Salmonella enterica parC conferring resistance to fluoroquinolones

Accession ARO:3003939
CARD Short NameSent_parC_FLO
DefinitionPoint mutations in Salmonella parC gene implicated in decreased susceptibility to fluoroquinolone antibiotics, primarily ciprofloxacin and nalidixic acid.
AMR Gene Familyfluoroquinolone resistant parC
Drug Classfluoroquinolone antibiotic
Resistance Mechanismantibiotic target alteration
Resistomes with Sequence VariantsSalmonella entericawgs
Classification11 ontology terms | Show
Parent Term(s)3 ontology terms | Show
+ confers_resistance_to_antibiotic ciprofloxacin [Antibiotic]
+ fluoroquinolone resistant parC [AMR Gene Family]
+ confers_resistance_to_antibiotic nalidixic acid [Antibiotic]
Publications

Gopal M, et al. 2016. J Clin Diagn Res 10(7):DC14-8 GyrA ser83 and ParC trp106 Mutations in Salmonella enterica Serovar Typhi Isolated from Typhoid Fever Patients in Tertiary Care Hospital. (PMID 27630841)

Resistomes

Prevalence of Salmonella enterica parC conferring resistance to fluoroquinolones among the sequenced genomes, plasmids, and whole-genome shotgun assemblies available at NCBI or IslandViewer for 414 important pathogens (see methodological details and complete list of analyzed pathogens). Values reflect percentage of genomes, plasmids, genome islands, or whole-genome shotgun assemblies that have at least one hit to the AMR detection model. Default view includes percentages calculated based on Perfect plus Strict RGI hits. Select the checkbox to view percentages based on only Perfect matches to AMR reference sequences curated in CARD (note: this excludes resistance via mutation as references in protein variant models are often wild-type, sensitive sequences).

Prevalence: protein variant model (view sequences)

SpeciesNCBI ChromosomeNCBI PlasmidNCBI WGSNCBI GIGRDI-AMR2
Salmonella enterica0%0%0.01%0%0%
Show Perfect Only


Detection Models

Model Type: protein variant model

Model Definition: Protein Variant Models (PVM) perform a similar search as Protein Homolog Models (PHM), i.e. detect protein sequences based on their similarity to a curated reference sequence, but secondarily screen query sequences for curated sets of mutations to differentiate them from antibiotic susceptible wild-type alleles. PVMs are designed to detect AMR acquired via mutation of house-keeping genes or antibiotic targets, e.g. a mutated gyrase resistant to aminocoumarin antibiotics. PVMs include a protein reference sequence (often from antibiotic susceptible wild-type alleles), a curated bit-score cut-off, and mapped resistance variants. Mapped resistance variants may include any or all of single point mutations, insertions, or deletions curated from the scientific literature. A Strict RGI match has a BLASTP bit-score above the curated BLASTP cutoff value and contains at least one curated mutation from amongst the mapped resistance variants, while a Loose RGI match has a bit-score less than the curated BLASTP bit-score cut-off but still contains at least one curated mutation from amongst the mapped resistance variants.

Bit-score Cut-off (blastP): 1400

PubMed: mutation data hand curated from the scientific literature, evaluated as conferring resistance (R). CRyPTIC: mutation data acquired from the CRyPTIC catalog, evaluated as resistant (R), susceptible (S), or undetermined (U). ReSeqTB: mutation data acquired from the ReSeqTB catalog, evaluated as conferring resistance (Minimal, Moderate, High), not conferring resistance (None), or Indeterminate. WHO: mutation data acquired from the WHO 2023 catalog, evaluated as resistant (R), susceptible (S), or undetermined (U).

MutationMutation typePubMed
W106Gsingle resistance variantPMID:27630841

>gb|AAL22048.1|-|Salmonella enterica parC conferring resistance to fluoroquinolones [Salmonella enterica subsp. enterica serovar Typhimurium str. LT2]
MSDMAERLALHEFTENAYLNYSMYVIMDRALPFIGDGLKPVQRRIVYAMSELGLNATAKF
KKSARTVGDVLGKYHPHGDSACYEAMVLMAQPFSYRYPLVDGQGNWGAPDDPKSFAAMRY
TESRLSKYAELLLSELGQGTADWVPNFDGTMQEPKMLPARLPNILLNGTTGIAVGMATDI
PPHNLREVAKAAITLIEQPKTTLDQLLDIVQGPDYPTEAEIITPRAEIRKIYENGRGSVR
MRAVWTKEDGAVVISALPHQVSGAKVLEQIAAQMRNKKLPMVDDLRDESDHENPTRLVIV
PRSNRVDMEQVMNHLFATTDLEKSYRINLNMIGLDGRPAVKNLLEILTEWLAFRRDTVRR
RLNYRLEKVLKRLHILEGLLVAFLNIDEVIEIIRSEDEPKPALMSRFGISETQAEAILEL
KLRHLAKLEEMKIRGEQDELEKERDQLQGILASERKMNTLLKKELQADADAYGDDRRSPL
REREEAKAMSEHDMLPSEPVTIVLSQMGWVRSAKGHDIDAPGLNYKAGDSFKAAVKGKSN
QPVVFIDTTGRSYAIDPITLPSARGQGEPLTGKLTLPPGATVEHMLMEGDDQKLLMASDA
GYGFVCTFNDLVARNRAGKTLITLPENAHVMPPLVIEDEHDMLLAITQAGRMLMFPVDSL
PQLSKGKGNKIINIPSAEAAKGDDGLAHLYVLPPQSTLTIHVGKRKIKLRPEELQKVVGE
RGRRGTLMRGLQRIDRIEIDSPHRVSHGDSEE



>gb|AE006468.2|-|3336954-3339212|Salmonella enterica parC conferring resistance to fluoroquinolones [Salmonella enterica subsp. enterica serovar Typhimurium str. LT2]
ATGAGCGATATGGCAGAGCGCCTTGCGCTACATGAATTTACGGAAAACGCCTACTTAAACTACTCCATGTACGTGATCATGGATCGTGCG
TTGCCGTTTATTGGCGACGGCCTGAAGCCGGTACAGCGCCGCATCGTCTATGCGATGTCAGAGCTGGGGCTGAACGCCACCGCTAAATTT
AAAAAATCCGCCCGTACCGTTGGTGACGTACTGGGTAAGTATCACCCGCATGGCGACAGCGCCTGCTATGAAGCCATGGTGCTGATGGCG
CAGCCGTTCTCTTACCGTTACCCGCTGGTCGATGGCCAGGGGAACTGGGGCGCGCCGGATGATCCGAAGTCATTCGCGGCGATGCGTTAT
ACCGAATCCCGCCTGTCCAAATACGCCGAGCTGCTGTTAAGCGAACTCGGTCAGGGGACGGCGGACTGGGTGCCAAACTTCGACGGCACC
ATGCAGGAACCGAAAATGTTACCGGCGCGTCTGCCGAACATCCTGCTGAACGGCACCACCGGTATTGCGGTGGGCATGGCAACAGATATC
CCGCCGCACAACCTGCGCGAAGTGGCGAAAGCGGCGATTACGCTGATTGAGCAGCCGAAAACGACGCTGGATCAGTTGCTGGATATCGTT
CAGGGGCCGGATTACCCGACCGAAGCGGAGATCATTACCCCACGTGCGGAAATTCGTAAAATTTACGAAAACGGGCGGGGCTCCGTGCGT
ATGCGCGCGGTATGGACCAAAGAAGACGGCGCTGTGGTAATTTCCGCGCTGCCGCATCAGGTCTCTGGCGCGAAAGTGCTGGAGCAGATT
GCTGCGCAGATGCGTAATAAAAAACTGCCGATGGTGGACGATCTGCGCGATGAATCGGATCACGAAAACCCGACGCGTTTAGTGATTGTG
CCACGCTCCAACCGTGTGGATATGGAACAGGTGATGAACCATCTGTTCGCCACCACCGATCTGGAAAAAAGCTACCGTATTAACCTGAAC
ATGATCGGTCTGGATGGTCGTCCGGCGGTGAAAAACCTGCTGGAGATCCTCACCGAGTGGCTGGCGTTCCGCCGCGACACGGTGCGCCGT
CGTCTGAACTATCGTCTGGAGAAAGTGCTTAAGCGCCTGCATATCCTCGAAGGTTTGCTGGTGGCGTTTCTCAACATCGACGAAGTGATT
GAGATTATCCGTAGCGAAGACGAGCCAAAACCCGCGCTGATGTCGCGTTTCGGCATCAGCGAAACCCAGGCGGAAGCGATTCTCGAACTG
AAACTGCGCCATCTCGCCAAACTGGAAGAGATGAAAATTCGCGGCGAGCAGGACGAGCTGGAAAAAGAGAGGGACCAGTTGCAGGGCATT
CTCGCGTCCGAACGCAAAATGAATACCTTGCTGAAAAAAGAACTACAGGCGGACGCCGATGCCTATGGCGACGATCGCCGTTCTCCGCTG
CGTGAGCGCGAAGAAGCTAAAGCGATGAGCGAACACGATATGCTGCCGTCCGAACCGGTGACTATCGTGCTGTCGCAGATGGGCTGGGTG
CGCAGCGCCAAAGGTCATGATATTGATGCGCCGGGGCTTAACTATAAAGCGGGCGACAGCTTTAAAGCCGCGGTGAAAGGTAAGAGCAAT
CAACCGGTGGTGTTTATTGATACCACCGGGCGCAGCTATGCTATTGATCCCATTACGCTTCCGTCGGCGCGTGGGCAGGGCGAGCCGCTG
ACCGGCAAACTCACGCTGCCGCCGGGGGCGACCGTAGAGCATATGCTGATGGAAGGCGATGACCAGAAACTGCTGATGGCGTCGGATGCG
GGCTACGGCTTCGTTTGTACGTTTAACGATCTGGTTGCCCGTAACCGTGCCGGTAAGACATTGATTACACTGCCGGAAAATGCGCACGTC
ATGCCGCCGCTGGTGATTGAAGACGAGCACGATATGCTGCTGGCGATTACCCAGGCCGGACGGATGTTGATGTTCCCGGTAGACTCTCTG
CCGCAGCTGTCGAAAGGCAAAGGGAATAAGATCATTAATATCCCCTCTGCAGAAGCGGCGAAAGGCGATGATGGACTGGCGCACCTGTAC
GTGCTGCCGCCACAAAGCACTCTGACTATCCATGTCGGGAAGCGCAAAATCAAACTGCGCCCTGAAGAGTTACAAAAGGTGGTCGGTGAA
CGCGGACGCCGTGGCACATTAATGCGCGGCCTGCAGCGTATCGATCGCATTGAGATTGATTCGCCGCATCGCGTAAGTCATGGCGACAGC
GAAGAGTAA

Curator Acknowledgements
Curator Description Most Recent Edit