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Nitrogen fixation in the North Pacific Ocean (1974)

Mague, T. H. ; Weare, N. M. ; Holm-Hansen, O.

Springer

Marine biology 24 (1974), S. 109-119

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ISSN: 1432-1793

Source: Springer Online Journal Archives 1860-2000

Topics: Biology

Notes: Abstract Nitrogen fixation in the euphotic zone of the ocean was measured by C2H2 reduction and 15N2 incorporation associated with Trichodesmium sp. and also with Richelia intracellularis occurring within the cells of Rhizosolenia styliformis var. longispina, and R. cylindrus. The vertical distribution of N2 fixation activity, N2-fixing species, particulate matter and dissolved nutrients was measured. The effects of light intensity, sample concentration, length of incubation, and nutrient enrichment on the rates of C2H2 reduction were determined. Estimates of the importance of N2 fixation in adding previously uncycled nitrogen to the euphotic zone are given.

Type of Medium: Electronic Resource

URL: http://dx.doi.org/10.1007/BF00389344

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Nitrogen fixation by Anabaena cylindrica (1973)

Weare, N. M. ; Benemann, John R.

Springer

Archives of microbiology 90 (1973), S. 323-332

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ISSN: 1432-072X

Source: Springer Online Journal Archives 1860-2000

Topics: Biology

Notes: Summary Blending Anabaena cylindrica cultures results in a loss of nitrogenase activity which is correlated with the breakage of the filaments at the junctions between heterocysts and vegetative cells. Oxygen inhibition of nitrogen fixation was significant only above atmospheric concentrations. Nitrogen-fixation activities in the dark were up to 50% of those observed in the light and were dependent on oxygen (10 to 20% was optimal). Nitrogenase activity was lost in about 3 h when cells were incubated aerobically in the dark. Re-exposure to light resulted in recovery of nitrogenase activity within 2 h. Blending, oxygen, or dark pre-incubation had similar effects upon cultures grown under air or nitrogen and did not inhibit light-dependent CO2 fixation. We conclude that heterocysts are the sites of nitrogenase activity and propose a model for nitrogen fixation by Anabaena cylindrica.

Type of Medium: Electronic Resource

URL: http://dx.doi.org/10.1007/BF00408927

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Nitrogen fixation by Anabaena cylindrica (1973)

Weare, N. M. ; Benemann, John R.

Springer

Archives of microbiology 93 (1973), S. 101-112

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ISSN: 1432-072X

Source: Springer Online Journal Archives 1860-2000

Topics: Biology

Notes: Summary The effects of oxygen, light and photosynthesis inhibitors on nitrogenase activities in Anabaena cylindrica batch cultures were followed as a function of time after inoculation. During the early rapid growth period the nitrogenase activities of cultures grown under air/CO2 or N2/CO2 were relatively resistant to oxygen and DCMU inhibition. These cultures also exhibited oxygen-dependent nitrogenase activity in the dark of up to 50% of that measured in the light. After active growth ceased the cultures continued to slowly grow for a prolonged period of time. The nitrogenase activities of these “old” cultures were very sensitive to oxygen and DCMU inhibition. These cultures also had little or no dark nitrogenase activities. The photosynthesis inhibitor DBMIB was not a specific inhibitor of light-driven electron transport since it inhibited both light and dark nitrogenase activities. Nitrogenase activities induced under oxygen-free/CO2 gas mixtures initially were significantly more sensitive to oxygen inhibition than those induced under air/CO2. We discuss these results in relation to heterocyst function.

Type of Medium: Electronic Resource

URL: http://dx.doi.org/10.1007/BF00424941

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Photoproduction of ammonium ion from N2 inRhodospirillum rubrum (1976)

Weare, N. M. ; Shanmugam, K. T.

Springer

Archives of microbiology 110 (1976), S. 207-213

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ISSN: 1432-072X

Keywords: Nitrogen fixation ; NH 4 + excretion ; Photosynthesis ; Rhodospirillum rubrum ; Photosynthetic bacteria ; Enzymes of ammonia assimilation

Source: Springer Online Journal Archives 1860-2000

Topics: Biology

Notes: Abstract NH 4 + excretion was undetectable in N2-fixing cultures ofRhodospirillum rubrum (S-1) and nitrogenase activity in these cultures was repressed by the addition of 10 mM NH 4 + to the medium. The glutamate analog,l-methionine-dl-sulfoximine (MSX), derepressed N2 fixation even in the presence of 10 mM extracellular NH 4 + . When 10 mg MSX/ml was added to cultures just prior to nitrogenase induction they developed nitrogenase activity (20% of the control activities) and excreted most of their fixed N2 as NH 4 + . Nitrogenase activities and NH 4 + production from fixed N2 were increased considerably when a combined nitrogen source, NH 4 + (〉40 μmoles NH 4 + /mg cell protein in 6 days) orl-glutamate (〉60 μmoles NH 4 + /mg cell protein in 6 days) was added to the cultures together with MSX. Biochemical analysis revealed thatR. rubrum produced glutamine synthetase and glutamate synthase (NADP-dependent) but no detectable NADP-dependent glutamate dehydrogenase. The specific activity of glutamine synthetase was observed to be maximal when nitrogenase activity was also maximal. Nitrogenase and glutamine synthetase activities were repressed by NH 4 + as well as by glutamate. The results demonstrate that utilization of solar energy to photoproduce large quantities of NH 4 + from N2 is possible with photosynthetic bacteria by interfering with their regulatory control of N2 fixation.

Type of Medium: Electronic Resource

URL: http://dx.doi.org/10.1007/BF00690229

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Nitrogen fixation by Anabaena cylindrica (1974)

Benemann, J. R. ; Weare, N. M.

Springer

Archives of microbiology 101 (1974), S. 401-408

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ISSN: 1432-072X

Keywords: Hydrogenase ; Nitrogen Fixation ; Blue-Green Algae ; Heterocysts ; Electron Transport

Source: Springer Online Journal Archives 1860-2000

Topics: Biology

Notes: Abstract Hydrogen-supported nitrogenase activity was demonstrated in Anabaena cylindrica cultures limited for reductant. Nitrogen-fixing Anabaena cylindrica cultures sparged in the light with anaerobic gases in the presence of the photosynthesis inhibitor DCMU slowly lost their ability to reduce acetylene in the light under argon but exhibited near normal activities in the presence of 11% H2 (balance argon). The hydrogen-supported nitrogenase activity was half-saturated between 2 and 3% H2 and was strongly inhibited by oxygen (50% inhibition at about 5–6% O2). Batch cultures of Anabaena cylindrica approaching stationary growth phase (“old” cultures) lost nitrogenase-dependent hydrogen evolution almost completely. In these old cultures hydrogen relieved the inhibitory effects of DCMU and O2 on acetylene reduction. Our results suggest that heterocysts contain an uptake hydrogenase which supplies an electron transport chain to nitrogenase but which couples only poorly with the respiratory chain in heterocysts and does not function in CO2 fixation by vegetative cells.

Type of Medium: Electronic Resource

URL: http://dx.doi.org/10.1007/BF00455956

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