UNDERSTANDING INSECTICIDE RESISTANCE IN MUSCA DOMESTICA L. (DIPTERA: MUSCIDAE), RESPONSIBLE ENZYME AND ITS INTERACTION NETWORK USING PPI STUDIES

Abstract

The housefly, Musca domestica, L. (Diptera: Muscidae) is a genuine danger to human and creature wellbeing. Houseflies are vectors of in excess of 100 human and creature intestinal maladies. They are fit for communicating parasites that cause illnesses, for example, typhoid fever, cholera, bacillary looseness of the bowels, juvenile the runs, tuberculosis, plague, sickness, yaws, samonellosis, trachoma, and Bacillus anthracis. Creature wellbeing concerns incorporate the transmission of pinkeye. If we want to quell this insect pest the humans using insecticides and repellents but due to chronic use of these chemical compounds will create insecticide resistance in these domestic insect pests. There are numerous proteins/enzymes responsible for degradation of the chemicals used to get rid of these pests, but due to the action of some of the proteins/enzymes namely Ache gene(considering in the current study) will be rigorously involved in degradation of chemical compounds results in expressing the resistance in Houseflies. With the application of network biology the current study dealt efficiently in understanding how the interacting/supporting mechanism helps in expressing the resistance mechanism. With the help of STRING DATABASE in data collection and CYTOSCAPE-3.0 in visualization helps to its best in understanding the mechanism.