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Comparative Genomic Analysis of Multi-Subunit Tethering Complexes Demonstrates an Ancient Pan-Eukaryotic Complement and Sculpting in Apicomplexa.
PLoS One. 2013;8(9):e76278
Authors: Klinger CM, Klute MJ, Dacks JB
Abs…

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Algal endosymbionts as vectors of horizontal gene transfer in photosynthetic eukaryotes.
Front Plant Sci. 2013;4:366
Authors: Qiu H, Yoon HS, Bhattacharya D
Abstract
Photosynthesis in eukaryot…

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Genomics Study of the Exposure Effect of Gymnodinium catenatum, a Paralyzing Toxin Producer, on Crassostrea gigas’ Defense System and Detoxification Genes.

PLoS One. 2013;8(9):e72323

Authors: García-Lagunas N, Romero-Geraldo R, Hernández-Saavedra NY

Abstract
BACKGROUND: Crassostrea gigas accumulates paralytic shellfish toxins (PST) associated with red tide species as Gymnodinium catenatum. Previous studies demonstrated bivalves show variable feeding responses to toxic algae at physiological level; recently, only one study has reported biochemical changes in the transcript level of the genes involved in C. gigas stress response.
PRINCIPAL FINDINGS: We found that 24 h feeding on toxic dinoflagellate cells (acute exposure) induced a significant decrease in clearance rate and expression level changes of the genes involved in antioxidant defense (copper/zinc superoxide dismutase, Cu/Zn-SOD), cell detoxification (glutathione S-transferase, GST and cytochrome P450, CPY450), intermediate immune response activation (lipopolysaccharide and beta glucan binding protein, LGBP), and stress responses (glutamine synthetase, GS) in Pacific oysters compared to the effects with the non-toxic microalga Isochrysis galbana. A sub-chronic exposure feeding on toxic dinoflagellate cells for seven and fourteen days (30×10(3) cells mL(-1)) showed higher gene expression levels. A significant increase was observed in Cu/Zn-SOD, GST, and LGBP at day 7 and a major increase in GS and CPY450 at day 14. We also observed that oysters fed only with G. catenatum (3×10(3) cells mL(-1)) produced a significant increase on the transcription level than in a mixed diet (3×10(3) cells mL(-1) of G. catenatum+0.75×10(6) cells mL(-1) I. galbana) in all the analyzed genes.
CONCLUSIONS: Our results provide gene expression data of PST producer dinoflagellate G. catenatum toxic effects on C. gigas, a commercially important bivalve. Over expressed genes indicate the activation of a potent protective mechanism, whose response depends on both cell concentration and exposure time against these toxic microalgae. Given the importance of dinoflagellate blooms in coastal environments, these results provide a more comprehensive overview of how oysters respond to stress generated by toxic dinoflagellate exposure.

PMID: 24039751 [PubMed – in process]

Genome of the R-body producing marine alphaproteobacterium Labrenzia alexandrii type strain (DFL-11(T)).

Stand Genomic Sci. 2013;7(3):413-26

Authors: Fiebig A, Pradella S, Petersen J, Päuker O, Michael V, Lünsdorf H, Göker M, Klenk HP, Wagner-Döbler I

Abstract
Labrenzia alexandrii Biebl et al. 2007 is a marine member of the family Rhodobacteraceae in the order Rhodobacterales, which has thus far only partially been characterized at the genome level. The bacterium is of interest because it lives in close association with the toxic dinoflagellate Alexandrium lusitanicum. Ultrastructural analysis reveals R-bodies within the bacterial cells, which are primarily known from obligate endosymbionts that trigger “killing traits” in ciliates (Paramecium spp.). Genomic traits of L. alexandrii DFL-11(T) are in accordance with these findings, as they include the reb genes putatively involved in R-body synthesis. Analysis of the two extrachromosomal elements suggests a role in heavy-metal resistance and exopolysaccharide formation, respectively. The 5,461,856 bp long genome with its 5,071 protein-coding and 73 RNA genes consists of one chromosome and two plasmids, and has been sequenced in the context of the Marine Microbial Initiative.

PMID: 24019989 [PubMed]

Genome of the marine alphaproteobacterium Hoeflea phototrophica type strain (DFL-43(T)).

Stand Genomic Sci. 2013;7(3):440-8

Authors: Fiebig A, Pradella S, Petersen J, Michael V, Päuker O, Rohde M, Göker M, Klenk HP, Wagner-Döbler I

Abstract
Hoeflea phototrophica Biebl et al. 2006 is a member of the family Phyllobacteriaceae in the order Rhizobiales, which is thus far only partially characterized at the genome level. This marine bacterium contains the photosynthesis reaction-center genes pufL and pufM and is of interest because it lives in close association with toxic dinoflagellates such as Prorocentrum lima. The 4,467,792 bp genome (permanent draft sequence) with its 4,296 protein-coding and 69 RNA genes is a part of the Marine Microbial Initiative.

PMID: 24019991 [PubMed]