| [1] | 向仲怀.蚕丝生物学[M].北京:中国林业出版社, 2005:8-29;82-106;254-285 |
| [2] | 陆星垣, 高一陵, 吕鸿声, 等. 中国农业百科全书:蚕业卷[M]. 北京:中国农业出版社.1987:5-10 |
| [3] | 徐俊良, 时连根.中国家蚕(Bombyx mori L.) 生理学研究的回顾与展望[M]//时连根.蚕学研究—徐俊良教授文选, 北京:中国农业科技出版社, 2004:101-110 |
| [4] | 向仲怀.家蚕遗传育种学[M].北京:中国农业出版社, 1994:6-23;105-151 |
| [5] | Xia Q Y. A draft sequence for the genome of the domesticated silkworm (Bombyx mori)[J]. Science, 2004, 306 (5703): 1937-1940 |
| [6] | 夏庆友, 向仲怀.家蚕基因组计划2000-2007[M].重庆:西南师范大学出版, 2008:1-200 |
| [7] | 秦 俭, 袁联伟.我国家蚕基因组的最新研究[J].蚕业科学, 2010, 36(1):115-119 |
| [8] | Binkley J F, Cheng P G, Smith P L. From data collection to lessons learned space failure information exploitation at the aerospace corporation[C]. First International Forum on Integrated System Health Engineering and Management in Aerospace. California, USA. 2005:1-12 |
| [9] | Gruber P, Imhof B. Transformation: Structure/space studies in bionics and space design[J]. Acta Astronautica, 2007, 60(10): 561-570 |
| [10] | 马兴瑞, 于登云, 孙 京, 等.空间飞行器展开与驱动机构研究进展[J].宇航学报, 2006, 27(6):1123-1131 |
| [11] | Hass F, Wootton R J. Two basic mechanisms in insect wing folding[J]. Proc R Soc Lond B, 1996, 263(1377): 1651-1658 |
| [12] | Gorb S N, Goodwyn P J P. Wing-locking mechanisms in aquatic Heteroptera[J]. Journal of Morphology, 2003, 257(2): 127-146 |
| [13] | 刘克松, 江 雷.仿生结构及其功能材料研究进展[J].科学通报, 2009, 54(18):2667-2681 |
| [14] | 周 尧. 中国蝴蝶分类与鉴定[M].郑州:河南科学技术出版社, 1998 |
| [15] | 陈晓鸣, 周成理, 史军义, 等, 中国观赏蝴蝶[M].北京:中国林业出版社, 2008 |
| [16] | 赵汗青, 沈佐锐, 于新文.数学形态学在昆虫分类学上的应用研究I.在目级阶元上的应用研究[J].昆虫学报, 2003, 46(1):45-50 |
| [17] | 尹文英, 宋大祥, 杨星科, 等.六足动物(昆虫)系统发生的研究[M].北京:科学出版社, 2008 |
| [18] | Anders A, Lauri K. Variation of wing venation in Elachistidae (Lepidoptera: Gelechioidea): methodology and implications to systematic[J]. Systematic Entomology, 1997, 22(3): 185-198 |
| [19] | Tofilski A. Draw wing, a program for numerical description of insect wings[J]. Journal of Insect Science, 2004, 4(17): 5-6 |
| [20] | 黄 豁, 茆 琛.基因组研究为何选中家蚕为"代表生物"[J].蚕学通迅, 2004, 24(1):18-19 |
| [21] | 童晓玲, 家蚕翅模式决定基因的克隆、表达及功能研究[D];西南大学, 2008 |
| [22] | Kawasaki H, Iwashita Y. Development of the wing disc in the fifth larval instar of Bombyx mori[J]The Journal of Sericultural Science of Japan, 1987, 56(2): 89-98 |
| [23] | Kawasaki H, Ote M, Okano K, et al. Change in the expressed gene patterns of the wing disc during the metamorphosis of Bombyx mori[J]. Gene, 2004, 343(1): 133-142 |
| [24] | Dhawanl S, Gopinathan K P. Expression profiling of homeobox genes in silk gland development in the mulberry silkworm Bombyx mori[J]. Development Genes and Evolution, 2003, 213(11): 523-533 |
| [25] | Hughes C L, Kaufman T C. Hox genes and the evolution of the arthropod body plan[J]. Evolution and Development, 2002, 4(6): 459-499 |
| [26] | 陈晓鸣, 冯 颖. 资源昆虫学概论[M].北京:科学出版社, 2009 |
| [27] | Lewin R. On the Origin of Insect Wings: Experimental data on thermoregulation and aerodynamics give the first quantitative test of a popular hypothesis for the evolution of flight in insects[J]. Science, 1985, 230(4724): 428-429 |
| [28] | Gorb S N. Ultrastructrual architecture of the microtrichia of the insect cuticle[J]. Journal of Morphology, 1997, 234(1): 1-10 |
| [29] | Gorb S N. Frictional surfaces of the elytra-to-body arresting mechanism in tenebrionid beetles (Coleoptera: Tenebrionidae): design of co-opted fields of mecrotrichia and cuticle ultrastructure[J]. International Journal of Insect Morphology and Embryology, 1998, 27(3): 205-225 |
| [30] | 戴振东, 张亚锋, 梁醒财, 等.甲虫鞘翅间的锁合机构、联接力及其表面织构效应[J].中国科学C辑: 生命科学, 2008, 38(6):542-549 |
| [31] | Kango-Singh M, Singh A, Gopinathan K P. The wings of Bombyx mori develop from larval discs exhibiting an early differentiated state: a preliminary report[J]. J Biosci, 2001, 26(2): 167-177 |