Optimasi Analisis Melting Curve untuk Skrining Cepat dan Sensitif Mutasi V1016G pada Aedes aegypti Resisten Sintetik Piretroid dengan Reaksi Rantai Polimerase Spesifik Alel

Detection of V1016G mutation is important for identifying the mechanism of synthetic pyrethroid resistance in Aedes aegypti population. The previous method has described an allele specific polymerase chain reaction (AS-PCR) using conventional PCR to detect the mutation. Although the method has great differentiating power and reproducibility, faster and more sensitive genotyping method is essential to accurately detect the mutation. This study evaluate the used of SYBR® Green real-time PCR and melting curve analysis (MCA) to identify the V1016G mutation. The collection of homozygous 1016G, heterozygous, and wild type (1016 V) mosquitoes DNA genome was extracted using genomic DNA mini kit. The SsoAdvanced™ Universal SYBR® Green Supermix was used to identify alleles by real-time PCR followed melting curve analysis of the amplicons. Melting curve analysis produced reproducible results for the loci tested. The melting temperature was reached at 78.5 oC for homozygous 1016G mosquito and at 86 oC for wild type mosquito. Meanwhile, the heterozigous mosquito revealed two peaks of melting temperature at both 78.5 oC and 86 oC. These easily interpretable and distinguishable melting curve results were consistent with AS-PCR results obtained for the same alleles. The described MCA application for screening V1016G mutation is fast and widely accessible also could be implemented under field conditions

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Genotyping of Entamoeba histolytica by Real-Time Polymerase Chain Reaction with Sybr Green I and Melting Curve Analysis

Bangladesh Journal of Veterinary Medicine ◽

10.3329/bjvm.v4i1.1526 ◽

1970 ◽

Vol 4 (1) ◽

pp. 53-60

Author(s):

SMM Rahman ◽

R Haque ◽

S Roy ◽

MMH Mondal

Keyword(s):

Real Time ◽

Melting Temperature ◽

Entamoeba Histolytica ◽

Real Time Pcr ◽

Melting Curve ◽

Curve Analysis ◽

Sybr Green ◽

Sybr Green I ◽

Melting Curve Analysis ◽

Intestinal Amoebiasis

In this study, for the detection of distinct genotype of E. histolytica of human, a nested Real-Time PCR amplification of SREHP gene using SYBR Green I and melting curve analysis was done. A total of 60 specimens (stool and liver aspirate specimens), which were found Entamoeba histolytica positive by E. histolytica specific ELISA and ssrRNA gene PCR, were selected and the experiment was conducted during the period of July 2003 to June 2004. After melting curve analysis of amplified PCR products from these isolates of stool and liver aspirate specimens, 5 genotypes were found belonging to the melting temperatures 84Â°C, 83Â°C, 82Â°C, 81Â°C and 79Â°C. All these 5 genotypes were present in intestinal amoebiasis patients and when the genotypes from intestinal amoebiasis patients were compared with the genotypes of amoebic liver amoebiasis patients, the genotype 84Â°C melting temperature was found to be absent in amoebic liver amoebiasis patients. For both the cases of intestinal and amoebic liver amoebiasis patients the genotype belonging to 83Â°C melting temperature was more prevalent than the other genotypes which suggest that this genotype is more responsible for the development of amoebiasis. In comparison to conventional PCR method where we found 23 different banding patterns, the Real-Time PCR and melting curve analysis method was found to be more reliable for the detection of distinct genotypes of E. histolytica because with this method we found only 5 genotypes. In conclusion, this Real-Time PCR using SYBR Green I and melting curve analysis for the genotyping of E. histolytica, excludes the need of post PCR manipulations and would be helpful for the rapid detection and screening of E. histolytica genotypes among endemic population and also for the epidemiological study. Key words: Entamoeba histolytica, genotype, diarrhoea, Real-Time PCR, melting curve analysis doi:10.3329/bjvm.v4i1.1526 Bangl. J. Vet. Med. (2006). 4 (1): 53-60

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