Mapping and ultrastructure of antennal chemosensilla of the wheat bug Eurygaster maura 被引量：3

Mapping and ultrastructure of antennal chemosensilla of the wheat bug Eurygaster maura

导出

摘要 Antennae of the wheat stink bug Eurygaster maura L. （Hemiptera： Scutelleridae） were investigated to elucidate structure and distribution of antennal chemosensilla in females. Five type of sensilla were identified and characterized using a scanning electron microscope （SEM） and a transmission electron microscope （TEM）. Type 1 sensilla are mechanical and contact chemoreceptors with a single apical pore. Types 2 and 3 sensilla are multiporous chemoreceptors both with typical features of olfactory sensilla. Type 4 are multiporous peg-like sensilla, short and with a grooved surface. Type 5 are sensilla coeloconica with a smooth and aporous peg completely inserted in a sub-cuticular chamber. All types are distributed on the two flagellar segments, but we considered only the apical flagellomere in which the largest number of sensilla are located. The most abundant sensilla are type 3, while the less numerous are type 5. All types, except type 2, decreased in number from the tip to the base of the segment. The lower density of sensilla was recorded on the dorsal-internal part of the apical antennomere, while the higher density was recorded on the opposite side （external-ventral）. Antennae of the wheat stink bug Eurygaster maura L. （Hemiptera： Scutelleridae） were investigated to elucidate structure and distribution of antennal chemosensilla in females. Five type of sensilla were identified and characterized using a scanning electron microscope （SEM） and a transmission electron microscope （TEM）. Type 1 sensilla are mechanical and contact chemoreceptors with a single apical pore. Types 2 and 3 sensilla are multiporous chemoreceptors both with typical features of olfactory sensilla. Type 4 are multiporous peg-like sensilla, short and with a grooved surface. Type 5 are sensilla coeloconica with a smooth and aporous peg completely inserted in a sub-cuticular chamber. All types are distributed on the two flagellar segments, but we considered only the apical flagellomere in which the largest number of sensilla are located. The most abundant sensilla are type 3, while the less numerous are type 5. All types, except type 2, decreased in number from the tip to the base of the segment. The lower density of sensilla was recorded on the dorsal-internal part of the apical antennomere, while the higher density was recorded on the opposite side （external-ventral）.

作者 Roberto Romani Marco Valerio Rossi Stacconi

机构地区 Dipartimento di Scienze Agrarie e Ambientali

出处《Insect Science》 SCIE CAS CSCD 2009年第2期193-203,共11页 昆虫科学（英文版）

关键词 functional anatomy gustatory sensilla HEMIPTERA olfactory sensilla thermo-hygro receptors functional anatomy, gustatory sensilla, Hemiptera, olfactory sensilla, thermo-hygro receptors

分类号 Q959.223.5 [生物学—动物学] S512.1 [农业科学—作物学]

引文网络
相关文献

参考文献42

1Abdollahi, G.A. (1995) Morphological and physiological approaches to the control of Heteroptera of economic importance in Iran. PhD Thesis. University of Wales, Cardiff, UK.
2Almer, H. (1977) Insect sensillum specificity and structure: an approach to a new typology. Olfaction and Taste Ⅵ (eds. J. Le Magnen & P. Mac Leod), pp. 295-303. Information Retrieval, London.
3Altner, H. and Prillinger, L. (1980) Ultrastructure of invertebrate chemo-, thermo-, and hygroreceptors and its functional significance. International Review of Cytology, 57, 69-139.
4Altner, H., Sass, H. and Altner, I. (1977) Relationship between structure and function of antennal chemo-, hygro-, and thermoreptive sensilla in Periplaneta americana. Cell and Tissue Research, 176, 389-405.
5Altner, H., Tichy, H. and Altner, I. (1978) Lamellated outer dendritic segments of a sensory cell within a poreless thermo- and hygroreceptive sensillum of the insect Carausius morosus. Cell and Tissue Research, 191,287-304.
6Altner, H., Routil, Ch. and Loftus, R. (1981) The structure of bimodal chemo-, thermo-, and hygroreceptive sensilla on the antenna of Locusta migratoria. Cell and Tissue Research, 215, 289 -308.
7Boo, K.S. and McIver, S.B. (1975) Fine structure of sunken thick-walled pegs (sensilla ampullaceal and coeloconica) on the antennae of mosquitoes. Canadian Journal of Zoology, 53, 262 -266.
8Brezot, P., Tauban, D. and Renou, M. (1996) Sense organs on the antennal flagellum of the grenn stink bug, Nezara viridula (L.) (Heteroptera: Pentatomidae): Sensillum types and numerical growth during the post-embryonic development. International Journal of Insect Morphology and Embryology, 25(4), 427- 441.
9Bromley, A.K., Dunn, J.A. and Anderson, M. (1979) Ultrastructure of the antennal sensilla of aphids Ⅰ. Coeloconic and placoid sensilla. Cell and Tissue Research, 203,427-442.
10Chinta, S., Dickens, C.J. and Baker, G.T. (1997) Morphology and distribution of antennal sensilla of the tarnished plant bug, Lygus lineolaris (Palisot de Beauvois) (Hemiptera: Miridae). International Journal of Insect Morphology and Embryology, 26(1), 21-26.

同被引文献89

1Karl-Ernst Kaissling.Olfactory perireceptor and receptor events in moths: a kinetic model revised[J]. Journal of Comparative Physiology A . 2009 (10)
2M. Bruyne,T. C. Baker.Odor Detection in Insects: Volatile Codes[J]. Journal of Chemical Ecology . 2008 (7)
3P. Pelosi,J. -J. Zhou,L. P. Ban,M. Calvello.Soluble proteins in insect chemical communication[J]. Cellular and Molecular Life Sciences . 2006 (14)
4M. Calvello,N. Guerra,A. Brandazza,C. D’Ambrosio,A. Scaloni,F. R. Dani,S. Turillazzi,P. Pelosi.Soluble proteins of chemical communication in the social wasp Polistes dominulus[J]. Cellular and Molecular Life Sciences . 2003 (9)
5L. Ban,A. Scaloni,C. D’Ambrosio,L. Zhang,Y. Yan,P. Pelosi.Biochemical characterization and bacterial expression of an odorant-binding protein from Locusta migratoria[J]. Cellular and Molecular Life Sciences . 2003 (2)
6Blanka Pophof.Moth pheromone binding proteins contribute to the excitation of olfactory receptor cells[J]. Naturwissenschaften . 2002 (11)
7Yuko Ishida,Vicky Chiang,Walter S. Leal.Protein that makes sense in the Argentine ant[J]. Naturwissenschaften . 2002 (11)
8R. A. Steinbrecht,M. Laue,G. Ziegelberger.Immunolocalization of pheromone-binding protein and general odorant-binding protein in olfactory sensilla of the silk moths Antheraea and Bombyx[J]. Cell & Tissue Research . 1995 (2)
9R. A. Steinbrecht,M. Ozaki,G. Ziegelberger.Immunocytochemical localization of pheromone-binding protein in moth antennae[J]. Cell & Tissue Research . 1992 (2)
10Karl-Ernst Kaissling,Ernst Priesner.Die Riechschwelle des Seidenspinners[J]. Die Naturwissenschaften . 1970 (1)

引证文献3

1刘召,花保祯.昆虫对气味信息素的感受机制[J].西北农林科技大学学报（自然科学版）,2010,38(11):186-192. 被引量：8
2Filomena De Biasio,Lea Riviello,Daniele Bruno,Annalisa Grimaldi,Terenzio Congiu,Yu Feng Sun,Patrizia Falabella.Expression pattern analysis of odorant-binding proteins in the pea aphid Acyrthosiphon pisum[J].Insect Science,2015,22(2):220-234. 被引量：8
3郭永福,王怡,孔维娜,柴晓晗,马瑞燕.梨小食心虫触角感受器雌雄二型的超微研究[J].环境昆虫学报,2018,40(4):950-957. 被引量：10

二级引证文献25

1李旭昭,葛亚菲,胡雪娇,杨小凡,魏国树.梨小食心虫在桃园产卵位置偏嗜性选择[J].应用昆虫学报,2023,60(6):1817-1824.
2付盈盈,汤方,赵文亮.杨小舟蛾触角感觉器的电镜扫描观察[J].南京林业大学学报（自然科学版）,2012,36(5):97-101. 被引量：7
3唐丽萍,钟真媛,杨森煌,温秀军,孙朝晖.竹斑蛾触角感器电镜扫描观察[J].河北林业科技,2016(5):1-3. 被引量：1
4李广伟,陈秀琳,尚天翠.黄斑星天牛雌虫触角气味结合蛋白基因的鉴定及组织分布[J].生态学杂志,2017,36(6):1678-1689. 被引量：8
5王晓双,唐良德,吴建辉.昆虫嗅觉相关蛋白的研究进展[J].热带作物学报,2017,38(6):1171-1179. 被引量：19
6郑海霞,张耀文,张仙红,杨美红.绿豆象触角转录组及嗅觉相关基因的分析[J].昆虫学报,2018,61(2):168-177. 被引量：23
7吉帅帅,庄翔麟,刘乃勇.灭字脊虎天牛触角转录组中气味结合蛋白基因的鉴定及表达谱分析[J].四川农业大学学报,2018,36(2):193-202. 被引量：9
8李虎,槐旭永,陈梅梅,霍科科.3种常见访花蚜蝇头部感受器扫描电镜观察[J].陕西理工大学学报（自然科学版）,2018,34(5):61-66. 被引量：2
9巩雪芳,谢寿安,车显荣,吕淑杰,吕妮.昆虫信息素与寄主挥发物在绿色防控中的关系及研究进展[J].陕西林业科技,2018,46(5):91-98. 被引量：8
10郎坤,毕守东,李飞.基因组水平的寄生蜂基因家族扩张和收缩分析[J].安徽农业大学学报,2018,45(5):945-950.

1CONSTANT Jerome,刘霞,CONSTANT Jerome,彩万志.New Records of Genus Oncocephalus (Hemiptera: Reduviidae: Stenopodainae) from Cambodia[J].Entomotaxonomia,2009,31(2):127-128.
2第六味觉——“油”味觉浮出水面[J].生命世界,2005(12):10-10.
3谢建军,钟国华,陈新芳,陈文团,徐齐云,胡美英.亚洲玉米螟Ostrinia furnacalis(Guenée)幼虫化学感受器种类与分布的形态学研究[J].电子显微学报,2006,25(1):71-75. 被引量：12
4萤火虫（1778年）[J].英语沙龙（原版阅读）,2012(4):13-13.
5邓金保.拜耳的杀虫剂ethiprole在巴西获批准[J].农药研究与应用,2007,11(3):44-44.
6小月(选译).虫子（1785年）[J].英语沙龙（原版阅读）,2012(11):46-47.
7Gerald T. Baker Xiong Chen Peter W.K. Ma.Labial tip sensilla of Blissus leucopterus leucopterus （Hemiptera： Blissidae）： Ultrastructure and behavior[J].Insect Science,2008,15(3):271-275.
8Jie Li,Xiao-Ping Wang,Man-Qun Wang,Wei-Hua Ma,Hong-Xia Hua.Advances in the use of the RNA interference technique in Hemiptera[J].Insect Science,2013,20(1):31-39. 被引量：10
9郑庆伟.科学家发现昆虫前毛孔与Cry1Ab毒性作用有关[J].农药市场信息,2014(6):39-40.
10余海忠.昆虫触角感受器研究进展[J].安徽农业科学,2007,35(14):4238-4240. 被引量：81

Insect Science

2009年第2期

浏览历史

内容加载中请稍等...

Mapping and ultrastructure of antennal chemosensilla of the wheat bug Eurygaster maura 被引量：3

参考文献42

同被引文献89

引证文献3

二级引证文献25

相关作者

相关机构

相关主题

浏览历史