The role of Na<sup>+</sup> in membrane transport and respiration in the marine bacterium <i>Deleya aesta</i> 134

Berthelet, Marc; MacLeod, Robert A.

doi:10.1139/m91-071

Cited by 5 publications

(2 citation statements)

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“…Such interdependences between sodium-dependent membrane transport and sodiumdependent oxidation of an energy source have recently been described for another species of Deleya, D . aesta strain 134, by Berthelet & MacLeod (1991).…”

Section: Sodium Dependence Of Urea Uptakementioning

confidence: 99%

Urea uptake by the marine bacterium Deleya venusta HG1

Jahns

1992

Journal of General Microbiology

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The uptake (transport and metabolism) of urea was studied in a strain of the marine bacterium DeZeya uenusta, measuring the uptake of [14C]urea in viuu and the urease reaction in uitru. Urea uptake in uiuo was sodiumdependent and exhibited a K, value of 1-4 p~ for urea, a broad pH optimum between pH 6.0 and 8-5, a distinct temperature optimum at 35 "C and a requirement for energy. Urease activity in uitru exhibited a K, value of 0.86 mM for urea and showed maximum activities at pH 8.5 and 60 OC; the enzyme was neither dependent on the presence of sodium, nor inhibited by metabolic inhibitors. Synthesis of the urea uptake system was subject to nitrogen control; ammonium resulted in a repression of the system, whereas high uptake rates were observed after growth with nitrate or incubation of the cells in the absence of a nitrogen source. The uptake reaction in uiuu, but not the urease activity in uitru, was decreased greatly in the presence of ammonium. This inhibition was relieved by methionine sulphoximine (MSX), a potent inhibitor of glutamine synthetase; in mutant strains impaired in this enzyme no inhibition of urea uptake by ammonium was observed. These results suggest that glutamine formed from ammonium rather than ammonium itself regulates urea uptake activity in D. uenusta.

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Section: Sodium Dependence Of Urea Uptakementioning

confidence: 99%

Urea uptake by the marine bacterium Deleya venusta HG1

Jahns

1992

Journal of General Microbiology

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“…The Na+-dependent active transport of various nutrients has been reported in the marine Alteromonas halopZanktis and V.C/.scheri (Droniuk et al, 1987), and Deleya aesta (Berthelet & MacLeod, 1991). The marine V. alginolyticus also requires Na+ for the active uptake of 20 amino acids including AIB (Unemoto et al, 1990).…”

Section: Discussionmentioning

confidence: 92%

Correlation between the respiration-driven Na+ pump and Na+-dependent amino acid transport in moderately halophilic bacteria

Unemoto

Akagawa

Hayashi

1993

Journal of General Microbiology

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The effect of Na+ on amino acid uptake by moderately halophilic bacteria was examined using a-aminoisobutyric acid (AIB) as a nonmetabolizable amino acid analogue. Of the eight moderate halophiles investigated, the six Gram-negative bacteria that have a respiration-driven Na+ pump specifically required Na+ for AIB uptake. On the other hand, the two Gram-positive bacteria that have no respiration-driven Na+ pump showed no requirement for Na+ for AIB uptake. Thus, the mode of energy coupling to amino acid transport was quite different between the Gram-negative and Gram-positive moderate halophiles tested : the former, but not the latter, utilized Na+ circulation for the active uptake of AIB.

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Vitukhnovskaya

Ismailov

2001

Microbiology

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The role of Na⁺ in membrane transport and respiration in the marine bacterium Deleya aesta 134

Cited by 5 publications

References 32 publications

Urea uptake by the marine bacterium Deleya venusta HG1

Urea uptake by the marine bacterium Deleya venusta HG1

Correlation between the respiration-driven Na+ pump and Na+-dependent amino acid transport in moderately halophilic bacteria

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The role of Na+ in membrane transport and respiration in the marine bacterium Deleya aesta 134

Cited by 5 publications

References 32 publications

Urea uptake by the marine bacterium Deleya venusta HG1

Urea uptake by the marine bacterium Deleya venusta HG1

Correlation between the respiration-driven Na+ pump and Na+-dependent amino acid transport in moderately halophilic bacteria

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The role of Na⁺ in membrane transport and respiration in the marine bacterium Deleya aesta 134