TY - JOUR
T1 - Identification of Salmonella for public health surveillance using whole genome sequencing
AU - Salmonella Whole Genome Sequencing Implementation Group
AU - Ashton, Philip
AU - Nair, Satheesh
AU - Peters, Tansy
AU - Bale, Janet A.
AU - Powell, David G.
AU - Painset, Anaïs
AU - Tewolde, Rediat
AU - Schaefer, Ulf
AU - Jenkins, Claire
AU - Dallman, Tim
AU - De Pinna, Elizabeth M.
AU - Grant, Kathleen
N1 - Publisher Copyright:
© 2016 Ashton et al.
PY - 2016
Y1 - 2016
N2 - In April 2015, Public Health England implemented whole genome sequencing (WGS) as a routine typing tool for public health surveillance of Salmonella, adopting a multilocus sequence typing (MLST) approach as a replacement for traditional serotyping. The WGS derived sequence type (ST) was compared to the phenotypic serotype for 6,887 isolates of S. enterica subspecies I, and of these, 6,616 (96%) were concordant. Of the 4% (n = 271) of isolates of subspecies I exhibiting a mismatch, 119 were due to a process error in the laboratory, 26 were likely caused by the serotype designation in the MLST database being incorrect and 126 occurred when two different serovars belonged to the same ST. The population structure of S. enterica subspecies II-IV differs markedly from that of subspecies I and, based on current data, defining the serovar from the clonal complex may be less appropriate for the classification of this group. Novel sequence types that were not present in the MLST database were identified in 8.6% of the total number of samples tested (including S. enterica subspecies I-IV and S. bongori) and these 654 isolates belonged to 326 novel STs. For S. enterica subspecies I, WGS MLST derived serotyping is a high throughput, accurate, robust, reliable typing method, well suited to routine public health surveillance. The combined output of ST and serovar supports the maintenance of traditional serovar nomenclature while providing additional insight on the true phylogenetic relationship between isolates.
AB - In April 2015, Public Health England implemented whole genome sequencing (WGS) as a routine typing tool for public health surveillance of Salmonella, adopting a multilocus sequence typing (MLST) approach as a replacement for traditional serotyping. The WGS derived sequence type (ST) was compared to the phenotypic serotype for 6,887 isolates of S. enterica subspecies I, and of these, 6,616 (96%) were concordant. Of the 4% (n = 271) of isolates of subspecies I exhibiting a mismatch, 119 were due to a process error in the laboratory, 26 were likely caused by the serotype designation in the MLST database being incorrect and 126 occurred when two different serovars belonged to the same ST. The population structure of S. enterica subspecies II-IV differs markedly from that of subspecies I and, based on current data, defining the serovar from the clonal complex may be less appropriate for the classification of this group. Novel sequence types that were not present in the MLST database were identified in 8.6% of the total number of samples tested (including S. enterica subspecies I-IV and S. bongori) and these 654 isolates belonged to 326 novel STs. For S. enterica subspecies I, WGS MLST derived serotyping is a high throughput, accurate, robust, reliable typing method, well suited to routine public health surveillance. The combined output of ST and serovar supports the maintenance of traditional serovar nomenclature while providing additional insight on the true phylogenetic relationship between isolates.
KW - Bioinformatics
KW - Multi-locus sequence typing
KW - Public health
KW - Salmonella
KW - Whole genome sequencing
UR - http://www.scopus.com/inward/record.url?scp=84965169038&partnerID=8YFLogxK
U2 - 10.7717/peerj.1752
DO - 10.7717/peerj.1752
M3 - Article
AN - SCOPUS:84965169038
SN - 2167-8359
VL - 2016
JO - PeerJ
JF - PeerJ
IS - 4
M1 - e1752
ER -