ABSTRACT
This study was carried out to analyze the genetic population structure of Atta capiguara from 12 nests collected in Tapejara in the state of Paraná, Brazil, using isoenzyme polymorphisms. The analyzed isoenzymes were esterases (EST - EC 3.1.1.1), acid phosphatase (ACP - EC 3.1.3.2) and carbonic anhydrase (CA - EC 4.2.1.1). Ten loci were found in A.capiguara and four polymorphic loci were detected. The observed heterozigosity (0.0296) was low when compared to the expected heterozigosity (0.1461). The high value of F IS (0.7954) shows an excess of homozygous genotypes probably caused by inbreeding.
Subject(s)
Animals , Acid Phosphatase/genetics , Ants/enzymology , Ants/genetics , Carbonic Anhydrases/genetics , Esterases/genetics , Polymorphism, Genetic , Isoenzymes/geneticsABSTRACT
Wasmannia auropunctata (Roger) and Wasmannia rochai Forel are economically important ants in the Southeast and Southwest regions of Bahia State, Brazil. Randomly Amplified Polymorphic DNA (RAPD) markers were used to distinguish and analyze the genetic variability of populations of both species from Ilhéus, Jequié, BA and French Guyana. The genetic distances among W. auropunctata and W.rochai populations (55.8-71.4 percent) suggest genetic differentiation among them. Wasmannia auropunctata populations from sugarcane and banana plantations in Jequié were the most distant genetically (30.1-46.3 percent) and may represent populations restricted to isolated fragments. The high genetic distances among W. auropunctata populations from CEPLAC experimental areas, in Ilhéus (26.8-34.6 percent) and the other populations from Ilhéus (23.3-40.8 percent), suggest a multicolonial structure of W. auropunctata in southeast Bahia. The genetic proximity among the W. auropunctata populations from cocoa (14.1 percent) and coconut plantations (18.5 percent) in Ilhéus with the populations from the French Guyanan forests suggest that there was recent and large expansion of populations derived from a single population, that are today distributed in habitats with similar environmental characteristics. The high polymorphism and the estimated heterozygosity values for the two species suggest that we studied native W. auropunctata and W.rochai populations.
Wasmannia auropunctata (Roger) e Wasmannia rochai Forel são duas formigas economicamente importantes no Sudeste e Sudoeste da Bahia. Marcadores de RAPD (polimorfismo de DNA amplificado ao acaso) foram utilizados para distinguir e analisar a variabilidade genética de populações de ambas as espécies, provenientes de Ilhéus e Jequié, BA, e da Guiana Francesa. As distâncias genéticas entre populações de W. auropunctata e W.rochai (55,8-71,4 por cento) evidenciam a diferenciação genética entre elas. As populações de W. auropunctata presentes em canaviais e bananais de Jequié mostraram-se geneticamente mais distantes (30,1-46,3 por cento), podendo representar populações restritas a fragmentos isolados. As elevadas distâncias genéticas entre as populações de W. auropunctata das áreas experimentais da CEPLAC, em Ilhéus (26,8-34,6 por cento), assim como as demais populações de Ilhéus (23,3-40,8 por cento), sugerem uma estrutura multicolonial de W. auropunctata no Sudeste da Bahia. A proximidade genética entre as populações de W. auropunctata dos cacauais (14,1 por cento) e coqueirais de Ilhéus (18,5 por cento) com as populações de floresta da Guiana Francesa sugere que houve expansão grande e recente de populações oriundas de uma única população a partir de um centro não-determinado, estando hoje distribuídas em habitats com características ambientais semelhantes. O elevado polimorfismo e os valores das heterozigosidades estimadas para as duas espécies sugerem que foram analisadas populações nativas de ambas as espécies.
Subject(s)
Animals , Ants/classification , Ants/genetics , Brazil , Genetic VariationABSTRACT
We propose a new distance algorithm for phylogenetic estimation based on Ant Colony Optimization (ACO), named Ant-Based Phylogenetic Reconstruction (ABPR). ABPR joins two taxa iteratively based on evolutionary distance among sequences, while also accounting for the quality of the phylogenetic tree built according to the total length of the tree. Similar to optimization algorithms for phylogenetic estimation, the algorithm allows exploration of a larger set of nearly optimal solutions. We applied the algorithm to four empirical data sets of mitochondrial DNA ranging from 12 to 186 sequences, and from 898 to 16,608 base pairs, and covering taxonomic levels from populations to orders. We show that ABPR performs better than the commonly used Neighbor-Joining algorithm, except when sequences are too closely related (e.g., population-level sequences). The phylogenetic relationships recovered at and above species level by ABPR agree with conventional views. However, like other algorithms of phylogenetic estimation, the proposed algorithm failed to recover expected relationships when distances are too similar or when rates of evolution are very variable, leading to the problem of long-branch attraction. ABPR, as well as other ACO-based algorithms, is emerging as a fast and accurate alternative method of phylogenetic estimation for large data sets.
Subject(s)
Animals , Algorithms , DNA, Mitochondrial , Ants/genetics , PhylogenyABSTRACT
We developed a new approach for the reconstruction of phylogenetic trees using ant colony optimization metaheuristics. A tree is constructed using a fully connected graph and the problem is approached similarly to the well-known traveling salesman problem. This methodology was used to develop an algorithm for constructing a phylogenetic tree using a pheromone matrix. Two data sets were tested with the algorithm: complete mitochondrial genomes from mammals and DNA sequences of the p53 gene from several eutherians. This new methodology was found to be superior to other well-known softwares, at least for this data set. These results are very promising and suggest more efforts for further developments.
Subject(s)
Humans , Animals , Algorithms , Evolution, Molecular , Phylogeny , Computer Simulation , DNA, Mitochondrial/genetics , Pheromones/genetics , Ants/genetics , /genetics , MammalsABSTRACT
Foram caracterizados os cariótipos de três espécies neotropicais do gênero Gnamptogenys Roger: Gnamptogenys striatula Mayr, Gnamptogenys sp. e Gnamptogenys annulata Mayr, coletadas em Viçosa (Minas Gerais) e Ilhéus (Bahia). O número cromossômico de G. striatula nas duas localidades foi 2n=34, com fórmula cariotípica 2K=24M+10A. Em Gnamptogenys sp., o número cromossômico foi de 2n=46 (fêmea) e n=23 (machos), com a fórmula cariotípica 2K=18M+28A. O número cromossômico de G. annulata foi 2n=68 com a fórmula cariotípica 2K= 6M+62A. Esse tipo de estudo complementa outros estudos iniciados por nosso grupo sobre a citogenética das formigas poneromorfas (sensu Bolton) e poderá contribuir no melhor entendimento da evolução das formigas deste grupo considerado primitivo.
Subject(s)
Animals , Chromosomes , Cytogenetics , Ants/classification , Ants/genetics , Karyotyping , Tropical ClimateABSTRACT
The cocoon, produced by most holometabolous insects, is built with silk that is usually produced by the larval salivary gland. Although this silk has been widely studied in the Lepidoptera, its composition and macromolecular arrangement remains unknown in the Hymenoptera. The macromolecular array patterns of the silk in the larval salivary gland of some meliponids, wasps, and ants were analyzed with polarized-light microscopy, and they were compared with those of Bombyx mori (Lepidoptera). There is a birefringent secretion in the glandular lumen of all larvae, due to filamentous structural proteins that display anisotropy. The silk in the distal, middle and proximal regions of the secretory portion of Formicidae and Vespidae glands presented a lattice optical pattern. We found a different pattern in the middle secretory portion of the Meliponini, with a zigzag rather than a lattice pattern. This indicates that the biopolymer fibers begin their macromolecular reorganization at this glandular region, different from the Formicidae and the Vespidae, in which the zigzag optical pattern was only found at the lateral duct. Probably, the mechanism of silk production in the Hymenoptera is a characteristic inherited from a common ancestor of Vespoidea and Sphecoidea; the alterations in the pattern observed in the Meliponini could be a derived characteristic in the Hymenoptera. We found no similarity in the macromolecular reorganization patterns of the silk between the Hymenoptera species and the silkworm.