[1]Takeda M, Mita K, Quan G X, Shimada T, Okano K, Kanke E, Kawasaki H. Mass isolation of cuticle protein cDNAs from wing discs of Bombyx mori and their characterizations. Insect Biochemical and Molecular Biology, 2001, 31(10): 1019-1028.[2]Sun G C, Hirose S, Ueda H. Intermittent expression of BmFTZ-F1, a member of the nuclear hormone receptor superfamily during development of the silkworm Bombyx mori. Developmental Biology, 1994,162(2): 426-437.[3]Deng H M, Zheng S C, Yang X H, Liu L, Feng Q L. Transcription factors BmPOUM2 and BmβFTZ-F1 are involved in regulation of the expression of the wing cuticle protein gene BmWCP4 in the silkworm, Bombyx mori. Insect Molecular Biology, 2011, 20(1): 45-60.[4]Deng H M, Zhang J L, Li Y, Zheng S, Liu L, Huang L H, Xu W H, Palli S R, Feng Q L. Homeodomain POU and Abd-A proteins regulate the transcription of pupal genes during metamorphosis of the silkworm, Bombyx mori. Proceedings of Natural Academic Sciences of the United States of America, 2012, 109(31): 12598-12603.[5]Xia Q Y, Cheng D J, Duan J, Wang G H, Cheng T C, Zha X F, Liu C, Zhao P, Dai F Y, Zhang Z, He N J, Zhang L, Xiang Z H. Microarray-based gene expression profiles in multiple tissues of the domesticated silkworm, Bombyx mori. Genome Biology, 2007, 8(8): R162.[6]陆改, 程廷才, 蒋亮, 金盛凯, 林平, 胡翠美, 夏庆友. 家蚕中肠特异启动子BmAPN的克隆及活性分析. 中国农业科学, 2012, 45(20): 4279-4287. Lu G, Cheng T C, Jiang L, Jin S K, Lin P, Hu C M, Xia Q Y. Cloning and activity analysis of a midgut-specific BmAPN promoter in silkworm (Bombyx mori). Scientia Agricultura Sinica, 2012, 45(20): 4279-4287. (in Chinese)[7]Wang H B, Nita M, Iwanaga M, Kawasaki H. βFTZ-F1 and Broad-Complex positively regulate the transcription of the wing cuticle protein gene, BMWCP5, in wing discs of Bombyx mori. Insect Biochemical and Molecular Biology, 2009, 39(9): 624-633.[8]Liang J B, Zhang L, Xiang Z H, He N J. Expression profile of cuticular genes of silkworm, Bombyx mori. BMC Genomics, 2010, 11: 173.[9]Charles J P. The regulation of expression of insect cuticle protein genes. Insect Biochemical and Molecular Biology, 2010, 40(3): 205-213.[10]King-Jones K, Thummel C S. Nuclear receptors-a perspective from Drosophila. Natural Review of Genetics, 2005, 6(4): 311-323.[11]Cheng D J, Xia Q Y, Duan J, Wei L, Huang C, Li Z Q, Wang G H, Xiang Z H. Nuclear receptors in Bombyx mori: insights into genomic structure and developmental expression. Insect Biochemical and Molecular Biology, 2008, 38(12): 1130-1137.[12]Nishita Y, Takiya S. Structure and expression of the gene encoding a broad-complex homolog in the silkworm, Bombyx mori. Gene, 2004, 339: 161-172.[13]Reza A M, Kanamori Y, Shinoda T, Shimura S, Mita K, Nakahara Y, Kiuchi M, Kamimura M. Hormonal control of a metamorphosis- specific transcriptional factor Broad-Complex in silkworm. Compative Biochemical Physiology B: Biochemical and Molecular Biology, 2004, 139(4): 753-761.[14]Emery I F, Bedian V, Guild G M. Differential expression of Broad-Complex transcription factors may forecast tissue-specific developmental fates during Drosophila metamorphosis. Development, 1994, 120(11): 3275-3287.[15]Togawa T, Augustine Dunn W, Emmons A C, Willis J H. CPF and CPFL, two related gene families encoding cuticular proteins of Anopheles gambiae and other insects. Insect Biochemical and Molecular Biology, 2007, 37(7): 675-688.[16]Rebers J E, Willis J H. A conserved domain in arthropod cuticular proteins binds chitin. Insect Biochemical and Molecular Biology, 2001, 31(11): 1083-1093.[17]Andersen S O, Rafn K, Roepstorff P. Sequence studies of proteins from larval and pupal cuticle of the yellow meal worm, Tenebrio molitor. Insect Biochemical and Molecular Biology, 1997, 27(2): 121-131.[18]Mugat B, Brodu V, Kejzlarova-Lepesant J, Antoniewski C, Bayer C A, Fristrom J W, Lepesant J A. Dynamic expression of broad-complex isoforms mediates temporal control of an ecdysteroid target gene at the onset of Drosophila metamorphosis. Developmental Biology, 2000, 227(1): 104-117.[19]Konopova B, Jindra M. Broad-Complex acts downstream of Met in juvenile hormone signaling to coordinate primitive holometabolan metamorphosis. Development, 2008, 135(3): 559-568.[20]Zhong Y S, Mita K, Shimada T, Kawasaki H. Glycine-rich protein genes, which encode a major component of the cuticle, have different developmental profiles from other cuticle protein genes in Bombyx mori. Insect Biochemical and Molecular Biology, 2006, 36(2): 99-110.[21]Bayer C A, Holley B, Fristrom J W. A switch in broad-complex zinc-finger isoform expression is regulated posttranscriptionally during the metamorphosis of Drosophila imaginal discs. Developmental Biology, 1996, 177(1): 1-14.[22]Wang H B, Iwanaga M, Kawasaki H. Activation of BMWCP10 promoter and regulation by BR-C Z2 in wing disc of Bombyx mori. Insect Biochemical and Molecular Biology, 2009, 39(9): 615-623.[23]Nita M, Wang H B, Zhong Y S, Mita K, Iwanaga M, Kawasaki H. Analysis of ecdysone-pulse responsive region of BMWCP2 in wing disc of Bombyx mori. Compative Biochemical Physiology B: Biochemical and Molecular Biology, 2009, 153(1): 101-108.[24]Fischer J A, Giniger E, Maniatis T, Ptashne M. GAL4 activates transcription in Drosophila. Nature, 1988, 332(6167): 853-856.[25]Ma L, Xu H F, Zhu J Q, Ma S Y, Liu Y, Jiang R J, Xia Q Y, Li S. Ras1(CA) overexpression in the posterior silk gland improves silk yield. Cell Research, 2011, 21(6): 934-943. |