Literature DB >> 29921241

Correction to: Characterization of biofilm-forming capacity and resistance to sanitizers of a range of E.coli O26 pathotypes from clinical cases and cattle in Australia.

Salma A Lajhar1,2, Jeremy Brownlie3, Robert Barlow4.   

Abstract

On page 4of the original publication [1], the correct sentence should read.

Entities:  

Year:  2018        PMID: 29921241      PMCID: PMC6008933          DOI: 10.1186/s12866-018-1202-z

Source DB:  PubMed          Journal:  BMC Microbiol        ISSN: 1471-2180            Impact factor:   3.605


Correction

On page 4 of the original publication [1], the correct sentence should read: Quantitative measurement was performed by dissolving CV stained pellicle in 4 ml of 85% ethanol and the OD570 was measured using microplate reader at 200 μl per well. Table 2 of this original publication contained some errors. The updated Table 2 is published in this correction article.
Table 2

Biofilm formation on polystyrene microtiter plates, stainless steel coupons, glass slides and pellicle formation at the air-liquid interface

PathotypesIsolates No.Biofilm mass on polystyrene at incubation time ofBiofilm mass onbPellicle formationc
24 h48 h72 hSSGS
EHECEC1A0.024 ± 0.004a0.076 ± 0.0150.049 ± 0.007110.061 ± 0.011
EC1113B0.029 ± 0.0050.119 ± 0.0220.191 ± 0.039331.884 ± 0.259
EC1643B0.047 ± 0.0060.251 ± 0.0331.126 ± 0.153333.595 ± 0.191
EC18570.036 ± 0.0060.063 ± 0.0110.107 ± 0.016330.856 ± 0.078
EC2170.054 ± 0.0090.100 ± 0.0150.043 ± 0.008210.025 ± 0.009
EC34550.066 ± 0.0080.025 ± 0.0050.060 ± 0.007331.228 ± 0.145
EC35220.060 ± 0.0080.058 ± 0.0100.086 ± 0.011110.039 ± 0.034
EC3547A0.043 ± 0.0030.236 ± 0.0140.503 ± 0.030220.839 ± 0.113
EC3652B0.056 ± 0.0100.102 ± 0.0140.104 ± 0.016331.875 ± 0.103
EC3659B0.026 ± 0.0090.058 ± 0.0090.093 ± 0.014331.652 ± 0.152
EC3671A0.016 ± 0.0050.091 ± 0.0100.125 ± 0.017331.554 ± 0.167
EC3738B−0.010 ± 0.0030.032 ± 0.0130.093 ± 0.027110.145 ± 0.030
EC3743A0.038 ± 0.0060.087 ± 0.0110.075 ± 0.010331.218 ± 0.087
EC40.023 ± 0.0040.045 ± 0.0090.024 ± 0.005210.097 ± 0.023
EC478B0.086 ± 0.0110.127 ± 0.0110.133 ± 0.011220.480 ± 0.061
EC6740.011 ± 0.0050.064 ± 0.0130.130 ± 0.023331.660 ± 0.151
EC7B0.082 ± 0.0140.109 ± 0.0130.230 ± 0.052331.397 ± 0.091
EC4158QH10.047 ± 0.0050.082 ± 0.0150.069 ± 0.011110.092 ± 0.042
EC4159QH20.049 ± 0.0070.089 ± 0.0130.055 ± 0.007210.035 ± 0.025
EC4160QH30.098 ± 0.0150.034 ± 0.0080.044 ± 0.008232.257 ± 0.099
EC3213QH340.036 ± 0.0060.072 ± 0.0070.171 ± 0.017331.079 ± 0.046
EC4161QH40.075 ± 0.0120.060 ± 0.0100.061 ± 0.009210.050 ± 0.021
EC4162QH50.001 ± 0.0090.088 ± 0.0201.021 ± 0.154332.882 ± 0.255
EC4163QH60.017 ± 0.0030.135 ± 0.0301.469 ± 0.304231.848 ± 0.127
EC4164QH70.053 ± 0.0060.223 ± 0.0250.245 ± 0.025210.092 ± 0.034
EC4165QH80.070 ± 0.0080.127 ± 0.0190.156 ± 0.026110.065 ± 0.037
EC4166QH90.061 ± 0.0070.051 ± 0.0100.070 ± 0.010332.746 ± 0.163
pEHECEC8010.040 ± 0.0050.119 ± 0.0170.121 ± 0.020210.150 ± 0.042
EC3983A0.033 ± 0.0060.057 ± 0.0110.074 ± 0.010210.081 ± 0.024
EC3989A0.063 ± 0.0080.638 ± 0.0361.402 ± 0.203333.859 ± 0.138
aEPECEC3435A0.044 ± 0.0090.041 ± 0.0070.060 ± 0.007010.104 ± 0.064
EC34570.110 ± 0.0200.134 ± 0.0230.135 ± 0.01411−0.001 ± 0.030
EC3610A0.019 ± 0.0030.017 ± 0.0040.033 ± 0.005100.018 ± 0.023
EC3727A0.037 ± 0.0050.034 ± 0.0070.119 ± 0.021010.268 ± 0.051
EC3735A0.046 ± 0.0110.017 ± 0.0110.108 ± 0.019010.135 ± 0.027
EC3768A0.035 ± 0.0120.078 ± 0.0170.206 ± 0.028010.128 ± 0.020
EC4013A0.048 ± 0.0180.027 ± 0.0110.101 ± 0.014010.177 ± 0.032
EC4039A0.006 ± 0.0030.060 ± 0.0090.048 ± 0.00710−0.005 ± 0.013
NTECEC3536B0.052 ± 0.0050.224 ± 0.0210.475 ± 0.034330.966 ± 0.158
EC3946A0.052 ± 0.0060.313 ± 0.0560.404 ± 0.034330.587 ± 0.127
Negative controlLb broth0.080 ± 0.00090.078 ± 0.0010.071 ± 0.000400

aValues are shown as mean of biofilm production ± standard error on polystyrene surfaces, SS: stainless steel, GS: glass slide at 25 °C. According to the biofilm

mass quantified with crystal violet staining assay at 570 nm isolates were labelled as the following: low, medium and thick biofilm formers

bVisible biofilms on stainless steel and glass slides and was scored as 0: no visible biofilm, scored on a scale from 1 to 3 to a thick biofilm at the air-liquid

cThe presence and absence of visible pellicles biofilms was scored visually before staining with CV. Strains with visible pellicles at the air-liquid interface had OD570 ≥0.48

Biofilm formation on polystyrene microtiter plates, stainless steel coupons, glass slides and pellicle formation at the air-liquid interface aValues are shown as mean of biofilm production ± standard error on polystyrene surfaces, SS: stainless steel, GS: glass slide at 25 °C. According to the biofilm mass quantified with crystal violet staining assay at 570 nm isolates were labelled as the following: low, medium and thick biofilm formers bVisible biofilms on stainless steel and glass slides and was scored as 0: no visible biofilm, scored on a scale from 1 to 3 to a thick biofilm at the air-liquid cThe presence and absence of visible pellicles biofilms was scored visually before staining with CV. Strains with visible pellicles at the air-liquid interface had OD570 ≥0.48
  1 in total

1.  Characterization of biofilm-forming capacity and resistance to sanitizers of a range of E. coli O26 pathotypes from clinical cases and cattle in Australia.

Authors:  Salma A Lajhar; Jeremy Brownlie; Robert Barlow
Journal:  BMC Microbiol       Date:  2018-05-08       Impact factor: 3.605
  1 in total
  1 in total

1.  The interactions of bacteriophage Ace and Shiga toxin-producing Escherichia coli during biocontrol.

Authors:  Graça Pinto; Scott A Minnich; Carolyn J Hovde; Hugo Oliveira; Hauke Smidt; Carina Almeida; Joana Azeredo
Journal:  FEMS Microbiol Ecol       Date:  2021-08-03       Impact factor: 4.194
  1 in total

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