Elevated expression of esterase and cytochrome P450 are related with lambda-cyhalothrin resistance and lead to cross resistance in Aphis glycines Matsumura

Pesticide Biochemistry and Physiology
Jinghui XiQingli Shang

Abstract

A resistant strain of the Aphis glycines Matsumura (CRR) has developed 76.67-fold resistance to lambda-cyhalothrin compared with the susceptible (CSS) strain. Synergists piperonyl butoxide (PBO), S,S,S-Tributyltrithiophosphate (DEF) and triphenyl phosphate (TPP) dramatically increased the toxicity of lambda-cyhalothrin to the resistant strain. Bioassay results indicated that the CRR strain had developed high levels of cross-resistance to chlorpyrifos (11.66-fold), acephate (8.20-fold), cypermethrin (53.24-fold), esfenvalerate (13.83-fold), cyfluthrin (9.64-fold), carbofuran (14.60-fold), methomyl (9.32-fold) and bifenthrin (4.81-fold), but did not have cross-resistance to chlorfenapyr, imidacloprid, diafenthiuron, abamectin. The transcriptional levels of CYP6A2-like, CYP6A14-like and cytochrome b-c1 complex subunit 9-like increased significantly in the resistant strain than that in the susceptible. Similar trend were observed in the transcripts and DNA copy number of CarE and E4 esterase. Overall, these results demonstrate that increased esterase hydrolysis activity, combined with elevated cytochrome P450 monooxygenase detoxicatication, plays an important role in the high levels of lambda-cyhalothrin resistance and can cause cr...Continue Reading

References

Aug 24, 2006·Annual Review of Entomology·Xianchun LiMay R Berenbaum
Jun 27, 2009·Archives of Insect Biochemistry and Physiology·Lakshmipathi SrigirirajuJeffrey R Bloomquist
Jan 19, 2010·Insect Biochemistry and Molecular Biology·Osamu KomagataTakashi Tomita
Feb 2, 2010·Comparative Biochemistry and Physiology. Part B, Biochemistry & Molecular Biology·Lan ZhangXiwu Gao
Apr 23, 2010·Proceedings of the National Academy of Sciences of the United States of America·Fang ZhuSubba R Palli
Jul 6, 2010·Insect Biochemistry and Molecular Biology·Kentaro ItokawaTakashi Tomita
Sep 28, 2010·Annual Review of Entomology·David W RagsdaleNicolas Desneux
Sep 30, 2010·Insect Biochemistry and Molecular Biology·Shuwen WuYidong Wu
Feb 18, 2011·Insect Biochemistry and Molecular Biology·Bradley J StevensonMark J I Paine
Feb 4, 2012·Insect Biochemistry and Molecular Biology·Chris W CoppinJohn G Oakeshott
Sep 6, 2012·Proceedings of the National Academy of Sciences of the United States of America·Nicole JoußenDavid G Heckel
Dec 19, 2012·Proceedings of the National Academy of Sciences of the United States of America·Jacob M RiveronCharles S Wondji

❮ Previous
Next ❯

Citations

Jul 11, 2016·Comparative Biochemistry and Physiology. Part D, Genomics & Proteomics·Rui BiJinghui Xi
Aug 23, 2016·International Journal of Molecular Sciences·Xiao-Min ShenWei Dou
Feb 2, 2021·Pesticide Biochemistry and Physiology·Zi-Jian WangChao-Bin Xue
Feb 29, 2020·Insect Biochemistry and Molecular Biology·Rosanna GiordanoUNKNOWN Soybean aphid research community
Dec 10, 2021·Archives of Insect Biochemistry and Physiology·Yan LiuDong Fan
Dec 14, 2021·Journal of Agricultural and Food Chemistry·Jiao ShangJin-Jie Cui

❮ Previous
Next ❯

Related Concepts

Related Feeds

Anthelmintics

Anthelmintics or antihelminthics are a group of antiparasitic drugs that expel parasitic worms (helminths) and other internal parasites from the body by either stunning or killing them and without causing significant damage to the host. Discover the latest research on anthelmintics here.

Anthelmintics (ASM)

Anthelmintics or antihelminthics are a group of antiparasitic drugs that expel parasitic worms (helminths) and other internal parasites from the body by either stunning or killing them and without causing significant damage to the host. Discover the latest research on anthelmintics here.