Polytene chromosomes and phylogenetic relationships in ten Drosophila species of the annulimana group (Diptera, Drosophilidae)

Apocrine secretion in the salivary glands of Drosophilidae and other dipterans is evolutionarily conserved

Apocrine secretion is a transport and secretory mechanism that remains only partially characterized, even though it is evolutionarily conserved among all metazoans, including humans. The excellent genetic model organism Drosophila melanogaster holds promise for elucidating the molecular mechanisms regulating this fundamental metazoan process. Two prerequisites for such investigations are to clearly define an experimental system to investigate apocrine secretion and to understand the evolutionarily and functional contexts in which apocrine secretion arose in that system. To this end, we recently demonstrated that, in D. melanogaster, the prepupal salivary glands utilize apocrine secretion prior to pupation to deliver innate immune and defense components to the exuvial fluid that lies between the metamorphosing pupae and its chitinous case. This finding provided a unique opportunity to appraise how this novel non-canonical and non-vesicular transport and secretory mechanism is employed in different developmental and evolutionary contexts. Here we demonstrate that this apocrine secretion, which is mechanistically and temporarily separated from the exocytotic mechanism used to produce the massive salivary glue secretion (Sgs), is shared across Drosophilidae and two unrelated dipteran species. Screening more than 30 species of Drosophila from divergent habitats across the globe revealed that apocrine secretion is a widespread and evolutionarily conserved cellular mechanism used to produce exuvial fluid. Species with longer larval and prepupal development than D. melanogaster activate apocrine secretion later, while smaller and more rapidly developing species activate it earlier. In some species, apocrine secretion occurs after the secretory material is first concentrated in cytoplasmic structures of unknown origin that we name "collectors." Strikingly, in contrast to the widespread use of apocrine secretion to provide exuvial fluid, not all species use exocytosis to produce the viscid salivary glue secretion that is seen in D. melanogaster. Thus, apocrine secretion is the conserved mechanism used to realize the major function of the salivary gland in fruitflies and related species: it produces the pupal exuvial fluid that provides an active defense against microbial invasion during pupal metamorphosis.

Chromosomes as Barcodes: Discovery of a New Species of Black Fly (Diptera: Simuliidae) from California, USA

One of the most popular tools for species discovery and resolution is the DNA barcode, typically based on the cytochrome c oxidase I (COI) gene. However, other non-genic barcodes are available for Diptera. The banding sequence of polytene chromosomes in some dipteran cells, particularly of the larval silk glands, can provide a unique species barcode. We used the sequence of bands to reveal a new species of black fly in the Simulium (Boreosimulium) annulus species group from California, USA. To further characterize the species and provide more integrated taxonomy, we morphologically described all life stages above the egg, formally named the species Simulium ustulatum n. sp., and provided a conventional COI barcode. The COI barcode confirmed the chromosomal and morphological evidence that the species is a new member of the S. annulus group, and enabled identification of the larva and female, which are structurally similar to those of other species. The chromosomal barcode shows that this species has the most rearranged complement, compared with the eight other North American members of its species group, with up to 12 times the number of fixed rearrangements. Up to six chromosomal rearrangements, including autosomal polymorphisms and sex-linked phenomena, are shared with other members of the group. The most unique and conspicuous chromosomal feature of this new species is a large, pale-staining chromocenter from which the six chromosomal arms radiate. The distribution of this univoltine species in lowland rivers of California's Central Valley could make it vulnerable, given climate change and increasing land development.

Cuatro especies nuevas del género Drosophila (Diptera, Drosophilidae) en las provincias de Pichincha, Napo y Santo Domingo de los Tsáchilas, Ecuador

RESUMEN Se describen cuatro especies nuevas del género Drosophila. Drosophila valenteae sp. nov., recolectada en un remanente de bosque andino de la provincia de Pichincha, pertenece al grupo D. guarani. Drosophila cumanda sp. nov., recolectada en los andes orientales de la provincia de Napo, pertenece al grupo D. annulimana. Las especies D. cruzloma sp. nov., recolectada en el páramo de la provincia de Pichincha, y D. tinalandia sp. nov., recolectadas en los andes occidentales de la provincia de Santo Domingo de los Tsáchilas, aunque pertenecen al subgénero Drosophila, no fueron asignadas a ningún grupo de especies. Sin embargo D. tinalandia sp. nov. fue capturada en inflorescencias de especies del género Xanthosoma spp. (Araceae), por lo tanto podría estar relacionada a un grupo antofílico.

Una nueva especie del grupo Drosophila annulimana (Diptera, Drosophilidae) y un nuevo registro en las Provincias de Pichincha y Napo, Ecuador

En estudios realizados en el bosque nublado Intillacta, provincia de Pichincha, Ecuador, y en la Cordillera de los Guacamayos, provincia de Napo, Ecuador, se encontró una nueva especie de Drosophila. En base a estudios de la morfología de la genitalia masculina, se propone que, Drosophila intillacta sp. nov. pertenece al grupo Drosophila annulimana. Así mismo, se reporta Drosophila tarsata Schiner, 1868, capturada en la Cordillera de los Guacamayos, como un nuevo registro para el país.

Grupo Drosophila asiri (Diptera, Drosophilidae), un nuevo grupo de especies andinas con la descripción de dos nuevas especies y la redescripción de Drosophila asiri

El nuevo grupo Drosophila asiri pertenece al subgénero Drosophila. Los ejemplares fueron capturados en los bosques andinos del Ecuador, desde los 3200 hasta los 4000 m de altitud. A este grupo pertenecen Drosophila (D.) asiri Vela & Rafael, 2005 previamente ubicada dentro del grupo D. onychophora, y dos nuevas especies; Drosophila (D.) yuragyacum sp. nov. y Drosophila (D.) yanaurcus sp. nov. Las capturas se realizaron en el bosque protector Pasochoa, en la quebrada de Cruz Loma y en el páramo de Papallacta, utilizando cebo de banano y levadura. Los miembros del nuevo grupo por el momento son endémicos de los Andes ecuatorianos. Las tres especies del grupo D. asiri son moscas de tamaño grande (aproximadamente 6 mm). Los machos presentan el edeago quitinizado con dos proyecciones laterales en la cabeza a manera de cuernos muy quitinizados. Estas características diferencian a las especies del grupo D. asiri de otros grupos dentro de Drosophila.