Browse AMR Genes
Explore antimicrobial resistance genes from the literature
Explore antimicrobial resistance genes from the literature
tetracycline efflux MFS transporter Tet(41)
Overview
| Allele | Database | Papers | Drug Classes | Organisms | Countries | Years | Sequence Accession | Protein Accession |
|---|---|---|---|---|---|---|---|---|
| tet(41) | Card DatabaseResFinder Database | 2 | TETRACYCLINE, DOXYCYCLINE | Serratia marcescens | - | 2007 | AY264780 | AAP93922.1 |
| Tet(41) |
Card DatabaseReference Gene CatalogReslit |
| 8 |
| TETRACYCLINE, Tetracycline +1 |
| Serratia marcescens +4 |
| Europe, China, Australia|USA|Romania|Austria, Spain |
| 2007, 2011, 2017, 2021, 2022, 2025 |
| AY264780.2 |
| AAP93922.1 |
Novel tetracycline resistance determinant isolated from an environmental strain of Serratia marcescens.
Novel tetracycline resistance determinant isolated from an environmental strain of Serratia marcescens.
Novel tetracycline resistance determinant isolated from an environmental strain of Serratia marcescens.
Environmental macrolide-lincosamide-streptogramin and tetracycline resistant bacteria.
The paper discusses the characterization of environmental macrolide-lincosamide-streptogramin (MLS) and tetracycline resistance genes, highlighting the diversity and distribution of these genes in environmental bacteria. It identifies several MLS resistance genes such as erm(H), erm(I), erm(N), and others, as well as tetracycline resistance genes like tetA(P), tet(V), and tet(X).
Draft Genome Sequences of Pandrug-Resistant Serratia marcescens Clinical Isolates Harboring blaNDM-1.
The study reports the draft genome sequences of two pandrug-resistant Serratia marcescens clinical isolates carrying multiple antibiotic resistance genes, including blaNDM-1, blaSHV-12, blaTEM-1B, blaCMY-6, sul1, sul2, rmtC, aacA4, aac(6')Ib-c, strA, strB, dfrA18, qnrA1, catA2, aac(6')-Ic, tet(41), and ampC.
First Report of bla (IMP-4) and bla (SRT-2) Coproducing Serratia marcescens Clinical Isolate in China.
The study reports the first identification of a Serratia marcescens clinical isolate in China that produces both blaIMP-4 and blaSRT-2, along with other resistance genes such as aac(6')-Ic, qnrS1, and tet(41).
Healthcare-associated infections caused by chlorhexidine-tolerant Serratia marcescens carrying a promiscuous IncHI2 multi-drug resistance plasmid in a veterinary hospital.
The study identifies multiple antimicrobial resistance genes in Serratia spp. isolates from hospitalized animals, highlighting the presence of a promiscuous IncHI2 plasmid carrying resistance genes against several high-importance antimicrobials.
Global population structure of the Serratia marcescens complex and identification of hospital-adapted lineages in the complex.
The study identified multiple antimicrobial resistance (AMR) genes and mutations in the Serratia marcescens complex, highlighting the presence of hospital-adapted lineages with a high prevalence of multidrug-resistant (MDR) strains. Key AMR genes include blaCTX-M, blaNDM, blaOXA, qnrS1, tet(A), aac(6')-Ib, mph(A), erm(B), aadA, floR, sul1, and dfrA12, which confer resistance to various antibiotics such as beta-lactams, fluoroquinolones, tetracyclines, aminoglycosides, macrolides, florfenicol, sulfonamides, and trimethoprim.
The resistomes of Mycobacteroides abscessus complex and their possible acquisition from horizontal gene transfer.
The study identifies numerous AMR genes in Mycobacteroides abscessus complex, highlighting the widespread presence of resistance to multiple antibiotic classes, including beta-lactams, aminoglycosides, glycopeptides, and others. Key findings include the detection of beta-lactamases like blaLAP-1 and blaTLA-2, 23S rRNA methyltransferases such as erm(33), erm(43), and erm(44), and various aminoglycoside modifying enzymes. Additionally, vancomycin resistance genes like vanA, vanB, and vanC were identified, along with efflux pump genes contributing to multidrug resistance.
Rapid identification of a Serratia marcescens outbreak in a neonatal intensive care unit by third-generation long-read nanopore sequencing.
The study identified several antimicrobial resistance genes in Serratia marcescens isolates, including aac(6'), sdeY, sdeB, smfY, blaSRT, tet(41), blaSHV, and tet(D). These genes contribute to resistance against various antibiotics, highlighting the complexity of the outbreak's genetic profile.
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