New research delivers a sting in the tail for queen wasps. Scientists
have sequenced the active parts of the genome -- or transcriptome -- of
primitively eusocial wasps to identify the part of the genome that
makes you a queen or a worker. Their work, published in BioMed Central's
open access journal Genome Biology, shows that workers have a
more active transcriptome than queens. This suggests that in these
simple societies, workers may be the 'jack-of-all-trades' in the colony
-- transcriptionally speaking -- leaving the queen with a somewhat
restricted repertoire. Studying primitively eusocial species -- like
these wasps -- can tell us about how sociality evolves. Seirian Sumner
and colleagues sequenced transcriptomes from the eusocial tropical paper
wasps -- Polistes canadensis. All social species ultimately evolved
from a solitary ancestor -- in this case a solitary wasp, who lays the
eggs and feeds the brood. But how does this ancestral solitary phenotype
split to produce specialised reproducers (queens) and brood carers
(workers) when a species becomes social?
This paper gives a first insight into the secret lives of social insects. It shows that workers retain a highly active transcriptome, possibly expressing many of the ancestral genes that are required for our solitary wasp to be successful on her own. Conversely, queens appear to shut down a lot of their genes, presumably in order to be really good reproducers.
Long-standing analyses based on the fossil record holds ants and wasps in a clade known as Vespoidea, with bees as a sister group. The team reassess the relationships between the subfamilies of bees, wasps and ants and suggest that wasps are part of a separate clade from ants and bees, though further genome sequences and comparative data will help to resolve this controversy.
The dataset offers a first chance to analyse subfamily relationships across large numbers of genes, though further work is required before the term Vespoidia could be dropped, or reclassified. Sumner says: 'This finding would have important general implications for our understanding of eusociality as it would suggest that bees and ants shared an aculeate wasp-like ancestor, that ants are wingless wasps, and that bees are wasps that lost predacious behaviours.'
Their work suggests that novel genes play a much more important role in social behaviour than we previously thought.
This paper gives a first insight into the secret lives of social insects. It shows that workers retain a highly active transcriptome, possibly expressing many of the ancestral genes that are required for our solitary wasp to be successful on her own. Conversely, queens appear to shut down a lot of their genes, presumably in order to be really good reproducers.
Long-standing analyses based on the fossil record holds ants and wasps in a clade known as Vespoidea, with bees as a sister group. The team reassess the relationships between the subfamilies of bees, wasps and ants and suggest that wasps are part of a separate clade from ants and bees, though further genome sequences and comparative data will help to resolve this controversy.
The dataset offers a first chance to analyse subfamily relationships across large numbers of genes, though further work is required before the term Vespoidia could be dropped, or reclassified. Sumner says: 'This finding would have important general implications for our understanding of eusociality as it would suggest that bees and ants shared an aculeate wasp-like ancestor, that ants are wingless wasps, and that bees are wasps that lost predacious behaviours.'
Their work suggests that novel genes play a much more important role in social behaviour than we previously thought.
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