What's the difference between bacteria and denitrification?

Bacteria


Definition:

  • (n.p.) See Bacterium.
  • (pl. ) of Bacterium

Example Sentences:

  • (1) In addition to oncogenes, the transferred DNA contains genes that direct the synthesis and exudation of opines, which are used as nutrients by the bacteria.
  • (2) The pH gradient measured with dimethyloxazolidine-2,4-dione and acetylsalicylic acid was very small in both bacteria at a high pH above 8, and was not affected significantly by the addition of CCCP.
  • (3) The causative organisms included viruses, fungi, and bacteria of both high and low pathogenicity.
  • (4) Anaerobes, in particular Bacteroides spp., are the predominant bacteria present in mixed intra-abdominal infections, yet their critical importance in the pathogenicity of these infections is not clearly defined.
  • (5) During the digestion of these radiolabeled bacteria, murine bone marrow macrophages produced low-molecular-weight substances that coeluted chromatographically with the radioactive cell wall marker.
  • (6) The authors conclude that H. pylori alone causes little or no effect on an intact gastric mucosa in the rat, that either intact organisms or bacteria-free filtrates cause similar prolongation and delayed healing of pre-existing ulcers with active chronic inflammation, and that the presence of predisposing factors leading to disruption of gastric mucosal integrity may be required for the H. pylori enhancement of inflammation and tissue damage in the stomach.
  • (7) Thirty-two strains of pectin-fermenting rumen bacteria were isolated from bovine rumen contents in a rumen fluid medium which contained pectin as the only added energy source.
  • (8) This capacity is expressed during incubation of the bacteria with the substrate and needs a source of carbon and other energy metabolites.
  • (9) Preincubation of the bacteria at 56 degrees C for 30 minutes and ultraviolet irradiation resulted in a noticeable decrease in adherence.
  • (10) An sdh-specific transcript of about 3,450 nucleotides was detected in vegetative bacteria.
  • (11) The authors present the first results on the utilization of fish infusion (IFP) as a basic medium for the cultivation of bacteria.
  • (12) Phospholipid changes occurring at later stages in the lytic cycle of infected bacteria are more prominent than those at earlier time intervals.
  • (13) The most commonly encountered organisms were aerobic bacteria (91%), anaerobes (74%), and fungi (48%).
  • (14) Resistance to antibiotics have been detected in food poisoning bacteria, namely Salmonella typhimurium, Staphylococcus aureus and Clostridium perfringens.
  • (15) Bacteria can stop or lessen antibodies synthesis process.
  • (16) Among the agents triggering such an infection Chlamydia (30.9% of the cases of non-gonorrhoic urethritis), as well as mycoplasma, ureaplasma, anaerobic bacteria and herpes simplex viruses have gained particular significance.
  • (17) Mu does not grow lytically in or kill him bacteria but can lysogenize such hosts.
  • (18) Tunnel-like formations at different depths of the oral epithelium contained higher numbers of bacteria than those seen on the adjacent oral surface.
  • (19) The cells were taken from cultures in low-density balanced exponential growth, and the experiments were performed quickly so that the bacteria were in a uniform physiological state at the time of measurement.
  • (20) Subgingival plaque was sampled and the presence or absence of the above mentioned bacteria assessed with BANA reagent cards (Perio Scan).

Denitrification


Definition:

  • (n.) The act or process of freeing from nitrogen; also, the condition resulting from the removal of nitrogen.

Example Sentences:

  • (1) Hb was added to an anaerobic bacterial suspension and denitrification was initiated with either KNO2 or KNO3.
  • (2) A spectrophotometric method has been developed that uses extracellular hemoglobin (Hb) to trap nitric oxide (NO) released during denitrification as nitrosyl hemoglobin (HbNO).
  • (3) When [15]nitrite was used as substrate for the N2-forming denitrification, 15N2O, 15NO, and 14N15N were obtained as the products.
  • (4) Simultaneous processes of nitrification and denitrification were observed in optimal aerated manure similar to activated sludge processes.
  • (5) In faecal slurries, however, denitrification was a relatively minor route of NO3- dissimilation, since only about 3% of the NO3- was converted to gaseous products, with NO3- being mainly reduced to NO2- and NH4+.
  • (6) Conversely, energy was conserved when either nitrate, nitrite or nitrous oxide functioned as the oxidants during denitrification-dependent proton translocation experiments.
  • (7) A highly sensitive denitrification bioassay was developed for detection of NO3- and NO2- in rhizosphere soil samples.
  • (8) The kinetics of each step of denitrification was examined in resting cell suspensions.
  • (9) Effects of illumination on denitrification varied with electron donors.
  • (10) Effects of various inhibitors on denitrification were examined in light-succinate and dark-lactate systems.
  • (11) The regulation of nitrate respiration at the level of transport by oxygen may represent a major mechanism by which the entire denitrification pathway is regulated in P. aeruginosa.
  • (12) Mineralization of the labile fraction of the soil organic carbon via microbial denitrification occurred without an observed acclimation period and was rapid compared with PAH degradation.
  • (13) Denitrification by two of the strains was quantitatively studied using cell suspensions.
  • (14) Comparison of the cell growth during denitrification indicated that the dissimilatory reduction of nitrate to nitrite is an energetically favorable process in F. oxysporum; however, further reduction of nitrite to N2O might be energy-exhausting and may function as a detoxification mechanism.
  • (15) The yields varied with sparging rates in agreement with a quantitative model of denitrification (Betlach, M. P., and Tiedje, J.M.
  • (16) Effects of illumination on the denitrification of nitrite were similar to those involving nitrate.
  • (17) Our observations provide evidence for a denitrification pathway in vivo of NO2(-)----NO----N2O, and N,N-bond formation catalyzed by NO reductase and not by cytochrome cd1.
  • (18) One of the reasons for this change is the process of denitrification due to changes in the hydrogeochemical conditions in a layer.
  • (19) The bulk of the denitrification activity was associated with the accumulation of NO3- in the oxidized surface zone of the sediment, but a secondary denitrification zone was occasionally found in the deeper layers where oxidized patches had been introduced by the burrowing activity of the macrofauna.
  • (20) Reports of the simultaneous use of oxygen and denitrification by different species of bacteria have become more common over the past few years.