西 方 蜜 蜂 AmAGOl 蛋 白 的 分 子 特 性、时 空 表 达 谱 及 抗 体 制 备

doi:10.16380/j.kcxb.2024.01.003

摘要/Abstract

摘要：

【目的】Argonaute (AGO)家族是一类在进化上高度保守的蛋白家族，其在真核生物中主要参与形成RNA诱导沉默复合体(RNA-induced silencing complex, RISC)，进而通过沉默基因表达参与诸多生物学过程。蜜蜂AGO蛋白的相关研究迄今仍然缺失。本研究拟通过预测西方蜜蜂Apis mellifera 的AGO1（AmAGO1）理化性质和分子特性，解析AmAGO1在西方蜜蜂中的时空表达谱，并制备AmAGO1的多克隆抗体，为深入开展AmAGO1的功能与机制研究提供参考和基础。【方法】PCR扩增西方蜜蜂AmAGO1的编码序列(coding sequence, CDS)；通过生物信息学预测AmAGO1蛋白的理化性质和分子特性；利用RT-qPCR检测AmAGO1在西方蜜蜂工蜂卵、3日龄幼虫、7日龄预蛹、8日龄预蛹、12日龄蛹以及1, 2, 6, 12, 15和18日龄成虫以及工蜂成虫触角、咽下腺、脑、表皮、中肠、脂肪体和毒腺中的表达量；构建原核表达质粒后诱导表达AmAGO1融合蛋白，并鉴定其表达形式；制备AmAGO1多克隆抗体，利用ELISA, Western blot和免疫沉淀(immunoprecipitation, IP)分别检测抗体效价、灵敏度和特异性。【结果】成功克隆到西方蜜蜂AmAGO1的CDS；AmAGO1含928个氨基酸，分子式为C₄₆₂₄H_{733 2}N₁₃₁₆O₁₃₂₅S₅₁，分子量约为104.2 kD，等电点为9.31，平均亲水系数为–0.2965，含86个磷酸化位点及典型的PAZ结构域和PIWI结构域，但不存在典型的信号肽；AGO1在智人Homo sapiens、斑马鱼Danio rerio、黑腹果蝇Drosophila melanogaster、家蚕Bombyx mori、西方蜜蜂、东方蜜蜂A. cerana和欧洲熊蜂Bombus terrestris中具有较高的氨基酸序列一致性；西方蜜蜂和东方蜜蜂的AGO1聚为一支，同源性最高。AmAGO1在西方蜜蜂工蜂卵、幼虫、预蛹、蛹和成虫中均有表达但表达量存在差异，3日龄幼虫和7日龄预蛹中AmAGO1的表达量显著低于卵中的表达量，而8日龄预蛹和12日龄蛹中AmAGO1的表达量显著高于卵中的表达量；AmAGO1在1, 2, 6, 12, 15和18日龄工蜂体内均有表达但表达量也存在差异，其中1日龄成虫体内AmAGO1的表达量显著高于其他日龄成虫体内的表达量；AmAGO1在工蜂成虫触角、毒腺、脑、中肠、咽下腺、脂肪体和表皮中均有表达但表达量存在差异，触角中AmAGO1的表达量与咽下腺中的相差无几，但二者均显著高于毒腺、脑、中肠、脂肪体和表皮中AmAGO1的表达量； AmAGO1融合蛋白的表达形式为包涵体；制备的AmAGO1多克隆抗体具有较高的效价、灵敏度和特异性。【结论】AmAGO1可能是亲水性胞内蛋白，含有典型的PAZ结构域和PIWI结构域；AmAGO1在西方蜜蜂工蜂不同组织和不同发育阶段发挥潜在的重要功能；成功制备出高效价、高灵敏度和强特异性的AGO1多克隆抗体。

关键词: 西方蜜蜂, AmAGO1, 克隆, 分子特性, 时空表达谱, 原核表达, 多克隆抗体

Abstract:

【Aim】 As a highly conserved protein family in evolution, Argonaute (AGO) family mainly engages in the formation of RNA-induced silencing complex (RISC) in eukaryotes to silence gene expression and further participate in numerous biological processes. Currently, studies on AGO proteins of honey bees are lacking. This study aims to provide the reference and basis for further performing study on function and mechanism of AGO1 of Apis mellifera AmAGO1 by predicting the physicochemical and molecular properties of AmAGO1, analyzing the spatio-temporal expression profiles of AmAGO1, and preparing the polyclonal antibodies against AmAGO1.【Methods】 The coding sequence (CDS) of AmAGO1 of A. mellifera was amplified using PCR amplification followed by predicting the the physicochemical and molecular properties of AmAGO1 protein using bioinformatics. The expression levels of AmAGO1 inthe egg, 3-day-old larva, 7-day-old prepupa, 8-day-old prepupa, 12-day-old pupa, 1-, 2-, 6-, 12-, 15- and 18-day-old adult A. mellifera workers, and in the antenna, hypopharyngeal gland, brain, cuticle, midgut, fat body and venom gland of adult workers were detected by RT-qPCR. After constructing prokaryotic expression plasmid, AmAGO1 fusion protein was induced and its expression form was identified. The polyclonal antibody against AmAGO1 was prepared and the titer, sensitivity and specificity of the antibody were further detected by ELISA, Western blot and immunoprecipitation (IP), respectively. 【Results】The CDS of AmAGO1 was successfully cloned from A. mellifera. AmAGO1 contains 928 amino acids, with the molecular formula C₄₆₂₄H₇₃₃₂N₁₃₁₆O₁₃₂₅S₅₁, the molecular weight of about 104.2 kD, isoelectric point of 9.31, average hydrophilic coefficient of –0.2965, 86 phosphorylation sites, and the typical domains PAZ and PIWI, without typical signal peptides. There was a high amino acide sequence identity of AGO1 proteins of Homo sapiens, Danio rerio, Drosophila melanogaster, Bombyx mori, A. mellifera, A. cerana, and Bombus terrestris. AGO1s from A. mellifera and A. cerana were clustered into one branch, with the highest homology. AmAGO1 was differentially expressed in egg, larva, prepupa, pupa, and adult of A. mellifera. The expression levels of AmAGO1 inthe 3-day-old larva and 7-day-old prepupae were significantly lower than that in the egg, while those in the 8-day-old prepupae and 12-day-old pupae were significantly higher than that in the egg of A. mellifera workers. AmAGO1 was differentially expressed in the 1-, 2-, 6-, 12-, 15-, and 18-day-old adults. The expression levels of AmAGO1 inthe 2-, 6-, 12-, 15- and 18-day-old adults were significantly lower than that in the 1-day-old adults. AmAGO1 was differentially expressed in the antenna, venom gland, brain, midgut, hypopharyngeal gland, fat body and cuticle of worker adults. The expression level of AmAGO1 inthe antenna was significantly higher than those in venom gland, brain, midgut, fat body and cuticle but as the same as that in the hypopharyngeal gland. The expression form of AmAGO1 fusion protein was inclusion body. The prepared AmAGO1 polyclonal antibody had high titer, sensitivity and specificity. 【Conclusion】 AmAGO1 may be a hydrophilic intracellular protein which contains typical PAZ and PIWI domains. AmAGO1 plays a potentially important role in different tissues and developmental stages of A. mellifera workers. AGO1 polyclonal antibody with high titer, high sensitivity, and strong specificity was successfully prepared.

Key words: Apis mellifera, AmAGO1, cloning, molecular properties; spatio-temporal expression profile, prokaryotic expression, polyclonal antibody

叶亚萍, 刘治滩, 李琪明, 臧贺, 冯佩林, 王宁, 王杰, 黄枳腱, 陈大福, 郭睿.

西方蜜蜂 AmAGOl 蛋白的分子特性、时空表达谱及抗体制备

[J]. 昆虫学报, 2024, 67(1): 18-28.

YE Ya-Ping, LIU Zhi-Tan, LI Qi-Ming, ZANG He, FENG Pei-Lin, WANG Ning, WANG Jie, HUANG Zhi-Jian, CHEN Da-Fu, GUO Rui.

Molecular properties, spatio-temporal expression profiles and antibody preparation of AmAGO1 protein of Apis mellifera [J]. Acta Entomologica Sinica, 2024, 67(1): 18-28.

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