Detection of Aedes aegypti Resistance towards Cypermethrin using Polymerase Chain Reaction (PCR) Techniques in Ambarawa Semarang Regency

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Widya Hary Cahyati
Laila Fitriani

Abstract

Ambarawa Regency is one of the endemic sub-districts since 2017 which always accounts for the highest DHF cases in Semarang Regency. Molecular detection of Aedes aegypti resistance towards sipermetrin using Polymerase Chain Reaction (PCR) techniques. The study was conducted to see mutations in the Aedes aegypti VGSC gene.


This research was a pure experimental study. The Aedes aegypti samples examined were 10 in every village taken from 3 endemic DHF villages with high fogging intensity in Ambarawa. The research used random sampling techniques taken with ovitrap which was first installed during the month of August. Resistance detection test using the PCR method were conducted at the Banjarnegara Research and Development Center in September. Data were analyzed descriptively to illustrate the results of the study.


The results showed that in Tambakboyo Village, 2 samples were susceptible (V / V), 7 samples were detected as homozygous (G / G) resistant, 1 sample was detected as heterozygous (V / G) resistant; in Kupang District 5 samples were detected as being homozygous resistant (G / G) and 5 samples were detected as heterozygous resistant (V / G); and in Panjang Village 1 susceptible sample (V / V), 8 samples were detected as homozygous resistant (G / G), 1 sample was detected as heterozygous resistant (V / G).


Based on the results of mutation studies had been found in the VGSC gene in codon V1016G. The proper implementation of management, selection and rotation of insecticides is expected to reduce the risk of resistance in the Aedes aegypti mosquito population.

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How to Cite
Cahyati, W., & Fitriani, L. (2020). Detection of Aedes aegypti Resistance towards Cypermethrin using Polymerase Chain Reaction (PCR) Techniques in Ambarawa Semarang Regency. Unnes Journal of Public Health, 9(1), 71-77. https://doi.org/10.15294/ujph.v9i1.34868

References

Ahmad, I., Astari, S., Rahayu, R., & Hariani, N. 2009. Status Kerentanan Aedes aegypti (Diptera: Culicidae) pada Tahun 2006-2007 terhadap Malathion di Bandung, Jakarta, Surabaya, Palembang, dan Palu. Biosfera, 26 (2): 82-89.
Cahyati, W. H. & Anggraini, T. S. 2017. Perkembangan Aedes aegypti pada Berbagai Kondisi Ph Air dan Salinitas Air . Higeia, 1 (3): 1-10.
Chung, H.-H., Cheng, I.-C., Chen, Y.-C., Lin, C., Tomita, T., & Teng, H.-J. 2019. Voltage-Gated Sodium Channel Intron Polymorphismand Fourmutations Comprise Six Haplotypes in an Aedes aegypti Population in Taiwan. PLOS Neglected Tropical Disease, 13 (3): 1-16.
Dinas Kesehatan Kabupaten Semarang. 2017. Profil Kesehatan Kabupaten Semarang. Kabupaten Semarang: Dinas Kesehatan Kabupaten Semarang.
Dinas Kesehatan Provinsi Jawa Tengah, 2011. Laporan Penggunaan Insektisida, Semarang: Dinas Kesehatan Provinsi Jawa Tengah.
Dinas Kesehatan Provinsi Jawa Tengah. 2017. Profil Kesehatan Jawa Tengah. Semarang: Dinas Kesehatan Provinsi Jawa Tengah.
Ghiffari, A., Fatimi, H., & Anwar, C. 2013. Deteksi Resistensi Insektisida Sintetik Piret Aedes aegypti (L.) Strain Palembang Menggunakan Polymerase Chain Reaction. Aspirator, 5 (2): 37-44.
Harris, A. F., Rajatileka, S., & Ranson, H. 2010. Pyrethroid Resistance in Aedes aegypti from Grand Cayman. The American Journal of Tropical Medicine and Hygiene, 83 (2): 277-284.
Hasmiwati, & Supargiyono. 2018. Short Communication: Genotyping of Kdr Allele in Insecticide Resistant Aedes aegypti Populations from West Sumatra, Indonesia. Biodiversitas, 19 (2): 552-558.
Hasmiwati, Tjong, D. H., & Novita, E. 2016. Detection and Identification of Synthetic Insecticide Resistance in Aedes aegypti Dengue Hemorrhagic Fever (DHF) Vector in Padang. Seminar Nasional Biologi (pp. 277-284). Medan: USU Press.
Ilham, M. M., Rahmi, D. T., & Lusiyana, N. 2017. Survei Entomologi, Kerentanan Aedes aegypti terhadap Insektisida Sintetik Piretroid, dan Identifikasi Gen VGSC di Desa Gondoriyo, Kabupaten Semarang. Aspirator, 1 (3): 40-48.
Isfanda, Hadi, U. K., & Soviana, S. 2017. Determination of Homozygous Strain in Aedes aegypti (Linn.) Using Single Sib-selection Method. Aspirator, 9 (1): 21-28.
Jahan, N., & Shahid, A. 2013. Evaluation Of Resistance Against Deltamethrin And Cypermethrin In Dengue Vector From Lahore, Pakistan. The Journal of Animal & Plant Sciences, 23 (5): 1321-1326.
Kawada, H., Oo, T. S., Kawashima, E., Maung Maung, Y. N., & Thant, M. 2014. Co-occurrence of Point Mutations in the Voltage-gated Sodium Channel of Pyrethroid Resistant Aedes aegypti Populations in Myanmar. PLOS Neglected Tropical Diseases, 7 (17): 8-13.
Kemenkes RI. 2017. Profil Kesehatan Indonesia. Jakarta: Kementerian Kesehatan RI.
Lima, E., Araujo, S., & Oliveira, S. S. (2011). Insecticide Resistance in Aedes aegypti Populations from Ceara, Brazil. Parasites & Vectors, 4 (1): 5.
Mantolu, Y., Kustiati, Ambarningrum, T. B., Yusmalinar, S., & Ahmad, I. 2016. Status dan Perkembangan Resistensi Aedes aegypti (Linnaeus) (Diptera: Culicidae) strain Bandung, Bogor, Makassar, Palu, dan VCRU terhadap Insektisida Permetrin dengan Seleksi Lima Generasi. Jurnal Entomologi Indonesia, 13 (1): 1-8.
Mulyani, A., Boewono, D. T., & Baskoro, T. 2017. A Study of Aedes aegypty Susceptibility Against Cypermetrin at Elementary Schools Yogyakarta. TMJ, 4 (1): 25-33.
Murcia, O., Henríquez, B., Castro, A., Koo, S., Josue, Y., Márquez, R., et al. 2019. Presence of the Point Mutations Val1016Gly in the Voltage-Gated Sodium Channel Detected in a Single Mosquito from Panama. Parasites and Vectors, 12 (62): 1-7.
Purwaningsih, Umniyati, S. R., & Mulyaningsih, B. 2019. Combined Target Site VGSC Mutations Play a Primary Role in Pyrethrod Resistant Phenotypes of Aedes aegypti as Dengue Vector from Palu City, Central Sulawesi. Indonesian Jurnal Of Tropical and Infectious Disease, 7 (5): 93-98.
Puskesmas Ambarawa, 2019. Laporan Tahunan, Semarang: Puskesmas Ambarawa.
Saha, P., Moytrey, C., Ballav, S., Chowdhury, A., Basu, N., & Maji, A. K. (2018). Prevalence of Kdr Mutations and Insecticide Susceptibility Among Natural Population of Aedes aegypti in West Bengal. PLOS ONE, 14 (4): 10-15.
Sayono, Syafruddin, D., & Sumanto, D. 2012. Distribusi Resistensi Nyamuk Aedes aegypti terhadap Insektisida Sipermetrin di Semarang. Jurnal UNIMUS, 6 (1): 263-269.
Sinkins, S. 2010. Genome Sequence of Aedes aegypti, a Major Arbovirus Vectors. J Sci, 16 (5832): 1718-1723.
Stenhouse, S. A., Plernsub, S., Yanola, J., Lumjuan, N., Dantrakool, A., Choochote, W., et al. 2013. Detection of the V1016G Mutation in the Voltage-gated Sodium Channel Gene of Aedes aegypti (Diptera: Culicidae) by Allele-specific PCR assay, and Its Distribution and Effect on Deltamethrin Resistance in Thailand. Parasit Vectors, 6 (1): 1756-1763.
Susanti, L., & Boesri, H. 2012. Insektisida Sipermetrin 100 g/l terhadap Nyamuk dengan Metode Pengasapan. Kemas, 7 (2): 156-163.
WHO, 2014. Dengue and Severe Dengue, Geneva: World Health Organization.
Widiarti, Boewono, D. T., Syafruddin, D., Garjito, T. A., Tunjungsari, R., & Asih, P. B. 2012. Identifikasi Mutasi Noktah pada ”Gen Voltage Gated Sodium Channel” Aedes aegypti Resisten terhadap Insektisida Pyrethroid di Semarang Jawa Tengah. Buletin Penelitian Kesehatan, 40 (1): 31-38.
Widiastuti, D., Sunaryo, Pramestuti, N., Sari, T. V., & Wijayanti, N. 2015. Deteksi Mutasi V1016G pada Gen Voltage-Gated Sodium Channel pada Populasi Aedes aegypti (Diptera: Culicidae) di Kabupaten Klaten, Jawa Tengah dengan Metode Allele-Specific PCR. Vektora, 7 (2): 65-70.
Yudhana, A., Praja, R. N., & Yunita, M. N. 2017. Deteksi Gen Resisten Insektisida Organofosfat. Jurnal Veteriner, 18 (3): 446-452.