Scientia Agricultura Sinica ›› 2014, Vol. 47 ›› Issue (7): 1341-1350.doi: 10.3864/j.issn.0578-1752.2014.07.011
• Insect chitin metabolism and plant protection • Previous Articles Next Articles
CHEN Peng, QU Ming-Bo, YANG Jun, YANG Qing
[1]Elias-Neto M, Soares M P M, Simões Z L P, Hartfelder K, Bitondi M M G. Developmental characterization, function and regulation of a Laccase2 encoding gene in the honey bee, Apis mellifera (Hymenoptera, Apinae). Insect Biochemistry and Molecular Biology, 2010, 40: 241-251.[2]Sudermana R J, Dittmer N T, Kanosta M R, Kramer K J. Model reactions for insect cuticle sclerotization: Cross-linking of recombinant cuticular proteins upon their laccase-catalyzed oxidative conjugation with catechols. Insect Biochemistry and Molecular Biology, 2006, 36: 353-365.[3]Moussian B. Recent advances in understanding mechanisms of insect cuticle differentiation. Insect Biochemistry and Molecular Biology, 2010, 40: 363-375.[4]程晓东, 安世恒, 王海亭, 王甜甜, 罗梅浩, 郭线茹, 原国辉. 亚洲玉米螟GOBP2的克隆、原核表达及多克隆抗体制备. 中国农业科学, 2011, 44(10): 2029-2038.Cheng X D, An S H, Wang H T, Wang T T, Luo M H, Guo X R, Yuan G H. cDNA cloning, prokaryotic expression and polyclonal antibody preparation of GOBP2 from Ostrinia furnacalis (Guenée). Scientia Agricultura Sinica, 2011, 44(10): 2029-2038. (in Chinese)[5]余金咏, 于泉林, 周印富, 陈东芳. 亚洲玉米螟的种群动态及危害. 河北科技师范学院学报, 2010, 24(3): 75-80.Yu J Y, Yu Q L, Zhou Y F, Chen D F. Population dynamic and damage of Ostrinia furnacalis in the corn fields. Journal of Hebei Normal University of Science & Technology, 2010, 24(3): 75-80. (in Chinese)[6]Dittmer N T, Kanost M R. Insect multicopper oxidases: diversity, properties, and physiological roles. Insect Biochemistry and Molecular Biology, 2010, 40: 179-188.[7]Nakamura K, Go N. Function and molecular evolution of multicopper blue proteins. Cellular and Molecular Life Sciences, 2005, 62: 2050-2066.[8]Shraddha, Shekher R, Sehgal S, Kamthania M, Kumar A. Laccase: microbial sources, production, purification, and potential biotechnological applications. Enzyme Research, 2011: 1-11.[9]Coy M R, Salem T Z, Denton J S, Kovaleva E S, Liu Z, Barber D S, Campbell J H, Davis D C, Buchman G W, Boucias D G, Scharf M E. Phenol-oxidizing laccases from the termite gut. Insect Biochemistry and Molecular Biology, 2010, 40: 723-732.[10]Dittmer N T, Gorman M J, Kanost M R. Characterization of endogenous and recombinant forms of laccase-2, a multicopper oxidase from the tobacco hornworm, Manduca sexta. Insect Biochemistry and Molecular Biology, 2009, 39: 596-606.[11]李剑凤. 漆酶基因在毕赤酵母中高效表达[D]. 合肥: 安徽大学, 2006.Li J F. Efficient expression of laccase genes in Pichia pastoris[D]. Hefei: Anhui University, 2006. (in Chinese)[12]Ng I S, Zhang X, Zhang Y, Lu Y. Molecular cloning and heterologous expression of laccase from Aeromonas hydrophila NIU01 in Escherichia coli with parameters optimization in production. Applied Biochemistry and Biotechnology, 2013, 169(7): 2223-2235.[13]潘程远. 鸡枞菌与淡色库蚊及家蝇中漆酶编码基因的克隆与表达[D]. 杭州: 浙江大学, 2009.Pan C Y. Cloning and expression of genes encoding laccases in Termitomyces albuminosus, Culex pipiens pallens and Musca domestica[D]. Hangzhou: Zhejiang University, 2009. (in Chinese)[14]Arakane Y, Muthukrishnan S, Beeman R W, Kanost M R, Kramer K J. Laccase 2 is the phenoloxidase gene required for beetle cuticle tanning. Proceedings of National Academy of Sciences of the United States of America, 2005, 102(32): 11337-11342.[15]Gorman M J, Dittmer N T, Marshall J L, Kanost M R. Characterization of the multicopper oxidase gene family in Anopheles gambiae. Insect Biochemistry and Molecular Biology, 2008, 38: 817-824.[16]Hattori M, Tsuchihara K, Noda H, Konishi H, Tamura Y, Shinoda T, Nakamura M, Hasegawa T. Molecular characterization and expression of laccase genes in the salivary glands of the green rice leafhopper, Nephotettix cincticeps (Hemiptera: Cicadellidae). Insect Biochemistry and Molecular Biology, 2010, 40: 331-338.[17]Yatsu J, Asano T. Cuticle laccase of the silkworm, Bombyx mori: Purification, gene identification and presence of its inactive precursor in the cuticle. Insect Biochemistry and Molecular Biology, 2009, 39: 254-262.[18]Dittmer N T, Suderman R J, Jiang H, Zhu Y C, Gorman M J, Kramer K J, Kanost M R. Characterization of cDNAs encoding putative laccase-like multicopper oxidases and developmental expression in the tobacco hornworm, Manduca sexta, and the malaria mosquito, Anopheles gambiae. Insect Biochemistry and Molecular Biology, 2004, 34: 29-41.[19]Niu B L, Shen W F, Liu Y, Weng H B, He L H, Mu J J, Wu Z L, Jiang P, Tao Y Z, Meng Z Q. Cloning and RNAi-mediated functional characterization of MaLac2 of the pine sawyer, Monochamus alternatus. Insect Molecular Biology, 2008, 17(3): 303-312.[20]Gorman M J, Sullivan L I, Nguyen T D, Dai H, Arakane Y, Dittmer N T, Syed L U, Li J, Hua D H, Kanost M R. Kinetic properties of alternatively spliced isoforms of laccase-2 from Tribolium castaneum and Anopheles gambiae. Insect Biochemistry and Molecular Biology, 2012, 42: 193-202.[21]Pan C, Zhou Y, Mo J. The clone of laccase gene and its potential function in cuticular penetration resistance of Culex pipiens pallens to fenvalerate. Pesticide Biochemistry and Physiology, 2009, 93: 105-111.[22]Lang M, Kanost M R, Gorman M J. Multicopper oxidase-3 is a laccase associated with the peritrophic matrix of Anopheles gambiae. PLoS ONE, 2012, 7(3): e33985.[23]Wu X S, Zhan X M, Gan M, Zhang D J, Zhang M C, Zheng X Y, Wu Y, Li Z Y, He A. Laccase2 is required for sclerotization and pigmentation of Aedes albopictus eggshell. Parasitology Research, 2013, 112(5): 1929-1934.[24]Arakane Y, Lomakin J, Beeman R W, Muthukrishnan S, Gehrke S H, Kanost M R, Kramer K J. Molecular and functional analyses of amino acid decarboxylases involved in cuticle tanning in Tribolium castaneum. The Journal of Biological Chemistry, 2009, 284(24): 16584-16594.[25]Lomakin J, Huber P A, Eichler C, Arakane Y, Kramer K J, Beeman R W, Kanost M R, Gehrke S H. Mechanical properties of the beetle elytron, a biological composite material. Biomacromolecules, 2011, 12(2): 321-335. |
[1] | GU LiDan,LIU Yang,LI FangXiang,CHENG WeiNing. Cloning of Small Heat Shock Protein Gene Hsp21.9 in Sitodiplosis mosellana and Its Expression Characteristics During Diapause and Under Temperature Stresses [J]. Scientia Agricultura Sinica, 2023, 56(1): 79-89. |
[2] | LI ShiJia,LÜ ZiJing,ZHAO Jin. Identification of R2R3-MYB Subfamily in Chinese Jujube and Their Expression Pattern During the Fruit Development [J]. Scientia Agricultura Sinica, 2022, 55(6): 1199-1212. |
[3] | LI YuZe,ZHU JiaWei,LIN Wei,LAN MoYing,XIA LiMing,ZHANG YiLi,LUO Cong,HUANG Gui Xiang,HE XinHua. Cloning and Interaction Protein Screening of RHF2A Gene from Xiangshui Lemon [J]. Scientia Agricultura Sinica, 2022, 55(24): 4912-4926. |
[4] | QU Cheng,WANG Ran,LI FengQi,LUO Chen. Cloning and Expression Profiling of Gustatory Receptor Genes BtabGR1 and BtabGR2 in Bemisia tabaci [J]. Scientia Agricultura Sinica, 2022, 55(13): 2552-2561. |
[5] | ZHANG Li,ZHANG Nan,JIANG HuQiang,WU Fan,LI HongLiang. Molecular Cloning and Expression Pattern Analysis of NPC2 Gene Family of Apis cerana cerana [J]. Scientia Agricultura Sinica, 2022, 55(12): 2461-2471. |
[6] | ZHANG Lu,ZONG YaQi,XU WeiHua,HAN Lei,SUN ZhenYu,CHEN ZhaoHui,CHEN SongLi,ZHANG Kai,CHENG JieShan,TANG MeiLing,ZHANG HongXia,SONG ZhiZhong. Identification, Cloning, and Expression Characteristics Analysis of Fe-S Cluster Assembly Genes in Grape [J]. Scientia Agricultura Sinica, 2021, 54(23): 5068-5082. |
[7] | TAN YongAn,JIANG YiPing,ZHAO Jing,XIAO LiuBin. Expression Profile of G Protein-Coupled Receptor Kinase 2 Gene (AlGRK2) and Its Function in the Development of Apolygus lucorum [J]. Scientia Agricultura Sinica, 2021, 54(22): 4813-4825. |
[8] | WANG Na,ZHAO ZiBo,GAO Qiong,HE ShouPu,MA ChenHui,PENG Zhen,DU XiongMing. Cloning and Functional Analysis of Salt Stress Response Gene GhPEAMT1 in Upland Cotton [J]. Scientia Agricultura Sinica, 2021, 54(2): 248-260. |
[9] | HUANG JinFeng,LÜ TianXing,WANG Xu,WANG YingDa,WANG DongMei,YAN ZhongYe,LIU Zhi. Genome-Wide Identification and Expression Pattern Analysis of LRR-RLK Gene Family in Apple [J]. Scientia Agricultura Sinica, 2021, 54(14): 3097-3112. |
[10] | TAN YongAn,ZHAO XuDong,JIANG YiPing,ZHAO Jing,XIAO LiuBin,HAO DeJun. Cloning, Preparation of Antibody and Response Induced by 20-Hydroxyecdysone of Target of Rapamycin in Apolygus lucorum [J]. Scientia Agricultura Sinica, 2021, 54(10): 2118-2131. |
[11] | KunNeng ZHOU,JiaFa XIA,Peng YUN,YuanLei WANG,TingChen MA,CaiJuan ZHANG,ZeFu LI. Transcriptome Research of Erect and Short Panicle Mutant esp in Rice [J]. Scientia Agricultura Sinica, 2020, 53(6): 1081-1094. |
[12] | WANG ZiYu,ZHANG YinYin,LI YueYuan,LI Ling,YOU LingLing,LI XiaoYan,JIN Zhao,YAN ShiJie. Relationship Between LAC Gene Expression and Core Browning of Yali Pear [J]. Scientia Agricultura Sinica, 2020, 53(24): 5073-5080. |
[13] | LU BaoShun,ZHU YongJing,ZHANG ShuTing,LÜ YuMeng,LI XiaoFei,SONG YuYang,LAI ZhongXiong,LIN YuLing. Whole-Genome Identification and Expression Analysis of SPL Gene Family in Dimocarpus Longan [J]. Scientia Agricultura Sinica, 2020, 53(20): 4259-4270. |
[14] | SHEN JingYuan,TANG MeiLing,YANG QingShan,GAO YaChao,LIU WanHao,CHENG JieShan,ZHANG HongXia,SONG ZhiZhong. Cloning, Expression and Electrophysiological Function Analysis of Potassium Channel Gene VviSKOR in Grape [J]. Scientia Agricultura Sinica, 2020, 53(15): 3158-3168. |
[15] | LIU YiRan,ZHANG Hong,JIN JiSu,ZHOU ZhongShi,GUO JianYing. Identification and Expression Analysis of the Halloween Gene Family in Agasicles hygrophila [J]. Scientia Agricultura Sinica, 2020, 53(10): 2009-2019. |
|