Complete Genome Sequences of Two Escherichia coli O145:H28 Outbreak Strains of Food Origin

Kerry K. Cooper; Robert E. Mandrell; Jacqueline W. Louie; Jonas Korlach; Tyson A. Clark; Craig T. Parker; Steven Huynh; Patrick S. G. Chain; Sanaa Ahmed; Michelle Qiu Carter

doi:10.1128/genomeA.00482-14

DOI: 10.1128/genomeA.00482-14

ABSTRACT

Escherichia coli O145:H28 strain RM12581 was isolated from bagged romaine lettuce during a 2010 U.S. lettuce-associated outbreak. E. coli O145:H28 strain RM12761 was isolated from ice cream during a 2007 ice cream-associated outbreak in Belgium. Here we report the complete genome sequences and annotation of both strains.

GENOME ANNOUNCEMENT

Shiga toxin-producing Escherichia coli O145 was identified as a cause of hemolytic uremic syndrome (HUS) at least two decades ago (1 –3), and now is recognized as one of the six non-O157 serotypes that are most frequently associated with human disease in the United States (4, 5). Food-borne outbreaks of O145 infection have been reported worldwide (6 –9). E. coli O145:H28 strain RM12581 was isolated from bagged romaine lettuce during a multistate outbreak of O145 infections associated with romaine lettuce consumption in April and May 2010 in the United States (9). Strain RM12761 was isolated from ice cream during an outbreak of O145 and O26 infections among ice cream consumers in Belgium in 2007 (7, 10). We reported previously the complete genome sequence of a clinical isolate linked to each of the two outbreaks (11).

Whole-genome sequencing (WGS) and 8-kb insert paired-end (PE) 454 sequencing libraries were prepared and sequenced on an FLX Genome Sequencer (Roche) using Titanium chemistry. Illumina library preparation and sequencing (101 bp PE) were run at Ambry Genetics (Aliso Viejo, CA) on an HiSeq2000 sequencer. PacBio libraries for circular consensus sequence (CCS) reads were prepared and PacBio SMRT sequencing was run on a PacBio RS instrument using C2 chemistry. Draft genomes were assembled using Newbler (v2.3) for 454 reads and VELVET (v1.0.13) for Illumina PE reads as described previously (11). A total of 13 scaffolds composed of 158 contigs and 2 scaffolds composed of 6 contigs were generated for RM12581 and RM12761, respectively, after gap closure and misassembly correction using GapResolution and dupFinisher (12, 13). PacBio CCS reads were then aligned to the contigs using Geneious (v5.1) software (14), and the remaining gaps were manually closed in silico. Annotation was carried out using RAST (http://rast.nmpdr.org) (15).

The E. coli RM12581 genome is composed of a 5,585,611-bp chromosome and two large plasmids, pO145-12581 (81,120 bp) and pRM12581 (64,562 bp), and contains 5,769 coding DNA sequences (CDSs), 22 rRNAs, and 104 tRNAs. The E. coli RM12761 genome is composed of a 5,402,281-bp chromosome and two large plasmids, pO145-12761 (98,067 bp) and pRM12761 (58,666 bp), and contains 5,493 CDSs, 22 rRNAs, and 98 tRNAs. Single nucleotide polymorphisms (SNPs) between the strains of food and clinical origins linked to the same outbreak (RM12581 and RM13514; RM12761 and RM13516) were identified using breseq (v0.23) (16, 17). A total of 18 SNPs were identified in non-repeat regions for the 2007 Belgian ice cream-associated outbreak strains, of which 11 are in intergenic regions and seven are in coding regions (4 synonymous SNPs, 2 nonsense mutations, and 1 nonsynonymous mutation). The two CDSs with a nonsense mutation encode an endonuclease (ECRM13516_0820) and a hypothetical protein (ECRM13516_2566). The nonsynonymous mutation was detected in the gene encoding a valyl-tRNA synthetase (ECRM13516_5090). In contrast, no SNPs were identified in non-repeat regions between the two strains linked to the 2010 U.S. lettuce-associated outbreak. Nearly identical methylomes were detected between the two E. coli O145 strains of food and clinical origins that were linked to the same outbreak (11).

Nucleotide sequence accession numbers.The E. coli O145:H28 strain RM12581 and RM12761 genome sequences were deposited at DDBJ/EMBL/GenBank under the accession no. CP007136 to CP007138 and CP007133 to CP007135, respectively.

ACKNOWLEDGMENTS

This research work was supported by USDA-ARS CRIS 5325-046 and -047. K.K.C. was supported by USDA Research Associate Program funds awarded to M.Q.C.

We thank Matthew Boitano for assistance with PacBio sample preparation, Khai Luong for assistance with data analysis, Denis Pierard for providing the Belgian ice cream-associated outbreak strain, and James Rudrik for providing the U.S. romaine lettuce-associated outbreak strain.

FOOTNOTES

Received 30 April 2014.
Accepted 5 May 2014.
Published 22 May 2014.

This is an open-access article distributed under the terms of the Creative Commons Attribution 3.0 Unported license.

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6. Parker CT,
7. Huynh S,
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8. Chertkov O,
9. Chokoshvili O,
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14. Erkkila TH,
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17. George M,
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33. Reitenga KG,
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35. Shea A,
36. Shen X,
37. Strockbine N,
38. Tarr C,
39. Teshima H,
40. van Gieson E,
41. Verratti K,
42. Wolcott M,
43. Xie G,
44. Sozhamannan S,
45. Gibbons HS,
46. Threat Characterization Consortium
. 2012. Genomic comparison of Escherichia coli O104:H4 isolates from 2009 and 2011 reveals plasmid, and prophage heterogeneity, including Shiga toxin encoding phage stx2. PLoS One 7:e48228. doi:10.1371/journal.pone.0048228.
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13.↵
1. Han C,
2. Chain P
. 2006. Finishing repetitive regions automatically with Dupfinisher, p 142–147. Arabnia HR, Valafar H (ed), Proceedings of the 2006 International Conference on Bioinformatics & Computational Biology,BIOCOMP'06, Las Vegas, NV.
14.↵
1. Kearse M,
2. Moir R,
3. Wilson A,
4. Stones-Havas S,
5. Cheung M,
6. Sturrock S,
7. Buxton S,
8. Cooper A,
9. Markowitz S,
10. Duran C,
11. Thierer T,
12. Ashton B,
13. Meintjes P,
14. Drummond A
. 2012. Geneious basic: an integrated and extendable desktop software platform for the organization and analysis of sequence data. Bioinformatics 28:1647–1649. doi:10.1093/bioinformatics/bts199.
OpenUrl CrossRef PubMed Web of Science
15.↵
1. Aziz RK,
2. Bartels D,
3. Best AA,
4. DeJongh M,
5. Disz T,
6. Edwards RA,
7. Formsma K,
8. Gerdes S,
9. Glass EM,
10. Kubal M,
11. Meyer F,
12. Olsen GJ,
13. Olson R,
14. Osterman AL,
15. Overbeek RA,
16. McNeil LK,
17. Paarmann D,
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1. Barrick JE,
2. Lenski RE
. 2009. Genome-wide mutational diversity in an evolving population of Escherichia coli. Cold Spring Harb. Symp. Quant. Biol. 74:119–129. doi:10.1101/sqb.2009.74.018.
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Cited By...

[1] 1.↵
Karmali MA,
Petric M,
Lim C,
Fleming PC,
Arbus GS,
Lior H
. 1985. The association between idiopathic hemolytic uremic syndrome and infection by verotoxin-producing Escherichia coli. J. Infect. Dis. 151:775–782. doi:10.1093/infdis/151.5.775.
OpenUrl CrossRef PubMed Web of Science

[2] Karmali MA,

[3] Petric M,

[4] Lim C,

[5] Fleming PC,

[6] Arbus GS,

[7] Lior H

[8] 2.↵
Chart H,
van der Kar NC,
Tolboom JJ,
Monnens LM,
Rowe B
. 1993. Serological detection of verocytotoxin-producing Escherichia coli in patients with haemolytic uraemic syndrome in Western Europe. Eur. J. Clin. Microbiol. Infect. Dis. 12:707–709. doi:10.1007/BF02009386.
OpenUrl CrossRef PubMed

[9] Chart H,

[10] van der Kar NC,

[11] Tolboom JJ,

[12] Monnens LM,

[13] Rowe B

[14] 3.↵
Beutin L,
Aleksic S,
Zimmermann S,
Gleier K
. 1994. Virulence factors and phenotypical traits of verotoxigenic strains of Escherichia coli isolated from human patients in Germany. Med. Microbiol. Immunol. 183:13–21.
OpenUrl CrossRef PubMed

[15] Beutin L,

[16] Aleksic S,

[17] Zimmermann S,

[18] Gleier K

[19] 4.↵
Mathusa EC,
Chen Y,
Enache E,
Hontz L
. 2010. Non-O157 Shiga toxin-producing Escherichia coli in foods. J. Food Prot. 73:1721–1736.
OpenUrl CrossRef PubMed

[20] Mathusa EC,

[21] Chen Y,

[22] Enache E,

[23] Hontz L

[24] 5.↵
Brooks JT,
Sowers EG,
Wells JG,
Greene KD,
Griffin PM,
Hoekstra RM,
Strockbine NA
. 2005. Non-O157 Shiga toxin-producing Escherichia coli infections in the United States, 1983–2002. J. Infect. Dis. 192:1422–1429. doi:10.1086/466536.
OpenUrl CrossRef PubMed Web of Science

[25] Brooks JT,

[26] Sowers EG,

[27] Wells JG,

[28] Greene KD,

[29] Griffin PM,

[30] Hoekstra RM,

[31] Strockbine NA

[32] 6.↵
Heinikainen S,
Pohjanvirta T,
Eklund M,
Siitonen A,
Pelkonen S
. 2007. Tracing shigatoxigenic Escherichia coli O103, O145, and O174 infections from farm residents to cattle. J. Clin. Microbiol. 45:3817–3820. doi:10.1128/JCM.00198-07.
OpenUrl Abstract/FREE Full Text

[33] Heinikainen S,

[34] Pohjanvirta T,

[35] Eklund M,

[36] Siitonen A,

[37] Pelkonen S

[38] 7.↵
De Schrijver K,
Buvens G,
Posse B,
Van den Branden D,
Oosterlynck O,
De Zutter L,
Eilers K,
Pierard D,
Dierick K,
Van Damme-Lombaerts R,
Lauwers C,
Jacobs R
. 2008. Outbreak of verocytotoxin-producing E. coli O145 and O26 infections associated with the consumption of ice cream produced at a farm, Belgium, 2007. Euro Surveill. 13:pii=8041. http://www.eurosurveillance.org/ViewArticle.aspx?ArticleId=8041.
OpenUrl

[39] De Schrijver K,

[40] Buvens G,

[41] Posse B,

[42] Van den Branden D,

[43] Oosterlynck O,

[44] De Zutter L,

[45] Eilers K,

[46] Pierard D,

[47] Dierick K,

[48] Van Damme-Lombaerts R,

[49] Lauwers C,

[50] Jacobs R

[51] 8.↵
Much P,
Pichler J,
Kasper SS,
Allerberger F
. 2009. Foodborne outbreaks, Austria 2007. Wien. Klin. Wochenschr. 121:77–85. doi:10.1007/s00508-008-1125-z.
OpenUrl CrossRef PubMed

[52] Much P,

[53] Pichler J,

[54] Kasper SS,

[55] Allerberger F

[56] 9.↵
Taylor EV,
Nguyen TA,
Machesky KD,
Koch E,
Sotir MJ,
Bohm SR,
Folster JP,
Bokanyi R,
Kupper A,
Bidol SA,
Emanuel A,
Arends KD,
Johnson SA,
Dunn J,
Stroika S,
Patel MK,
Williams I
. 2013. Multistate outbreak of Escherichia coli O145 infections associated with romaine lettuce consumption, 2010. J. Food Prot. 76:939–944. doi:10.4315/0362-028X.JFP-12-503.
OpenUrl CrossRef PubMed

[57] Taylor EV,

[58] Nguyen TA,

[59] Machesky KD,

[60] Koch E,

[61] Sotir MJ,

[62] Bohm SR,

[63] Folster JP,

[64] Bokanyi R,

[65] Kupper A,

[66] Bidol SA,

[67] Emanuel A,

[68] Arends KD,

[69] Johnson SA,

[70] Dunn J,

[71] Stroika S,

[72] Patel MK,

[73] Williams I

[74] 10.↵
Buvens G,
Posse B,
De Schrijver K,
De Zutter L,
Lauwers S,
Pierard D
. 2011. Virulence profiling and quantification of verocytotoxin-producing Escherichia coli O145:H28 and O26:H11 isolated during an ice cream-related hemolytic uremic syndrome outbreak. Foodborne Pathog. Dis. 8:421–426. doi:10.1089/fpd.2010.0693.
OpenUrl CrossRef PubMed

[75] Buvens G,

[76] Posse B,

[77] De Schrijver K,

[78] De Zutter L,

[79] Lauwers S,

[80] Pierard D

[81] 11.↵
Cooper KK,
Mandrell RE,
Louie JW,
Korlach J,
Clark TA,
Parker CT,
Huynh S,
Chain PS,
Ahmed S,
Carter MQ
. 2014. Comparative genomics of enterohemorrhagic Escherichia coli O145:H28 demonstrates a common evolutionary lineage with Escherichia coli. BMC Genomics 15:17. doi:10.1186/1471-2164-15-17.
OpenUrl CrossRef PubMed

[82] Cooper KK,

[83] Mandrell RE,

[84] Louie JW,

[85] Korlach J,

[86] Clark TA,

[87] Parker CT,

[88] Huynh S,

[89] Chain PS,

[90] Ahmed S,

[91] Carter MQ

[92] 12.↵
Ahmed SA,
Awosika J,
Baldwin C,
Bishop-Lilly KA,
Biswas B,
Broomall S,
Chain PSG,
Chertkov O,
Chokoshvili O,
Coyne S,
Davenport K,
Detter JC,
Dorman W,
Erkkila TH,
Folster JP,
Frey KG,
George M,
Gleasner C,
Henry M,
Hill KK,
Hubbard K,
Insalaco J,
Johnson S,
Kitzmiller A,
Krepps M,
Lo CC,
Luu T,
McNew LA,
Minogue T,
Munk CA,
Osborne B,
Patel M,
Reitenga KG,
Rosenzweig CN,
Shea A,
Shen X,
Strockbine N,
Tarr C,
Teshima H,
van Gieson E,
Verratti K,
Wolcott M,
Xie G,
Sozhamannan S,
Gibbons HS,
Threat Characterization Consortium
. 2012. Genomic comparison of Escherichia coli O104:H4 isolates from 2009 and 2011 reveals plasmid, and prophage heterogeneity, including Shiga toxin encoding phage stx2. PLoS One 7:e48228. doi:10.1371/journal.pone.0048228.
OpenUrl CrossRef PubMed

[93] Ahmed SA,

[94] Awosika J,

[95] Baldwin C,

[96] Bishop-Lilly KA,

[97] Biswas B,

[98] Broomall S,

[99] Chain PSG,

[100] Chertkov O,

[101] Chokoshvili O,

[102] Coyne S,

[103] Davenport K,

[104] Detter JC,

[105] Dorman W,

[106] Erkkila TH,

[107] Folster JP,

[108] Frey KG,

[109] George M,

[110] Gleasner C,

[111] Henry M,

[112] Hill KK,

[113] Hubbard K,

[114] Insalaco J,

[115] Johnson S,

[116] Kitzmiller A,

[117] Krepps M,

[118] Lo CC,

[119] Luu T,

[120] McNew LA,

[121] Minogue T,

[122] Munk CA,

[123] Osborne B,

[124] Patel M,

[125] Reitenga KG,

[126] Rosenzweig CN,

[127] Shea A,

[128] Shen X,

[129] Strockbine N,

[130] Tarr C,

[131] Teshima H,

[132] van Gieson E,

[133] Verratti K,

[134] Wolcott M,

[135] Xie G,

[136] Sozhamannan S,

[137] Gibbons HS,

[138] Threat Characterization Consortium

[139] 13.↵
Han C,
Chain P
. 2006. Finishing repetitive regions automatically with Dupfinisher, p 142–147. Arabnia HR, Valafar H (ed), Proceedings of the 2006 International Conference on Bioinformatics & Computational Biology,BIOCOMP'06, Las Vegas, NV.

[140] Han C,

[141] Chain P

[142] 14.↵
Kearse M,
Moir R,
Wilson A,
Stones-Havas S,
Cheung M,
Sturrock S,
Buxton S,
Cooper A,
Markowitz S,
Duran C,
Thierer T,
Ashton B,
Meintjes P,
Drummond A
. 2012. Geneious basic: an integrated and extendable desktop software platform for the organization and analysis of sequence data. Bioinformatics 28:1647–1649. doi:10.1093/bioinformatics/bts199.
OpenUrl CrossRef PubMed Web of Science

[143] Kearse M,

[144] Moir R,

[145] Wilson A,

[146] Stones-Havas S,

[147] Cheung M,

[148] Sturrock S,

[149] Buxton S,

[150] Cooper A,

[151] Markowitz S,

[152] Duran C,

[153] Thierer T,

[154] Ashton B,

[155] Meintjes P,

[156] Drummond A

[157] 15.↵
Aziz RK,
Bartels D,
Best AA,
DeJongh M,
Disz T,
Edwards RA,
Formsma K,
Gerdes S,
Glass EM,
Kubal M,
Meyer F,
Olsen GJ,
Olson R,
Osterman AL,
Overbeek RA,
McNeil LK,
Paarmann D,
Paczian T,
Parrello B,
Pusch GD,
Reich C,
Stevens R,
Vassieva O,
Vonstein V,
Wilke A,
Zagnitko O
. 2008. The RAST server: Rapid Annotations using Subsystems Technology. BMC Genomics 9:75. doi:10.1186/1471-2164-9-75.
OpenUrl CrossRef PubMed

[158] Aziz RK,

[159] Bartels D,

[160] Best AA,

[161] DeJongh M,

[162] Disz T,

[163] Edwards RA,

[164] Formsma K,

[165] Gerdes S,

[166] Glass EM,

[167] Kubal M,

[168] Meyer F,

[169] Olsen GJ,

[170] Olson R,

[171] Osterman AL,

[172] Overbeek RA,

[173] McNeil LK,

[174] Paarmann D,

[175] Paczian T,

[176] Parrello B,

[177] Pusch GD,

[178] Reich C,

[179] Stevens R,

[180] Vassieva O,

[181] Vonstein V,

[182] Wilke A,

[183] Zagnitko O

[184] 16.↵
Barrick JE,
Lenski RE
. 2009. Genome-wide mutational diversity in an evolving population of Escherichia coli. Cold Spring Harb. Symp. Quant. Biol. 74:119–129. doi:10.1101/sqb.2009.74.018.
OpenUrl Abstract/FREE Full Text

[185] Barrick JE,

[186] Lenski RE

[187] 17.↵
Barrick JE,
Yu DS,
Yoon SH,
Jeong H,
Oh TK,
Schneider D,
Lenski RE,
Kim JF
. 2009. Genome evolution and adaptation in a long-term experiment with Escherichia coli. Nature 461:1243–1247. doi:10.1038/nature08480.
OpenUrl CrossRef PubMed Web of Science

[188] Barrick JE,

[189] Yu DS,

[190] Yoon SH,

[191] Jeong H,

[192] Oh TK,

[193] Schneider D,

[194] Lenski RE,

[195] Kim JF

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