RPB0083

Pathogen Description

Target Pathogen Pathogen Name NCBI Taxonomy ID Order Family Genus Species Pathogen type
Acinetobacter baumannii Acinetobacter baumannii, Acinetobacter genomosp. 2, Bacterium anitratum 470 Moraxellales Moraxellaceae Acinetobacter Acinetobacter baumannii Bacterium

Primer Description

Primer Name Sequence(5'-3') Length(bp) Primer Final Concentration(μM) GC Content(%) Predicted Melting Temperature(℃) Molecular Weight(g/moles) Positions in GenBank accession number
bla OXA-23-F GCAGTCCCAGTCTATCAGGAACTTGCGCGACG 32 0.42 59.4 69.31 9810.41 \
bla OXA-23-R GGCGTAACCTTTAATGGTCCTACCAACCAG 30 0.42 50 62.75 9151.01 \
bla OXA-23-P ATGCAAAAAGAAGTAAAACGTATTGGTT[FAM-dT]C[THF]G[BHQ-dT]AATGCTGAAATTG[C3-spacer] 43 0.12 32.6 60.89 13370.79 \

Gene Description

Target Gene GenBank ID
bla OXA-23 NC_025109.1

Assay Description

Application Assay Primer Designing Software Reaction Time(min) Assay Temperature(℃) Readout System(s) Limit of Detection(LoD) Sensitivity(%) Specificity(%)
detection of carbapenem-resistance gene in Acinetobacter baumannii RPA \ 15 42 exo probe \ \ \

Publication Description

Year of Publication Title Author(s) Journal PMID DOI
2020 Rapid and accurate detection of carbapenem-resistance gene by isothermal amplification in Acinetobacter baumannii Shuang Liu,Guangtao Huang,Yali Gong,Xiaojun Jin,Yudan Meng,Yizhi Peng,Junning Zhao,Xiaolu Li,Qin Li Burns & trauma 32905076 10.1093/burnst/tkaa026

Rapid and accurate detection of carbapenem-resistance gene by isothermal amplification in Acinetobacter baumannii

Author(s):

Shuang Liu,Guangtao Huang,Yali Gong,Xiaojun Jin,Yudan Meng,Yizhi Peng,Junning Zhao,Xiaolu Li,Qin Li

Journal:

Burns & trauma

Year:

2020

Abstract:

Background:Acinetobacter baumannii (A. baumannii) is one of the pivotal pathogens responsible for nosocomial infections, especially in patients with low immune response, and infection with carbapenem-resistant A. baumannii has been increasing in recent years. Rapid and accurate detection of carbapenem-resistance genes in A. baumannii could be of immense help to clinical staff. Methods: In this study, a 15-μL reaction system for recombinase polymerase amplification (RPA) was developed and tested. We collected 30 clinical isolates of A. baumannii from the Burn Institute of Southwest Hospital of Third Military Medical University (Army Medical University) for 6 months and tested antibiotic susceptibility using the VITEK 2 system. A. baumannii was detected based on the bla OXA-51 gene by PCR, qPCR and 15 μL-RPA, respectively. Sensitivity and specificity were evaluated. In addition, PCR and 15 μL-RPA data for detecting the carbapenem-resistance gene bla OXA-23 were comparatively assessed. Results: The detection limit of the bla OXA-51 gene by 15 μL RPA was 2.86 CFU/ml, with sensitivity comparable to PCR and qPCR. No positive amplification signals were detected in non-Acinetobacter isolates, indicating high specificity. However, only 18 minutes were needed for the 15 μL RPA assay. Furthermore, an antibiotic susceptibility test showed that up to 90% of A. baumannii strains were resistant to meropenem and imipenem; 15 μL RPA data for detecting bla OXA-23 showed that only 10% (n = 3) of A. baumannii isolates did not show positive amplification signals, and the other 90% of (n = 27) isolates were positive, corroborating PCR results. Conclusion: We demonstrated that the new 15 μL RPA assay for detecting bla OXA-23 in A. baumannii is faster and simpler than qPCR and PCR. It is a promising alternative molecular diagnostic tool for rapid and effective detection of A. baumannii and drug-resistance genes in the field and point-of-care testing.