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11.
The benthic cyanobacterium Fischerella muscicola (Thur.) Gom. UTEX 1829 produces a secondary metabolite, fischerellin, that strongly inhibits other cyanobacteria and to a lesser extent members of the Chlorophyceae. Eubacteria are not affected. The major active compound is lipophilic and exhibits a molecular ion at m/z 408. It is heat- and acid-stable but decomposes in 1 M sodium hydroxide (80° C. 1 h). Fischerellin inhibits the photosynthetic but not the respiratory electron transport of cyanobacteria and chlorophytes. Its site of action is located in PS II. Two other species of Fischerella also produce fischerellin, indicating that the synthesis of such allelochemicals might be characteristic of the genus. 相似文献
12.
Volume 61, no. 1, p. 234: the corresponding author footnote should read as follows: * Corresponding author. Present address: Center for Risk Management, Oak Ridge National Laboratory, Oak Ridge, TN 37830. Phone: (615) 241-6013. Fax: (615) 574-9887. [This corrects the article on p. 234 in vol. 61.]. 相似文献
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Antisera were prepared to epiblast, primary hypoblast, yolk, yolk entoderm, and extraembryonic yolk sac ectoderm and were submitted to various absorption procedures. The absorbed antisera were used in the indirect immunofluorescent method to stain microscopic sections of developing chick blastoderms at different developmental stages. The antigens revealed by the staining at the periods studied were divided into groups of persistent, nonspecific, and specific antigens. The epiblast does not appear to form or include specific antigens until stage XIII (full hypoblast). The primary hypoblast is the layer which during its formation acquires specificity by the inclusion of antigenic components through a cytoplasmic segregation and probably by one or two waves of appearance of primary hypoblast specific antigens. The inductive role of the hypoblast is discussed in relation to the above antigenic manifestations. The anti-hypoblast and anti-epiblast sera after absorption with yolk were found to be suitable reagents for the detection of morphogenetic movements. 相似文献
15.
Isolation and preliminary characterization of auxotrophs of a filamentous Cyanobacterium. 总被引:8,自引:3,他引:5
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Auxotrophic mutants of the filamentous cyanobacterium Anabaena variabilis were isolated by a method in which, after mutagenesis and before penicllin enrichment, mutant and wild-type cells were separated by cavitation. Auxotrophs were identified by their inability to grow on minimal medium, and they were partially characterized by replica plating to media supplemented with single nutrients or specific groups of nutrients. Of the 83 auxotrophs isolated, 65 required an inorganic source of nitrogen for growth. In addition, auxotrophs were isolated that required methionine (six), uracil (two), adenine (one), biotin (two), and nicotinic acid (two). (The number of isolates of each type is indicated in parentheses.) The nutrient requirements of five auxotrophs appeared complex and were not determined. A large proportion of the mutants requiring inorgainic fixed nitrogen was altered in the differentiation of heterocysts. The following morphological aberrancies were observed: abnormally high and abnormally low frequencies of heterocysts; thick, uneven heterocyst envelopes; incompletely developed pore regions; very distinct pore regions; and protoplasts separated from the envelope of the heterocyst. Spontaneously occurring, N2-fixing, prototrophic revertants of mutants with aberrant heterocysts have been isolated at a frequency of 2 X 10(-8) to 4 X 10(-8) of the cells plated. That most such revertants produced morphologically normal heterocysts is consisten with the idea that heterocysts play an essential role in aerobic N2 fixation. 相似文献
16.
J C Meeks C P Wolk J Thomas W Lockau P W Shaffer S M Austin W S Chien A Galonsky 《The Journal of biological chemistry》1977,252(21):7894-7900
The principal initial product of metabolism of 13N-labeled ammonium by Anabaena cylindrica grown with either NH4+ or N2 as nitrogen source is amide-labeled glutamine. The specific activity of glutamine synthetase is approximately half as great in NH4+-grown as in N2-grown filaments. After 1.5 min of exposure to 13NH4+, the ratio of 13N in glutamate to 13N in glutamine reaches a value of approximately 0.1 for N2- and 0.15 for NH4+-grown filaments, whereas after the same period of exposure to [13N]N2, that ratio has reached a value close to unity and is rising rapidly. During pulse-chase experiments, 13N is transferred from the amide group to glutamine into glutamate, and then apparently into the alpha-amino group of glutamine. Methionine sulfoximine, an inhibitor of glutamine synthetase, inhibits the formation of glutamine. In the presence of the inhibitor, direct formation of glutamate takes place, but accounts for only a few per cent of the normal rate of formation of that amino acid; and alanine is formed about as rapidly as glutamate. Azaserine reduces formation of [13N]glutamate approximately 100-fold, with relatively little effect on the formation of [13N]glutamine. Aminooxyacetate, an inhibitor of transaminase reactions blocks transfer of 13N to aspartate, citrulline, and arginine. We conclude, on the basis of these results and others in the literature, that the glutamine synthetase/glutamate synthase pathway mediates most of the initial metabolism of ammonium in A. cylindrica, and that glutamic acid dehydrogenase and alanine dehydrogenase have only a very minor role. 相似文献
17.
DM Woolley 《The Journal of cell biology》1977,75(3):851-865
Motile spermatozoa from the golden hamster have been arrested by rapid freezing and then fixed with glutaraldehyde at low temperature after substitution with ethylene glycol. As far as can be judged, the flagellar waveforms thus stabilized are similar to those seen in living sperm; in contrast, fixation in glutaraldehyde, without prior freezing, induces agonal changes in flagellar conformation. The characteristics waveform after freeze substitution contains three bends. Approx. half of these flagella are entirely planar. The rest are three dimensional, with the third bend displaced in a regular way from the plane containing the proximal two bends. From the geometry of these flagella, it is concluded that the plane of action of a given bending cycle undergoes a clockwise twist (from a forward viewpoint) as the cycle is succeeded by new bending cycles. This "twisted plane" undulation is quite different from helical movement. The twisting seems to occur abruptly, between cycles, as if each bending cycle has a preferred plane of action. The mechanism underlying the twisting is uncertain. However, on the basis of the angular displacements between the preferred planes, and the findings from electron microscopy, the following idea is presented as a working hypothesis: that, if the most proximal plane of bending is topographically determined by peripheral doublet 1, then successive distal planes of action are influenced predominantly by doublets 2, 3, etc., in clockwise sequence. The merits and weaknesses of this hypothesis are discussed. 相似文献
18.
Occurrence and localization of an uptake hydrogenase were examined in three strains of the blue-green alga, Anabaena. In vivo H2 uptake was detected (0.60-1.44 μmoles/[mg of chlorophyll a per hour]) in all three strains when grown with N2 as the sole source of nitrogen. H2 uptake (in vivo and in vitro) was severely suppressed in cultures grown on NH4+ and lacking heterocysts. H2 uptake in cell-free extracts could be readily measured with a methyl viologen-ferricyanide electron acceptor system. Solubilization kinetics during cavitation of aerobically grown Anabaena 7120 indicates that the uptake hydrogenase is localized solely in the heterocyst. When the same organism is grown on N2/CO2, vegetative cells may account for up to 21% of the total hydrogenase activity in the filaments. The results are discussed in terms of a proposed functional relationship between nitrogenase and hydrogenase. 相似文献
19.
Initial organic products of assimilation of [N]ammonium and [N]nitrate by tobacco cells cultured on different sources of nitrogen
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Glutamine is the first major organic product of assimilation of 13NH4+ by tobacco (Nicotiana tabacum L. cv. Xanthi) cells cultured on nitrate, urea, or ammonium succinate as the sole source of nitrogen, and of 13NO3− by tobacco cells cultured on nitrate. The percentage of organic 13N in glutamate, and subsequently, alanine, increases with increasing periods of assimilation. 13NO3−, used for the first time in a study of assimilation of nitrogen, was purified by new preparative techniques. During pulse-chase experiments, there is a decrease in the percentage of 13N in glutamine, and a concomitant increase in the percentage of 13N in glutamate and alanine. Methionine sulfoximine inhibits the incorporation of 13N from 13NH4+ into glutamine more extensively than it inhibits the incorporation of 13N into glutamate, with cells grown on any of the three sources of nitrogen. Azaserine inhibits glutamate synthesis extensively when 13NH4+ is fed to cells cultured on nitrate. These results indicate that the major route for assimilation of 13NH4+ is the glutamine synthetase-glutamate synthase pathway, and that glutamate dehydrogenase also plays a role, but a minor one. Methionine sulfoximine inhibits the incorporation of 13N from 13NO3− into glutamate more strongly than it inhibits the incorporation of 13N into glutamine, suggesting that the assimilation of 13NH4+ derived from 13NO3− may be mediated solely by the glutamine synthetase-glutamate synthase pathway. 相似文献
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