蜂巢小甲虫气味结合蛋白OBP3的分子对接

聂佳婷; 刘德荣; 王超; 刘召

doi:10.13718/j.cnki.xdzk.2025.07.007

BAXTER J R, ELZEN P J, WESTERVELT D, et al. Control of the Small Hive Beetle, Aethina tumida in Package Bees[J]. American Bee Journal, 1999, 139(10): 792-793.

MOSTAFA A M, WILLIAMS R N. New Record of the Small Hive Beetle in Egypt and Notes on Its Distribution and Control[J]. Bee World, 2002, 83(3): 99-108.

LEE S, HONG K J, CHO Y S, et al. Review of the Subgenus Aethina Erichson s. str. (Coleoptera: Nitidulidae: Nitidulinae) in Korea, Reporting Recent Invasion of Small Hive Beetle, Aethina tumida[J]. Journal of Asia-Pacific Entomology, 2017, 20(2): 553-558.

MULI E, KILONZO J, SOOKAR P. Small Hive Beetle Infestations in Apis mellifera Unicolor Colonies in Mauritius Island, Mauritius[J]. Bee World, 2018, 95(2): 44-45.

赵红霞, 王华堂, 侯春生, 等. 入侵中国的蜂箱小甲虫鉴定及发生为害调查[J]. 中国蜂业, 2018, 69(11): 29-31.

钟义海, 韩文素, 赵冬香, 等. 蜂巢小甲虫传入中国的风险评估[J]. 植物检疫, 2020, 34(2): 47-51.

STUHL C J. Small Hive Beetle (Coleoptera: Nitidulidae) Attraction to a Blend of Fruit Volatiles[J]. Florida Entomologist, 2021, 104(3): 153-157.

李良斌, 武丽仙, 许雅静, 等. 白基因AtOBP1的分子特性及功能研究[J]. 昆虫学报, 2023, 66(1): 1-8.

VOGT R G, RIDDIFORD L M. Pheromone Binding and Inactivation by Moth Antennae[J]. Nature, 1981, 293(5828): 161-163.

杜亚丽, 徐凯, 赵慧婷, 等. 昆虫气味结合蛋白的研究进展[J]. 昆虫学报, 2020, 63(3): 365-380.

TAYLOR J S, BURNETT R M. DARWIN: A Program for Docking Flexible Molecules[J]. Proteins, 2000, 41(2): 173-191.

HE X L, TZOTZOS G, WOODCOCK C, et al. Binding of the General Odorant Binding Protein of Bombyx mori BmorGOBP2 to the Moth Sex Pheromone Components[J]. Journal of Chemical Ecology, 2010, 36(12): 1293-1305.

LI H L, ZHANG L Y, NI C X, et al. Molecular Recognition of Floral Volatile with Two Olfactory Related Proteins in the Eastern Honeybee (Apis cerana)[J]. International Journal of Biological Macromolecules, 2013, 56: 114-121.

汪宇, 孙浩, 朱家颖, 等. 云南切梢小蠹气味结合蛋白的分子对接[J]. 江苏农业科学, 2015, 43(5): 132-134.

NORTHEY T, VENTHUR H, DE BIASIO F, et al. Crystal Structures and Binding Dynamics of Odorant-Binding Protein 3 from Two Aphid Species Megoura viciae and Nasonovia ribisnigri[J]. Scientific Reports, 2016, 6: 24739.

DEKEBO A, SEOKMIN H, JUNG C. Attractiveness of the Small Hive Beetle (Aethina tumida) to Volatiles from Honey Bee (Apis mellifera) and Beehive Materials[J]. Journal of Apiculture, 2017, 32(4): 315-326.

WU L X, ZHAI X, LI L B, et al. Identification and Expression Profile of Chemosensory Genes in the Small Hive Beetle Aethina tumida[J]. Insects, 2021, 12(8): 661.

LYU J K, WANG S, BALIUS T E, et al. Ultra-Large Library Docking for Discovering New Chemotypes[J]. Nature, 2019, 566(7743): 224-229.

DEKEBO A, JUNG C. Olfactory Responses of Aethina tumida Murray (Coleoptera: Nitidulidae) to Some Major Volatile Compounds from Hive Materials and Workers of Apis mellifera[J]. Journal of Asia-Pacific Entomology, 2020, 23(2): 504-508.

HANSSON B S, STENSMYR M C. Evolution of Insect Olfaction[J]. Neuron, 2011, 72(5): 698-711.

SWARUP S, WILLIAMS T I, ANHOLT R H. Functional Dissection of Odorant Binding Protein Genes in Drosophila melanogaster[J]. Genes, Brain, and Behavior, 2011, 10(6): 648-657.

WANG Q, ZHOU X, ZHANG K, et al. Ligand-Binding Properties of XaffOBP9, a Minus-C Odorant-Binding Protein from Xyleborus affinis (Coleoptera: Curculionidae: Scolytinae)[J]. Frontiers in Physiology, 2024, 14: 1326099.

LI Y, SONG W M, WANG S S, et al. Binding Characteristics and Structural Dynamics of Two General Odorant-Binding Proteins with Plant Volatiles in the Olfactory Recognition of Glyphodes pyloalis[J]. Insect Biochemistry and Molecular Biology, 2024, 173: 104177.

JING D P, ZHANG T T, PRABU S, et al. Molecular Characterization and Volatile Binding Properties of Pheromone Binding Proteins and General Odorant Binding Proteins in Conogethes pinicolalis (Lepidoptera: Crambidae)[J]. International Journal of Biological Macromolecules, 2020, 146: 263-272.

GUO Y R, YIN N N, WU C, et al. Expression Profile and Functional Characterization of Odorant Binding Proteins in a Forest Pest, Dioryctria abietella (Lepidoptera: Pyralidae)[J]. Comparative Biochemistry and Physiology Part B: Biochemistry and Molecular Biology, 2023, 266: 110835.

JANG W D, JEON S, KIM S, et al. Drugs Repurposed for COVID-19 by Virtual Screening of 6 218 Drugs and Cell-Based Assay[J]. Proceedings of the National Academy of Sciences of the United States of America, 2021, 118(30): e2024302118.