Guillaume Spennato scite author profile

The osmoprotectant Pro betaine is the main betaine identified in alfalfa (Medicago sativa). We have investigated the long-term responses of nodulated alfalfa plants to salt stress, with a particular interest for Pro betaine accumulation, compartmentalization, and metabolism. Exposure of 3-week-old nodulated alfalfa plants to 0.2 m NaCl for 4 weeks was followed by a 10-, 4-, and 8-fold increase in Pro betaine in shoots, roots, and nodules, respectively. Isotope-labeling studies in alfalfa shoots indicate that [14C]Pro betaine was synthesized from l-[14C]Pro. [14C]Pro betaine was efficiently catabolized through sequential demethylations via N-methylPro and Pro. Salt stress had a minor effect on Pro betaine biosynthesis, whereas it strongly reduced Pro betaine turnover. Analysis of Pro betaine and Pro compartmentalization within nodules revealed that 4 weeks of salinization of the host plants induced a strong increase in cytosol and bacteroids. The estimated Pro betaine and Pro concentrations in salt-stressed bacteroids reached 7.4 and 11.8 mm, respectively, compared to only 0.8 mm in control bacteroids. Na+ content in nodule compartments was also enhanced under salinization, leading to a concentration of 14.7 mm in bacteroids. [14C]Pro betaine and [14C]Pro were taken up by purified symbiosomes and free bacteroids. There was no indication of saturable carrier(s), and the rate of uptake was moderately enhanced by salinization. Ultrastructural analysis showed a large peribacteroid space in salt-stressed nodules, suggesting an increased turgor pressure inside the symbiosomes, which might partially be due to an elevated concentration in Pro, Pro betaine, and Na+ in this compartment.

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Chronic treatment with fluoxetine prevents the return of extinguished auditory-cued conditioned fear

Deschaux

Spennato

Moreau

et al. 2010

Psychopharmacology

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The Sinorhizobium meliloti Glycine Betaine Biosynthetic Genes (betICBA) Are Induced by Choline and Highly Expressed in Bacteroids

Mandon¹,

Østerås²,

Boncompagni³

et al. 2003

MPMI

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The symbiotic soil bacterium Sinorhizobium meliloti has the capacity to synthesize the osmoprotectant glycine betaine from choline-O-sulfate and choline. This pathway is encoded by the betICBA locus, which comprises a regulatory gene, betI, and three structural genes, betC (choline sulfatase), betB (betaine aldehyde dehydrogenase), and betA (choline dehydrogenase). Here, we report that betICBA genes constitute a single operon, despite the existence of intergenic regions containing mosaic elements between betI and betC, and betB and betA. The regulation of the bet operon was investigated by using transcriptional lacZ (beta-galactosidase) fusions and has revealed a strong induction by choline at concentrations as low as 25 microM and to a lesser extent by choline-O-sulfate and acetylcholine but not by osmotic stress or oxygen. BetI is a repressor of the bet transcription in the absence of choline, and a nucleotide sequence of dyad symmetry upstream of betI was identified as a putative betI box. Measurements of intracellular pools of choline, well correlated with beta-galactosidase activities, strongly suggested that BetI senses the endogenous choline pool that modulates the intensity of BetI repression. In contrast to Escherichia coli, BetI did not repress choline transport. During symbiosis with Medicago sativa, S. meliloti bet gene expression was observed within the infection threads, in young and in mature nodules. The existence of free choline in nodule cytosol, peribacteroid space, and bacteroids was demonstrated, and the data suggest that bet regulation in planta is mediated by BetI repression, as in free-living cells. Neither Nod nor Fix phenotypes were significantly impaired in a betI::omega mutant, indicating that glycine betaine biosynthesis from choline is not crucial for nodulation and nitrogen fixation.

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Effects of marine noise pollution on Mediterranean fishes and invertebrates: A review

Franco

Pierson

Iorio

et al. 2020

Marine Pollution Bulletin

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Highlights (3 to 5 bullet points, maximum 85 characters, including spaces, per bullet point, to be submitted in a separate editable file in the online submission system, using 'Highlights' in the file name). • Marine noise is a widespread source of pollution in the Mediterranean Sea • Noise pollution produces a multitude of impacts on marine fish and invertebrates • Marine noise pollution impacts individuals to ecosystems • A variety of measures could be adopted to mitigate marine noise pollution Abstract (max 150 words): Marine noise pollution (MNP) can cause a multitude of impacts on many organisms, but information is often scattered and general outcomes difficult to assess. We systematically reviewed the available knowledgeliterature about MNP impacts on Mediterranean fish and invertebrates. Both chronic and acute MNP produced by several human activities-e.g. maritime traffic, pile driving, air guns-were found to cause detectable effects on intraspecific communication, vital processes, physiology, behavioral patterns, health status and survival. These individual-based effects can extend to induce population-and ecosystem-wide alterations, especially when MNP impacts functionally important species, such as keystone predators and habitat forming species. Curbing the threats of MNP in the Mediterranean Sea is not an easya challenging task, but a variety of measures should could be adopted to mitigate MNP impacts. Successful measures will require more precise accurate information on impacts, and that effective management of MNP actually becomes a priority in the policy makers' agenda.

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