蜜蜂和亚洲大黄蜂 Kv 通道的 N 型失活变异。

IF 0.5 Q4 COMMUNICATION Journal of Asian Pacific Communication Pub Date : 2022-09-08 eCollection Date: 2022-09-01 DOI:10.1089/bioe.2022.0006
Shahid Hussain, Jolien De Waele, Maxime Lammens, Frank Bosmans
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引用次数: 0

摘要

背景:随着亚洲大黄蜂的出现对蜜蜂的生存构成威胁,了解在神经系统中表达的潜在离子通道靶标可推动开发对授粉昆虫安全的新型杀虫剂。因此,我们研究了蜜蜂(Apis mellifera)(AmKv1;西方蜜蜂)和亚洲大黄蜂(Vespa mandarinia)(VmKv1;亚洲大黄蜂)的振动器样电压门控钾(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工型进行了比较:我们在爪蟾卵母细胞中表达了 AmKv1 和 VmKv1,并通过电生理学测量确定了它们的门控特征。结果:我们在爪蟾卵母细胞中表达了 AmKv1 和 VmKv1,并通过电生理测量确定了它们的门控特征,将结果特征与从 N 端异构体中获得的特征进行了比较:结果:AmKv1 能产生较大的钾电流,但缺乏延长的 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 AmKv1 的七种异构体中,有两种具有较长的 N-尾,因此会出现失活现象。值得注意的是,N 端最长的异构体仅部分失活。VmKv1 钾电流显示出 N 型失活,这与延长的 N 尾所预期的一样。一种异构体显示出更高的失活速率,而另一种 N 端序列大不相同的异构体的电流却无法测量:结论:AmKv1 和 VmKv1 是功能性 Kv 通道,但它们的门控特性却截然不同。结论:AmKv1 和 VmKv1 是功能性 Kv 通道,但它们的门控特性却截然不同。由于存在延长的 N 端区域,VmKv1 会迅速失活,而 AmKv1 则不存在这些残基,也就不存在 N 型失活。值得注意的是,AmKv1 的几乎所有异构体都不会快速失活,而所有研究过的 VmKv1 异构体都会失活,这表明存在功能上的差异,可用于设计杀虫剂。
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N-Type Inactivation Variances in Honeybee and Asian Giant Hornet Kv Channels.

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 Apis mellifera (AmKv1; Western honeybee) and Vespa mandarinia (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 Xenopus laevis 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.

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来源期刊
CiteScore
1.40
自引率
14.30%
发文量
26
期刊介绍: The journal’s academic orientation is generalist, passionately committed to interdisciplinary approaches to language and communication studies in the Asian Pacific. Thematic issues of previously published issues of JAPC include Cross-Cultural Communications: Literature, Language, Ideas; Sociolinguistics in China; Japan Communication Issues; Mass Media in the Asian Pacific; Comic Art in Asia, Historical Literacy, and Political Roots; Communication Gains through Student Exchanges & Study Abroad; Language Issues in Malaysia; English Language Development in East Asia; The Teachings of Writing in the Pacific Basin; Language and Identity in Asia; The Economics of Language in the Asian Pacific.
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