Anabaena cylindrica

Anabaena azollae Anabaena cylindrica Anabaena flos-aquae 0-anabasine [494-52-0] Anabasine [494-52-0] Anabolic steroids Anaerobic digestion Anaerobic treatment Anafranil... [Pg.54]

K. Miyamoto PC. Hallenbeck, JR. Benemann (1979) Solar energy conversion by nitrogen-limited cultures of Anabaena cylindrica. J. Ferment. Technol., 57 287-293... [Pg.69]

G. D. Smith, G. R. Lambert (1981) An outdoor biophotolytic system using the cyanobacterium Anabaena cylindrica B629. Biotechnol. Bioeng., 23 213-220... [Pg.69]

J. C. Weissman, J. R. Benemann (1977) Hydrogen production by nitrogen starved cultures of Anabaena cylindrica. Appl. Environ. Microbiol., 33 123-131... [Pg.71]

Hydroxamates have been observed in the water in the Bay of Quinte, a eutrophic bay of Lake Ontario, and are believed to be produced by blue-green algae (76). Simpson and Neilands (77) have identified schizokinen, a hydroxamic acid derivative of citric acid as an extracellular product of the blue-green algae, Anabaena sp. However, not all Anabaena produce hydroxamates, Walsby (78) has shown that Anabaena cylindrica releases a large pigmented, peptide-containing material which complexes iron. As yet these peptides have not been examined for ability to complex the actinides. [Pg.59]

Anabaena cylindrica sp. PCC7I20 [NiFe] hydrogenase Putative membrane- bound cytochrome b reducing H2 recycling during N2 fixation O2, nitrogen limitation, heterocyst formation 2... [Pg.52]

Carrasco, C. D. and Golden, J. W. (1995) Two heterocyst-specific DNA rearrangements of nif operons in Anabaena cylindrica and Nostoc sp. strain Mac. Microbiology, 141, 2479-87. [Pg.259]

Benemann, J.R., Weare, N.M. 1974. Hydrogen evolution by nitrogen-fixing. Anabaena cylindrica cultures. Science 184 174-175. [Pg.215]

X-ray microanalysis of thin cryosections of Anabaena cylindrica showed that aluminium was rapidly taken up and accumulated in PolyP granules (Pettersson et al., 1985). In addition, aluminium was found in the cell walls but could not be detected in the cytoplasm. The concentration of phosphorus in the medium affected the accumulation pattern. More aluminium was bound with PolyP granules and with the cell walls after growth in a Pj-rich medium. [Pg.139]

A. Pettersson, L. Kunst, B. Bergman and G. M. Roomans (1985). Accumulation of alumunium by Anabaena cylindrica into polyphosphate granules and cell walls an X-ray energy disperse microanalysis study. J. Gen. Microbiol., 131, 2545-2548. [Pg.249]

Gabon,. R., Pederson, D. M., and Smith, G. D. (1993). The effect of temperature on the sensitivity of nitrogenase to oxygen in the cyanobacteria Anabaena cylindrica (Lemmertnann) and Gloeothece... [Pg.1559]

Beaumont V. I., Jahnke L. L., and Des Marais D. J. (2000) Nitrogen isotopic fractionation in the synthesis of photosynthetic pigments in Rhodobacter capsulatus and Anabaena cylindrica. Org. Geochem. 31(11), 1075-1085. [Pg.4076]

Nitrogen-fixing, heterocystous cyanobacteria such as Anabaena cylindrica can also liberate hydrogen and oxygen simultaneously under anaerobic, nitrogen-deficient conditions (Benemann and Weare, 1974). A. cylindrica does... [Pg.468]

Strains studied were as follows Anabaena sp. PCC7120, Anabaena cylindrica IAM M-l, Anabaena variabilis IAM M-58, Anabaenopsis circularis IAM M-4, Nostoc muscorum IAM M-14, Nostoc linckia IAM M-30, Nostoc commune IAM M-13, Nostoc carneum IAM M-35, Cylindrospermum muscicola IAM M-32, Anabaena cylindrica UTEX B 629, Anabaena flos-aquae UTEX 1444, and Anabaena flos-aquae UTEX LB 2558. Anabaena sp. PCC7120 was kindly donated by Dr. Ohmori of the University of Tokyo. UTEX and IAM strains were obtained from the Culture Collection of Algae at the University of Texas and the Institute of Applied Microbiology, University of Tokyo, respectively. [Pg.63]

Anabaena cylindrica P16421 383 aa (41.1 kDa) tritium exchange 42 kDa subunit Ewart et al., 1990... [Pg.156]

Ewart, G.D., Reed, K.C. and Smith, G.D. (1990). Soluble hydrogenase of Anabaena cylindrica. Cloning and sequencing of a potential gene encoding the tritium exchange subunit. Eur. J. Biochem. 187,215-223. [Pg.163]

Hallenbeck, P.C. and Benemann, J.R. (1978). Characterization and partial purification of the reversible hydrogenase of Anabaena cylindrica. FEBS Lett. 94 261-264. [Pg.164]

Allen, M. B., Amon, D. I. (1955). Studies on nitrogen-fixing blue-green algae. 1. Growth and nitrogen fixation by Anabaena cylindrica Lemm. Plant Physiol. 30, 366-372. [Pg.227]

Isomeric siderophores from the freshwater cyanobacterium Anabaena cylindrica. Itou et al reported the structural characterization of a pair of iron chelating siderophores isolated from the freshwater cyanobacterium Anabaena cylindrica. Both direct and long-range HSQC and HMBC data were used in the characterization of the structures. [Pg.41]

Simon, R.D. (1973) The effect of chloramphenicol on the production of cyanophycin granule polypeptide in the blue-green alga Anabaena cylindrica. Arch. Mikrobiol., 92,115-122. [Pg.269]

Simon, R.D., Lawry, N.H., and Me Lendon, G.L. (1980) Structural characterization of the cyanophydn granule polypeptide of Anabaena cylindrica by circular dichroism and Raman spectroscopy. Biochim. Biophys. Acta, 626, 277-281. [Pg.273]

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