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Literature DB >> 16562002

Carbon and Energy Sources for the Nitrifying Autotroph Nitrobacter.

Abstract

Delwiche, C. C. (University of California, Davis), and M. S. Finstein. Carbon and energy sources for the nitrifying autotroph Nitrobacter. J. Bacteriol. 90:102-107. 1965.-The effect of various organic compounds on the growth and metabolism of the obligatively autotrophic nitrifying organism Nitrobacter was studied. A slight stimulation of both nitrification and growth was obtainable with a number of organic amendments, including yeast extract, Vitamin Free Casamino Acids, and some amino acids. Depending upon culture conditions, a strong stimulation of growth was obtained with acetate as an amendment to the culture solution. Several compounds, including valine, hydroxyproline, and threonine, were inhibitory at concentrations of 10(-3)m. The incorporation of carbon from isotopically labeled organic compounds was demonstrated. Acetate and glycine were particularly strong contributors to cell carbons. These could not substitute for carbon dioxide as a sole carbon source for growth, however, nor could any other of the carbon compounds that were tried.

Entities: Chemical Species

Year: 1965 PMID： 16562002 PMCID： PMC315599 DOI： 10.1128/jb.90.1.102-107.1965

Source DB: PubMed Journal: J Bacteriol ISSN： 0021-9193 Impact factor: 3.490

8 in total

5. Biochemistry of nitrification in soil: 1. Kinetics of, and the effects of poisons on, soil nitrification, as studied by a soil perfusion technique. (with an Addendum by H. Lees).

Authors: H Lees; J H Quastel
Journal: Biochem J Date: 1946 Impact factor: 3.857

25 in total

7. Absorption and utilization of organic matter by the strict autotroph, Thiobacillus thiooxidans, with special reference to aspartic acid.

Authors: R G Butler; W W Umbreit
Journal: J Bacteriol Date: 1966-02 Impact factor: 3.490

Carbon and Energy Sources for the Nitrifying Autotroph Nitrobacter.

1. SOME ORGANIC TRANSFORMATION EFFECTED BY CELL-FREE PREPARATIONS OF NITROSOMONAS.

2. Cell-free nitrification by Nitrobacter.

3. The biochemistry of the nitrifying organisms. I. The ammonia oxidizing systems of Nitrosomonas.

4. Permeability of Nitrobacter agilis to Organic Compounds.

5. Biochemistry of nitrification in soil: 1. Kinetics of, and the effects of poisons on, soil nitrification, as studied by a soil perfusion technique. (with an Addendum by H. Lees).

6. Biochemistry of nitrification in soil: 3. Nitrification of various organic nitrogen compounds.

7. Formate odixation by cell-free preparations from Nitrobacter agilis.

8. MOLYBDENUM AS A MICRONUTRIENT FOR NITROBACTER.

1. Permeability of Nitrobacter agilis to Organic Compounds.

2. Enumeration of Autotrophic Ammonium-oxidizing Bacteria in Marine Waters by a Direct Method.

3. Growth of nitrobacter in the presence of organic matter. II. Chemoorganotrophic growth of Nitrobacter agilis.

Review 4. Specialist phototrophs, lithotrophs, and methylotrophs: a unity among a diversity of procaryotes?

5. Biochemical basis of obligate autotrophy in blue-green algae and thiobacilli.

6. Intermediary metabolism of carbon compounds by nitrifying bacteria.

7. Absorption and utilization of organic matter by the strict autotroph, Thiobacillus thiooxidans, with special reference to aspartic acid.

8. Growth of Nitrobacter in the presence of organic matter. I. Mixotrophic growth.

9. Effect of mixed culture on Nitrosomonas europaea simulated by uptake and utilization of pyruvate.

10. Autotrophy in Nitrosocystis oceanus.