Multiplex PCR as a tool for the diagnosis of Leishmania spp. kDNA and the gapdh housekeeping gene of mammal hosts.

BACKGROUND:The PCR assays usually employed for Leishmania diagnosis does not simultaneously detect a constitutive gene that would certify the viability of the DNA sample. We present a multiplex PCR approach for the simultaneous diagnosis of the Leishmania sp. kDNA fragment and a catalytic domain seg...

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Main Authors: Renata de Cássia-Pires, Myllena de Fátima Alheiros Dias de Melo, Raquel da Hora Barbosa, André Luiz Rodrigues Roque
Format: Article
Language:English
Published: Public Library of Science (PLoS) 2017-01-01
Series:PLoS ONE
Online Access:http://europepmc.org/articles/PMC5354409?pdf=render
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spelling doaj-63379ce7be4044b590e190d25087492c2020-11-25T02:47:26ZengPublic Library of Science (PLoS)PLoS ONE1932-62032017-01-01123e017392210.1371/journal.pone.0173922Multiplex PCR as a tool for the diagnosis of Leishmania spp. kDNA and the gapdh housekeeping gene of mammal hosts.Renata de Cássia-PiresMyllena de Fátima Alheiros Dias de MeloRaquel da Hora BarbosaAndré Luiz Rodrigues RoqueBACKGROUND:The PCR assays usually employed for Leishmania diagnosis does not simultaneously detect a constitutive gene that would certify the viability of the DNA sample. We present a multiplex PCR approach for the simultaneous diagnosis of the Leishmania sp. kDNA fragment and a catalytic domain segment of a conserved region of the mammalian gapdh gene. METHODOLOGY:The proposed multiplex protocol was designed through in silico PCR. The annealing temperature, concentration of primer pairs, number of cycles, distinct polymerase enzymes and premix kit were defined to achieve an optimal reaction. The DNA detection sensitivity was tested with different concentrations of known L. tropica DNA, and the reproducibility of the assay was confirmed using samples from 106 wild mammals that were previously subject to Leishmania sp. kDNA analysis through singleplex reactions. PRINCIPAL FINDINGS:The following optimal conditions were established: 95°C for 1 min followed by 30 cycles of 95°C for 30 s, 61°C for 30 s, and 72°C for 30 s and a final extension at 72°C for 1 min. The multiplex PCR system was capable of detecting 0.1 ng of L. tropica diluted in 100 ng of mammalian DNA. Of 51 kDNA samples that were previously found to be positive, 45 (88.2%) were positive for both targets, two were positive only for kDNA and four were negative for both. Of 55 kDNA samples that were previously identified as negative, 38 (69.1%) were positive for gapdh whereas the other 17 were negative for both targets. CONCLUSIONS/SIGNIFICANCE:The proposed multiplex PCR system allows the simultaneous detection of the gapdh gene and Leishmania sp. kDNA in tissue samples derived from distinct wild mammal species. The amplification of the gapdh mammalian gene in the same reaction ensures the quality and viability of the DNA in the sample, eliminating the possibility of false-negative results that would impair an accurate description of the infection rates in a given population.http://europepmc.org/articles/PMC5354409?pdf=render
collection DOAJ
language English
format Article
sources DOAJ
author Renata de Cássia-Pires
Myllena de Fátima Alheiros Dias de Melo
Raquel da Hora Barbosa
André Luiz Rodrigues Roque
spellingShingle Renata de Cássia-Pires
Myllena de Fátima Alheiros Dias de Melo
Raquel da Hora Barbosa
André Luiz Rodrigues Roque
Multiplex PCR as a tool for the diagnosis of Leishmania spp. kDNA and the gapdh housekeeping gene of mammal hosts.
PLoS ONE
author_facet Renata de Cássia-Pires
Myllena de Fátima Alheiros Dias de Melo
Raquel da Hora Barbosa
André Luiz Rodrigues Roque
author_sort Renata de Cássia-Pires
title Multiplex PCR as a tool for the diagnosis of Leishmania spp. kDNA and the gapdh housekeeping gene of mammal hosts.
title_short Multiplex PCR as a tool for the diagnosis of Leishmania spp. kDNA and the gapdh housekeeping gene of mammal hosts.
title_full Multiplex PCR as a tool for the diagnosis of Leishmania spp. kDNA and the gapdh housekeeping gene of mammal hosts.
title_fullStr Multiplex PCR as a tool for the diagnosis of Leishmania spp. kDNA and the gapdh housekeeping gene of mammal hosts.
title_full_unstemmed Multiplex PCR as a tool for the diagnosis of Leishmania spp. kDNA and the gapdh housekeeping gene of mammal hosts.
title_sort multiplex pcr as a tool for the diagnosis of leishmania spp. kdna and the gapdh housekeeping gene of mammal hosts.
publisher Public Library of Science (PLoS)
series PLoS ONE
issn 1932-6203
publishDate 2017-01-01
description BACKGROUND:The PCR assays usually employed for Leishmania diagnosis does not simultaneously detect a constitutive gene that would certify the viability of the DNA sample. We present a multiplex PCR approach for the simultaneous diagnosis of the Leishmania sp. kDNA fragment and a catalytic domain segment of a conserved region of the mammalian gapdh gene. METHODOLOGY:The proposed multiplex protocol was designed through in silico PCR. The annealing temperature, concentration of primer pairs, number of cycles, distinct polymerase enzymes and premix kit were defined to achieve an optimal reaction. The DNA detection sensitivity was tested with different concentrations of known L. tropica DNA, and the reproducibility of the assay was confirmed using samples from 106 wild mammals that were previously subject to Leishmania sp. kDNA analysis through singleplex reactions. PRINCIPAL FINDINGS:The following optimal conditions were established: 95°C for 1 min followed by 30 cycles of 95°C for 30 s, 61°C for 30 s, and 72°C for 30 s and a final extension at 72°C for 1 min. The multiplex PCR system was capable of detecting 0.1 ng of L. tropica diluted in 100 ng of mammalian DNA. Of 51 kDNA samples that were previously found to be positive, 45 (88.2%) were positive for both targets, two were positive only for kDNA and four were negative for both. Of 55 kDNA samples that were previously identified as negative, 38 (69.1%) were positive for gapdh whereas the other 17 were negative for both targets. CONCLUSIONS/SIGNIFICANCE:The proposed multiplex PCR system allows the simultaneous detection of the gapdh gene and Leishmania sp. kDNA in tissue samples derived from distinct wild mammal species. The amplification of the gapdh mammalian gene in the same reaction ensures the quality and viability of the DNA in the sample, eliminating the possibility of false-negative results that would impair an accurate description of the infection rates in a given population.
url http://europepmc.org/articles/PMC5354409?pdf=render
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