Research Article
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Year 2019, Volume: 20 Issue: 1, 1 - 8, 15.04.2019
https://doi.org/10.23902/trkjnat.435384

Abstract

Bu
çalışmada kalıntı miktarda antibiyotik içeren yeraltı sularına kısa süreli
maruz bırakılan üç Salmonella enterica
subsp. enterica serotipinin hastalık
yapıcı özelliklerindeki değişiklikler ve hayatta kalabilme seviyeleri genel
mikrobiyel fitnes çerçevesinde incelenmiştir. Serotipler gerçek bir salgından
izole edilen kamçılı doğal fenotip Salmonella
enterica
ser. Typhimurium, kamçısı
fonksiyonel olmayan bir başka Salmonella
enterica
ser. Typhimurium suşu ve
kuş türlerinde salgına yol açan doğal fenotip Salmonella enterica ser. Pullorum’dan oluşup, iyon şiddeti değişken
(3-30 mM) ve kalıntı miktarda antibiyotik içeren yeraltı suyuna 6-24 saat
sürecince maruz bırakılmıştır. Serotiplerin hastalık yapıcı özellikleri in
vitro koşullarda HEp2 türü insan epitel hücre kültürleri kullanılarak
ölçülmüştür. Antibiyotik direnç seviyeleri ise yaygın kullanılan 10
antibitiyotiğe karşı disk difüzyon testi yardımıyla belirlenmiştir. Deneyler
sonucunda S. enterica ser.
Typhimurium suşlarında antibiyotik
direnç seviyelerinde az miktarda artış gözlenirken S. enterica ser. Pullorum suşunda
değişiklik gözlenmemiştir. In vitro deneylerde ise suşların HEp2 hücrelerini
enfekte etmeleri zamanla önce azalmış, 24 saatlik dilim sonunda ise artmıştır.
Sonuç olarak, kalıtsal antibiyotik içeren yeraltı sularına temas eden S. enterica serotiplerinin hastalık
yapıcı karakterlerinin arttığı, antibiyotik direnç seviyelerinin suşa bağlı
olarak değişkenlik gösterirken hayatta kalma oranlarının yüksek olduğu
gözlenmiştir.

References

  • 1. Abouzeed, Y.M., Baucheron, S. & Cloeckaert, A. 2008. Ramr mutations involved in efflux-mediated multidrug resistance in Salmonella enterica serovar Typhimurium. Antimicrobial Agents and Chemotherapy, 52 (7): 2428-2434.
  • 2. Barber, L.B., Keefe, S.H., LeBlanc, D.R., Bradley, P.M., Chapelle, F.H., Meyer, M.T., Loftin, K.A., Kolpin, D.W. & Rubio, F. 2009. Fate of sulfamethoxazole, 4-nonylphenol, and 17β-estradiol in groundwater contaminated by wastewater treatment plant effluent. Environmental Science & Technology, 43 (13): 4843-4850.
  • 3. Barnes, K.K., Kolpin, D.W., Furlong, E.T., Zaugg, S.D., Meyer, M.T. & Barber, L.B. 2008. A national reconnaissance of pharmaceuticals and other organic wastewater contaminants in the United States - i) groundwater. Science of The Total Environment, 402 (2-3): 192-200.
  • 4. Bezanson, G.S., Khakhria, R., Duck, D. & Lior, H. 1985. Molecular analysis confirms food source and simultaneous involvement of two distinct but related subgroups of Salmonella typhimurium bacteriophage type 10 in major interprovincial Salmonella outbreak. Applied and Environmental Microbiology, 50 (5): 1279-1284.
  • 5. Bolster, C.H., Mills, A.L., Hornberger, G.M. & Herman, J.S. 1999. Spatial distribution of deposited bacteria following miscible displacement experiments in intact cores. Water Resources Research, 35 (6): 1797-1807.
  • 6. Bradford, P.A. & Dean, C.R. 2008. Resistance of gram-negative bacilli to antimicrobials, In: Fong, I.W. & Drlica, K. (eds) Antimicrobial resistance and implications for the 21st century, Springer, New York, NY, USA, 135 pp.
  • 7. Burnham, C.A.D., Shokoples, S.E. & Tyrrell G.J. 2007. Invasion of Hela cells by group b Streptococcus requires the phosphoinositide-3-kinase signalling pathway and modulates phosphorylation of host-cell akt and glycogen synthase kinase-3. Microbiology, 153 (12): 4240-4252.
  • 8. Cebrián, L., Rodríguez, J.C., Escribano, I. & Royo, G. 2005. Characterization of Salmonella spp. mutants with reduced fluoroquinolone susceptibility: Importance of efflux pump mechanisms. Chemotherapy, 51 (1): 40-43.
  • 9. Centers for disease control and prevention (CDC) - Salmonella outbreaks. (http://www.cdc.gov/salmonella /outbreaks.html), (Date accessed 10 May 2018).
  • 10. Centers for disease control and prevention (CDC). Investigation of outbreak of infections caused by Salmonella typhimurium. (http://www.cdc.gov/salmonella/typhimurium /map.html), (Date accessed 10 May 2018).
  • 11. Chopra, I. & Roberts, M. 2001. Tetracycline antibiotics: Mode of action, applications, molecular biology, and epidemiology of bacterial resistance. Microbiology and Molecular Biology Reviews, 65 (2): 232-260.
  • 12. Chu, C., Su, L.H., Chu C.H., Baucheron, S., Cloeckaert, A. & Chiu, C.H. 2005. Resistance to fluoroquinolones linked to gyra and parc mutations and overexpression of acrab efflux pump in Salmonella enterica serotype Choleraesuis. Microbial Drug Resistance, 11 (3): 248-253.
  • 13. Clinical and Laboratory Standards Institute (CLSI) / National Committee for Clinical Laboratory, 2003. Performance standards for antimicrobial disk and dilution susceptibility tests for bacteria isolated from animals, 107 pp.
  • 14. Crane, S.R. & Moore, J.A. 1984. Bacterial pollution of groundwater: A review. Water, Air, & Soil Pollution, 22 (1): 67-83.
  • 15. Giraud, E., Cloeckaert, A., Kerboeuf, D. & Chaslus-Dancla, E. 2000. Evidence for active efflux as the primary mechanism of resistance to ciprofloxacin in Salmonella enterica serovar Typhimurium. Antimicrobial Agents and Chemotherapy, 44 (5): 1223-1228.
  • 16. Hutson, S.H., Barber, N.L., Kenny, J.F., Linsey, K.S., Lumia, D.S. & Maupin, M.A. 2004. Estimated use of water in the United States in 2000, in U.S. Geological Survey Circular. U.S. Geological Survey, Virginia, USA, 52 pp.
  • 17. Kumar, A & Schweizer, H.P. 2005. Bacterial resistance to antibiotics: Active efflux and reduced uptake. Advanced Drug Delivery Reviews, 57 (10): 1486-1513.
  • 18. Kunihiko Nishino, T.L. & Groisman, E.A. 2006. Virulence and drug resistance roles of multidrug efflux systems of Salmonella enterica serovar Typhimurium. Molecular Microbiology, 59 (1): 126-141.
  • 19. Lacroix, F.J., Cloeckaert, A., Grépinet, O., Pinault, C., Popoff, M.Y., Waxin, H. & Pardon, P. 1996. Salmonella typhimurium acrb-like gene: Identification and role in resistance to biliary salts and detergents and in murine infection. FEMS Microbiology Letters, 135 (2-3): 161-167.
  • 20. Niesel, D.W. & Peterson, J.W. 1987. Calcium enhances Salmonella typhimurium invasion of Hela cells. FEMS Microbiology Letters, 41 (3): 299-304.
  • 21. Nikaido, H., Basina, M., Nguyen, V. & Rosenberg, E.Y. 1998. Multidrug efflux pump acrab of Salmonella typhimurium excretes only those beta-lactam antibiotics containing lipophilic side chains. Journal of Bacteriology, 180 (17): 4686-4692.
  • 22. Orth, P., Schnappinger, D., Hillen, W., Saenger, W. & Hinrichs, W. 2000. Structural basis of gene regulation by the tetracycline inducible Tet repressor-operator system. Nature Structural & Molecular Biology, 7 (3): 215-219.
  • 23. Peterson, J.W. & Niesel, D.W. 1988. Enhancement by calcium of the invasiveness of Salmonella for Hela cell monolayers. Reviews of Infectious Diseases, 10(Supplement 2): 319-322.
  • 24. Piddock, L.J.V., White, D.G., Gensberg, K., Pumbwe, L. & Griggs, D.J. 2000. Evidence for an efflux pump mediating multiple antibiotic resistance in Salmonella enterica serovar Typhimurium. Antimicrobial Agents and Chemotherapy, 44 (11): 3118-3121.
  • 25. Poole, K. 2000. Efflux-mediated resistance to fluoroquinolones in gram-negative bacteria. Antimicrobial Agents and Chemotherapy, 44 (9): 2233-2241.
  • 26. Quinn, T., O'Mahony, R., Baird, A.W., Drudy, D., Whyte, P. & Fanning, S. 2006. Multi-drug resistance in Salmonella enterica: Efflux mechanisms and their relationships with the development of chromosomal resistance gene clusters Current Drug Targets, 7 (7): 849-860.
  • 27. Roberts, M. 1996. Tetracycline resistance determinants: Mechanisms of action, regulation of expression, genetic mobility, and distribution. FEMS Microbiology Reviews, 19 (1): 1-24.
  • 28. Schmoll, O., Howard, G., Chilton, J. & Chorus, I. 2006. Protecting groundwater for health. IWA Publishing, Cornwall, UK, 698 pp.
  • 29. Vugia, D.J., Samuel, M., Farley, M.M., Marcus, R., Shiferaw, B., Shallow, S., Smith, K. & Angulo, F.J. 2004. Invasive salmonella infections in the United States, FoodNet, 1996–1999: Incidence, serotype distribution, and outcome. Clinical Infectious Diseases, 38 (Supplement 3): 149-156.
  • 30. Vulliet, E. & Cren-Olivé, C. 2011. Screening of pharmaceuticals and hormones at the regional scale, in surface and groundwaters intended to human consumption. Environmental Pollution, 159 (10): 2929-2934.
  • 31. Yamaguchi, A., Kimura, T., Someya, Y. & Sawai, T. 1993. Metal-tetracycline/h+ antiporter of Escherichia coli encoded by transposon tn10. The structural resemblance and functional difference in the role of the duplicated sequence motif between hydrophobic segments 2 and 3 and segments 8 and 9. Journal of Biological Chemistry, 268 (9): 6496-6504.
  • 32. Yamaguchi, S., Aizawa, S., Kihara, M., Isomura, M., Jones, C.J. & Macnab, R.M. 1986. Genetic evidence for a switching and energy-transducing complex in the flagellar motor of Salmonella typhimurium. Journal of Bacteriology, 168 (3): 1172-1179.

FITNESS AND PATHOGENICITY OF OUTBREAK CAUSING Salmonella UPON SHORT-TERM EXPOSURE TO GROUNDWATER WITH RESIDUAL ANTIBIOTICS

Year 2019, Volume: 20 Issue: 1, 1 - 8, 15.04.2019
https://doi.org/10.23902/trkjnat.435384

Abstract

The changes in survival and
pathogenicity of three Salmonella
enterica
subsp. enterica
serotypes upon short term exposure to groundwater with residual antibiotics
have been studied in relationship to overall microbial fitness. A wild type
flagellated Salmonella enterica ser.
Typhimurium outbreak strain, a mutant Salmonella
enterica
ser. Typhimurium strain, and a wild type avian disease-causing Salmonella enterica ser. Pullorum strain
were exposed to a range of ionic strength (3-30 mM) groundwater with residual
antibiotics for 6-24 hours. Exposed organisms’ pathogenicity was tested in
vitro exposure to a human epithelial cell line (HEp2). Resistance profiles
against 10 common antibiotics were also tested and compared to unexposed
controls. Results show minor antibiotic resistance changes for S. enterica ser. Typhimurium strains in
response to some antibiotic classes mediated with active efflux pumps. This
trend was not observed for S. enterica ser.
Pullorum, suggesting that resistance found in groundwater exposed organisms
might be strain-dependent. In vitro epithelial cell invasion assays showed
bacterial invasion of HEp2 cells initially decreases with time and increases
after 24 hours. It is concluded that S.
enterica
serotypes reaching groundwater environments in the presence of
residual antibiotics may exhibit increased levels of pathogenicity,
strain-dependent resistance to antibiotics, and sustained levels of viability.

References

  • 1. Abouzeed, Y.M., Baucheron, S. & Cloeckaert, A. 2008. Ramr mutations involved in efflux-mediated multidrug resistance in Salmonella enterica serovar Typhimurium. Antimicrobial Agents and Chemotherapy, 52 (7): 2428-2434.
  • 2. Barber, L.B., Keefe, S.H., LeBlanc, D.R., Bradley, P.M., Chapelle, F.H., Meyer, M.T., Loftin, K.A., Kolpin, D.W. & Rubio, F. 2009. Fate of sulfamethoxazole, 4-nonylphenol, and 17β-estradiol in groundwater contaminated by wastewater treatment plant effluent. Environmental Science & Technology, 43 (13): 4843-4850.
  • 3. Barnes, K.K., Kolpin, D.W., Furlong, E.T., Zaugg, S.D., Meyer, M.T. & Barber, L.B. 2008. A national reconnaissance of pharmaceuticals and other organic wastewater contaminants in the United States - i) groundwater. Science of The Total Environment, 402 (2-3): 192-200.
  • 4. Bezanson, G.S., Khakhria, R., Duck, D. & Lior, H. 1985. Molecular analysis confirms food source and simultaneous involvement of two distinct but related subgroups of Salmonella typhimurium bacteriophage type 10 in major interprovincial Salmonella outbreak. Applied and Environmental Microbiology, 50 (5): 1279-1284.
  • 5. Bolster, C.H., Mills, A.L., Hornberger, G.M. & Herman, J.S. 1999. Spatial distribution of deposited bacteria following miscible displacement experiments in intact cores. Water Resources Research, 35 (6): 1797-1807.
  • 6. Bradford, P.A. & Dean, C.R. 2008. Resistance of gram-negative bacilli to antimicrobials, In: Fong, I.W. & Drlica, K. (eds) Antimicrobial resistance and implications for the 21st century, Springer, New York, NY, USA, 135 pp.
  • 7. Burnham, C.A.D., Shokoples, S.E. & Tyrrell G.J. 2007. Invasion of Hela cells by group b Streptococcus requires the phosphoinositide-3-kinase signalling pathway and modulates phosphorylation of host-cell akt and glycogen synthase kinase-3. Microbiology, 153 (12): 4240-4252.
  • 8. Cebrián, L., Rodríguez, J.C., Escribano, I. & Royo, G. 2005. Characterization of Salmonella spp. mutants with reduced fluoroquinolone susceptibility: Importance of efflux pump mechanisms. Chemotherapy, 51 (1): 40-43.
  • 9. Centers for disease control and prevention (CDC) - Salmonella outbreaks. (http://www.cdc.gov/salmonella /outbreaks.html), (Date accessed 10 May 2018).
  • 10. Centers for disease control and prevention (CDC). Investigation of outbreak of infections caused by Salmonella typhimurium. (http://www.cdc.gov/salmonella/typhimurium /map.html), (Date accessed 10 May 2018).
  • 11. Chopra, I. & Roberts, M. 2001. Tetracycline antibiotics: Mode of action, applications, molecular biology, and epidemiology of bacterial resistance. Microbiology and Molecular Biology Reviews, 65 (2): 232-260.
  • 12. Chu, C., Su, L.H., Chu C.H., Baucheron, S., Cloeckaert, A. & Chiu, C.H. 2005. Resistance to fluoroquinolones linked to gyra and parc mutations and overexpression of acrab efflux pump in Salmonella enterica serotype Choleraesuis. Microbial Drug Resistance, 11 (3): 248-253.
  • 13. Clinical and Laboratory Standards Institute (CLSI) / National Committee for Clinical Laboratory, 2003. Performance standards for antimicrobial disk and dilution susceptibility tests for bacteria isolated from animals, 107 pp.
  • 14. Crane, S.R. & Moore, J.A. 1984. Bacterial pollution of groundwater: A review. Water, Air, & Soil Pollution, 22 (1): 67-83.
  • 15. Giraud, E., Cloeckaert, A., Kerboeuf, D. & Chaslus-Dancla, E. 2000. Evidence for active efflux as the primary mechanism of resistance to ciprofloxacin in Salmonella enterica serovar Typhimurium. Antimicrobial Agents and Chemotherapy, 44 (5): 1223-1228.
  • 16. Hutson, S.H., Barber, N.L., Kenny, J.F., Linsey, K.S., Lumia, D.S. & Maupin, M.A. 2004. Estimated use of water in the United States in 2000, in U.S. Geological Survey Circular. U.S. Geological Survey, Virginia, USA, 52 pp.
  • 17. Kumar, A & Schweizer, H.P. 2005. Bacterial resistance to antibiotics: Active efflux and reduced uptake. Advanced Drug Delivery Reviews, 57 (10): 1486-1513.
  • 18. Kunihiko Nishino, T.L. & Groisman, E.A. 2006. Virulence and drug resistance roles of multidrug efflux systems of Salmonella enterica serovar Typhimurium. Molecular Microbiology, 59 (1): 126-141.
  • 19. Lacroix, F.J., Cloeckaert, A., Grépinet, O., Pinault, C., Popoff, M.Y., Waxin, H. & Pardon, P. 1996. Salmonella typhimurium acrb-like gene: Identification and role in resistance to biliary salts and detergents and in murine infection. FEMS Microbiology Letters, 135 (2-3): 161-167.
  • 20. Niesel, D.W. & Peterson, J.W. 1987. Calcium enhances Salmonella typhimurium invasion of Hela cells. FEMS Microbiology Letters, 41 (3): 299-304.
  • 21. Nikaido, H., Basina, M., Nguyen, V. & Rosenberg, E.Y. 1998. Multidrug efflux pump acrab of Salmonella typhimurium excretes only those beta-lactam antibiotics containing lipophilic side chains. Journal of Bacteriology, 180 (17): 4686-4692.
  • 22. Orth, P., Schnappinger, D., Hillen, W., Saenger, W. & Hinrichs, W. 2000. Structural basis of gene regulation by the tetracycline inducible Tet repressor-operator system. Nature Structural & Molecular Biology, 7 (3): 215-219.
  • 23. Peterson, J.W. & Niesel, D.W. 1988. Enhancement by calcium of the invasiveness of Salmonella for Hela cell monolayers. Reviews of Infectious Diseases, 10(Supplement 2): 319-322.
  • 24. Piddock, L.J.V., White, D.G., Gensberg, K., Pumbwe, L. & Griggs, D.J. 2000. Evidence for an efflux pump mediating multiple antibiotic resistance in Salmonella enterica serovar Typhimurium. Antimicrobial Agents and Chemotherapy, 44 (11): 3118-3121.
  • 25. Poole, K. 2000. Efflux-mediated resistance to fluoroquinolones in gram-negative bacteria. Antimicrobial Agents and Chemotherapy, 44 (9): 2233-2241.
  • 26. Quinn, T., O'Mahony, R., Baird, A.W., Drudy, D., Whyte, P. & Fanning, S. 2006. Multi-drug resistance in Salmonella enterica: Efflux mechanisms and their relationships with the development of chromosomal resistance gene clusters Current Drug Targets, 7 (7): 849-860.
  • 27. Roberts, M. 1996. Tetracycline resistance determinants: Mechanisms of action, regulation of expression, genetic mobility, and distribution. FEMS Microbiology Reviews, 19 (1): 1-24.
  • 28. Schmoll, O., Howard, G., Chilton, J. & Chorus, I. 2006. Protecting groundwater for health. IWA Publishing, Cornwall, UK, 698 pp.
  • 29. Vugia, D.J., Samuel, M., Farley, M.M., Marcus, R., Shiferaw, B., Shallow, S., Smith, K. & Angulo, F.J. 2004. Invasive salmonella infections in the United States, FoodNet, 1996–1999: Incidence, serotype distribution, and outcome. Clinical Infectious Diseases, 38 (Supplement 3): 149-156.
  • 30. Vulliet, E. & Cren-Olivé, C. 2011. Screening of pharmaceuticals and hormones at the regional scale, in surface and groundwaters intended to human consumption. Environmental Pollution, 159 (10): 2929-2934.
  • 31. Yamaguchi, A., Kimura, T., Someya, Y. & Sawai, T. 1993. Metal-tetracycline/h+ antiporter of Escherichia coli encoded by transposon tn10. The structural resemblance and functional difference in the role of the duplicated sequence motif between hydrophobic segments 2 and 3 and segments 8 and 9. Journal of Biological Chemistry, 268 (9): 6496-6504.
  • 32. Yamaguchi, S., Aizawa, S., Kihara, M., Isomura, M., Jones, C.J. & Macnab, R.M. 1986. Genetic evidence for a switching and energy-transducing complex in the flagellar motor of Salmonella typhimurium. Journal of Bacteriology, 168 (3): 1172-1179.
There are 32 citations in total.

Details

Primary Language English
Subjects Structural Biology, Environmental Sciences, Agricultural Engineering
Journal Section Research Article/Araştırma Makalesi
Authors

Berat Zeki Haznedaroğlu 0000-0002-0081-8801

Publication Date April 15, 2019
Submission Date June 21, 2018
Acceptance Date December 18, 2018
Published in Issue Year 2019 Volume: 20 Issue: 1

Cite

APA Haznedaroğlu, B. Z. (2019). FITNESS AND PATHOGENICITY OF OUTBREAK CAUSING Salmonella UPON SHORT-TERM EXPOSURE TO GROUNDWATER WITH RESIDUAL ANTIBIOTICS. Trakya University Journal of Natural Sciences, 20(1), 1-8. https://doi.org/10.23902/trkjnat.435384
AMA Haznedaroğlu BZ. FITNESS AND PATHOGENICITY OF OUTBREAK CAUSING Salmonella UPON SHORT-TERM EXPOSURE TO GROUNDWATER WITH RESIDUAL ANTIBIOTICS. Trakya Univ J Nat Sci. April 2019;20(1):1-8. doi:10.23902/trkjnat.435384
Chicago Haznedaroğlu, Berat Zeki. “FITNESS AND PATHOGENICITY OF OUTBREAK CAUSING Salmonella UPON SHORT-TERM EXPOSURE TO GROUNDWATER WITH RESIDUAL ANTIBIOTICS”. Trakya University Journal of Natural Sciences 20, no. 1 (April 2019): 1-8. https://doi.org/10.23902/trkjnat.435384.
EndNote Haznedaroğlu BZ (April 1, 2019) FITNESS AND PATHOGENICITY OF OUTBREAK CAUSING Salmonella UPON SHORT-TERM EXPOSURE TO GROUNDWATER WITH RESIDUAL ANTIBIOTICS. Trakya University Journal of Natural Sciences 20 1 1–8.
IEEE B. Z. Haznedaroğlu, “FITNESS AND PATHOGENICITY OF OUTBREAK CAUSING Salmonella UPON SHORT-TERM EXPOSURE TO GROUNDWATER WITH RESIDUAL ANTIBIOTICS”, Trakya Univ J Nat Sci, vol. 20, no. 1, pp. 1–8, 2019, doi: 10.23902/trkjnat.435384.
ISNAD Haznedaroğlu, Berat Zeki. “FITNESS AND PATHOGENICITY OF OUTBREAK CAUSING Salmonella UPON SHORT-TERM EXPOSURE TO GROUNDWATER WITH RESIDUAL ANTIBIOTICS”. Trakya University Journal of Natural Sciences 20/1 (April 2019), 1-8. https://doi.org/10.23902/trkjnat.435384.
JAMA Haznedaroğlu BZ. FITNESS AND PATHOGENICITY OF OUTBREAK CAUSING Salmonella UPON SHORT-TERM EXPOSURE TO GROUNDWATER WITH RESIDUAL ANTIBIOTICS. Trakya Univ J Nat Sci. 2019;20:1–8.
MLA Haznedaroğlu, Berat Zeki. “FITNESS AND PATHOGENICITY OF OUTBREAK CAUSING Salmonella UPON SHORT-TERM EXPOSURE TO GROUNDWATER WITH RESIDUAL ANTIBIOTICS”. Trakya University Journal of Natural Sciences, vol. 20, no. 1, 2019, pp. 1-8, doi:10.23902/trkjnat.435384.
Vancouver Haznedaroğlu BZ. FITNESS AND PATHOGENICITY OF OUTBREAK CAUSING Salmonella UPON SHORT-TERM EXPOSURE TO GROUNDWATER WITH RESIDUAL ANTIBIOTICS. Trakya Univ J Nat Sci. 2019;20(1):1-8.

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