Multi-omics analysis reveals the molecular response to heat stress in a “red tide” dinoflagellate
2023
Dougan, Katherine E | Deng, Zhi-Luo | Wöhlbrand, Lars | Reuse, Carsten | Bunk, Boyke | Chen, Yibi | Hartlich, Juliane | Hiller, Karsten | John, Uwe | Kalvelage, Jana | Mansky, Johannes | Neumann-Schaal, Meina | Overmann, Jörg | Petersen, Jörn | Sanchez-Garcia, Selene | Schmidt-Hohagen, Kerstin | Shah, Sarah | Spröer, Cathrin | Sztajer, Helena | Wang, Hui | Bhattacharya, Debashish | Rabus, Ralf | Jahn, Dieter | Chan, Cheong Xin | Wagner-Döbler, Irene
“Red tides” are harmful algal blooms caused by dinoflagellate microalgae that accumulate toxins lethal to other organisms, including humans via consumption of contaminated seafood. These algal blooms are driven by a combination of environmental factors including nutrient enrichment, particularly in warm waters, and are increasingly frequent. The molecular, regulatory, and evolutionary mechanisms that underlie the heat stress response in these harmful bloom-forming algal species remain little understood, due in part to the limited genomic resources from dinoflagellates, complicated by the large sizes of genomes, exhibiting features atypical of eukaryotes.
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