1. Sharkawy, H., Tahoun, A., El-Gohary, A. E. G. A., El-Abasy, M., El-Khayat, F.,
Gillespie, T. & El-Adawy, H. , Epidemiological, molecular characterization and antibiotic
resistance of Salmonella entericaserovars isolated from chicken farms in Egypt, Gut.Pathogens, (2017) 9: p. 8.
2. Naik, V.K., Shakya, S., Patyal, A. and Gade, N. E. , Isolation and molecular characterization
of Salmonella spp. from chevon and chicken meat collected from different districts of Chhattisgarh,
India. Vet. worl, (2015) 8: p. 702.
3. Feasey, N.A., Dougan, G,. Kingsley, R., A., Heyderman, R. S. and Gordon, M. A,
Invasive non-typhoidal Salmonella disease an emerging and neglected tropical disease in
Africa (2012). 379: p. 2489-2499.
4. Kebede, A., Kemal, J., Alemayehu, H. and Habte Mariam, S. , isolation, identification,
and antibiotic susceptibility testing of Salmonella from slaughtered bovines and ovines in Addis Ababa Abattoir Enterprise Ethiopia,
Inter.J.bacteriolog, (2016) 8: p. 421.
5. Moosavy, M.H., Esmaeili, S., Amiri, F. B., Mostafavi, E. and Salehi, T. Z, Detection
of salmonella spp in commercial eggs in Iran. Iran. J microbiolog, (2015) 7.: p. 50.
6. Mohammed, H.I.a.I., A. E. A, Isolation and identification of salmonella from the environment of traditional poultry farms in Khartoum North, (2012) 7: p. 1239-1245.
7. Endrias, Z., prevalence, distribution and antimicrobial resistance profile of salmonella isolated from food items and personnel in Ethiopa, Addis Ababa University, (2004)
8. Bhunia, Arun K. Foodborne microbial pathogens: mechanisms and pathogenesis. Springer,
2018
9. De Knegt, L. V., Sara Monteiro Pires, and Tine Hald. "Attributing foodborne salmonellosis
in humans to animal reservoirs in the European Union using a multi-country stochastic
model." Epidemiology & Infection 143 (2015): p. 1175-1186.
10. Organization, W.H., Antimicrobial resistance: global report on surveillance:World Health Organization. (2014)
11. Bezerra, W.G.A., Silva, I.N.G., Vasconcelos, R.H., Machado, D.N., de Souza Lopes,
E., Lima, S.V.G., de Castro Teixeira, R.S., Lima, J.B., Oliveira, F.R. and Maciel,
W.C. , Isolation and Antimicrobial Resistance of Escherichia Coli and Salmonella Enterica Subsp Enterica in Broiler Chickens, Acta. Sci.Vet , (2016). 44: p. 1-7.
12. Kindu, A., Addis and Mekonnen, A survey on Salmonella infection among chicken flocks in Jimma town, Ethiopia, Africa. j.microbiology. res, (2013) 7: p. 1239-1245.
13. Bayu, Z., Asrade, B., Kebede, N., Sisay, Z., and Bayu, Y. , identification and
characterization of salmonella species in whole egg purchased from local markets in Addis Ababa, Ethiopia, J .of .Vet. Med and Anim. Heal, (2013). 5: p. 133-137.
14. Duguma, Belay, Yisehak Kechero, and Geert PJ Janssens. "Survey of major diseases
affecting dairy cattle in Jimma town, Oromia, Ethiopia." Global veterinaria 8 (2012): p. 62-66.
15. Thrusfield, M., Veterinary Epidemiology 3rd ed. Black well Science Ltd London, England, (2005) p. 228-245.
16. García, C., Soriano, J.M., Benítez, V. and Catalá-Gregori, P, Assessment of Salmonella spp. in feces, cloacal swabs, and eggs (eggshell and content separately) from a laying
hen farm, Poul.scie,, (2011). 90: p. 1581-1585.
17. Standardization, I.O.f., Microbiology of food and animal feeding stuffs Horizontal
method for the detection of Salmonella spp. ISO, (2002). 6579: p. 62.
18. Msallam, A.K., Occurrence of Salmonella spp. in Hens Eggs and their Environment in Selected Farms in Gaza Strip (Doctoral
dissertation, Islamic University-Gaza. (2008).
19. International Organization for Standardization. ISO-6579. "Microbiology--General
guidance on methods for the detection of Salmonella." (2002): 27
20. Özkalp, B., Isolation and identification of salmonellas from different samples Dange. Foodborne Pathog, (2012): p. 21:7-29.
21. Wallace H. Andrews, H.W., Andrew Jacobson, and Thomas Hammack, "Bacteriological
Analytical Manual (BAM). Chapter 5 Salmonella" (2011).
22. Wragg, P., Randall, L., and What more, A. M, Comparison of Biolog GEN III MicroStation
semi-automated bacterial identification system with matrix-assisted laser desorption
ionization-time of flight mass spectrometry and 16S ribosomal RNA gene sequencing
for the identification of bacteria of veterinary interest, J.microbiolog.meth, (2014). 105: p. 16-21.
23. Osielska, Maria Aleksandra, and Paweł Piotr Jagodziński. "Long non-coding RNA
as potential biomarkers in non-small-cell lung cancer: What do we know so far?." Biomedicine & Pharmacotherapy 101 (2018): p. 322-333.
24. Matsumura, Paul M., Jones M. Hyman, Scott R. Jeffrey, Martin J. Maresch, Thurman
C. Thorpe and William G. Barron, Device and method for microbial antibiotic susceptibility
testing, (2000).
25. Lambey, H.S., Verma, A.K., Jain, U. and Bist, B, Bacteriological quality of chevon
and pork in Mathura City, J.of Vet. Pub.Heal, (20090. 7(2): p. 141-143.
26. Dabassa, A.a.B., K., The Prevalence and Antibiogram of Salmonella and Shigella Isolated from Abattoir, Jimma Town, Southwestern Ethiopia. in Conference of Jimma University, 2011: p. 169.
27. Elson, R., Little, C.L. and Mitchell, R.T, Salmonella and raw shell eggs: results of a cross-sectional study of contamination rates and
egg safety practices in the United Kingdom catering sector, J. fo. Prote. , (2005). 68: p. 256-264.
28. Gantois, I., Ducatelle, R., Pasmans, F., Haesebrouck, F. and Gast, R Mechanisms
of egg contamination by Salmonella Enteritidis, Fems Microbiol. Rev , (2009) 33: p. 718-738.
29. Foley, S.L., Lynne, A.M. and Nayak, R. S, almonella challenges: prevalence in swine and poultry and potential pathogenicity of such isolates,
J. animscie (2008). 86: p. 149-162.
30. Velge, P., A. Cloeckaert and P. Barrow, Emergence of Salmonella epidemics: the problems related to Salmonella enterica serotype Enteritidis and multiple antibiotic resistances in other major serotypes.
Vet. Res, (2005) 36: p. 267-288.
31. Tessema K, Bedu H, Ejo M, Hiko A Prevalence and Antibiotic Resistance of Salmonella Species Isolated from Chicken Eggs by Standard Bacteriological Method. J Vet Sci
Technol 8: 421. doi: 10.4172/2157-7579.1000421.
32. Singh, S., Yadav, A.S., Singh, S.M. and Bharti, P., Prevalence of Salmonella in chicken eggs collected from poultry farms and marketing channels and their antimicrobial
resistance. Food. Re.s Inter, (2010). 43: p. 2027-2030.
33. Humphrey TJ, B.A., Mawer S, Rowe B, Hooper S., Salmonella enteritidis phage type 4 from the contents of intact eggs: a study involving naturally
infected hens, Epi and Inf, (1989) 103: p. 415-23.
34. Agulles, T.M., how egg quality impacts the health of day-one-chicks?, Poult. Fish Wildl.Sci, (2014).
35. Lopez, L., Roos, R., Cressey, P., ESR, B.H. & MPI, J.L, foodborne disease in new
zerland, Ministry for Primary Industries, (2016) .
36. Andrews, W. H. "Salmonella: Bacteriological Analytical Manual." Food Drug Administration (1993): p. 5-01.
37. Suresh, T., Hatha, A.A.M., Sreenivasan, D., Sangeetha, N. and Lashmanaperumalsamy,
P prevalence and antimicrobial resistance of salmonella enteritidis and other salmonellas in the eggs and egg-storing trays from retails markets of coimbatore, South India,
Food microbiolog, (2006) 23: p. 294-299.
38. Tassew, A., Isolation, identification, antimicrobial profile and molecular characterization
of enterohaemorrhagic isolated from ruminants slaughtered at debre zeitelfora export
abattoir and addis ababa abattoirs enterprise, (2015)
39. Garedew L., H.Z., Addis Z., Tesfaye R. and Zegeye B, Prevalence and antimicrobial
butcher shops in Gondar town, Ethiopia. Antimicrob. Resis. and Infect. Cont, (2015) 4: p. 015-0062.
40. Reda, A.A., Seyoum, B., Yimam, J., Fiseha, S. and Jean-Michel, V, Antibiotic susceptibility
patterns of Salmonella and Shigella isolates in Harar Eastern Ethiopia. J. Infec.t Dis. mmu, (2011) 3: p. 134-139.
41. Tsegaye, S., Beyene, W., Tesfaye, B., Tesfaye, S. and Feleke, A, Prevalence and
antimicrobial susceptibility pattern of Salmonella species from exotic chicken eggs in Alage, Ziway and Shashemene, Ethiopia, Afric. J. Ba. sApp. Scie, (2016) 8: p. 180-4.
42. Mouttotou, N., Ahmad, S., Kamran, Z. and Koutoulis, K.C, Prevalence, Risks and
Antibiotic Resistance of Salmonella in Poultry Production Chain, (2017)
43. Perron, G.G., Bell, G. and Quessy, S, Parallel evolution of multidrug-resistance
in Salmonella enterica isolated. FEMS. Microbiology. letters, (2008) 281: p. 17-22.
44. Dominic, H., Barbara, R., Aniko, P., Michael, R., Peter, B., Scott, B., Mark,
E., Barbara, T., Colin, M., Shawn, D. and Colin, H, Antibiotic Susceptibilities of
Pseudomonas aeruginosa Isolates Derived from Patients with Cystic Fibrosis under aerobic,
anaerobic and biofilm Conditions, (2005). 43: p. 5085-5090.
45. Brown, K., Li, W., & Kaur, P, Role of aromatic and negatively charged residues
of DrrB in multisubstrate specificity conferred by the DrrAB system of Streptomyces
peucetius. Biochemistry (2017), 56: p.1921-1931.
46. Musgrove, M.T.J., D. R., Northcutt, J. K. Cox, N. A. Harrison, M. A. Fedorka-Cray,
P. J. and Ladely, S. R., Antimicrobial Resistance in Salmonella and Escherichia coli Isolated from Commercial Shell Eggs, Poult.Scie, (2006) 85: p. 1665-1669.
47. Tessema, K., Bedu, H., Ejo, M. and Hiko, A, prevalence and antibiotic resistance
of salmonella species isolated from chicken eggs J.Vet.Sci.Technol, (2017). 8.(421).
48. Bekele, B.a.A., M, Distribution of drug resistance among enterococci and salmonella from poultry and cattle in Ethiopia, Trop. Anim. Heal. Prod, (2010) 4: p. 857-64.