Results 161 to 170 of about 9,302 (197)

The Symbiodinium kawagutii genome illuminates dinoflagellate gene expression and coral symbiosis

Science, 2015
Senjie Lin, Shifeng Cheng, Bo Song, Xiao Zhong, Xin Lin, Wujiao Li, Ling Li, Yaqun Zhang, Huan Zhang, Zhiliang Ji, M. Cai, Yunyun Zhuang, Xinguo Shi, Lingxiao Lin, Lu Wang, Zhaobao Wang, Xin Liu, Sheng-li Yu, Peng Zeng, H. Hao, Q. Zou, Chengxuan Chen, Yanjun Li, Ying Wang, Chunyan Xu, S. Meng, Xun Xu, Jun Wang, Huanming Yang, D. A. Campbell, N. R. Sturm, Steve Dagenais-Bellefeuille, D. Morse   +32 more
semanticscholar   +1 more source

Symbiodinium mitigate the combined effects of hypoxia and acidification on a noncalcifying cnidarian

Global Change Biology, 2017
S. Klein, K. Pitt, M. Nitschke, S. Goyen, D. Welsh, D. Suggett, A. Carroll   +6 more
semanticscholar   +1 more source

Towards a better understanding of the mechanisms of coral bleaching [PDF]

, 2016
Roberty, S.
core  

Ecological and Evolutionary Considerations Regarding Corals in a Rapidly Changing Environment [PDF]

, 2017
Goffredo, Stefano
core  

Critical role of oxygen photoreduction downstream of PSI in Symbiodinium: photoprotection, energetic adjustement and ros production [PDF]

, 2015
Bailleul, B., Berne, N., Cardol, P., Franck, F., Roberty, S.   +4 more
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Microsatellite loci for Symbiodinium goreaui and other Clade C Symbiodinium

Conservation Genetics Resources, 2013
The genus Symbiodinium comprises a diverse group of dinoflagellates known for their obligate relationship with reef–building corals. Members of the sub-genus ‘clade C’ are abundant, geographically wide-spread, as well as genetically and ecologically diverse. Coral colonies harboring clade C are often the most exposed to physical stressors.
Drew C. Wham, Margaux Carmichael, Todd C. LaJeunesse   +2 more
openaire   +1 more source

Microsatellite loci for the host-generalist “zooxanthella” Symbiodinium trenchi and other Clade D Symbiodinium

Conservation Genetics Resources, 2011
Nine new polymorphic microsatellites were developed for Symbiodinium trenchi (sensu type D1a). These loci were tested on populations of S. trenchi from corals in Palau and 3–19 alleles were observed at each haploid locus with an average of 7 alleles.
Drew C. Wham, Daniel T. Pettay, Todd C. LaJeunesse   +2 more
openaire   +1 more source

Recent progress in Symbiodinium transcriptomics

Journal of Experimental Marine Biology and Ecology, 2011
Abstract Dinoflagellate symbionts of the genus Symbiodinium are integral to the success of the coral holobiont (a coral host and the microbial community it harbours), however despite their importance we currently have a very limited knowledge of the genes which they possess and their genomic organisation.
Leggat, William, Yellowlees, David, Medina, Monica   +2 more
openaire   +2 more sources

Physiology and cryosensitivity of coral endosymbiotic algae (Symbiodinium)

Cryobiology, 2010
Coral throughout the world are under threat. To save coral via cryopreservation methods, the Symbiodinium algae that live within many coral cells must also be considered. Coral juvenile must often take up these important cells from their surrounding water and when adult coral bleach, they lose their endosymbiotic algae and will die if they are not ...
M, Hagedorn, V L, Carter, J C, Leong, F W, Kleinhans   +3 more
openaire   +2 more sources

Toxicity of microplastics and nano-plastics to coral-symbiotic alga (Dinophyceae Symbiodinium): Evidence from alga physiology, ultrastructure, OJIP kinetics and multi-omics.

Water Research
Corals are representative of typical symbiotic organisms. The coral-algal (Symbiodinium spp.) symbiosis drives the productivity of entire coral reefs. In recent years, microplastics (MPs) and nano-plastics (NPs) have been shown to disrupt this symbiosis,
Shiqi Jiang, Huiting Lu, Yingying Xie, Tingru Zhou, Zhenqing Dai, Ruikun Sun, Lei He, Chengyong Li   +7 more
semanticscholar   +1 more source