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Full-Text Articles in Life Sciences
Planarian Fragments Behave As Whole Animals, D. Le, Ziad Sabry , '21, A. Chandra, W. B. Kristan Iii, Eva-Maria S. Collins, W. B. Kristan Jr.
Planarian Fragments Behave As Whole Animals, D. Le, Ziad Sabry , '21, A. Chandra, W. B. Kristan Iii, Eva-Maria S. Collins, W. B. Kristan Jr.
Biology Faculty Works
Behavioral responses of freshwater planarians have been studied for over a century. In recent decades, behavior has been used as a readout to study planarian development and regeneration, wound healing, molecular evolution, neurotoxicology, and learning and memory. The planarian nervous system is among the simplest of the bilaterally symmetric animals, with an anterior brain attached to two ventral nerve cords interconnected by multiple commissures. We found that, in response to mechanical and near-UV stimulation, head stimulation produces turning, tail stimulation produces contraction, and trunk stimulation produces midbody elongation in the planarian Dugesia japonica. When cut into two or three pieces, …
Planarian Cholinesterase: Molecular And Functional Characterization Of An Evolutionarily Ancient Enzyme To Study Organophosphorus Pesticide Toxicity, D. Hagstrom, S. Zhang, A. Ho, E. S. Tsai, Z. Radić, A. Jahromi, K. J. Kaj, Y. He, P. Taylor, Eva-Maria S. Collins
Planarian Cholinesterase: Molecular And Functional Characterization Of An Evolutionarily Ancient Enzyme To Study Organophosphorus Pesticide Toxicity, D. Hagstrom, S. Zhang, A. Ho, E. S. Tsai, Z. Radić, A. Jahromi, K. J. Kaj, Y. He, P. Taylor, Eva-Maria S. Collins
Biology Faculty Works
The asexual freshwater planarian Dugesia japonica has emerged as a medium-throughput alternative animal model for neurotoxicology. We have previously shown that D. japonica are sensitive to organophosphorus pesticides (OPs) and characterized the in vitro inhibition profile of planarian cholinesterase (DjChE) activity using irreversible and reversible inhibitors. We found that DjChE has intermediate features of acetylcholinesterase (AChE) and butyrylcholinesterase (BChE). Here, we identify two candidate genes (Djche1 and Djche2) responsible for DjChE activity. Sequence alignment and structural homology modeling with representative vertebrate AChE and BChE sequences confirmed our structural predictions, and show that both DjChE enzymes have intermediate sized catalytic gorges …