Salmonella isangi gyrB conferring resistance to fluoroquinolones

Accession ARO:3007752
CARD Short NameSisa_gyrB_FLO
DefinitionPoint mutation in Salmonella isangi resulting in fluoroquinolone resistance.
AMR Gene Familyfluoroquinolone resistant gyrB
Drug Classfluoroquinolone antibiotic
Resistance Mechanismantibiotic target alteration
Classification11 ontology terms | Show
Parent Term(s)3 ontology terms | Show
+ confers_resistance_to_antibiotic ciprofloxacin [Antibiotic]
+ confers_resistance_to_antibiotic nalidixic acid [Antibiotic]
+ fluoroquinolone resistant gyrB [AMR Gene Family]
Publications

Dos Santos AMP, et al. 2023. Antibiotics (Basel) 12(8): Genomic Characterization of Salmonella Isangi: A Global Perspective of a Rare Serovar. (PMID 37627729)

Resistomes

Prevalence of Salmonella isangi gyrB conferring resistance to fluoroquinolones among the sequenced genomes, plasmids, and whole-genome shotgun assemblies available at NCBI or IslandViewer for 413 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

SpeciesNCBI ChromosomeNCBI PlasmidNCBI WGSNCBI GI
No prevalence data


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): 1300

Legend:

  • discovered in clinical, agricultural, or environmental isolates

  • discovered via laboratory selection experiments

  • ReSeqTB https://platform.reseqtb.org

Published Variants:


>gb|WP_000072047.1|+|Salmonella isangi gyrB conferring resistance to fluoroquinolones [Salmonella enterica subsp. enterica serovar Isangi]
MSNSYDSSSIKVLKGLDAVRKRPGMYIGDTDDGTGLHHMVFEVVDNAIDEALAGHCKDIV
VTIHADNSVSVTDDGRGIPTGIHPEEGVSAAEVIMTVLHAGGKFDDNSYKVSGGLHGVGV
SVVNALSQKLELVIQRDGKIHRQIYEHGVPQAPLAVTGDTDKTGTMVRFWPSHETFTNVT
EFEYEILAKRLRELSFLNSGVSIRLRDKRDGKEDHFHYEGGIKAFVEYLNKNKTPIHPNI
FYFSTEKDGIGVEVALQWNDGFQENIYCFTNNIPQRDGGTHLAGFRAAMTRTLNAYMDKE
GYSKKAKVSATGDDAREGLIAVVSVKVPDPKFSSQTKDKLVSSEVKSAVEQQMNELLSEY
LLENPSDAKIVVGKIIDAARAREAARRAREMTRRKGALDLAGLPGKLADCQERDPALSEL
YLVEGDSAGGSAKQGRNRKNQAILPLKGKILNVEKARFDKMLSSQEVATLITALGCGIGR
DEYNPDKLRYHSIIIMTDADVDGSHIRTLLLTFFYRQMPEIVERGHVYIAQPPLYKVKKG
KQEQYIKDDEAMDQYQISIALDGATLHANAHAPALSGEALEKLVSEYNATQKMIGRMERR
FPKALLKELVYQPTLTEADLSDEQTVTRWVNALITELNEKEQHGSQWKFDVHTNTEQNLF
EPIVRVRTHGVDTDYPLDHEFVTGAEYRRICTLGEKLRGLIEEDAFIERGERRQPVTSFE
QALEWLVKESRRGLAIQRYKGLGEMNPDQLWETTMDPESRRMLRVTVKDAIAADQLFTTL
MGDAVEPRRAFIEENALKAANIDI



>gb|NZ_JARETA010000016.1|+|58094-60508|Salmonella isangi gyrB conferring resistance to fluoroquinolones [Salmonella enterica subsp. enterica serovar Isangi]
ATGTCGAATTCTTATGACTCCTCCAGTATCAAAGTCCTGAAAGGGCTGGATGCGGTGCGTAAGCGCCCGGGTATGTATATCGGCGACACG
GATGACGGCACCGGTCTGCACCACATGGTATTCGAGGTGGTAGATAACGCTATCGACGAAGCGCTCGCAGGTCACTGTAAAGATATCGTC
GTGACTATTCACGCCGATAACTCCGTGTCCGTAACGGATGATGGCCGTGGCATTCCGACCGGGATTCACCCGGAAGAAGGCGTCTCAGCG
GCGGAAGTGATCATGACCGTTCTGCACGCGGGCGGTAAATTTGACGATAACTCCTATAAAGTCTCTGGTGGTCTGCACGGCGTGGGCGTC
TCGGTAGTCAACGCTCTGTCGCAAAAACTGGAACTGGTTATCCAGCGAGATGGCAAAATTCACCGTCAGATCTACGAGCACGGCGTGCCG
CAGGCACCCCTGGCCGTCACTGGCGATACCGATAAAACCGGCACGATGGTACGTTTCTGGCCGAGCCACGAAACCTTCACTAACGTCACT
GAATTTGAATATGAGATCCTGGCGAAACGCCTGCGTGAACTGTCATTCCTGAACTCTGGCGTTTCCATCCGTCTGCGCGACAAGCGTGAC
GGCAAAGAAGATCATTTCCACTACGAAGGCGGCATCAAGGCGTTTGTTGAATATCTCAACAAAAACAAAACGCCGATCCACCCGAATATC
TTCTACTTCTCCACCGAAAAAGACGGTATCGGCGTGGAAGTAGCGCTGCAGTGGAACGACGGTTTCCAGGAAAACATCTACTGCTTTACC
AACAACATTCCGCAGCGCGACGGCGGTACCCACCTGGCAGGCTTCCGTGCGGCGATGACCCGTACGCTGAACGCCTATATGGACAAAGAA
GGTTACAGCAAAAAAGCTAAAGTCAGCGCTACCGGCGATGATGCCCGTGAAGGTCTGATTGCGGTGGTTTCCGTAAAAGTACCGGACCCG
AAATTCTCCTCACAGACCAAAGATAAGCTGGTCTCTTCCGAGGTGAAATCGGCGGTGGAACAGCAGATGAACGAACTGCTGAGCGAATAC
CTGCTGGAAAACCCATCTGACGCGAAAATTGTCGTCGGCAAAATTATCGACGCCGCGCGTGCGCGTGAAGCGGCGCGTCGCGCCCGTGAA
ATGACCCGTCGTAAAGGCGCGCTGGATTTAGCCGGTCTGCCGGGCAAACTGGCGGACTGTCAGGAACGCGACCCGGCGCTGTCCGAACTG
TACCTGGTGGAAGGGGACTCCGCGGGCGGCTCTGCGAAGCAGGGGCGTAACCGCAAGAACCAGGCGATTCTGCCGCTGAAAGGTAAAATC
CTTAACGTTGAGAAAGCGCGCTTCGACAAGATGCTTTCCTCCCAGGAAGTGGCGACGCTGATCACCGCGCTGGGCTGCGGTATCGGTCGC
GACGAGTACAACCCGGACAAGCTGCGCTATCACAGCATCATCATCATGACCGATGCGGACGTCGACGGCTCGCACATCCGTACGCTGCTG
TTGACCTTCTTCTATCGTCAGATGCCGGAAATCGTCGAGCGCGGCCACGTCTACATTGCCCAGCCGCCGCTGTACAAAGTCAAGAAAGGC
AAGCAGGAACAGTACATCAAAGACGACGAAGCGATGGATCAGTACCAGATTTCCATCGCGCTTGACGGTGCGACTCTGCACGCGAACGCT
CATGCGCCAGCGCTATCCGGCGAAGCGTTAGAAAAACTGGTCTCTGAATATAACGCCACGCAGAAAATGATTGGTCGTATGGAGCGTCGC
TTCCCGAAAGCGCTGCTCAAAGAGCTGGTGTATCAGCCAACTCTGACCGAAGCCGATCTTTCTGATGAGCAGACTGTAACGCGCTGGGTG
AATGCGCTGATTACCGAGCTGAACGAGAAAGAGCAGCACGGCAGTCAGTGGAAGTTCGATGTTCATACTAATACGGAACAGAATCTGTTC
GAGCCTATCGTTCGCGTGCGTACGCATGGTGTGGATACCGATTATCCGTTGGATCACGAGTTTGTGACCGGCGCGGAATATCGTCGTATC
TGCACGCTGGGCGAGAAGCTGCGCGGTCTGATTGAAGAGGACGCGTTTATCGAACGCGGCGAGCGTCGCCAGCCGGTAACCAGCTTCGAG
CAGGCGCTGGAGTGGCTGGTGAAAGAATCACGTCGCGGTCTGGCTATCCAGCGTTATAAAGGTCTGGGTGAAATGAACCCGGATCAGCTG
TGGGAAACCACCATGGACCCGGAAAGCCGCCGTATGCTGCGCGTGACCGTCAAAGATGCGATTGCTGCCGACCAGCTGTTCACTACGCTG
ATGGGTGATGCCGTTGAGCCGCGTCGTGCCTTTATCGAAGAGAACGCCCTGAAAGCGGCGAATATCGATATTTAA