Thermus thermophilus 23s rRNA conferring resistance to pleuromutilin antibiotics

Accession ARO:3005083
CARD Short NameTthe_23S_PLM
DefinitionMutations in the 23s rRNA of Thermus thermophilus confers resistance to pleuromutilin antibiotics such as tiamulin.
AMR Gene Family23S rRNA with mutation conferring resistance to pleuromutilin antibiotics
Drug Classpleuromutilin antibiotic
Resistance Mechanismantibiotic target alteration
Classification10 ontology terms | Show
Parent Term(s)2 ontology terms | Show
+ confers_resistance_to_antibiotic tiamulin [Antibiotic]
+ 23S rRNA with mutation conferring resistance to pleuromutilin antibiotics [AMR Gene Family]
Publications

Killeavy EE, et al. 2020. Antibiotics (Basel) 9(6): Tiamulin-Resistant Mutants of the Thermophilic Bacterium Thermus thermophilus. (PMID 32526926)

Resistomes

Prevalence of Thermus thermophilus 23s rRNA conferring resistance to pleuromutilin antibiotics 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: rRNA gene variant model

SpeciesNCBI ChromosomeNCBI PlasmidNCBI WGSNCBI GI
No prevalence data


Detection Models

Model Type: rRNA gene variant model

Model Definition: Ribosomal RNA (rRNA) Gene Variant Models (RVM) are similar to Protein Variant Models (PVM), i.e. detect sequences based on their similarity to a curated reference sequence and secondarily screen query sequences for curated sets of mutations to differentiate them from antibiotic susceptible wild-type alleles, except RVMs are designed to detect AMR acquired via mutation of genes encoding ribosomal RNAs (rRNA). RVMs include a rRNA 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 BLASTN bit-score above the curated BLASTN 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 BLASTN bit-score cut-off but still contains at least one curated mutation from amongst the mapped resistance variants.

Bit-score Cut-off (blastN): 5000

Legend:

  • discovered in clinical, agricultural, or environmental isolates

  • discovered via laboratory selection experiments

  • ReSeqTB https://platform.reseqtb.org

Published Variants:

PMID: 32526926G2061A G2061T A2451T C2452T T2500A T2504G


>gb|AE017221.1|+|1534490-1537382|Thermus thermophilus 23s rRNA conferring resistance to pleuromutilin antibiotics [Thermus thermophilus HB27] Partial
GTCAAGATGGTAAGGGCCCACGGTGGATGCCTCGGCACCCGAGCCGATGAAGGACGTGGCTACCTGCGATAAGCCAGGGGGAGCCGGTAG
CGGGCGTGGATCCCTGGATGTCCGAATGGGGGAACCCGGCCGGCGGGAACGCCGGTCACCGCGCTTTTTGCGCGGGGGGAACCTGGGGAA
CTGAAACATCTCAGTACCCAGAGGAGAGGAAAGAGAAATCGACTCCCTGAGTAGCGGCGAGCGAAAGGGGACCAGCCTAAACCGTCCGGC
TTGTCCGGGCGGGGTCGTGGGGCCCTCGGACACCGAATCCCCAGCCTAGCCGAAGCTGTTGGGAAGCAGCGCCAGAGAGGGTGAAAGCCC
CGTAGGCGAAAGGTGGGGGGATAGGTGAGGGTACCCGAGTACCCCGTGGTTCGTGGAGCCATGGGGGAATCTGGGCGGACCACCGCCTAA
GGCTAAGTACTCCGGGTGACCGATAGCGCACCAGTACCGTGAGGGAAAGGTGAAAAGAACCCCGGGAGGGGAGTGAAATAGAGCCTGAAA
CCGTGGGCTTACAAGCAGTCACGGCCCCGCAAGGGGTTGTGGCGTGCCTATTGAAGCATGAGCCGGCGACTCACGGTCGTGGGCGAGCTT
AAGCCGTTGAGGCGGAGGCGTAGGGAAACCGAGTCCGAACAGGGCGTCTAGTCCGCGGCCGTGGACCCGAAACCGGGCGAGCTAGCCCTG
GCCAGGGTGAAGCTGGGGTGAGACCCAGTGGAGGCCCGAACCGGTGGGGGATGCAAACCCCTCGGATGAGCTGGGGCTAGGAGTGAAAAG
CTAACCGAGCCCGGAGATAGCTGGTTCTCCCCGAAATGACTTTAGGGTCAGCCTCAGGCGCTGACTGGGGCCTGTAGAGCACTGATAGGG
CTAGGGGGCCCACCAGCCTACCAAACCCTGTCAAACTCCGAAGGGTCCCAGGTGGAGCCTGGGAGTGAGGGCGCGAGCGATAACGTCCGC
GTCCGAGCGCGGGAACAACCGAGACCGCCAGCTAAGGCCCCCAAGTCTGGGCTAAGTGGTAAAGGATGTGGCGCCGCGAAGACAGCCAGG
AGGTTGGCTTAGAAGCAGCCATCCTTTAAAGAGTGCGTAATAGCTCACTGGTCGAGTGGCGCCGCGCCGAAAATGATCGGGGCTCAAGCC
CAGCGCCGAAGCTGCGGGTCTGGGGGATGACCCCAGGCGGTAGGGGAGCGTTCCCGATGCCGATGAAGGCCGACCCGCGAGGGCGGCTGG
AGGTAAGGGAAGTGCGAATGCCGGCATGAGTAACGATAAAGAGGGTGAGAATCCCTCTCGCCGTAAGCCCAAGGGTTCCTACGCAATGGT
CGTCAGCGTAGGGTTAGGCGGGACCTAAGGTGAAGCCGAAAGGCGTAGCCGAAGGGCAGCCGGTTAATATTCCGGCCCTTCCCGCAGGTG
CGATGGGGGGACGCTCTAGGCTAGGGGGACCGGAGCCATGGACGAGCCCGGCCAGAAGCGCAGGGTGGGAGGTAGGCAAATCCGCCTCCC
AAAAGCTCTGCGTGGTGGGGAAGCCCGTACGGGTGACAACCCCCCGAAGCCAGGGAGCCAAGAAAAGCCTCTAAGCACAACCTGCGGGAA
CCCGTACCGCAAACCGACACAGGTGGGCGGGTGCAAGAGCACTCAGGCGCGCGGGAGAACCCTCGCCAAGGAACTCTGCAAGTTGGCCCC
GTAACTTCGGGAGAAGGGGTGCTCCCTGGGGTGATGAGCTCCGGGGAGCCGCAGTGAACAGGCTCTGGCGACTGTTTACCAAAAACACAG
CTCTCTGCGAACTCGTAAGAGGAGGTATAGGGAGCGACGCTTGCCCGGTGCCGGAAGGTCAAGGGGAGGGGTGCAAGCCCCGAACCGAAG
CCCCGGTGAACGGCGGCCGTAACTATAACGGTCCTAAGGTAGCGAAATTCCTTGTCGGGTAAGTTCCGACCTGCACGAAAAGCGTAACGA
CCGGAGCGCTGTCTCGGCGAGGGACCCGGTGAAATTGAACTGGCCGTGAAGATGCGGCCTACCCGTGGCAGGACGAAAAGACCCCGTGGA
GCTTTACTGCAGCCTGGTGTTGGCTCTTGGTCGCGCCTGCGTAGGATAGGTGGGAGCCTGTGAACCCCCGCCTCCGGGTGGGGGGGAGGC
GCCGGTGAAATACCACCCTGGCGCGGCTGGGGGCCTAACCCTCGGATGGGGGGACAGCGCTTGGCGGGCAGTTTGACTGGGGCGGTCGCC
TCCTAAAAGGTAACGGAGGCGCCCAAAGGTCCCCTCAGGCGGGACGGAAATCCGCCGGAGAGCGCAAGGGTAGAAGGGGGCCTGACTGCG
AGGCCTGCAAGCCGAGCAGGGGCGAAAGCCGGGCCTAGTGAACCGGTGGTCCCGTGTGGAAGGGCCATCGATCAACGGATAAAAGTTACC
CCGGGGATAACAGGCTGATCTCCCCCGAGCGTCCACAGCGGCGGGGAGGTTTGGCACCTCGATGTCGGCTCGTCGCATCCTGGGGCTGAA
GAAGGTCCCAAGGGTTGGGCTGTTCGCCCATTAAAGCGGCACGCGAGCTGGGTTCAGAACGTCGTGAGACAGTTCGGTCTCTATCCGCCA
CGGGCGCAGGAGGCTTGAGGGGGGCTCTTCCTAGTACGAGAGGACCGGAAGGGACGCACCTCTGGTTTCCCAGCTGTCCCTCCAGGGGCA
TAAGCTGGGTAGCCATGTGCGGAAGGGATAACCGCTGAAAGCATCTAAGCGGGAAGCCCGCCCCAAGATGAGGCCTCCCACGGCGTCAAG
CCGGTAAGGACCCGGGAAGACGACCCGGTGGATGGGCCGGGGGTGTAAGCGCCGCGAGGCGTTGAGCCGACCGGTCCCAATCGTCCGAGG
TCTTGACCCCTCC