DOĞU AKDENİZ SEDİMANLARINDAN İZOLE EDİLEN BAKTERİLERİN FİLOGENETİK ÇEŞİTLİLİĞİ VE ANTİBİYOTİK DİRENÇLİLİĞİ
Öz
Doğu
Akdeniz'in sığ ve derin bölgelerindeki sedimanlardan izole edilen bakterilerin
filogenetik çeşitliliği ve antibiyotik duyarlılığı çalışılmıştır. Dünyadaki en
oligotrofik ortamlardan biri olan çalışma alanından izole edilen 153 suşun Firmicutes ve Gammaproteobacteria taksonlarına ait oldukları bulunmuştur. 16S
rRNA gen dizisi analizi ile belirlendiği üzere, her sediman örneğinde Bacillus en sık görülen cins olmuştur.
Bu çalışmada 10 farklı bakteri ailesinden çok çeşitli türler elde edilmiş,
özellikle toplam izolatların yüzde 12’sini yeni türlerin oluşturduğu görülmüştür.
En yüksek antibiyotik direncinin derin havzalara kıyasla kıyı sedimanlarda
olduğu gösterilmiştir. Çevresel parametrelerin bakteri toplulukları üzerinde
etkisinin olduğu belirtilmekle birlikte Doğu Akdeniz'in derin havzalarına
kıyasla özellikle Kuzey Ege Denizi'ndeki daha sığ bölgeler için yüksek
taksonlarda daha fazla filogenetik çeşitliliğin olduğu ortaya konmuştur.
Anahtar Kelimeler
Bakteri filogenetiği 16S rRNA genleri Antibiyotik duyarlılık Akdeniz
Kaynakça
- [1] Giovannoni S, Rappe M. Evolution, diversity and molecular ecology of marine prokaryotes. In: Kirchman DL, editor. Microbial ecology oft he oceans. New York: Wiley-Liss Inc, 2000, pp. 47-84.
- [2] Hagström A, Pommier T, Rowher F, Simu K, Stolte W, Svensonn D, et al. Use of 16S ribosomal DNA for delination of marine bacterioplankton species. Appl Env Microbiol 2002; 68: 3628–3633.
- [3] McIntyre A. A global census of marine microbes. In: McIntyre A, editor. Life in the world’s oceans: diversity, distribution and abundance. NewYork: Wiley-Blackwell, 2010.
- [4] Kummerer K. Antibiotics in the aquatic environment – A review – Part I. Chemosphere 2009; 75: 417–434.
- [5] Kummerer K. Antibiotics in the aquatic environment – A review – Part II. Chemosphere 2009; 75: 435–441.
- [6] Tanhua T, Hainbucher D, Shröder K, Cardin V, Alvaez M, Civitarese G. The Mediterranean Sea system: a review and an introduction to the special issue. Ocean Sci Discuss 2013; 10: 581–617.
- [7] Mincer TJ, Jensen PR, Kauffman CA, Fenical W. Widespread and persistent populations of a major new marine actinomycete taxon in ocean sediments. Appl Env Microbiol 2002; 68: 5005–5011.
- [8] Gontag EA, Fenical W, Jensen PR. Phylogenetic diversity of Gram-positive bacteria cultured from marine sediments. Appl Env Microbiol 2007; 73 (10): 3272–3282.
- [9] Hayakawa M, Sadaka T, Kayiura T, Nonomura H. New methods for the highly selective isolation Micromonospora and Microbispora. J Ferment Bioeng 1991; 72: 320-326.
- [10] Galatenko OA, Terekhova LP. Isolation of antibiotic-producing actinomycetes from soil samples exposed to UV-light. Antibiotic I Khimioter 1990; 11: 6–8.
- [11] Tamura K, Peterson D, Peterson N, Stecher G, Nei M, Kumar S. MEGA5: Molecular Evolutionary Genetics Analysis using maximum likelihood, evolutionary distance, and maximum parsimony methods. Mol Biol Evol 2011; 28: 2731–2739.
- [12] Clinical Laboratory Standards Institute (CLSI). Performance standards for antimicrobial disk susceptibility tests; approved standard – eleventh edition. Wayne, Pennsylvania, USA, 2012.
- [13] Stackebrandt E, Ebers J. Taxonomic parameters revisited: tarnished gold standards. Microbiol Today 2006; 33: 152–155.
- [14] Polymenakou PN, Lampadariou N, Mandalakis M, Tselepides A. Phylogenetic diversity of sediment bacteria from the southern Cretan margin, Eastern Mediterranean Sea. Syst Appl Microbiol 2009; 32: 17–26.
- [15] Kouridaki I, Polymenakou PN, Tselepides A, Mandalakis M, Smith KL. Phylogenetic diversity of sediment bacteria from deep Norteastern Pacific Ocean: a comparison with the deep Eastern Mediterranean Sea. Int Microbiol 2010; 13: 143–150.
- [16] Gärtner A, Blümel M, Wiese J, Imhoff JF. Isolation and characterization of bacteria from the Eastern Mediterranean deep sea. Antonie Leeuwenhoek 2011; 100: 421–435.
- [17] Altug G, Cardak M, Ciftci PS, Gurun S, Saad AA, Ibrahim A, Fakhri M. Distribution and antibiotic resistance of heterotrophic and indicator bacteria in the coastal areas of Turkey, Syria and Lebanon. Rapp Comm Int mer Medit 2010; 39: 333.
- [18] Akkan T, Kaya A, Dincer S. Antibiotic levels and heavy metal resistance in Gram-negative bacteria isolated from seawater, Iskenderun Organized Industrial Zone. JABS 2013; 7 (1): 10–14.
- [19] Sivri N, Ozbayram G, Karatut Z. Antibiotic resistance of enteric bacteria isolated from south-western Istanbul coast (Turkey). Rapp Comm Int mer Medit 2010; 39: 402.
- [20] Kimiran-Erdem A, Arslan EO, Yurudu NOS, Zeybek Z, Dogruoz N, Cotuk A. Isolation and identification of Enterococci from seawater samples: Assessment of their resistance to antibiotics and heavy metals. Environ Monit Assess 2007; 125: 219–228.
- [21] Cardak M, Altuğ G, Ay M, Erol O. Distribution of antibiotic resistance and the presence of vancomycin-resistance genes (vanA and vanB) in Enterobacteriaceae isolated from the Sea of Marmara, the Canakkale Strait and the Istanbul Strait, Turkey. Oceanol Hydrobiol St 2016; 45 (2): 182–190.
PHYLOGENETIC DIVERSITY AND ANTIBIOTIC RESISTANCE OF BACTERIA ISOLATED FROM SEDIMENTS OF EASTERN MEDITERRANEAN SEA
Öz
Phylogenetic diversity and antibiotic
susceptibility of isolated bacteria from sediments in shallow and deep regions of
Eastern Mediterranean Sea were studied. 153 strains isolated from the study
area which is one of the most oligotrophic environments in the world were found
as affiliated to the Firmicutes and Gammaproteobacteria. As determined by
16S rRNA gene sequence analysis, the Bacillus
the most frequent genus was dominant in each sediment samples. The present
study provided highly diverse bacterial strains of ten different families
especially with probability of representing new taxa as twelve percent of total
isolates. The highest antibiotic
resistance was obtained from coastal sediments compared to deep basins. The
influence of environmental parameters was observed as the variability of
bacterial community composition such that phylogenetic diversity was much
higher in higher taxa for shallower regions, especially in North Aegean Sea as
compared to deep basins of Eastern Mediterranean Sea.
Anahtar Kelimeler
Bacterial phylogeny 16S rRNA genes Antibiotic susceptibility Mediterranean Sea
Kaynakça
- [1] Giovannoni S, Rappe M. Evolution, diversity and molecular ecology of marine prokaryotes. In: Kirchman DL, editor. Microbial ecology oft he oceans. New York: Wiley-Liss Inc, 2000, pp. 47-84.
- [2] Hagström A, Pommier T, Rowher F, Simu K, Stolte W, Svensonn D, et al. Use of 16S ribosomal DNA for delination of marine bacterioplankton species. Appl Env Microbiol 2002; 68: 3628–3633.
- [3] McIntyre A. A global census of marine microbes. In: McIntyre A, editor. Life in the world’s oceans: diversity, distribution and abundance. NewYork: Wiley-Blackwell, 2010.
- [4] Kummerer K. Antibiotics in the aquatic environment – A review – Part I. Chemosphere 2009; 75: 417–434.
- [5] Kummerer K. Antibiotics in the aquatic environment – A review – Part II. Chemosphere 2009; 75: 435–441.
- [6] Tanhua T, Hainbucher D, Shröder K, Cardin V, Alvaez M, Civitarese G. The Mediterranean Sea system: a review and an introduction to the special issue. Ocean Sci Discuss 2013; 10: 581–617.
- [7] Mincer TJ, Jensen PR, Kauffman CA, Fenical W. Widespread and persistent populations of a major new marine actinomycete taxon in ocean sediments. Appl Env Microbiol 2002; 68: 5005–5011.
- [8] Gontag EA, Fenical W, Jensen PR. Phylogenetic diversity of Gram-positive bacteria cultured from marine sediments. Appl Env Microbiol 2007; 73 (10): 3272–3282.
- [9] Hayakawa M, Sadaka T, Kayiura T, Nonomura H. New methods for the highly selective isolation Micromonospora and Microbispora. J Ferment Bioeng 1991; 72: 320-326.
- [10] Galatenko OA, Terekhova LP. Isolation of antibiotic-producing actinomycetes from soil samples exposed to UV-light. Antibiotic I Khimioter 1990; 11: 6–8.
- [11] Tamura K, Peterson D, Peterson N, Stecher G, Nei M, Kumar S. MEGA5: Molecular Evolutionary Genetics Analysis using maximum likelihood, evolutionary distance, and maximum parsimony methods. Mol Biol Evol 2011; 28: 2731–2739.
- [12] Clinical Laboratory Standards Institute (CLSI). Performance standards for antimicrobial disk susceptibility tests; approved standard – eleventh edition. Wayne, Pennsylvania, USA, 2012.
- [13] Stackebrandt E, Ebers J. Taxonomic parameters revisited: tarnished gold standards. Microbiol Today 2006; 33: 152–155.
- [14] Polymenakou PN, Lampadariou N, Mandalakis M, Tselepides A. Phylogenetic diversity of sediment bacteria from the southern Cretan margin, Eastern Mediterranean Sea. Syst Appl Microbiol 2009; 32: 17–26.
- [15] Kouridaki I, Polymenakou PN, Tselepides A, Mandalakis M, Smith KL. Phylogenetic diversity of sediment bacteria from deep Norteastern Pacific Ocean: a comparison with the deep Eastern Mediterranean Sea. Int Microbiol 2010; 13: 143–150.
- [16] Gärtner A, Blümel M, Wiese J, Imhoff JF. Isolation and characterization of bacteria from the Eastern Mediterranean deep sea. Antonie Leeuwenhoek 2011; 100: 421–435.
- [17] Altug G, Cardak M, Ciftci PS, Gurun S, Saad AA, Ibrahim A, Fakhri M. Distribution and antibiotic resistance of heterotrophic and indicator bacteria in the coastal areas of Turkey, Syria and Lebanon. Rapp Comm Int mer Medit 2010; 39: 333.
- [18] Akkan T, Kaya A, Dincer S. Antibiotic levels and heavy metal resistance in Gram-negative bacteria isolated from seawater, Iskenderun Organized Industrial Zone. JABS 2013; 7 (1): 10–14.
- [19] Sivri N, Ozbayram G, Karatut Z. Antibiotic resistance of enteric bacteria isolated from south-western Istanbul coast (Turkey). Rapp Comm Int mer Medit 2010; 39: 402.
- [20] Kimiran-Erdem A, Arslan EO, Yurudu NOS, Zeybek Z, Dogruoz N, Cotuk A. Isolation and identification of Enterococci from seawater samples: Assessment of their resistance to antibiotics and heavy metals. Environ Monit Assess 2007; 125: 219–228.
- [21] Cardak M, Altuğ G, Ay M, Erol O. Distribution of antibiotic resistance and the presence of vancomycin-resistance genes (vanA and vanB) in Enterobacteriaceae isolated from the Sea of Marmara, the Canakkale Strait and the Istanbul Strait, Turkey. Oceanol Hydrobiol St 2016; 45 (2): 182–190.
Ayrıntılar
| Birincil Dil | Türkçe |
|---|---|
| Konular | Yapısal Biyoloji |
| Bölüm | Makaleler |
| Yazarlar | |
| Yayımlanma Tarihi | 31 Temmuz 2019 |
| Yayımlandığı Sayı | Yıl 2019 Cilt: 8 Sayı: 2 |