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Objective To establish a nucleic acid assay for detection of Paragonimus skrjabini based on the recombinase-aided isothermal amplification (RAA) technique, and to preliminarily evaluate its detection efficiency. Methods The metacercariae of P. skrjabini, P. westermani and Euparagonimus cenocopiosus were isolated from crabs, and genomic DNA was extracted for molecular characterization. The cytochrome coxidase 1 (cox1) gene sequence of P. skrjabini was selected as the target gene fragment, and the primers and probes were designed, screened and synthesized for RAA assay. The genomic DNA of P. skrjabini metacercariae from Jiyuan City and Yiyang County of Luoyang City, Henan Province were used as templates for verification of the fluorescent RAA assay. The fluorescent RAA assay was performed to detect different concentrations of plasmids containing target gene fragment and P. skrjabini metacercariae genomic DNA to determine the sensitivity. Fluorescent RAA assay was performed with recombinant plasmids containing P. skrjabini cox1 gene sequences at different concentrations and P. skrjabini genomic DNA as templates to evaluate its sensitivity, and the genomic DNA of P. westermani, E. cenocopiosus, Clonorchis sinensis and Schistosoma japonicum was detected with fluorescent RAA assay to evaluate its specificity. Results P. skrjabini, P. westermani and E. cenocopiosus metacercariae were isolated from crabs, respectively. Molecular characterization and phylogenetic analysis confirmed their homology with the genes sequences of standard Paragonimus strains in GenBank. A fluorescent RAA assay was successfully established for nucleic acid detection of P. skrjabini, and the genomic DNA of P. skrjabini metacercariae from Jiyuan City and Yiyang County of Luoyang City, Henan Province was amplified using the fluorescent RAA assay within 5 min, while the negative control was not amplified. If the recombinant plasmid containing P. skrjabini cox1 gene sequences was used as templates, the fluorescent RAA assay showed the lowest detection limit of 10 copies/μL, and positive amplification was observed within 5 min. If genomic DNA was used as templates, the fluorescent RAA assay showed the lowest detection limit of 10 pg/μL, and all positive amplifications were found within 5 to 10 min. In addition, the fluorescent RAA assay was tested negative for P. westermani, E. cenocopiosus, C. sinensis and S. japonicum. Conclusions A rapid, sensitive and specific fluorescent RAA assay is successfully established for nucleic acid detection of P. skrjabini, which has potential values in rapid field detection and species identification in freshwater crabs in areas endemic for P. skrjabini.
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Objective To develop a fluorescent recombinase-aided isothermal amplification (RAA)-based nucleic acid assay for detection of Leshimania. Methods Specific primers and probes were designed targeting Leishmania internal transcribed spacer 1 (ITS1) gene for RAA assay, and a fluorescent RAA assay was developed for detection of Leishmania following screening of primer pairs and optimization of primer and probe concentrations. The sensitivity of RAA assay for detection of Leishmania was evaluated using recombinant plasmid containing Leishmania ITS1 gene sequences at different copies and Leshimania genomic DNA at different concentrations as templates, and the specificity of RAA assay for detection of Leishmania was evaluated using the genomic DNA of transfusion-transmitted parasites, including Babesia microti, Toxoplasma gondii, Plamodium vivax, P. ovale, P. falciparum, P. malariae, L. donovani and L. infantum. Results After the optimal primer pair was screened from 9 pairs of primer combinations, the final primer and probe concentrations were optimized as 0.3 μmol/L and 0.08 μmol/L, respectively. Nucleic acid detection of Leishmania was completed by the fluorescent RAA assay at an isothermal temperature of 39 °C within 20 min. Remarkable florescent signals were seen within 5 min following RAA detection of genomic DNA of L. donovani and L. infantum, and no cross-reactions were observed with B. microti, T. gondii, P. vivax, P. ovale, P. falciparum or P. malariae. The lowest limitation of detection of the fluorescent RAA assay was 10 copies/μL recombinant plasmid containing Leishmania ITS1 gene sequences and 1 fg/μL Leishmania genomic DNA. Conclusions A rapid, simple, sensitive and specific fluorescent RAA assay is successfully developed for detection of L. donovani and L. infantum, which is effective for field screening of leishmaniasis.
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Objective To evaluate the efficiency of a recombinase-aided amplification (RAA) assay for the detection of Schistosoma japonicum infections in Oncomelania hupensis snails. Methods A group test was employed. Fifty Oncomelania snails were collected as a detection sample. The detection samples without infected snails were designated as negative specimens, while the detection samples that contained different numbers of infected snails were designated as positive specimens. A total of 10 negative specimens, 10 positive specimens containing 1 infected snail, 20 positive specimens containing 2 infected snails and 10 positive specimens containing 3 infected snails were assigned. Following random grouping, 40 specimens were subject to the florescent RAA assay using a blind method. The miradium shedding method served as a gold standard, and the sensitivity, specificity, Youden’s index and coincidence rate of the florescent RAA assay were estimated. In addition, 20 samples consisted of 5 negative specimens and 15 positive specimens with 1, 2 and 3 infected snails respectively were grouped randomly. The same specimens were detected using the crushing method and fluorescent RAA assay with the blind method in a paired-design manner. Then, the test results were compared and analyzed. Results Florescent RAA assay detected 29 positives in the 30 specimens containing different numbers of infected snails, with a sensitivity of 96.67%, and 8 negatives in the 10 detection specimens without infected snails, with a specificity of 80.00%, showing a Youden’s index of 0.77. The coincidence rate was 100% among 10 repeated assays for a detection specimen. In addition, there was no significant difference in the detection of infected snails between the florescent RAA assay and the crushing method (χ2 = 0, P > 0.05), and the actual coincidence rates of the florescent RAA assay and crushing method were 95.00% (19/20) and 90.00% (18/20) with the real results, respectively. Conclusion Fluorescent RAA assay has a favorable efficiency for the detection of S. japonicum infections in Oncomelania snails, which shows a potential in screening of S. japonicum-infected Oncomelania snails.
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Objective To develop a rapid test for detection of Schistosoma japonicum specific gene fragments based on the recombinase-aided isothermal amplification assay (RAA) and nucleic acid dipstick test. Methods The S. japonicum SjG28 gene fragment was selected as the target gene fragment, and the primers and fluorescent probe were designed and synthesized. Then, a S. japonicum nucleic acid dipstick test was established. The sensitivity of this dipstick test was evaluated by detecting different copies of recombinant plasmids containing the S. japonicum SjG28 gene fragment and different concentrations of genomic DNA from adult worms of S. japonicum, and the specificity of the dipstick test was evaluated by detecting the genomic DNA from Clonorchis sinensis, S. mansoni, Ancylostoma duodenale, S. haematobium, Babesia and Paragonimus westermani. Results The S. japonicum nucleic acid dipstick test based on the S. japonicum SjG28 gene fragment showed the minimum detectable limit of 10 copies/μL of the recombinant plasmid containing the S. japonicum SjG28 gene fragment and the minimum detectable limit of 1 pg/μL of S. japonicum genomic DNA, and the dipstick assay tested negative for the genomic DNA from C. sinensis, S. mansoni, A. duodenale, S. haematobium, Babesia and P. westermani. Conclusion A rapid, simple, and visualized assay is established for detection of S. japonicum specific gene fragments based on RAA and nucleic acid dipstick test.
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Objective To establish a recombinase-aided isothermal amplification (RAA) assay for the nucleic acid detection of Angiostrongylus cantonensis. Methods The internal transcribed spacer-1 (ITS1) gene sequence of A. cantonensis was used as the detection target sequence, and the specific primers and probes were designed and synthesized, followed by screening of the primers and probes with the highest specificity, to establish the basic and fluorescent RAA assay for nucleic acid detection of A. cantonensis. The sensitivity of the fluorescent RAA assay was evaluated by using the target gene fragment sequence-contained recombinant plasmids at various copy numbers and the genomic DNA from A. cantonensis as the template DNA samples, and the specificity of the fluorescent RAA assay was evaluated by using the genomic DNA from A. cantonensis, Schistosoma mansoni, Ascaris lumbricoides, Clonorchis sinensis, Echinococcus granulosus and Ancylostoma duodenale, as well as Pomacea canaliculata and Biomphalaria straminea snail tissues as the template DNA samples. Results A fluorescent RAA assay was successfully established for nucleic acid detection of A. cantonensis, which achieved real-time amplification of the specific DNA fragment of A. cantonensis within 20 min at 37 ℃. By using the target gene fragment sequence-contained recombinant plasmids at various copy numbers and the genomic DNA from A. cantonensis as the DNA templates, the lowest detection limits of the fluorescent RAA assay were 10 copies/μL of recombinant plasmids and 100 pg/μL of genomic DNA, respectively. The fluorescent RAA assay was negative for detection of the genomic DNA from A. cantonensis, S. mansoni, A. lumbricoides, C. sinensis, E. granulosus, A. duodenale, and P. canaliculata and B. straminea snail tissues. Conclusions A simple, rapid fluorescent RAA assay has been successfully established, which has a high sensitivity and specificity for the nucleic acid detection of A. cantonensis.
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Objective To establish a novel nucleic acid assay for detection of Giardia lamblia based on the recombinase-aided isothermal amplification (RAA) assay, and evaluate its sensitivity and specificity for detection of G. lamblia. Methods The specific primer sequences and florescent probes were designed and synthesized based on the G. lamblia β-giardin gene as the target gene, and a fluorescent RAA assay was established. The recombinant plasmids at various copies (containing the β-giardin gene target sequence) and the genomic DNA of G. lamblia at various concentrations were used as templates for the fluorescent RAA assay to assess the sensitivity, and the genomic DNA from G. lamblia, Schistosoma japonicum, Clonorchis sinensis, Cryptosporidium parvum, Ascaris lumbricoides, Salmonella and Shigella was used as templates to assess the specificity of the fluorescent RAA assay. Results A novel fluorescent RAA assay was successfully established for detection of G. lamblia, which allowed the rapid and specific amplification of the target gene fragments at 39 ℃ within 20 min. The sensitivities of the fluorescent RAA assay were 102 copies/μL and 1 pg/μL for detection of the recombinant plasmid and G. lamblia genomic DNA, respectively, and the fluorescent RAA assay was negative for detection of the genomic DNA from S. japonicum, C. sinensis, C. parvum, A. lumbricoides, Salmonella and Shigella, which showed a high specificity. Conclusions A fluorescent RAA assay, which is simple, sensitive and specific, is successfully established for nucleic acid detection of G. lamblia.
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Objective To establish a nucleic acid assay for detection of Echinococcus granulosus based on recombinase-aided isothermal amplification (RAA) assay. Methods The 12S rRNA gene of E. granulosus was selected as the target gene, and the specific primers and fluorescent probes for RAA assay were designed, screened and synthesized to establish a fluorescent RAA assay for detection of E. granulosus. The sensitivity of the fluorescent RAA assay was evaluated using different copy numbers of target gene sequence-contained recombinant plasmids and various concentrations of E. granulosus genomic DNA as templates, and the specificity of the fluorescent RAA assay was evaluated using the genomic DNA from E. granulosus, E. multilocularis, Schistosoma japonicum, S. mansoni, Ancylostoma duodenale, Clonorchis sinensis, Taenia saginata, Spirometra mansoni and Taenia solium as templates. Results A fluorescent RAA assay was successfully established for detection of E. granulosus, which achieved specific amplification of E. granulosus genomic DNA within 20 min at 39 ℃. The lowest detection limit of the fluorescent RAA assay was 10 copies/μL of recombinant plasmids and 0.1 ng/μL E. granulosus genomic DNA, which exhibited a high sensitivity, and the fluorescent RAA assay was all negative for the genomic DNA from E. multilocularis, S. japonicum, S. mansoni, A. duodenale, C. sinensis, T. saginata, Spirometra mansoni and T. solium, which exhibited a high specificity. In addition, this fluorescent RAA assay successfully detected genomic DNA from E. granulosus cysts. Conclusions A rapid, sensitive and specific fluorescent RAA assay is successfully established for nucleic acid detection of E. granulosus.
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Objective To establish a recombinase-aided isothermal amplification (RAA) assay for nucleic acid detection of Schistosoma mansoni. Methods The 121 bp highly-repeated sequence of S. mansoni was selected as the target gene fragment to be detected. The primers and fluorescent probes were designed using the Amplfix software, and a fluorescent RAA assay was established and optimized. The fluorescent RAA assay was performed to detect gradient diluent recombinant plasmids containing target gene fragment and different concentrations of S. mansoni genomic DNA to determine the sensitivity, and this assay was applied to detect the genomic DNA of S. japonicum, S. haematobium, Ancylostoma duodenale and Clonorchis sinensis to evaluate the specificity. Results A fluorescent RAA assay was successfully established, which was effective to amplify the specific gene fragments of S. mansoni within 20 min at 39 ℃. The minimum detectable limit of the fluorescent RAA assay was 10 copies/μL using recombinant plasmids as templates and 0.1 fg/μL using S. mansoni genomic DNA samples as templates. The fluorescent RAA assays were all negative for detecting the genomic DNA from S. japonicum, S. haematobium, A. duodenale and C. sinensis. Conclusions A novel fluorescent RAA assay is successfully established, which is simple, rapid, sensitive and specific to detect genomic DNA of S. mansoni.
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Objective To establish a recombinase aided isothermal amplification (RAA) assay for detection of Clonorchis sinensis. Methods The 18S ribosomal RNA (18S rRNA) sequence of C. sinensis was used as the target sequence, and specific primers and probes were designed, synthesized and screened to establish a rapid fluorescent RAA assay for the detection of C. sinensis. Then, the sensitivity of the fluorescent RAA assay was evaluated using the recombinant plasmids containing various copy numbers of DNA fragments and C. sinensis genomic DNA at various concentrations, and the specificity of the fluorescent RAA as say was evaluated using the genomic DNA of Ascaris lumbricoides, Echinococcus granulosus, Schistosoma japonicum, Ancylostoma duodenale and S. mansoni as templates. DNA samples were extracted from the feces containing C. sinensis eggs and freshwater fish containing metacercaria for the fluorescent RAA assay, and the performance for detection of C. sinensis-infected samples was preliminarily assessed in the field. Results A fluorescent RAA assay for detection of C. sinensis was successfully established, which was feasible for specific amplification of C. sinensis genomic DNA at 39 °C within 20 min. The lowest detection limit was 10 copies/μL if the recombinant plasmid containing various copy numbers of DNA fragments was used as a template, and the lowest detection limit was 3 pg/μL if the C. sinensis genomic DNA at various concentrations served as a template. All detections were negative if the genomic DNA of A. lumbricoides, E. granulosus, S. japonicum, A. duodenale, and S. mansoni was used as templates. In addition, the fluorescent RAA assay showed a high performance for the detection of C. sinensis-infected samples in the field, which successfully detected C. sinensis-infected human and rat fecal samples and Pseudorasbora parva samples. Conclusion A fluorescent RAA assay is successfully established, which is simple, rapid, sensitivity and specific for detection of C. sinensis.
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Objective To establish a recombinase-aided isothermal amplification (RAA) assay for detection of Cryptosporidium. Methods Based on Cryptosporidium-specific 18S rRNA selected as the target gene to be detected, and the primer sequences and fluorescent probes designed using the software Amplfix, and a fluorescent RAA assay was established and optimized. The fluorescent RAA assay was performed to detect 18S RNA target sequence-contained recombinant plasmids at various copies, genomic DNA of Cryptosporidium oocysts at various concentrations, and genomic DNA extracted from various numbers of Cryptosporidium oocysts to assess the sensitivity of the assay, and to detect genomic DNA extracted from Cryptosporidium oocysts, Giardia lamblia cysts, Schistosoma japonicum eggs, Ascaris lumbricoides eggs, Clonorchis sinensis eggs, Salmonella and Shigella to determine the specificity of the assay. Results A fluorescent RAA assay was successfully established, which was effective to amplify the specific 18S RNA gene fragments of Cryptosporidium within 20 min at 39 ℃. The lowest limits of the fluorescent RAA assay were 102 copies/μL for detection of 18S RNA target sequence-contained recombinant plasmids at various copies, 1 pg/μL for detection of genomic DNA of Cryptosporidium oocysts at various concentrations, and one Cryptosporidium oocyst/μL for detection of genomic DNA extracted from various numbers of Cryptosporidium oocysts, and the fluorescent RAA assay was all negative for detection of genomic DNA from G. lamblia cysts, S. japonicum eggs, A. lumbricoides eggs, C. sinensis eggs, Salmonella and Shigella. Conclusion A novel fluorescent RAA assay is successfully established, which is simple, rapid, sensitive and specific to detect genomic DNA of Cryptosporidium oocysts.
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Objective To develop a florescent recombinase-aided amplification (RAA) assay for rapid detection of Schistosoma japonicum-infected Oncomelania snails and explore the optimal method for treatment of snail samples. Methods Snail samples were divided into 3 groups, and each group consisted of 7 subgroups. There were 50 uninfected snails mixed with 1, 2, 3, 4, 5 and 10 infected snails in the 6 subgroups, respectively, and the remaining subgroup contained 100 uninfected snails mixed with 1 infected snails. DNA was extracted from snails in the three groups using a genomic DNA extraction kit following snail crushing and snail shells removal, crude nucleic acid extraction assay following snail crushing and snail shells removal, and crude nucleic acid extraction assay following direct snail crushing with snail shells preserved, and subjected to florescent RAA and PCR as says. The detection results were compared between the two assays. Results A florescent RAA assay was developed, which completed the detection of S. japonicum-infected snails at 39 ℃ within 30 min. Following DNA extraction from mass snail samples with a genomic DNA extraction kit following snail crushing and snail shells removal, the lowest detection limit of the florescent RAA assay was one infected snail mixed in 100 uninfected snails, while the lowest detection limit of PCR assay was one infected snail mixed in 50 uninfected snails. Following DNA extraction using crude nucleic acid extraction method following snail crushing and snail shells removal, the lowest detection limit of the florescent RAA assay was one infected snail mixed in 100 uninfected snails, while the lowest detection limit of PCR assay was 3 infected snails mixed in 50 uninfected snails. Following DNA extraction with a crude nucleic acid extraction assay following direct snail crushing with snail shells preserved, the lowest detection limit of the florescent RAA assay was 10 infected snails mixed in 50 uninfected snails, while the lowest detection limit of PCR assay was 10 infected snails mixed in 50 uninfected snails. Conclusions A fluorescent RAA assay that is rapid to detect S. japonicum-infected snails in mass snail samples is successfully developed, which is fast, sensitive and easy to perform. Crude nucleic acid extraction following snail crushing and snail shells removal is the optimal method for the treatment of snail samples.
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Objective To develop a florescent recombinase-aided amplification (RAA) assay for rapid detection of Schistosoma japonicum-infected Oncomelania snails and explore the optimal method for treatment of snail samples. Methods Snail samples were divided into 3 groups, and each group consisted of 7 subgroups. There were 50 uninfected snails mixed with 1, 2, 3, 4, 5 and 10 infected snails in the 6 subgroups, respectively, and the remaining subgroup contained 100 uninfected snails mixed with 1 infected snails. DNA was extracted from snails in the three groups using a genomic DNA extraction kit following snail crushing and snail shells removal, crude nucleic acid extraction assay following snail crushing and snail shells removal, and crude nucleic acid extraction assay following direct snail crushing with snail shells preserved, and subjected to florescent RAA and PCR as says. The detection results were compared between the two assays. Results A florescent RAA assay was developed, which completed the detection of S. japonicum-infected snails at 39 ℃ within 30 min. Following DNA extraction from mass snail samples with a genomic DNA extraction kit following snail crushing and snail shells removal, the lowest detection limit of the florescent RAA assay was one infected snail mixed in 100 uninfected snails, while the lowest detection limit of PCR assay was one infected snail mixed in 50 uninfected snails. Following DNA extraction using crude nucleic acid extraction method following snail crushing and snail shells removal, the lowest detection limit of the florescent RAA assay was one infected snail mixed in 100 uninfected snails, while the lowest detection limit of PCR assay was 3 infected snails mixed in 50 uninfected snails. Following DNA extraction with a crude nucleic acid extraction assay following direct snail crushing with snail shells preserved, the lowest detection limit of the florescent RAA assay was 10 infected snails mixed in 50 uninfected snails, while the lowest detection limit of PCR assay was 10 infected snails mixed in 50 uninfected snails. Conclusions A fluorescent RAA assay that is rapid to detect S. japonicum-infected snails in mass snail samples is successfully developed, which is fast, sensitive and easy to perform. Crude nucleic acid extraction following snail crushing and snail shells removal is the optimal method for the treatment of snail samples.
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Objective To establish a recombinase aided isothermal amplification (RAA) assay for detection of Clonorchis sinensis. Methods The 18S ribosomal RNA (18S rRNA) sequence of C. sinensis was used as the target sequence, and specific primers and probes were designed, synthesized and screened to establish a rapid fluorescent RAA assay for the detection of C. sinensis. Then, the sensitivity of the fluorescent RAA assay was evaluated using the recombinant plasmids containing various copy numbers of DNA fragments and C. sinensis genomic DNA at various concentrations, and the specificity of the fluorescent RAA as say was evaluated using the genomic DNA of Ascaris lumbricoides, Echinococcus granulosus, Schistosoma japonicum, Ancylostoma duodenale and S. mansoni as templates. DNA samples were extracted from the feces containing C. sinensis eggs and freshwater fish containing metacercaria for the fluorescent RAA assay, and the performance for detection of C. sinensis-infected samples was preliminarily assessed in the field. Results A fluorescent RAA assay for detection of C. sinensis was successfully established, which was feasible for specific amplification of C. sinensis genomic DNA at 39 °C within 20 min. The lowest detection limit was 10 copies/μL if the recombinant plasmid containing various copy numbers of DNA fragments was used as a template, and the lowest detection limit was 3 pg/μL if the C. sinensis genomic DNA at various concentrations served as a template. All detections were negative if the genomic DNA of A. lumbricoides, E. granulosus, S. japonicum, A. duodenale, and S. mansoni was used as templates. In addition, the fluorescent RAA assay showed a high performance for the detection of C. sinensis-infected samples in the field, which successfully detected C. sinensis-infected human and rat fecal samples and Pseudorasbora parva samples. Conclusion A fluorescent RAA assay is successfully established, which is simple, rapid, sensitivity and specific for detection of C. sinensis.
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Objective To establish a recombinase-aided isothermal amplification (RAA) assay for detection of Cryptosporidium. Methods Based on Cryptosporidium-specific 18S rRNA selected as the target gene to be detected, and the primer sequences and fluorescent probes designed using the software Amplfix, and a fluorescent RAA assay was established and optimized. The fluorescent RAA assay was performed to detect 18S RNA target sequence-contained recombinant plasmids at various copies, genomic DNA of Cryptosporidium oocysts at various concentrations, and genomic DNA extracted from various numbers of Cryptosporidium oocysts to assess the sensitivity of the assay, and to detect genomic DNA extracted from Cryptosporidium oocysts, Giardia lamblia cysts, Schistosoma japonicum eggs, Ascaris lumbricoides eggs, Clonorchis sinensis eggs, Salmonella and Shigella to determine the specificity of the assay. Results A fluorescent RAA assay was successfully established, which was effective to amplify the specific 18S RNA gene fragments of Cryptosporidium within 20 min at 39 ℃. The lowest limits of the fluorescent RAA assay were 102 copies/μL for detection of 18S RNA target sequence-contained recombinant plasmids at various copies, 1 pg/μL for detection of genomic DNA of Cryptosporidium oocysts at various concentrations, and one Cryptosporidium oocyst/μL for detection of genomic DNA extracted from various numbers of Cryptosporidium oocysts, and the fluorescent RAA assay was all negative for detection of genomic DNA from G. lamblia cysts, S. japonicum eggs, A. lumbricoides eggs, C. sinensis eggs, Salmonella and Shigella. Conclusion A novel fluorescent RAA assay is successfully established, which is simple, rapid, sensitive and specific to detect genomic DNA of Cryptosporidium oocysts.
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Objective To establish a novel method for the detection of Schistosoma japonicum specific gene fragments by re-combinase aided isothermal amplification(RAA).Methods The gene fragment SjG28 of S.japonicum was selected as the tar-get gene fragment to be detected,and the primers were designed according to the mechanism of RAA reaction.The reaction of isothermal amplification of S.japonicum was established and optimized.Then this method was applied to amplify and detect the specific gene fragment in the gradient diluent SjG28-recombiant plasmids and different concentrations of S.japonicum genomic DNA to estimate the sensitivity of this method.The samples were also detected by polymerase chain reaction(PCR)in parallel as control.This method was applied to detect the genomic DNA of S.mansoni,Ascaris lumbricoides,and Ancylostoma duodenale to evaluate the specificity.Results The specific gene fragment was amplified from genomic DNA of adult worms and eggs of S.japonicum by recombinase aided isothermal amplification reaction established in this study.The reaction can be completed with-in 30 minutes and the minimum detectable template was 20 copies of plasmids or 0.5 ng of genomic DNA per microliter.Other parasites'genomic DNAs,such as S.mansoni,A.lumbricoides,An.duodenale and healthy human blood genomic DNA were not able to be detected by this method.Conclusion A novel method for the detection of S.japonicum specific gene fragments by re-combinase aided isothermal amplification is established in this study,which can be carried out conveniently and rapidly with a considerable sensitivity and specificity,showing the prospect for application in the diagnosis of schistosomiasis japonica.