Departamento de Genética, Faculdade de Medicina de Ribeirão Preto, Universidade de São Paulo, Ribeirão Preto, Brazil.
Núcleo de Bioinformática, Hospital de Clínicas de Porto Alegre, Porto Alegre, Brazil.
PLoS One. 2019 Mar 14;14(3):e0213796. doi: 10.1371/journal.pone.0213796. eCollection 2019.
Differences in the timing of exoskeleton melanization and sclerotization are evident when comparing eusocial and solitary bees. This cuticular maturation heterochrony may be associated with life style, considering that eusocial bees remain protected inside the nest for many days after emergence, while the solitary bees immediately start outside activities. To address this issue, we characterized gene expression using large-scale RNA sequencing (RNA-seq), and quantified cuticular hydrocarbon (CHC) through gas chromatography-mass spectrometry in comparative studies of the integument (cuticle plus its underlying epidermis) of two eusocial and a solitary bee species. In addition, we used transmission electron microscopy (TEM) for studying the developing cuticle of these and other three bee species also differing in life style. We found 13,200, 55,209 and 30,161 transcript types in the integument of the eusocial Apis mellifera and Frieseomelitta varia, and the solitary Centris analis, respectively. In general, structural cuticle proteins and chitin-related genes were upregulated in pharate-adults and newly-emerged bees whereas transcripts for odorant binding proteins, cytochrome P450 and antioxidant proteins were overrepresented in foragers. Consistent with our hypothesis, a distance correlation analysis based on the differentially expressed genes suggested delayed cuticle maturation in A. mellifera in comparison to the solitary bee. However, this was not confirmed in the comparison with F. varia. The expression profiles of 27 of 119 genes displaying functional attributes related to cuticle formation/differentiation were positively correlated between A. mellifera and F. varia, and negatively or non-correlated with C. analis, suggesting roles in cuticular maturation heterochrony. However, we also found transcript profiles positively correlated between each one of the eusocial species and C. analis. Gene co-expression networks greatly differed between the bee species, but we identified common gene interactions exclusively between the eusocial species. Except for F. varia, the TEM analysis is consistent with cuticle development timing adapted to the social or solitary life style. In support to our hypothesis, the absolute quantities of n-alkanes and unsaturated CHCs were significantly higher in foragers than in the earlier developmental phases of the eusocial bees, but did not discriminate newly-emerged from foragers in C. analis. By highlighting differences in integument gene expression, cuticle ultrastructure, and CHC profiles between eusocial and solitary bees, our data provided insights into the process of heterochronic cuticle maturation associated to the way of life.
社会性和独居蜜蜂的外骨骼黑化和骨化的时间差异明显。这种表皮成熟的异时性可能与生活方式有关,因为社会性蜜蜂在出现后仍在巢内保护许多天,而独居蜜蜂则立即开始外部活动。为了解决这个问题,我们使用大规模 RNA 测序(RNA-seq)对基因表达进行了特征描述,并通过气相色谱-质谱法对表皮(表皮及其下表皮)的比较研究中对表皮的角质烃(CHC)进行了定量。此外,我们还使用透射电子显微镜(TEM)研究了这些以及其他三种生活方式不同的蜜蜂物种的发育表皮。我们在社会性的 Apis mellifera 和 Frieseomelitta varia 以及独居的 Centris analis 的表皮中发现了 13200、55209 和 30161 种转录类型。一般来说,结构表皮蛋白和几丁质相关基因在拟蛹和成蜂中上调,而气味结合蛋白、细胞色素 P450 和抗氧化蛋白的转录物在觅食者中过度表达。与我们的假设一致,基于差异表达基因的距离相关分析表明,与独居蜂相比,A. mellifera 的表皮成熟延迟。然而,这在与 F. varia 的比较中并未得到证实。在与 A. mellifera 和 F. varia 相关的 119 个显示与表皮形成/分化功能属性相关的基因中,有 27 个基因的表达谱呈正相关,而与 C. analis 呈负相关或不相关,表明在表皮成熟异时性中起作用。然而,我们还发现社会性物种之间的每个转录谱与 C. analis 呈正相关。蜜蜂物种之间的基因共表达网络差异很大,但我们仅在社会性物种之间发现了共同的基因相互作用。除了 F. varia,TEM 分析与适应社会或独居生活方式的表皮发育时间一致。支持我们的假设,正构烷烃和不饱和 CHC 的绝对数量在觅食者中明显高于社会性蜜蜂的早期发育阶段,但在 C. analis 中不能区分新出现的觅食者和觅食者。通过突出社会性和独居蜜蜂的表皮基因表达、表皮超微结构和 CHC 谱之间的差异,我们的数据提供了对与生活方式相关的异时性表皮成熟过程的见解。
