coli p-group distribution A B1 B2 D Timing (h) a % (n) Numbers of antibiotic-resistant b Antibiotic Resistance c (n) % (n) hly d Numbers of antibiotic-resistant b Antibiotic Resistance c (n) % (n) O81 e Numbers of antibiotic-resistant b Antibiotic resistance c (n) % (n) Numbers of antibiotic-resistant b Antibiotic resistance c (n) -5 h 25% (3) 2 AMX/CHL(1) CHL(1). 50% (6) 0 4 CHL(4) 8% (1) 0 0 nd 17% (2) 0 nd +6 h 56% (22)*** 14 AMX/TIC/CHL(5) AMX/TIC/CHL/SXT/STR(1)
AMX/TIC/SXT/STR(1) CHL(6) CHL/TET(1) 15% (6)*** 1 3 CHL(3) 8% (3) 0 2 CHL(2). 21% (8) 4 AMX/TIC/SXT/STR(1) CHL(3) +19 h 15% (6)*** 3 AMX/CHL(1) AMX/TIC/CHL(1) AMX/TIC(1) 74% (29)*** 21 9 TET(1) CHL(7) AMX/CHL/TET(1) 5% (2) 0 2 CHL(2). 5% (2) PLX4032 concentration 1 CHL(1) nd: not detected n: numbers of isolates a Timing in relation to rainfall b E. coli isolates resistant to one or more antibiotics c AMX: amoxicillin; TIC: ticarcillin
CHL: chloramphenicol; TET: tetracyclin; STR: streptomycin; SXT:trimethoprim + sulfamethoxazole d hly gene detection by PCR method e Serotype O81 detection by PCR method Figure 2 Influence of a rain event during a wet period on E. coli density. The arrow indicates the beginning of 14 mm rain event. We cannot exclude an input from wild animals (mainly birds and rabbits), although wild E. coli strains are usually not resistant to antibiotics [39]. These results indicate that during the rain event, an increase in microbial contamination was accompanied by a modification of the structure of the E. coli population, resulting in a high ratio of Crizotinib clinical trial phylo-groups A/B1. In contrast, in the water collected 19 h after the rain event, and only slightly contaminated by E. coli, the majority of E. coli isolates belonged to the B1 phylo-group. Diversity of E. coli B1 strains isolated from the creek water As E. coli B1 was the dominant phylo-group isolated in water from the Bébec, accounting for between 15% to 87% of the E. coli population (Tables 2 and 3), we investigated further the
diversity of E. coli B1 isolates by (i) sequencing Pregnenolone the uidA gene (beta-D-glucuronidase, 600 pb) and comparing the sequences obtained with those in the MLST Pasteur database in order to find the uidA allele, (ii) detecting the presence of hly and determining molecularly the O-type, (iii) studying the antibiotic resistance profile. A total of 40 epidemiological types (ETs) were identified among the 112 E. coli B1 isolated from the water (Table 4) and the proportion of each ETs differed for each sampling event (Figure 3A and 3B). Table 4 Epidemiological types of E. coli B1 strains recovered from creek water. Epidemiological types uidA allele hly Antibiotica O-typeb Numbers of isolates AMX CHL TET ET 1.1 uidA2 0 0 0 0 NT 27 ET 1.2 uidA2 1 0 0 0 NT 1 ET 1.3 uidA2 0 0 1 0 NT 4 ET 1.4 uidA2 0 0 0 1 NT 2 ET 1.5 uidA2 0 0 1 1 NT 1 ET 1.6 uidA2 0 0 0 0 O8 1 ET 1.7 uidA2 0 0 0 0 O15 5 ET 1.
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