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Cupiennius salei and Achaearanea tepidariorum: Spider models for investigating evolution and development

Alistair P. McGregor, Maarten Hilbrant, Matthias Pechmann, Evelyn E. Schwager, Nikola-Michael Prpic & Wim G. M. Damen

Bioessays 30 (5):487-498 (2008)

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Wasps, beetles and the beginning of the ends.Alistair P. McGregor - 2006 - Bioessays 28 (7):683-686.details Recent papers investigating the genes regulating early embryogenesis in the wasp Nasonia vitripennis1 and the beetle Tribolium castaneum2-4 have provided us with important clues as to how early development is controlled in insects other than higher dipterans such as Drosophila melanogaster. The results of these studies demonstrate that in insects that do not have bicoid, anterior patterning is regulated by a combination of maternal orthodenticle and hunchback. Furthermore, during the evolution of long-germ-band development, Nasonia and Drosophila may have evolved different (...) Download Export citation Bookmark 1 citation
The centipede Strigamia maritima: what it can tell us about the development and evolution of segmentation.Wallace Arthur & Ariel D. Chipman - 2005 - Bioessays 27 (6):653-660.details One of the most fundamental features of the body plan of arthropods is its segmental design. There is considerable variation in segment number among arthropod groups (about 20‐fold); yet, paradoxically, the vast majority of arthropod species have a fixed number of segments, thus providing no variation in this character for natural selection to act upon. However, the 1000‐species‐strong centipede order Geophilomorpha provides an exception to the general rule of intraspecific invariance in segment number. Members of this group, and especially our (...) Download Export citation Bookmark 1 citation
Evolution of early development of the nervous system: a comparison between arthropods.Angelika Stollewerk & Pat Simpson - 2005 - Bioessays 27 (9):874-883.details Large numbers of cells with unique neuronal specificity are generated during development of the central nervous system of animals. Here we discuss the events that generate cell diversity during early development of the ventral nerve cord of different arthropod groups. Neural precursors are generated in a spatial array in the epithelium of each hemisegment over a period of time. Spatial cues within the epithelium are thought to evolve as embryogenesis proceeds. This spatiotemporal information might generate diversity among the neural precursors (...) Download Export citation Bookmark 1 citation
At the nexus between pattern formation and cell-type specification: the generation of individual neuroblast fates in the Drosophila embryonic central nervous system.James B. Skeath - 1999 - Bioessays 21 (11):922-931.details The specification of specific and often unique fates to individual cells as a function of their position within a developing organism is a fundamental process during the development of multicellular organisms. The development of the Drosophila embryonic central nervous system serves as an excellent model system in which to clarify the developmental mechanisms that link pattern formation to cell-type specification. The Drosophila embryonic central nervous system develops from a set of neural stem cells termed neuroblasts. Neuroblasts arise from the ectoderm (...) Download Export citation Bookmark 5 citations
Mity model: Tetranychus urticae, a candidate for chelicerate model organism.Miodrag Grbic, Abderrahman Khila, Kwang-Zin Lee, Anica Bjelica, Vojislava Grbic, Jay Whistlecraft, Lou Verdon, Maria Navajas & Lisa Nagy - 2007 - Bioessays 29 (5):489-496.details Chelicerates (scorpions, horseshoe crabs, spiders, mites and ticks) are the second largest group of arthropods and are of immense importance for fundamental and applied science. They occupy a basal phylogenetic position within the phylum Arthropoda, and are of crucial significance for understanding the evolution of various arthropod lineages. Chelicerates are vectors of human diseases, such as ticks, and major agricultural pests, such as spider mites, thus this group is also of importance for both medicine and agriculture. The developmental genetics of (...) Download Export citation Bookmark 2 citations
At the nexus between pattern formation and cell-type specification: the generation of individual neuroblast fates in the Drosophila embryonic central nervous system.Michael Eisenbach & Ilan Tur-Kaspa - 1999 - Bioessays 21 (11):922-931.details The specification of specific and often unique fates to individual cells as a function of their position within a developing organism is a fundamental process during the development of multicellular organisms. The development of the Drosophila embryonic central nervous system serves as an excellent model system in which to clarify the developmental mechanisms that link pattern formation to cell-type specification. The Drosophila embryonic central nervous system develops from a set of neural stem cells termed neuroblasts. Neuroblasts arise from the ectoderm (...) Download Export citation Bookmark 5 citations
Model systems in developmental biology.Jessica A. Bolker - 1995 - Bioessays 17 (5):451-455.details The practical criteria by which developmental biologists choose their model systems have evolutionary correlates. The result is a sample that is not merely small, but biased in particular ways, for example towards species with rapid, highly canalized development. These biases influence both data collection and interpretation, and our views of how development works and which aspects of it are important. Download Export citation Bookmark 57 citations

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