Your search keyword '"Beeching, Simon C."' showing total 2 results

1. Dose-dependent disruptive effects of melatonin, light and temperature on regeneration in the planarian Phagocata gracilis.

Author

Beeching, Simon C. and Merritt, Brian

Subjects

*MELATONIN, *REGENERATION (Biology), *PLURIPOTENT stem cells, *STEM cell migration, *HIGH temperatures, *TEMPERATURE

Abstract

Many critical cellular processes, including cell proliferation and tissue repair, exhibit melatonin sensitivity. We examined the effects of exogenous melatonin, photoperiod and temperature on regeneration in Phagocata gracilis, a common North American turbellarian. Planarian regeneration involves the proliferation and migration of pluripotent stem cells capable of replacing missing body components. A characteristic mass of cells (blastema) forms during planarian regeneration, and its formation, growth and differentiation provide reliable endpoints for the study of regenerative processes. We tested the effects of exogenous melatonin at two concentrations and three photoperiods on both head and tail regenerates under seasonal diurnal temperature regimes. High temperatures and melatonin treatment increased mortality in P. gracilis, and surviving melatonin-treated subjects exhibited delayed regeneration. Asymmetrical and deficient regeneration was more common in melatonin-treated, high temperature and dark treated subjects. Additionally, high temperature and melatonin induced a novel locomotor dysfunction. [ABSTRACT FROM AUTHOR]

Published

2019

2. Avoidance behavior in two sympatric planaria species: effects of conspecific and heterospecific chemical alarm cues.

Author

Beeching, Simon C., Caroff, Jared T., Case, Stephanie L., Duda, Shane H., Henry, Brooke E., and Pristov, Kristyn E.

Subjects

*PLANARIA, *OPERANT conditioning, *AQUATIC animals, *PREDATION, *PHYLOGENY

Abstract

In many aquatic animals, predator avoidance can be stimulated by chemical cues, including those released by injured prey (alarm cues). Alarm cues of both conspecific and heterospecific origin have been identified within several fish taxa, where phylogenetic conservation of the cue-response complex is common. Turbellarian flatworms (planaria) are among the simplest animals known to respond to chemical cues released by injured conspecifics. We examined how two locally sympatric planaria species respond to conspecific and heterospecific chemical cues using macerated tissue suspensions. Brown (Girardia tigrina) and black (Dugesia dorotocephala) planaria both exhibited avoidance behavior when presented conspecific cues. Despite a significant twofold difference in body size (black > brown), stimulus prepared from a single (1×) individual of either species elicited avoidance. Increasing brown planaria cue concentration by macerating two individuals (2×) produced a significant increase in conspecific avoidance. Heterospecific stimuli produced asymmetric results. Black planaria avoided the brown planaria stimulus, but only in the higher concentration (2×) trials. Brown planaria did not consistently exhibit avoidance of the black planaria stimulus and some brown subjects approached and consumed black planarian tissues. Our results expand the demonstrated occurrence of alarm cues among planaria and suggest that avoidance behavior can be mediated by multiple environmental and intrinsic factors in freshwater Turbellaria. [ABSTRACT FROM AUTHOR]

Published

2015