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本文引用的文献

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Hornets and Honey Bees: A Coevolutionary Arms Race between Ancient Adaptations and New Invasive Threats.黄蜂与蜜蜂:古老适应性与新入侵威胁之间的协同进化军备竞赛
Insects. 2021 Nov 18;12(11):1037. doi: 10.3390/insects12111037.
2
Foreign Pests as Potential Threats to North American Apiculture: Tropilaelaps mercedesae, Euvarroa spp, Vespa mandarinia, and Vespa velutina.外来害虫对北美的养蜂业构成潜在威胁:梅氏钝绥螨、瓦螨属、红火蚁和日本大黄蜂。
Vet Clin North Am Food Anim Pract. 2021 Nov;37(3):545-558. doi: 10.1016/j.cvfa.2021.06.010.
3
Ion channels and G protein-coupled receptors as targets for invertebrate pest control: from past challenges to practical insecticides.离子通道和 G 蛋白偶联受体作为防治无脊椎害虫的靶标:从过去的挑战到实用杀虫剂。
Biosci Biotechnol Biochem. 2021 Jun 24;85(7):1563-1571. doi: 10.1093/bbb/zbab089.
4
Ocular Injury Caused by the Sprayed Venom of the Asian Giant Hornet ().亚洲大黄蜂喷射毒液导致的眼部损伤
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5
Assessing the ecological niche and invasion potential of the Asian giant hornet.评估亚洲大黄蜂的生态位和入侵潜力。
Proc Natl Acad Sci U S A. 2020 Oct 6;117(40):24646-24648. doi: 10.1073/pnas.2011441117. Epub 2020 Sep 22.
6
Giants are coming? Predicting the potential spread and impacts of the giant Asian hornet (Vespa mandarinia, Hymenoptera:Vespidae) in the USA.巨蜂来袭?预测亚洲大黄蜂(Vespa mandarinia,膜翅目:胡蜂科)在美国的潜在传播和影响。
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7
Chronology of sodium channel mutations associated with pyrethroid resistance in Aedes aegypti.与埃及伊蚊拟除虫菊酯抗性相关的钠离子通道突变的时间顺序。
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8
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9
The impact of the invasive species Vespa velutina on honeybees: A new approach based on oxidative stress.入侵物种黄猄蚁对蜜蜂的影响:基于氧化应激的新方法。
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10
Modulation of K channel N-type inactivation by sulfhydration through hydrogen sulfide and polysulfides.硫化氢和多硫化物通过巯基化调节 K 通道 N 型失活。
Pflugers Arch. 2019 Apr;471(4):557-571. doi: 10.1007/s00424-018-2233-x. Epub 2018 Nov 10.

蜜蜂和亚洲大黄蜂钾离子通道中的N型失活差异

N-Type Inactivation Variances in Honeybee and Asian Giant Hornet Kv Channels.

作者信息

Hussain Shahid, De Waele Jolien, Lammens Maxime, Bosmans Frank

机构信息

Department of Basic and Applied Medical Sciences, Ghent University, Ghent, Belgium.

出版信息

Bioelectricity. 2022 Sep 8;4(3):145-152. doi: 10.1089/bioe.2022.0006. eCollection 2022 Sep.

DOI:10.1089/bioe.2022.0006
PMID:39376938
原文链接:https://pmc.ncbi.nlm.nih.gov/articles/PMC11457792/
Abstract

BACKGROUND

With the emergence of the Asian giant hornet as a threat to honeybee survival, knowledge of potential ion channel targets expressed in the nervous system can propel the development of new insecticides that are safe for pollinators. We therefore examined the biophysical properties of the Shaker-like voltage-gated potassium (Kv) channel of (AmKv1; Western honeybee) and (VmKv1; Asian giant hornet) and compared these data with isoforms that differ in N-terminal amino acid sequence.

METHODS

We expressed AmKv1 and VmKv1 in oocytes and determined their gating characteristics using electrophysiological measurements. Resulting features were compared with those gleaned from N-terminal isoforms.

RESULTS

AmKv1 generates large potassium currents, but lacks an extended N-terminal region and therefore rapid N-type inactivation, as originally described in Shaker channels. Of its seven isoforms, two have a long N-tail and subsequently display inactivation. Notably, the isoform with the lengthiest N-terminal region only partially inactivates. VmKv1 potassium currents display N-type inactivation, as expected with an extended N-tail. One isoform shows an enhanced inactivation rate, whereas currents from another isoform with a substantially different N-terminal sequence could not be measured.

CONCLUSION

AmKv1 and VmKv1 are functional Kv channels with strikingly different gating properties. Due to the presence of an extended N-terminal region, VmKv1 inactivates rapidly, whereas AmKv1 does not possess these residues and N-type inactivation is absent. Remarkably, virtually all isoforms of AmKv1 lack fast inactivation, whereas all studied VmKv1 isoforms inactivate, thereby suggesting a functional divergence that may be exploited for insecticide design.

摘要

背景

随着亚洲大黄蜂成为蜜蜂生存的威胁,了解神经系统中潜在的离子通道靶点有助于推动开发对传粉者安全的新型杀虫剂。因此,我们研究了西方蜜蜂(AmKv1)和亚洲大黄蜂(VmKv1)的类Shaker电压门控钾(Kv)通道的生物物理特性,并将这些数据与N端氨基酸序列不同的同种型进行了比较。

方法

我们在卵母细胞中表达了AmKv1和VmKv1,并使用电生理测量来确定它们的门控特性。将所得特征与从N端同种型收集的特征进行比较。

结果

AmKv1产生大的钾电流,但缺乏延伸的N端区域,因此缺乏最初在Shaker通道中描述的快速N型失活。在其七种同种型中,两种具有长的N尾并随后表现出失活。值得注意的是,具有最长N端区域的同种型仅部分失活。VmKv1钾电流显示出N型失活,正如具有延伸N尾所预期的那样。一种同种型显示出增强的失活速率,而来自另一种具有显著不同N端序列的同种型的电流无法测量。

结论

AmKv1和VmKv1是具有显著不同门控特性的功能性Kv通道。由于存在延伸的N端区域,VmKv1快速失活,而AmKv1不具有这些残基且不存在N型失活。值得注意的是,几乎所有AmKv1同种型都缺乏快速失活,而所有研究的VmKv1同种型都失活,从而表明这种功能差异可能被用于杀虫剂设计。