Pekka Pamilo scite author profile

Ants have evolved very complex societies and are key ecosystem members. Some ants, such as the fire ant Solenopsis invicta, are also major pests. Here, we present a draft genome of S. invicta, assembled from Roche 454 and Illumina sequencing reads obtained from a focal haploid male and his brothers. We used comparative genomic methods to obtain insight into the unique features of the S. invicta genome. For example, we found that this genome harbors four adjacent copies of vitellogenin. A phylogenetic analysis revealed that an ancestral vitellogenin gene first underwent a duplication that was followed by possibly independent duplications of each of the daughter vitellogenins. The vitellogenin genes have undergone subfunctionalization with queen-and worker-specific expression, possibly reflecting differential selection acting on the queen and worker castes. Additionally, we identified more than 400 putative olfactory receptors of which at least 297 are intact. This represents the largest repertoire reported so far in insects. S. invicta also harbors an expansion of a specific family of lipid-processing genes, two putative orthologs to the transformer/feminizer sex differentiation gene, a functional DNA methylation system, and a single putative telomerase ortholog. EST data indicate that this S. invicta telomerase ortholog has at least four spliceforms that differ in their use of two sets of mutually exclusive exons. Some of these and other unique aspects of the fire ant genome are likely linked to the complex social behavior of this species.social insect | caste differences | nonmodel organism | de novo genome assembly

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Relationships between gene trees and species trees.

Pamilo

Nei²

1988

577

247

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It is well known that a phylogenetic tree (gene tree) constructed from DNA sequences for a genetic locus does not necessarily agree with the tree that represents the actual evolutionary pathway of the species involved (species tree). One of the important factors that cause this difference is genetic polymorphism in the ancestral species. Under the assumption of neutral mutations, this problem can be studied by evaluating the probability (P) that a gene tree has the same topology as that of the species tree. When one gene (allele) is used from each of the species involved, the probability can be expressed as a simple function of Ti = ti/(2N), where ti is the evolutionary time measured in generations for the ith internodal branch of the species tree and N is the effective population size. When any of the Ti's is less than 1, the probability P becomes considerably less than 1.0. This probability cannot be substantially increased by increasing the number of alleles sampled from a locus. To increase the probability, one has to use DNA sequences from many different loci that have evolved independently of each other.

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Polyandry and allele frequency differences between the sexes in the ant Formica aquilonia

1993

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Genetic mother-offspring analyses based on six enzyme gene loci show that about 60 per cent of the females of the mound-building red wood ant Formica aquilonia mate with several males. The number of matings inferred from the offspring genotypes range from one to six, the arithmetic mean being 1.94. The mates do not contribute equally in the inseminations; in the case of two matings, one male is estimated to inseminate on average 77 per cent of the offspring. The average relatedness among the offspring of a single female is 0.6, corresponding to the effective number of matings of 1.43. Three of the six loci show remarkable allele frequency differences between the sexes. At each of these loci the males virtually lack the alleles present in females with frequencies 0.18 at Me, 0.25 at Pgk and 0.27 at Gpi. Segregation analyses indicate normal Mendelian inheritance at these loci and the difference between the sexes seem likely to result from selection.

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Inclusive fitness theory and eusociality

Abbot

Abe

Alcock

et al. 2011

Nature

367

218

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Evolution of Colony Characteristics in Social Insects. I. Sex Allocation

Pamilo¹

1991

The American Naturalist

183

176

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Evolution of Colony Characteristics in Social Insects. II. Number of Reproductive Individuals

Pamilo¹

1991

The American Naturalist

185

153

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Exceptionally High Density of NUMTs in the Honeybee Genome

Pamilo¹,

Viljakainen²,

Vihavainen³

2007

108

139

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The available genome sequences of 4 insects (the fruit fly, the African malaria mosquito, the flour beetle, and the honeybee) are used to compare the amount of mitochondrial DNA transferred to the nuclear genome (NUMTs). The data from the beetle and the bee show frequent transfer of NUMTs, whereas NUMTs in the 2 other insects are rare. The density of NUMTs in the honeybee (>1.0 bp transferred DNA per 1 kb of the nuclear sequence) is the highest in any animal studied, about ten times higher than in humans and comparable to the densities in plant genomes. The density of NUMTs in the beetle (0.056 bp/kb) is of the same order of magnitude as that in humans. The analysis of the honeybee genome indicates that NUMTs originate from all parts of the mitochondrial genome, that about two-thirds of the nuclear copies result from secondary transpositions within the nuclear genome, that the copies are significantly associated to "mariner" type transposons, and that the NUMTs consist mainly of short and fragmented copies.

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Accumulation of mutations in sexual and asexual populations

1987

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SummaryThe accumulation of beneficial and harmful mutations in a genome is studied by using analytical methods as well as computer simulation for different modes of reproduction. The modes of reproduction examined are biparental (bisexual, hermaphroditic), uniparental (selfing, automictic, asexual) and mixed (partial selfing, mixture of hermaphroditism and parthenogenesis). It is shown that the rates of accumulation of both beneficial and harmful mutations with weak selection depend on the within-population variance of the number of mutant genes per genome. Analytical formulae for this variance are derived for neutral mutant genes for hermaphroditic, selfing and asexual populations; the neutral variance is largest in a selfing population and smallest in an asexual population. Directional selection reduces the population variance in most cases, whereas recombination partially restores the reduced variance. Therefore, biparental organisms accumulate beneficial mutations at the highest rate and harmful mutations at the lowest rate. Selfing organisms are intermediate between biparental and asexual organisms. Even a limited amount of outcrossing in largely selfing and parthenogenetic organisms markedly affects the accumulation rates. The accumulation of mutations is likely to affect the mean population fitness only in long-term evolution.

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Pekka Pamilo

The genome of the fire ant Solenopsis invicta

Relationships between gene trees and species trees.

Polyandry and allele frequency differences between the sexes in the ant Formica aquilonia

Inclusive fitness theory and eusociality

Evolution of Colony Characteristics in Social Insects. I. Sex Allocation

Evolution of Colony Characteristics in Social Insects. II. Number of Reproductive Individuals

Exceptionally High Density of NUMTs in the Honeybee Genome

Accumulation of mutations in sexual and asexual populations

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