Nora E. Ghittoni scite author profile

Nora E. Ghittoni

5Publications

57Citation Statements Received

24Citation Statements Given

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102

Affiliations

Instituto Médico Río Cuarto, National University of Río Cuarto, University of Buenos Aires

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Peanut rhizobia under salt stress: role of trehalose accumulation in strain ATCC 51466

Ghittoni¹,

Bueno²

1995

Can. J. Microbiol.

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Strain ATCC 51466, a motile peanut Rhizobium sp., showed patterns of utilization of diverse carbon sources characteristic of fast growers. Bacteria had periplasmic neutral glucans with molecular weight close to 3000. When the extracellular concentration of NaCl was raised to 400 mM, the lag phase of the culture was prolonged about threefold and the generation time was increased almost twice. The changes in growth behavior of salt-stressed bacteria were accompanied by the full suppression of periplasmic oligoglucans and the accumulation of cellular trehalose. Almost identical changes in cell-associated oligoglucans were observed after exposing peanut Rhizobium sp. strain ATCC 10317 to hypersalinity. When the osmotic pressure of the medium was augmented by the addition of either 200 mM mannitol or 16% (w/v) polyethylene glycol, cells of strain ATCC 51466 contained decreased levels of oligoglucans and accumulated trehalose. On the other hand, the content of cellular trehalose increased throughout logarithmic and stationary phases of growth of strain ATCC 51466 in a medium supplemented with 400 mM NaCl. When bacterial cultures were shifted from hypersaline to basal media, oligoglucans were the only oligosaccharides detected. The addition of 10 mM proline to bacteria grown under hypersalinity led to a 50% decrease in the level of trehalose and to the accumulation of oligoglucans. The addition of 10 mM glycine betaine to bacteria grown under hypersalinity also produced accumulation of oligoglucans, but the level of trehalose did not decrease. The results presented here are consistent with a role for trehalose as a compatible solute in peanut Rhizobium ATCC 51466, and they suggest that exogenously added proline may act as a compatible solute in preference to trehalose.Key words: periplasmic glucans, trehalose, peanut Rhizobium, osmotic stress.

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THE EFFECT OF METHIONINE ON THE REGIONAL AND INTRACELLULAR DISPOSITION OF [³H]‐METHIONINE SULPHOXIMINE IN RAT BRAIN¹

Ghittoni

Ohlsson

Sellinger

1970

Journal of Neurochemistry

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—The intracellular disposition of the convulsant agent, methionine sulphoximine (MSO), administered as methyl‐labelled [3H]MSO, was examined in rat brain. Intraperitoneal (i.p.) and intrathecal (i.th.) routes were compared. The effect of simultaneous administration of methionine on the uptake, the regional distribution and the intracellular disposition of [3H]MSO was also assessed: (1) The peak uptake of i.p. [3H]MSO was at 2 h and amounted to about 1 per cent of the dose; the peak uptake of i.th. [3H]MSO was at 30 min post‐injection and amounted to 40 per cent of the administered dose. The uptake was effectively reduced when methionine was simultaneously administered. (2) The regional distribution of [3H]MSO as a function of time after injection revealed a rather uniform penetration of the entire brain by the drug. A maximum of 43 per cent of the tissue radioactivity was found in the cerebellum 2 h after i.p. injection, while 49 per cent accumulated in the extracortical portion of the brain 3·5 h after i.th. administration. Methionine did not affect the regional distribution of [3H]MSO. (3) Differential centrifugation of samples of cortex and cerebellum revealed an association of [3H]MSO with intracellular particulate fractions. Since closely similar proportions of MSO occurred in the crude mitochondrial and the microsomal fractions, these fractions were analysed further: (a) [3H]MSO was bound to nerve endings sedimenting at the 1·0 m–1·2 m‐sucrose interface; this binding was not abolished by prior increase of the endogenous cerebral methionine pool; and (b) [3H]MSO was released by subjecting the nerve endings to osmotic shock. However, the striking finding was that [3H]MSO could not be released from the nerve endings of the cerebellum from animals pre‐treated with methionine. (4) An association of [3H]MSO was observed with the membranes of the endoplasmic reticulum and specifically with its agranular component. (5)The results implicate the cerebellum as the primary target for MSO, in confirmation of the original observations of Lodin (1958).

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Effects of pesticides on the fatty acid and phospholipid composition of Escherichia coli

Rosas¹,

Secco²,

Ghittoni³

1980

Appl Environ Microbiol

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Cells of Escherichia coli contained an altered phospholipid and fatty acid composition when grown in the presence of some pesticides. Whereas parathion increased the concentration of all phospholipid species without changes in their polar head groups, DDT (dichlorodiphenyltrichloroethane) decreased the proportion of neutral serine-derived phosphatides and dieldrin decreased the proportion of negatively charged phospholipids. The saturated/unsaturated plus cyclopropane fatty acid ratio was increased in all cases. The changes suggested that cells adapted their membrane lipids to compensate for the presence of pesticides in the environment.

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Effects of growth hormone on lipid changes in cerebral cortex and cerebellum of neonatally thyroidectomized rats

1974

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Respiration and aerobic glycolysis in rat cerebral cortex during postnatal maturation. Influence of hypothyroidism

Ghittoni¹,

Gómez²

1964

Life Sciences

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Nora E. Ghittoni

Peanut rhizobia under salt stress: role of trehalose accumulation in strain ATCC 51466

THE EFFECT OF METHIONINE ON THE REGIONAL AND INTRACELLULAR DISPOSITION OF [³H]‐METHIONINE SULPHOXIMINE IN RAT BRAIN¹

Effects of pesticides on the fatty acid and phospholipid composition of Escherichia coli

Effects of growth hormone on lipid changes in cerebral cortex and cerebellum of neonatally thyroidectomized rats

Respiration and aerobic glycolysis in rat cerebral cortex during postnatal maturation. Influence of hypothyroidism

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Nora E. Ghittoni

Peanut rhizobia under salt stress: role of trehalose accumulation in strain ATCC 51466

THE EFFECT OF METHIONINE ON THE REGIONAL AND INTRACELLULAR DISPOSITION OF [3H]‐METHIONINE SULPHOXIMINE IN RAT BRAIN1

Effects of pesticides on the fatty acid and phospholipid composition of Escherichia coli

Effects of growth hormone on lipid changes in cerebral cortex and cerebellum of neonatally thyroidectomized rats

Respiration and aerobic glycolysis in rat cerebral cortex during postnatal maturation. Influence of hypothyroidism

Contact Info

Product

Resources

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THE EFFECT OF METHIONINE ON THE REGIONAL AND INTRACELLULAR DISPOSITION OF [³H]‐METHIONINE SULPHOXIMINE IN RAT BRAIN¹