Expression of heat shock protein genes Aaehsp26, Aaehsp83 and Aaehsc70 in response to thermal stress in Aedes aegypti larvae

Hafisha Khatun Anee, Ashfaqul Muid Khandaker, R. Begum, R. Shahjahan
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Abstract

Climate change is responsible to a certain extent for the occurrence and spread of arboviral pathogens worldwide. Temperature is one of the crucial abiotic factors influencing the physiological processes of mosquitoes. Several genes of heat shock protein (AaeHsp26, AaeHsp83, and AaeHsc70) families are known to be expressed in mosquitoes, which aid in overcoming stress induced by elevated temperature. In this study, the relative expression of heat shock protein genes has been examined using Quantitative Real-time PCR (qPCR). The temperatures used for heat shock treatment were 27(control), 37, and 42°C for 1 hour heat shock period and applied to 3rd instar larvae. Significant up-regulation has been seen at 37, and 42°C. The highest expression level, about 82.43 fold, was reported for the AaeHsc70 gene at 42°C followed by 78.36 fold for AaeHsp26 at 37°C and 4.79 fold for AaeHsp83 at 42°C. The current study has shown that HSPs are important markers of stress and may function as critical proteins to protect and enhance the survival of Ae. aegypti larvae and pupae. Biological implications of these findings could impact the vector competencies Dhaka Univ. J. Biol. Sci. 30(2): 233-241, 2021 (July)
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热休克蛋白基因Aaehsp26、Aaehsp83和Aaehsc70在埃及伊蚊幼虫热应激中的表达
气候变化在一定程度上导致了虫媒病毒病原体在世界范围内的发生和传播。温度是影响蚊虫生理过程的重要非生物因素之一。已知热休克蛋白(AaeHsp26、AaeHsp83和AaeHsc70)家族的几个基因在蚊子中表达,这些基因有助于克服高温引起的应激。本研究利用实时荧光定量PCR (Quantitative Real-time PCR, qPCR)检测了热休克蛋白基因的相对表达。热休克处理温度分别为27℃(对照)、37℃和42℃,热休克期为1 h,分别施用于3龄幼虫。在37°C和42°C时可以看到显著的上调。AaeHsc70基因在42°C时的表达量最高,约为82.43倍,其次是AaeHsp26基因在37°C时的表达量为78.36倍,AaeHsp83基因在42°C时的表达量为4.79倍。目前的研究表明,热休克蛋白是应激的重要标志,可能是保护和提高Ae存活的关键蛋白。埃及伊蚊幼虫及蛹。这些发现的生物学意义可能会影响媒介能力。科学通报,30(2):233-241,2021 (7)
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