Standardization of a Two-step Real-time Polymerase Chain Reaction Based Method for Species-specific Detection of Medically Important Aspergillus Species

Purpose: Standardization of Aspergillus polymerase chain reaction (PCR) poses two technical challenges (a) standardization of DNA extraction, (b) optimization of PCR against various medically important Aspergillus species. Many cases of aspergillosis go undiagnosed because of relative insensitivity...

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Bibliographic Details
Published in:Indian journal of medical microbiology 2017-07, Vol.35 (3), p.381-388
Main Authors: Das, P., Pandey, P., Harishankar, A., Chandy, M., Bhattacharya, S., Chakrabarti, A.
Format: Article
Language:English
Subjects:
28S rDNA
Aspergillosis
Aspergillus fumigatus
Aspergillus species
Assaying
Bacteria
beta-tubulin gene
Blood
Calcium-binding protein
Calmodulin
calmodulin gene
Cancer therapies
Clinical medicine
Cytomegalovirus
Deoxyribonucleic acid
Diagnostic systems
DNA
DNA extraction
Ethylenediaminetetraacetic acids
Fungi
Hematology
Laboratories
Methods
Microscopy
Nucleic acids
Optimization
Polymerase chain reaction
Real time
real-time polymerase chain reaction
Sensitivity analysis
Species
Standardization
Tubulin
Viruses
Yeast
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Summary:Purpose: Standardization of Aspergillus polymerase chain reaction (PCR) poses two technical challenges (a) standardization of DNA extraction, (b) optimization of PCR against various medically important Aspergillus species. Many cases of aspergillosis go undiagnosed because of relative insensitivity of conventional diagnostic methods such as microscopy, culture or antigen detection. The present study is an attempt to standardize real-time PCR assay for rapid sensitive and specific detection of Aspergillus DNA in EDTA whole blood. Materials and Methods: Three nucleic acid extraction protocols were compared and a two-step real-time PCR assay was developed and validated following the recommendations of the European Aspergillus PCR Initiative in our setup. In the first PCR step (pan-Aspergillus PCR), the target was 28S rDNA gene, whereas in the second step, species specific PCR the targets were beta-tubulin (for Aspergillus fumigatus, Aspergillus flavus, Aspergillus terreus), gene and calmodulin gene (for Aspergillus niger). Results: Species specific identification of four medically important Aspergillus species, namely, A. fumigatus, A. flavus, A. niger and A. terreus were achieved by this PCR. Specificity of the PCR was tested against 34 different DNA source including bacteria, virus, yeast, other Aspergillus sp., other fungal species and for human DNA and had no false-positive reactions. The analytical sensitivity of the PCR was found to be 102 CFU/ml. Conclusion: The present protocol of two-step real-time PCR assays for genus- and species-specific identification for commonly isolated species in whole blood for diagnosis of invasive Aspergillus infections offers a rapid, sensitive and specific assay option and requires clinical validation at multiple centers.
ISSN:0255-0857
1998-3646
DOI:10.4103/ijmm.IJMM_17_190