Metabolic and transcriptomic characterization of summer and winter dormancy in the solitary bee, Osmia lignaria

IF 3.2 2区 农林科学 Q2 BIOCHEMISTRY & MOLECULAR BIOLOGY
Dacotah Melicher , Alex S. Torson , George D. Yocum , Jordi Bosch , William P. Kemp , Julia H. Bowsher , Joseph P. Rinehart
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Abstract

The solitary bee Osmia lignaria is a native pollinator in North America with growing economic importance. The life cycle of O. lignaria provides a unique opportunity to compare the physiological and molecular mechanisms underlying two ecologically contrasting dormancies within the same species. O. lignaria prepupae become dormant during the summer to avoid high temperatures. Shortly after adult eclosion, they enter a second dormancy and overwinter as diapausing adults. To compare these two dormancies, we measured metabolic rates and gene expression across development as bees initiate, maintain, and terminate both prepupal (summer) and adult (overwintering) dormancies. We observed a moderate temperature-independent decrease in gas exchange during both the prepupal dormancy after cocoon spinning (45 %) and during adult diapause after eclosion (60 %). We sequenced and assembled a high-quality reference genome from a single haploid male bee with a contiguous n50 of 5.5 Mbp to facilitate our transcriptomic analysis. The transcriptomes of dormant prepupae and diapausing adults clustered into distinct groups more closely associated with life stage than dormancy status. Membrane transport, membrane-bound cellular components, oxidoreductase activity, glutathione metabolism, and transcription factor activity increased during adult diapause, relative to prepupal dormancy. Further, the transcriptomes of adults in diapause clustered into two groups, supporting multiple phases of diapause during winter. Late adult diapause was associated with gene expression profiles supporting increased insulin/IGF, juvenile hormone, and ecdysone signaling.

Abstract Image

Abstract Image

独居蜂茭白夏季和冬季休眠的代谢和转录组学特征
独居蜂茭白是北美洲的一种原生授粉动物,其经济重要性与日俱增。O. lignaria 的生命周期为比较同一物种中两种生态学上截然不同的休眠期的生理和分子机制提供了一个独特的机会。木麻黄幼虫在夏季进入休眠状态,以避免高温。成虫羽化后不久,它们会进入第二次休眠,并以脱水成虫的身份越冬。为了比较这两种休眠,我们测量了蜜蜂启动、维持和终止前蛹休眠(夏季)和成虫休眠(越冬)时整个发育过程中的代谢率和基因表达。我们观察到,在纺茧后的前蛹休眠期(45%)和羽化后的成虫休眠期(60%),气体交换量都出现了与温度无关的适度下降。我们对单倍体雄蜂的高质量参考基因组进行了测序和组装,其连续n50为5.5Mbp,以便于我们进行转录组分析。休眠期前蛹和休眠期成蜂的转录组与生命阶段的关系比与休眠状态的关系更为密切。与前蛹休眠期相比,成虫休眠期的膜运输、膜结合细胞成分、氧化还原酶活性、谷胱甘肽代谢和转录因子活性都有所增加。此外,处于休眠期的成虫转录组分为两组,支持冬季休眠的多个阶段。晚期成虫休眠与支持胰岛素/IGF信号以及幼虫激素和蜕皮激素信号增加的基因表达谱有关。
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来源期刊
CiteScore
7.40
自引率
5.30%
发文量
105
审稿时长
40 days
期刊介绍: This international journal publishes original contributions and mini-reviews in the fields of insect biochemistry and insect molecular biology. Main areas of interest are neurochemistry, hormone and pheromone biochemistry, enzymes and metabolism, hormone action and gene regulation, gene characterization and structure, pharmacology, immunology and cell and tissue culture. Papers on the biochemistry and molecular biology of other groups of arthropods are published if of general interest to the readership. Technique papers will be considered for publication if they significantly advance the field of insect biochemistry and molecular biology in the opinion of the Editors and Editorial Board.
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