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David Morse
Researcher at Université de Montréal
Publications - 133
Citations - 7060
David Morse is an academic researcher from Université de Montréal. The author has contributed to research in topics: Gene & Gonyaulax. The author has an hindex of 40, co-authored 128 publications receiving 6579 citations. Previous affiliations of David Morse include University of Melbourne & Pennsylvania State University.
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Journal ArticleDOI
Heavy metal–induced oxidative stress in algae†
Ernani Pinto,Teresa Cristina Siqueira Sigaud-Kutner,Maria A. S. Leitão,Oswaldo Keith Okamoto,David Morse,Pio Colepicolo +5 more
TL;DR: The evidence linking metal accumulation, cellular toxicity, and the generation of ROS in aquatic environments is reviewed, with a focus on algae.
Enhanced Reality Fieldwork: the Context Aware Archaeological Assistant
TL;DR: The Mobile Computing in a Fieldwork Environment (MCFE) project aims to develop context-aware tools for hand-held computers that will support the authoring, presentation and management of field notes.
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The Symbiodinium kawagutii genome illuminates dinoflagellate gene expression and coral symbiosis
Senjie Lin,Senjie Lin,Shifeng Cheng,Shifeng Cheng,Bo Song,Xiao Zhong,Xin Lin,Wujiao Li,Ling Li,Yaqun Zhang,Huan Zhang,Zhiliang Ji,Mei-Chun Cai,Yunyun Zhuang,Xinguo Shi,Lingxiao Lin,Lu Wang,Zhaobao Wang,Xin Liu,Sheng Yu,Peng Zeng,Han Hao,Quan Zou,Chengxuan Chen,Yanjun Li,Ying Wang,Chunyan Xu,Shanshan Meng,Xun Xu,Jun Wang,Jun Wang,Jun Wang,Huanming Yang,Huanming Yang,David A. Campbell,Nancy R. Sturm,Steve Dagenais-Bellefeuille,David Morse +37 more
TL;DR: The genome of the Coral symbiont Symbiodinium reveals fundamental aspects of the coral-alga symbiosis and finds biochemical complementarity between genomes of S. kawagutii and the anthozoan Acropora, providing a resource for studying the molecular basis and evolution of coral symbiosis.
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A nuclear-encoded form II RuBisCO in dinoflagellates.
TL;DR: The chloroplasts of most dinoflagellates are unusual in that they are surrounded by three membranes and contain the carotenoid peridinin, and the ribulose-1,5-bisphosphate carboxylase-oxygenase (RuBisCO) in dinofLagellate chloroplast was found here to be unusual.
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S-RNase uptake by compatible pollen tubes in gametophytic self-incompatibility.
TL;DR: Immunocytochemical labelling of pollen tubes growing in styles is used to show accumulation of an S-RNase in the cytoplasm of all pollen-tube haplotypes, thus providing experimental support for the inhibitor model.