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Regulation of methylammonium/ammonium transport in the unicellular cyanobacterium Synechococcus R-2 (PCC 7942) (1987)

Boussiba, Samy ; Gibson, Jane

Oxford, UK : Blackwell Publishing Ltd

FEMS microbiology letters 43 (1987), S. 0

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ISSN: 1574-6968

Source: Blackwell Publishing Journal Backfiles 1879-2005

Topics: Biology

Notes: The unicellular cyanobacterium Synechococcus R-2 (PCC 7942) took up 14CH3NH+3 at least 10 times faster after growth with NO−3 than with NH+4 as nitrogen source. When NH+4-grown cells were transferred to medium containing NO−3, the ability to accumulate 14CH3NH+3 required approximately 6 h for maximal expression. Chloramphenicol (50 μg · ml−1) completely prevented the rise in transport ability. Transport by nitrate-grown cells incubated in 2 mM NH4Cl or CH3NH3Cl, with or without NO−3, continued at high rates for 2–3 h, but fell to zero by about 5 h incubation in light. Methylammonium, or the γ-methyl glutamic amide derived from it, thus may also serve as a signal for repression; however, externally added glutamine stimulated rather than repressed 14CH3NH+3 transport. Changes in 14CH3NH+3 uptake rates brought about by NH+4 were confined to these slow effects, and to competition for entry into the cell.

Type of Medium: Electronic Resource

URL: http://dx.doi.org/10.1111/j.1574-6968.1987.tb02160.x

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Phylogenetic origins of the plant mitochondrion based on a comparative analysis of 5S ribosomal RNA sequences (1985)

Villanueva, Edward ; Luehrsen, Kenneth R. ; Gibson, Jane ; [et al.]

Springer

Journal of molecular evolution 22 (1985), S. 46-52

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ISSN: 1432-1432

Keywords: Symbiosis ; Plant mitochondria ; 5S RNA ; Evolution ; Purple bacteria

Source: Springer Online Journal Archives 1860-2000

Topics: Biology

Notes: Summary The complete nucleotide sequences of 5S ribosomal RNAs fromRhodocyclus gelatinosa, Rhodobacter sphaeroides, andPseudomonas cepacia were determined. Comparisons of these 5S RNA sequences show that rather than being phylogenetically related to one another, the two photosynthetic bacterial 5S RNAs share more sequence and signature homology with the RNAs of two nonphotosynthetic strains.Rhodobacter sphaeroides is specifically related toParacoccus denitrificans andRc. gelatinosa is related toPs. cepacia.These results support earlier 16S ribosomal RNA studies and add two important groups to the 5S RNA data base. Unique 5S RNA structural features previously found inP. denitrificans are present also in the 5S RNA ofRb. sphaeroides; these provide the basis for subdivisional signatures. The immediate consequence of our obtaining these new sequences is that we are able to clarify the phylogenetic origins of the plant mitochondrion. In particular, we find a close phylogenetic relationship between the plant mitochondria and members of the alpha subdivision of the purple photosynthetic bacteria, namely,Rb. sphaeroides, P. denitrificans, andRhodospirillum rubrum.

Type of Medium: Electronic Resource

URL: http://dx.doi.org/10.1007/BF02105804

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Permeability of ammonia, methylamine and ethylamine in the cyanobacterium,Synechococcus R-2 (Anacystis nidulans) PCC 7942 (1987)

Ritchie, Raymond J. ; Gibson, Jane

Springer

The journal of membrane biology 95 (1987), S. 131-142

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ISSN: 1432-1424

Keywords: Synechococcus ; permeability ; ammonia ; methylamine ; ammonium transport

Source: Springer Online Journal Archives 1860-2000

Topics: Biology , Chemistry and Pharmacology

Notes: Summary Permeabilities of ammonia (NH3), methylamine (CH3NH2) and ethylamine (CH3CH2NH2) in the cyanobacterium (cyanophyte)Synechococcus R-2 (Anacystis nidulans) have been measured. Based on net uptake rates of DCMU (dichlorophenyldimethylurea) treated cells, the permeability of ammonia was 6.44±1.22 μm sec−1 (n=13). The permeabilities of methylamine and ethylamine, based on steady-state14C labeling were more than ten times that of ammonia (P methylamine=84.6±9.47 μm sec−1 (76),P ethylamine=109±11 μm sec−1 (55)). The apparent permeabilities based on net uptake rates of methylamine and ethylamine uptake were significantly lower, but this effect was partially reversible by ammonia, suggesting that net amine fluxes are rate limited by proton fluxes to an upper limit of about 700 nmol m−2 sec−1. Increasing concentrations of amines in alkaline conditions partially dissipated the pH gradient across the cell membrane, and this property could be used to calculate the relative permeabilities of different amines. The ratio of ethylamine to methylamine permeabilities was not significantly different from that calculated from the direct measurements of permeabilities; ammonia was much less effective in dissipating the pH gradient across the cell membrane than methylamine or ethylamine. An apparent permeability of ammonia of 5.7±0.9 μm sec−1 could be calculated from the permeability ratio of ammonia to methylamine and the experimentally measured permeability of methylamine. The permeability properties of ammonia and methylamine are very different; this poses problems in the interpretation of experiments where14C-methylamine is used as an ammonia analogue.

Type of Medium: Electronic Resource

URL: http://dx.doi.org/10.1007/BF01869158

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Ruthenium nitrosyl complexes: Toxicity toEscherichia coli and yeasts and uptake by marine bacteria (1986)

Gibson, Jane F. ; Poole, Robert K. ; Hughes, Martin N. ; [et al.]

Springer

Archives of environmental contamination and toxicology 15 (1986), S. 519-523

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ISSN: 1432-0703

Source: Springer Online Journal Archives 1860-2000

Topics: Energy, Environment Protection, Nuclear Power Engineering , Medicine

Notes: Abstract The toxicity and possible accumulation of ruthenium nitrosyl complexes by marine bacteria and test organisms have been studied, A range of these complexes show no toxic effects towardsEscherichia coli K12 at concentrations of mM and below. Yeasts are more sensitive, showing effects on growth at 10 ΜM. The ruthenium nitrosyl complexes tested are unable to permeate the cytoplasmic membrane ofE. coli. This may account for their lack of toxicity. However, these compounds did not have significant inhibitory effects on Mg2+-ATPase activity in cell-extracts, I50 values lying in the range 2 to 125 Μmol(mg protein)−1. Marine bacteria are capable of taking up ruthenium complexes from simulated effluent, but this cannot be demonstrated in the presence of sediment which competes effectively for binding of complexes. There is minimal likelihood of concentration of ruthenium compounds from effluents by marine bacteria.

Type of Medium: Electronic Resource

URL: http://dx.doi.org/10.1007/BF01056564

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