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Anders Malmendal
Researcher at Roskilde University
Publications - 92
Citations - 3664
Anders Malmendal is an academic researcher from Roskilde University. The author has contributed to research in topics: Medicine & Biology. The author has an hindex of 30, co-authored 81 publications receiving 3033 citations. Previous affiliations of Anders Malmendal include Scripps Research Institute & University of Copenhagen.
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Journal ArticleDOI
Brain damage and behavioural disorders in fish induced by plastic nanoparticles delivered through the food chain
Karin Mattsson,Elyse V. Johnson,Anders Malmendal,Sara Linse,Lars-Anders Hansson,Tommy Cedervall +5 more
TL;DR: It is demonstrated that plastic nanoparticles reduce survival of aquatic zooplankton and penetrate the blood-to-brain barrier in fish and cause behavioural disorders, which is the likely mechanism behind the observed behavioural disorders in the top consumer.
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Altered Behavior, Physiology, and Metabolism in Fish Exposed to Polystyrene Nanoparticles
Karin Mattsson,Mikael T. Ekvall,Lars-Anders Hansson,Sara Linse,Anders Malmendal,Tommy Cedervall +5 more
TL;DR: It is concluded that polystyrene nanoparticles have severe effects on both behavior and metabolism in fish and that commonly used nanosized particles may have considerable effects on natural systems and ecosystem services derived from them.
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Metabolomic profiling of rapid cold hardening and cold shock in Drosophila melanogaster.
Johannes Overgaard,Anders Malmendal,Jesper Givskov Sørensen,Jacob G. Bundy,Volker Loeschcke,Niels Chr. Nielsen,Martin Holmstrup +6 more
TL;DR: It is observed that the onset and magnitude of the increased sugar levels correlated tightly with the improved chill tolerance following RCH, suggesting a putative role of cryoprotectants during RCH.
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Metabolomic profiling of heat stress: hardening and recovery of homeostasis in Drosophila.
Anders Malmendal,Johannes Overgaard,Jacob G. Bundy,Jesper Givskov Sørensen,Niels Chr. Nielsen,Volker Loeschcke,Martin Holmstrup +6 more
TL;DR: The data show that heat hardening permits a quicker return to homeostasis, rather than a reduction of the acute metabolic perturbation, and that the reestablishment of homeostatic importance is important for obtaining maximal heat-hardening effect.
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Structural dynamics in the C-terminal domain of calmodulin at low calcium levels.
TL;DR: Characterization of chemical exchange as a function of Ca2+ concentration has enabled the extraction of unique information on the rapidly exchanging and weakly populated (<10 %) (Ca2+)1 state that is otherwise inaccessible to direct study due to strongly cooperativeCa2+ binding.