Developmental toxicity of pre-production plastic pellets affects a large swathe of invertebrate taxa.

Microplastics pose risks to marine organisms through ingestion, entanglement, and as carriers of toxic additives and environmental pollutants. Plastic pre-production pellet leachates have been shown to affect the development of sea urchins and, to some extent, mussels. The extent of those developmental effects on other animal phyla remains unknown.

Early embryogenesis and organogenesis in the annelid Owenia fusiformis.

Background: Annelids are a diverse group of segmented worms within Spiralia, whose embryos exhibit spiral cleavage and a variety of larval forms. While most modern embryological studies focus on species with unequal spiral cleavage nested in Pleistoannelida (Sedentaria + Errantia), a few recent studies looked into Owenia fusiformis, a member of the sister group to all remaining annelids and thus a key lineage to understand annelid and spiralian evolution and development. However, the timing of early cleavage and detailed morphogenetic events leading to the formation of the idiosyncratic mitraria larva of O.

General Principles of Planarian Embryogenesis and Its Analysis by In Situ Hybridization and Immunohistochemistry Methods.

Thanks to their ability to regrow any missing body part after injury, planarians have become a well-established invertebrate model system in regenerative studies. However, planarians are also unique in their embryonic development, displaying ectolecithality, or the accumulation of embryonic nutrients into accessory cells accompanying the zygotes. Gaining a better understanding of their peculiar embryogenesis can offer answers to some fundamental questions regarding the appearance and evolution of planarian regenerative capacities, and in a broader context, the diversification of embryonic and postembryonic development in animals.

Evolution, divergence and loss of the Nodal signalling pathway: new data and a synthesis across the Bilateria.

Since the discovery that the TGF-β signalling molecule Nodal and its downstream effector Pitx have a parallel role in establishing asymmetry between molluscs and deuterostomes the debate over the degree to which this signalling pathway is conserved across the Bilateria as a whole has been ongoing. Further taxon sampling is critical to understand the evolution and divergence of this signalling pathway in animals. Using genome and transcriptome mining we confirmed the presence of nodal and Pitx in a range of additional animal taxa for which their presence has not yet been described.

Developmental diversity in free-living flatworms.

Flatworm embryology has attracted attention since the early beginnings of comparative evolutionary biology. Considered for a long time the most basal bilaterians, the Platyhelminthes (excluding Acoelomorpha) are now robustly placed within the Spiralia. Despite having lost their relevance to explain the transition from radially to bilaterally symmetrical animals, the study of flatworm embryology is still of great importance to understand the diversification of bilaterians and of developmental mechanisms.

Morphological and molecular development of the eyes during embryogenesis of the freshwater planarian Schmidtea polychroa.

Photoreception is one of the most primitive sensory functions in metazoans. Despite the diversity of forms and components of metazoan eyes, many studies have demonstrated the existence of a common cellular and molecular basis for their development. Genes like pax6, sine oculis, eyes absent, dachshund, otx, Rx and atonal are known to be associated with the specification and development of the eyes.

Evolutionary implications of morphogenesis and molecular patterning of the blind gut in the planarian Schmidtea polychroa.

The formation of a through-gut was a key innovation in the evolution of metazoans. There is still controversy regarding the origin of the anus and how it may have been either gained or lost during evolution in different bilaterian taxa. Thus, the study of groups with a blind gut is of great importance for understanding the evolution of this organ system.

Germ layer specification and axial patterning in the embryonic development of the freshwater planarian Schmidtea polychroa.

Although patterning during regeneration in adult planarians has been studied extensively, very little is known about how the initial planarian body plan arises during embryogenesis. Herein, we analyze the process of embryo patterning in the species Schmidtea polychroa by comparing the expression of genes involved in the establishment of the metazoan body plan. Planarians present a derived ectolecithic spiralian development characterized by dispersed cleavage within a yolk syncytium and an early transient embryo capable of feeding on the maternally supplied yolk cells.

New method to deliver exogenous material into developing planarian embryos.

The ability to report or modify the embryological processes in living embryos is pivotal for developmental biology research. Planarian embryology has experienced renewed interest as the genetic pathways that drive adult regeneration were found to be involved in the development of embryos. The major drawback to the study of planarian embryology is the absence of methods that give access to the embryos and enable their manipulation.