Further evidence that mechanisms of host/symbiont integration are dissimilar in the maternal versus embryonic Acyrthosiphon pisum bacteriome.

IF 4.1 2区 生物学 Q1 DEVELOPMENTAL BIOLOGY
Evodevo Pub Date : 2020-11-10 DOI:10.1186/s13227-020-00168-5
Celeste R Banfill, Alex C C Wilson, Hsiao-Ling Lu
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引用次数: 1

Abstract

Background: Host/symbiont integration is a signature of evolutionarily ancient, obligate endosymbioses. However, little is known about the cellular and developmental mechanisms of host/symbiont integration at the molecular level. Many insects possess obligate bacterial endosymbionts that provide essential nutrients. To advance understanding of the developmental and metabolic integration of hosts and endosymbionts, we track the localization of a non-essential amino acid transporter, ApNEAAT1, across asexual embryogenesis in the aphid, Acyrthosiphon pisum. Previous work in adult bacteriomes revealed that ApNEAAT1 functions to exchange non-essential amino acids at the A. pisum/Buchnera aphidicola symbiotic interface. Driven by amino acid concentration gradients, ApNEAAT1 moves proline, serine, and alanine from A. pisum to Buchnera and cysteine from Buchnera to A. pisum. Here, we test the hypothesis that ApNEAAT1 is localized to the symbiotic interface during asexual embryogenesis.

Results: During A. pisum asexual embryogenesis, ApNEAAT1 does not localize to the symbiotic interface. We observed ApNEAAT1 localization to the maternal follicular epithelium, the germline, and, in late-stage embryos, to anterior neural structures and insect immune cells (hemocytes). We predict that ApNEAAT1 provisions non-essential amino acids to developing oocytes and embryos, as well as to the brain and related neural structures. Additionally, ApNEAAT1 may perform roles related to host immunity.

Conclusions: Our work provides further evidence that the embryonic and adult bacteriomes of asexual A. pisum are not equivalent. Future research is needed to elucidate the developmental time point at which the bacteriome reaches maturity.

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进一步的证据表明宿主/共生体整合的机制在母体和胚胎棘球吸虫细菌群中是不同的。
背景:寄主/共生体整合是进化上古老的专性内共生的标志。然而,在分子水平上对寄主/共生体整合的细胞和发育机制知之甚少。许多昆虫具有专性细菌内共生体,提供必需的营养。为了进一步了解宿主和内共生体的发育和代谢整合,我们追踪了非必需氨基酸转运体ApNEAAT1在蚜虫Acyrthosiphon pisum无性胚胎发生过程中的定位。先前在成年细菌组中的研究表明,ApNEAAT1在A. pisum/Buchnera aphidicola共生界面上起交换非必需氨基酸的作用。在氨基酸浓度梯度的驱动下,ApNEAAT1将脯氨酸、丝氨酸和丙氨酸从A. pisum转移到Buchnera,将半胱氨酸从Buchnera转移到A. pisum。在这里,我们验证了ApNEAAT1在无性胚胎发生过程中定位于共生界面的假设。结果:在雄蜂无性胚胎发生过程中,ApNEAAT1不定位于共生界面。我们观察到ApNEAAT1定位于母体卵泡上皮、种系,并在晚期胚胎中定位于前神经结构和昆虫免疫细胞(血细胞)。我们预测ApNEAAT1为发育中的卵母细胞和胚胎以及大脑和相关神经结构提供非必需氨基酸。此外,ApNEAAT1可能与宿主免疫有关。结论:本研究进一步证明了无性棘球绦虫的胚胎菌群和成虫菌群并不等同。未来的研究需要阐明细菌群达到成熟的发育时间点。
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来源期刊
Evodevo
Evodevo EVOLUTIONARY BIOLOGY-DEVELOPMENTAL BIOLOGY
CiteScore
7.50
自引率
0.00%
发文量
18
审稿时长
>12 weeks
期刊介绍: EvoDevo publishes articles on a broad range of topics associated with the translation of genotype to phenotype in a phylogenetic context. Understanding the history of life, the evolution of novelty and the generation of form, whether through embryogenesis, budding, or regeneration are amongst the greatest challenges in biology. We support the understanding of these processes through the many complementary approaches that characterize the field of evo-devo. The focus of the journal is on research that promotes understanding of the pattern and process of morphological evolution. All articles that fulfill this aim will be welcome, in particular: evolution of pattern; formation comparative gene function/expression; life history evolution; homology and character evolution; comparative genomics; phylogenetics and palaeontology
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