence of DNA band in PCR of Afla gene after bio-control of mycotoxigenic A. flavus and no levels observed in chemical detection of AFB1. Rathore et al. (2018) found that variety in the correlation between disc diffusion and genotypic PCR antibiotic sensitivity pattern against virulent genes in S. aureus that ranged from (58.3%-100%). While, Zheng et al. (2015) resulted in significant antimicrobial activity of Enterococcus faecium against gram-positive and gram-negative bacteria using agar well diffusion method as a simple method and PCR amplification not detected any tested virulence genes. Furthermore, Chomvarin et al. (2004) detected that disc diffusion and agglutination tests are of the highest sensitivity and specificity and both assays are technically simple and can be easier to perform in routine laboratories than PCR in the evaluation of drugs against bacterial and fungal pathogens. Hence, the evaluation of antimicrobials by covenantal method as agar WD yielded significant specific results and despite advances in PCR and RT-PCR we detected variable in accord findings.

concluSIon
From the forgoing results it is concluded that the antimicrobial potential of ZnONPs was more effective than traditional antibacterials as oil and resulted in decreased and eliminated the targeted DNA gene expression of aflatoxigenic A.flavus and E.coli. In addition the RT-PCR confirmed these changes by increase in DNA cycle threshold . The synergistic action of ZnONPs with natural oil caused significant antibacterial potential and resulted in decrease the used doses of nanomaterial , hence, we can overcome nanomaterial toxicity for future application in veterinary medicine. The conventional laboratory diffusion tests are still most satisfactory, simple and inexpensive in comparison with genotyping methods as PCR and RT-PCR. Hence, nanotechnology has huge significant progressive advancement in biotechnology and biomedicine related to human and animal science as increase the safety of their health, production and hence elevation of national income.