Project description:The goal of this study was to assay the extent of variation in chromatin organization between 3 ant castes (major and minor female workers and males) in one colony of Camponotus floridanus carpenter ant using ChIPseq.

Project description: Not available

Project description:Social network position is a major predictor of ant behaviour, microbiota composition, and brain gene expression

Project description:The goal of this study was to assay the extent of variation in chromatin organization between 3 ant castes (major and minor female workers and males) in one colony of Camponotus floridanus carpenter ant using ChIPseq. 45 samples total: 30 ChIP samples and 3 inputs for total histone H3, 7 histone H3 PTMs and RNA Pol II in major, minor, and male ants; CBP in major and minor ants; the major H3K27ac sample was replicated. 4 ChIP samples for H3 and H3K27ac in brains of majors and minors, and 2 inputs. 2 RNAseq samples for major and minor ants head+thorax; 4 RNAseq samples for brain (majors and minors with 2 replicates each).

Project description:RNA from Camponotus embryos, instar 1 larvae, instar 4 larvae, early pupae, late pupae (minor and major), adult workers, and males was sequenced to look for gene expression changes throughout development.

Project description:Socially exchanged fluids, such as seminal fluid and milk, are a direct means through which an organism can influence conspecifics. When orally feeding larval offspring via trophallaxis, workers of the carpenter ant Camponotus floridanus were recently shown to transfer Juvenile Hormone III (JH), a key developmental regulator, as well as paralogs of JH esterase (JHE), an enzyme that catalyzes degradation of JH. Here we combine proteomic, phylogenetic and selection analyses to investigate the evolution of this esterase subfamily. We show that members of the Camponotus JHE-like protein family have undergone multiple duplications, experienced positive selection, and changed tissue localization to become abundantly and selectively present in trophallactic fluid. The Camponotus trophallactic esterases have maintained their catalytic triads but contain a number of positively-selected amino acid changes distributed throughout the protein, which possibly reflect an adaptation to the highly acidic trophallactic fluid of formicine ants. To determine whether these esterases might regulate larval development, we fed workers with a JHE-specific pharmacological inhibitor to introduce it into the trophallactic network. This inhibitor increased the likelihood of pupation of the larvae reared by these workers, similar and complementary to supplementation with JH. Together, these findings suggest that JHE-like proteins have evolved new roles in the Camponotus genus in inter-individual regulation of larval development.

Project description:Transcriptomes of dissected brains from workers from polygyne fire ants were analyzed. Four replicates were obtained.

Project description:This SuperSeries is composed of the following subset Series: GSE31344: smRNA sequencing of queen and virgin queen of two ants: Camponotus floridanus and Harpegnathos saltator GSE31346: Transcriptome sequencing of queen and virgin queen of two ants: Camponotus floridanus and Harpegnathos saltator GSE31576: Single base resolution methylome of two ants: Camponotus floridanus and Harpegnathos saltator Refer to individual Series

Project description:Comparison of transcriptome and histone acetylation in Camponotus floridanus minor scout brains following 45 day treatment with small molecule pharmacologicals. The goal of this study was to characterize the molecular changes in gene expression and histone modification caused by ad lib feeding small molecule HAT and HDAC inhibitors

Project description:Animal longevity widely differs across species, and even individuals from the same species may exhibit different rates of ageing. In different species, the rate at which individuals actually age is related to the level of their social interactions, but this was still not known in ants. In a given colony, ant individuals are close genetic relatives, exhibit very different behaviours and a contrasted lifespan according to the Caste. Such characteristics constitute main advantages to study relationships between sociality and ageing. Therefore, the aim of this study was to characterize differences in the proteome of Lasius niger queens versus that of domestic and foraging workers. Proteomic data were put in relation with the behaviour of individuals from the three Castes. Hence, it was found that sociality correlates with ant longevity, with i) social immunity enabling the queen to mainly invest in soma protection, and ii) marked exposition of workers to the environment and nutrients inducing metabolic pathways that reduce their lifespan.