Abstract
In the current study, the role of cotton leaf worm haemocytes and esterases in detoxification were recorded. The haemolymph was collected from the 6 th instar larvae which treated with LC25, LC50, LC70 of three newly compounds extracted from wastes from natural origin, Cyano acetyl urea (CAU), Benzimidazolyl acetyl urea (BAU) from urea and Cyano acetyl urea (CAH) from rice straw as 4 th instar larvae. The mean of total haemocytes counts in haemolymph of untreated 6 th larval instar was 9430±35.78 cells/mm 3 . Data indicated an increase in the total haemocytes of treated ones with CAU, at LC25 and LC50, BAU at LC25 and CAH at LC25, LC50 of CAH the percentages of change were: 19.01, 14.31, 1.90, 21.00 and 14.55, respectively. In addition, the percentages of oenocytoid counts were increased in all concentrations for all compounds except for CAH (at LC70) as it did not change comparing control count. On contrast, data cleared reductions in granulocytes in all concentrations for all compounds except for BAU at LC50 as they increased slightly (15.12%). On the other hand, the results were showed great differences in number of zones of esterase activity and in substrate specificity between treated and untreated samples. For instance, in the case of α - naphthyl acetate, 36 esterase bands were detected in control and treated larval samples with Rf ranging between 0.01 to 0.28. While, in the case of - naphthyl acetate, 39 esterase bands were detected in control and treated larval samples with Rf ranging between 0.01 to 0.92.
Highlights
Haemocytes play an essential role in defending insects and other invertebrates against invaders (Pech and Strand, 1996)
Data indicated an increase in the total haemocytes of treated ones with cyano acetyl urea (CAU), at
While a reduction was noticed in total haemocytes of treated larvae with: CAU, benzimidazolyl acetyl urea (BAU) and cyano acetyl hydrosylate (CAH) comparing the control group: 6810±21.21, 8210±26.96, 6590±29.96 and 8810±15.56 cells/mm3 and the percentages of changes were:
Summary
Haemocytes play an essential role in defending insects and other invertebrates against invaders (Pech and Strand, 1996). Insect cellular defence reactions against invaders include nodule formation and encapsulation (Salt, 1970). Granular haemocytes are characterized by the possession of acidophilic granules which are membrane bounded. These are involved in the detoxification of chemicals and killing of microorganism through encapsulation and phagocytosis (Saxena and Srivastava, 2001; Chapman, 1998). Plasmatocytes, prohemocytes and granulocytes play an important role in phagocytosis, cell clumping and wound healing (Gagen and Ratcliffe, 1976; Barakat, 1997and Irving, et al, 2005). Esterases play a role in detoxification of xenobiotics
Sign-in/Register to view highlights & summary Sign-in/Register to access full text options 
Free) 
Talk to us
Join us for a 30 min session where you can share your feedback and ask us any queries you have
Schedule a call
