Repeated Shifts in Sociality Are Associated With Fine-tuning of Highly Conserved and Lineage-Specific Enhancers in a Socially Flexible Bee

Beryl M. Jones; Andrew E. Webb; Scott M. Geib; Sheina Sim; Rena M. Schweizer; Michael G. Branstetter; Jay D. Evans; Sarah D. Kocher

doi:10.1093/molbev/msae229

Repeated Shifts in Sociality Are Associated With Fine-tuning of Highly Conserved and Lineage-Specific Enhancers in a Socially Flexible Bee

Beryl M. Jones, Andrew E. Webb, Scott M. Geib, Sheina Sim, Rena M. Schweizer, Michael G. Branstetter, Jay D. Evans, Sarah D. Kocher

Producción científica: Article › revisión exhaustiva

1 Cita (Scopus)

Resumen

Comparative genomic studies of social insects suggest that changes in gene regulation are associated with evolutionary transitions in social behavior, but the activity of predicted regulatory regions has not been tested empirically. We used self-transcribing active regulatory region sequencing, a high-throughput enhancer discovery tool, to identify and measure the activity of enhancers in the socially variable sweat bee, Lasioglossum albipes. We identified over 36,000 enhancers in the L. albipes genome from 3 social and 3 solitary populations. Many enhancers were identified in only a subset of L. albipes populations, revealing rapid divergence in regulatory regions within this species. Population-specific enhancers were often proximal to the same genes across populations, suggesting compensatory gains and losses of regulatory regions may preserve gene activity. We also identified 1,182 enhancers with significant differences in activity between social and solitary populations, some of which are conserved regulatory regions across species of bees. These results indicate that social trait variation in L. albipes is associated with the fine-tuning of ancient enhancers as well as lineage-specific regulatory changes. Combining enhancer activity with population genetic data revealed variants associated with differences in enhancer activity and identified a subset of differential enhancers with signatures of selection associated with social behavior. Together, these results provide the first empirical map of enhancers in a socially flexible bee and highlight links between cis-regulatory variation and the evolution of social behavior.

Idioma original	English
Número de artículo	msae229
Publicación	Molecular Biology and Evolution
Volumen	41
N.º	11
DOI	https://doi.org/10.1093/molbev/msae229
Estado	Published - nov 1 2024

Nota bibliográfica

Publisher Copyright:
© 2024 The Author(s).

Financiación

We would like to acknowledge T. Simmonds, R. Corpuz, and J. Schrader for library preparation and sequencing support. We also thank the Drosophila Genomics Resource Center (NIH Grant 2P40OD010949) for maintenance of and access to cell lines and the Princeton University Genomic Core staff for sequencing support. Members of the Kocher Lab, Tim Sackton and his research group, and Amanda Lea provided valuable insights, discussion, and feedback.This work was supported by grant no. DEB 1754476 from the National Science Foundation, and S.D.K. was supported by the National Institutes of Health New Innovator Award (1DP2GM137424-01), the Packard Foundation, and the Pew Biomedical Scholars program. S.D.K. is an HHMI Freeman Hrabowski Scholar. Lasioglossum albipes was sequenced as part of the I5K and USDA-ARS Beenome100 initiative. The US Department of Agriculture, Agricultural Research Service is an equal opportunity/affirmative action employer, and all agency services are available without discrimination. This research used resources provided by the SCINet project of the USDA Agricultural Research Service, ARS project number 0500-00093-001-00-D, the Tropical Pest Genetics and Molecular Biology Research Unit in-house appropriated research project number 2040-22430-028-000-D, and the Genetics and Bioinformatics Research Unit in-house appropriated research project number 6066-21310-006-000-D. This work was supported by grant no. DEB 1754476 from the National Science Foundation, and S.D.K. was supported by the National Institutes of Health New Innovator Award (1DP2GM137424-01), the Packard Foundation, and the Pew Biomedical Scholars program. S.D.K. is an HHMI Freeman Hrabowski Scholar. Lasioglossum albipes was sequenced as part of the I5K and USDA-ARS Beenome100 initiative. The US Department of Agriculture, Agricultural Research Service is an equal opportunity/affirmative action employer, and all agency services are available without discrimination. This research used resources provided by the SCINet project of the USDA Agricultural Research Service, ARS project number 0500-00093-001-00-D, the Tropical Pest Genetics and Molecular Biology Research Unit in-house appropriated research project number 2040-22430-028-000-D, and the Genetics and Bioinformatics Research Unit in-house appropriated research project number 6066-21310-006-000-D.

Financiadores	Número del financiador
National Science Foundation Arctic Social Science Program
Pew Biomedical Scholars program
David and Lucile Packard Foundation
U.S. Department of Agriculture
Howard Hughes Medical Institute
National Institutes of Health (NIH)	1DP2GM137424-01, DEB 1754476, 2P40OD010949
USDA-Agricultural Research Service	2040-22430-028-000-D, 0500-00093-001-00-D, 6066-21310-006-000-D

ASJC Scopus subject areas

Ecology, Evolution, Behavior and Systematics
Molecular Biology
Genetics

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10.1093/molbev/msae229

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abstract = "Comparative genomic studies of social insects suggest that changes in gene regulation are associated with evolutionary transitions in social behavior, but the activity of predicted regulatory regions has not been tested empirically. We used self-transcribing active regulatory region sequencing, a high-throughput enhancer discovery tool, to identify and measure the activity of enhancers in the socially variable sweat bee, Lasioglossum albipes. We identified over 36,000 enhancers in the L. albipes genome from 3 social and 3 solitary populations. Many enhancers were identified in only a subset of L. albipes populations, revealing rapid divergence in regulatory regions within this species. Population-specific enhancers were often proximal to the same genes across populations, suggesting compensatory gains and losses of regulatory regions may preserve gene activity. We also identified 1,182 enhancers with significant differences in activity between social and solitary populations, some of which are conserved regulatory regions across species of bees. These results indicate that social trait variation in L. albipes is associated with the fine-tuning of ancient enhancers as well as lineage-specific regulatory changes. Combining enhancer activity with population genetic data revealed variants associated with differences in enhancer activity and identified a subset of differential enhancers with signatures of selection associated with social behavior. Together, these results provide the first empirical map of enhancers in a socially flexible bee and highlight links between cis-regulatory variation and the evolution of social behavior.",

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AB - Comparative genomic studies of social insects suggest that changes in gene regulation are associated with evolutionary transitions in social behavior, but the activity of predicted regulatory regions has not been tested empirically. We used self-transcribing active regulatory region sequencing, a high-throughput enhancer discovery tool, to identify and measure the activity of enhancers in the socially variable sweat bee, Lasioglossum albipes. We identified over 36,000 enhancers in the L. albipes genome from 3 social and 3 solitary populations. Many enhancers were identified in only a subset of L. albipes populations, revealing rapid divergence in regulatory regions within this species. Population-specific enhancers were often proximal to the same genes across populations, suggesting compensatory gains and losses of regulatory regions may preserve gene activity. We also identified 1,182 enhancers with significant differences in activity between social and solitary populations, some of which are conserved regulatory regions across species of bees. These results indicate that social trait variation in L. albipes is associated with the fine-tuning of ancient enhancers as well as lineage-specific regulatory changes. Combining enhancer activity with population genetic data revealed variants associated with differences in enhancer activity and identified a subset of differential enhancers with signatures of selection associated with social behavior. Together, these results provide the first empirical map of enhancers in a socially flexible bee and highlight links between cis-regulatory variation and the evolution of social behavior.

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Repeated Shifts in Sociality Are Associated With Fine-tuning of Highly Conserved and Lineage-Specific Enhancers in a Socially Flexible Bee

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