Scientia Agricultura Sinica ›› 2014, Vol. 47 ›› Issue (8): 1522-1530.doi: 10.3864/j.issn.0578-1752.2014.08.008
• PLANT PROTECTION • Previous Articles Next Articles
ZHANG Jian-Qin, GE Ping-Ting, LI Da-Qi, WANG Yan, ZHANG Jian-Zhen, MA EnBo
[1]Kontogiannatos D, Michail X, Kourti A. Molecular characterization of an ecdysteroid inducible carboxylesterases with GQSCG motif in the corn borer, Sesamia nonagrioides. Journal of Insect Physiology, 2011, 57(7): 1000-1009. [2]Ma E B, He Y P, Zhu K Y. Comparative studies of acetylcholinesterases purified from two field populations of the oriental migratory locust (Locusta migratoria manilensis): implications of insecticide resistance. Pesticide Biochemistry and Physiology, 2004, 78(1): 67-77.[3]Yang M L, Zhang J Z, Zhang J Q, Guo Y P, Ma E B. Characterization of carboxylesterase associated with malathion insensitivity in the field population of the oriental migratory locust. Agricultural Sciences in China, 2008, 7(5): 591-598.[4]Satoh T, Hosokawa M. Structure, function and regulation of carboxylesterase. Chemico-Biological Interactions, 2006, 162(3): 195-211.[5]Marshall S D, Putterill J J, Plummer K M, Newcomb R D. The carboxylesterase gene family from Arabidopsis thaliana. Journal of Molecular Evolution, 2003, 57(5): 487-500. [6]Jeon J H, Kim S J, Lee H S, Cha S S, Lee J H, Yoon S H, Koo B S, Lee C M, Choi S H, Lee S H, Kang S G, Lee J H. Novel metagenome-derived carboxylesterase that hydrolyzes β-lactam antibiotics. Applied and Environmental Microbiology, 2011, 77(21): 7830-7836. [7]Oakeshott J G, Claudianos C, Russell R J, Robin G C. Carboxyl/cholinesterases: a case study of evolution of successful multigene family. BioEssays, 1999, 21(12): 1031-1042. [8]Oakeshott J G, Claudianos C, Campbell P M, Newcomb R D, Russell R J. Biochemical genetics and genomics of insect esterases//Gilbert L I, Iatrou K, Gill S. Comprehensive Molecular Insect Science. Vol. 5. Oxford, UK: Elsevier, 2005: 309-381.[9]Ranson H, Claudianos C, Ortelli F, Abgrall C, Hemingway J, Sharakhova M V, Unger M F, Collins F H, Feyereisen R. Evolution of supergene families associated with insecticide resistance. Science, 2002, 298(5591): 179-181. [10]Strode C, Wondji C S, David J P, Hawkes N J, Lumjuan N, Nelson D R, Drane D R, Karunaratne S H, Hemingway J, Black W C 4th, Ranson H. Genomic analysis of detoxification genes in the mosquito Aedes aegypti. Insect Biochemistry and Molecular Biology, 2008, 38(1): 113-123.[11]Yan L Z, Yang P C, Jiang F, Cui N, Ma E B, Qiao C, Cui F. Transcriptomic and phylogenetic analysis of Culex pipiens quinquefasciatus for three detoxification gene families. BMC Genomics, 2012, 13: 609.[12]Tsubota T, Shiotsuki T. Genomic analysis of carboxyl/cholinesterase genes in the silkworm Bombyx mori. BMC Genomics, 2010, 11: 377.[13]Claudianos C, Ranson H, Johnson R M, Biswas S, Schuler M A, Berenbaum M R, Feyereisen R, Oakeshott J G. A deficit of detoxification enzymes: pesticide sensitivity and environmental response in the honeybee. Insect Molecular Biology, 2006, 15(5): 615-636.[14]Oakeshott J G, Johnson R M. Berenbaum M R, Ranson H, Cristino A S, Claudianos C. Metabolic enzymes associated with xenobiotic and chemosensory responses in Nasonia vitripennis. Insect Molecular Biology, 2010, 19(Suppl. 1): 147-163.[15]Yu Q Y, Lu C, Li W L, Xiang Z H, Zhang Z. Annotation and expression of carboxylesterases in the silkworm, Bombyx mori. BMC Genomics, 2009, 10: 553.[16]Tsubota T, Shiotsuki T. Genomic and phylogenetic analysis of insect carboxyl/cholinesterase genes. Journal of Pesticide Science, 2010, 35(3): 310-314.[17]Karatolos N, Pauchet Y, Wilkinson P, Chauhan R, Denholm I, Gorman K, Nelson D R, Bass C, ffrench-Constant R H, Williamson M S. Pyrosequencing the transcriptome of the greenhouse whitefly, Trialeurodes vaporariorum reveals multiple transcripts encoding insecticide targets and detoxifying enzymes. BMC Genomics, 2011, 12: 56.[18]Liu X J, Li F, Li D Q, Ma E B, Zhang W Q, Zhu K Y, Zhang J Z. Molecular and functional analysis of UDP-N-acetylglucosamine pyrophosphorylases from the migratory locust, Locusta migratoria. PLoS One, 2013, 8: e71970.[19]Qin G H, Jia M, Liu T, Xuan T, Zhu K Y, Guo Y P, Ma E B, Zhang J Z. Identification and characterisation of ten glutathione S-transferase genes from oriental migratory locust, Locusta migratoria manilensis (Meyen). Pest Management Science, 2011, 67(6): 697-704.[20]李大琪, 杜建中, 张建琴, 郝耀山, 刘晓健, 王亦学, 马恩波, 张建珍, 孙毅. 东亚飞蝗几丁质酶家族基因的表达特性与功能研究. 中国农业科学, 2011, 44(3): 485-492.Li D Q, Du J Z, Zhang J Q, Hao Y S, Liu X J, Wang Y X, Ma E B, Zhang J Z, Sun Y. Study on expression characteristics and functions of chitinase family genes from Locusta migratoria manilensis (Meyen). Scientia Agricultura Sinica, 2011, 44(3): 485-492. (in Chinese)[21]Feng Q L, Ladd T R, Tomkins B L, Sundaram M, Sohi S S, Retnakaran A, Davey K G, Palli S R. Spruce budworm (Choristoneura fumiferana) juvenile hormone esterase: hormonal regulation, developmental expression and cDNA cloning. Molecular and Cellular Endocrinology, 1999, 148: 95-108.[22]Liu S, Yang B J, Gu J H, Yao X M, Zhang Y X, Song F, Liu Z W. Molecular cloning and characterization of a juvenile hormone esterase gene from brown planthopper, Nilaparvata lugens. Journal of Insect Physiology, 2008, 54(12): 1495-1502.[23]Hirai M, Kamimura M, Kikuchi K, Yasukochi Y, Kiuchi M, Shinoda T, Shiotsuki T. cDNA cloning and characterization of Bombyx mori juvenile hormone esterase: an inducible gene by the imidazole insect growth regulator KK-42. Insect Biochemistry and Molecular Biology, 2002, 32: 627-635.[24]Holmes R S, Cox L A, VandeBerg J L. Mammalian carboxylesterase 3: comparative genomics and proteomics. Genetica, 2010, 138(7): 695-708.[25]Kroetz D L, McBride O W, Gonzalez F J. Glycosylation-dependent activity of baculovirus-expressed human liver carboxylesterases: cDNA cloning and characterization of two highly similar enzyme forms. Biochemistry, 1993, 32(43): 11606-11617. [26]Arrese E L, Soulages J L. Insect fat body: energy, metabolism, and regulation. Annual Review of Entomology, 2010, 55: 207-225.[27]Kethidi D R., Xi Z Y, Palli S R. Developmental and hormonal regulation of juvenile hormone esterase gene in Drosophila melanogaster. Journal of Insect Physiology, 2005, 51(4): 393-400.[28]Guo Y Q, Zhang J Z, Yu R R, Zhu K Y, Guo Y P, Ma E B. Identification of two new cytochrome P450 genes and RNA interference to evaluate their roles in detoxification of commonly used insecticides in Locusta migratoria. Chemosphere, 2012, 87(7): 709-717. [29]Qin G H, Jia M, Liu T, Zhang X Y, Guo Y P, Zhu K Y, Ma E B, Zhang J Z. Heterologous expression and characterization of a sigma glutathione S-transferase involved in carbaryl detoxification from oriental migratory locust, Locusta migratoria manilensis (Meyen). Journal of Insect Physiology, 2012, 58(2): 220-227.[30]Zhang J Q, Li D Q, Ge P T, Yang M L, GuoY P, Zhu K Y, Ma E B, Zhang J Z. RNA interference revealed the roles of two carboxylesterase genes in insecticide detoxification in Locusta migratoria. Chemosphere, 2013, 93(6): 1207-1215.[31]Thomas B A, Church W B, Lane T R, Hammock B D. Homology model of juvenile hormone esterase from the crop pest, Heliothis virescens. Proteins, 1999, 34(2): 184-196. |
[1] | ZHANG Rui,ZHANG XueYao,ZHAO XiaoMing,MA EnBo,ZHANG JianZhen. Antibody Preparation and Subcellular Localization of LmKnk3-5′ in Locusta migratoria [J]. Scientia Agricultura Sinica, 2022, 55(2): 329-338. |
[2] | GUAN RuoBing,LI HaiChao,MIAO XueXia. Commercialization Status and Existing Problems of RNA Biopesticides [J]. Scientia Agricultura Sinica, 2022, 55(15): 2949-2960. |
[3] | YIN Fei,LI ZhenYu,SAMINA Shabbir,LIN QingSheng. Expression and Function Analysis of Cytochrome P450 Genes in Plutella xylostella with Different Chlorantraniliprole Resistance [J]. Scientia Agricultura Sinica, 2022, 55(13): 2562-2571. |
[4] | WU Wei,XU HuiLi,WANG ZhengLiang,YU XiaoPing. Cloning and Function Analysis of a Serine Protease Inhibitor Gene Nlserpin2 in Nilaparvata lugens [J]. Scientia Agricultura Sinica, 2022, 55(12): 2338-2346. |
[5] | CHEN ErHu,MENG HongJie,CHEN Yan,TANG PeiAn. Cuticle Protein Genes TcCP14.6 and TcLCPA3A are Involved in Phosphine Resistance of Tribolium castaneum [J]. Scientia Agricultura Sinica, 2022, 55(11): 2150-2160. |
[6] | Xiang XU,Yi XIE,LiYun SONG,LiLi SHEN,Ying LI,Yong WANG,MingHong LIU,DongYang LIU,XiaoYan WANG,CunXiao ZHAO,FengLong WANG,JinGuang YANG. Screening and Large-Scale Preparation of dsRNA for Highly Targeted Degradation of Tobacco Mosaic Virus (TMV) Nucleic Acids [J]. Scientia Agricultura Sinica, 2021, 54(6): 1143-1153. |
[7] | GE XinZhu,SHI YuXing,WANG ShaSha,LIU ZhiHui,CAI WenJie,ZHOU Min,WANG ShiGui,TANG Bin. Sequence Analysis of Harmonia axyridis Pyruvate Kinase Gene and Its Regulation of Trehalose Metabolism [J]. Scientia Agricultura Sinica, 2021, 54(23): 5021-5031. |
[8] | ZHANG DaoWei,KANG Kui,YU YaYa,KUANG FuPing,PAN BiYing,CHEN Jing,TANG Bin. Characteristics and Immune Response of Prophenoloxidase Genes in Sogatella furcifera [J]. Scientia Agricultura Sinica, 2020, 53(15): 3108-3119. |
[9] | LIU XiaoJian,GUO Jun,ZHANG XueYao,MA EnBo,ZHANG JianZhen. Molecular Characteristics and Function Analysis of Nuclear Receptor Gene LmE75 in Locusta migratoria [J]. Scientia Agricultura Sinica, 2020, 53(11): 2219-2231. |
[10] | YAO LiXiao,FAN HaiFang,ZHANG QingWen,HE YongRui,XU LanZhen,LEI TianGang,PENG AiHong,LI Qiang,ZOU XiuPing,CHEN ShanChun. Function of Citrus Bacterial Canker Resistance-Related Transcription Factor CitMYB20 [J]. Scientia Agricultura Sinica, 2020, 53(10): 1997-2008. |
[11] | MA Wen,LIU Jiao,ZHANG XueYao,SHEN GuoHua,QIN XueMei,ZHANG JianQin. Enzymatic Characteristics and Metabolic Analysis to Malathion and p,p’-DDT of LmGSTS2 from Locusta migratoria [J]. Scientia Agricultura Sinica, 2019, 52(8): 1389-1399. |
[12] | DING YanJuan,LIU YongKang,LUO YuJia,DENG YingMei,XU HongXing,TANG Bin,XU CaiDi. Potential Functions of Nilaparvata lugens GSK-3 in Regulating Glycogen and Trehalose Metabolism [J]. Scientia Agricultura Sinica, 2019, 52(7): 1237-1246. |
[13] | JIA Pan,ZHANG Jing,YANG Yang,LIU WeiMin,ZHANG JianZhen,ZHAO XiaoMing. Expression and Function Analysis of Endocuticle Structural Glycoprotein Gene LmAbd-2 in Locusta migratoria [J]. Scientia Agricultura Sinica, 2019, 52(4): 651-660. |
[14] | JunBo PENG,XingHong LI,Wei ZHANG,Ying ZHOU,JinBao HUANG,JiYe YAN. Pathogenicity and Gene Expression Pattern of the Exocrine Protein LtGH61A of Grape Canker Fungus [J]. Scientia Agricultura Sinica, 2019, 52(24): 4518-4526. |
[15] | ZHANG DaoWei,YU YaYa,PAN BiYing,KANG Kui,ZENG BoPing,CHEN Jing,TANG Bin. Regulation Function of Trehalose-6-phosphate Synthase Genes on Chitin Synthesis in Sogatella furcifera [J]. Scientia Agricultura Sinica, 2019, 52(19): 3357-3366. |
|