Results 191 to 200 of about 18,774 (205)

Differential Gene Expression in Symbiodinium microadriaticum Clade B Following Stress

Marine Biotechnology, 2006
Coral bleaching is caused by the loss of symbiont zooxanthellae and/or decrease in their pigments. Since the algal symbionts provide the energy basis for corals and whole reefs, their loss or impairment of function leads to widespread mortality. This phenomenon has been documented numerous times in recent years, and has extensively damaged coral reefs ...
S, Karako-Lampert, G, Hershkovits, N, Stambler, N, Simon-Blecher, Y, Achituv, Z, Dubinsky, D J, Katcoff   +6 more
openaire   +2 more sources

Bacterial Symbionts of Corals and Symbiodinium

2011
Multipartite symbiosis in corals is an exciting area of research that is not well studied. Research to date indicates that bacterial associates of corals may protect the host by producing antibiotics and other beneficial compounds and nutrients, and are likely to play a role in the stability of the coral animal as a whole.
openaire   +1 more source

Diversity and ecology of Symbiodinium in pocilloporid corals

2023
The decline of coral reefs is well documented, yet a detailed understanding of the processes involved in the establishment, persistence, and ecology of the coral-dinoflagellate associations still remains largely unknown. The advent of molecular techniques has resulted in significant advances in understanding the molecular diversity present of symbiotic
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Light-Harvesting Complexes in the Dinoflagellate Symbiodinium

2014
Symbiodinium, the most commonly found endosymbionts of corals, are key constituents of coral reef ecosystems. Their photosynthesis is essential for the maintenance of the algal-host relationship, but is susceptible to various factors such as increased temperature and/or irradiance.
openaire   +2 more sources

Animal–Symbiodinium Symbioses: Foundations of Coral Reef Ecosystems

2016
A variety of animal taxa have benefited from symbioses with photoautotrophic symbionts that provide fixed carbon in exchange for nutrients and high-light habitats. Corals are one such animal lineage, harboring dinoflagellates in the genus Symbiodinium.
Nathan L. Kirk, Virginia M. Weis
openaire   +1 more source

Symbiodinium gen. nov. and Symbiodinium microadriaticum sp. nov., a Zooxanthella: Taxonomy, Life Cycle, and Morphology.*

The Journal of Protozoology, 1962
SYNOPSIS. The life cycle of the zooxanthella of Cassiopeia sp., as determined by in vitro studies, includes a dominant vegetative autotrophic stage, a reproductive cyst producing autospores, aplanospores, or motile gymnodinioid zoospores, or possible gametes.
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Symbiodinium ITS2 Amplicon Analysis after Arif et al.

2017
Workflow for Community analysis based on ITS2 amplicon sequences in ...
Fujise, Risa, Kahlke, Tim
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Genetic and spatial organization of the unusual chromosomes of the dinoflagellate Symbiodinium microadriaticum

Nature Genetics, 2021
Ankita Nand, Ye Zhan, Octavio R Salazar
exaly  

Symbiosis process between Acropora larvae and Symbiodinium differs even among closely related Symbiodinium types

Marine Ecology Progress Series, 2018
H Yamashita, G Suzuki, C Shinzato, M Jimbo, K Koike   +4 more
openaire   +1 more source

Symbiodinium genomes reveal adaptive evolution of functions related to coral-dinoflagellate symbiosis

Communications Biology, 2018
Timothy G Stephens, Raúl A González-Pech, Pim Bongaerts   +2 more
exaly