Bacteria Arthrobacter

The decrease of peak numbers was observed, when the spectra of the same amounts of fresh (12 weeks old) and aged (9 months old) mortars were compared. This decrease might be caused by activity of ubiquitous microorganisms that live on the mortar surfaces in biofilms. Especially in mild climate conditions, algae and cyanobacteria [35] can appear here moulds (Aspergillus, Penicillium, Fusarium, Mucor) [36] and bacteria (Arthrobacter Bacillus, Micrococcus, Staphylococcus) [37,38] have been discovered as well. The microorganisms secrete various hydrolytic enzymes that can decompose the organic additives, namely proteins, and make their sample identification less sensitive... 

Bacteria Arthrobacter Bacteria Decomposer Pw, particle Metabolism... 

Cultures of bacteria Arthrobacter s. ) and fungi Fusarium oxysporm) have been shown to aerobically degrade C-DMSD with release of 002. Lehmann et studied the fate of DMSD in a grass and soil system and... 

Isolating Flavobacterium sp. with exceptionally high ability to metabolize diazinon as sole carbon source and other bacteria (Arthrobacter sp. and Corynebacterium sp.), which could degrade diazinon only in the presence of additional carbon source, provides strong evidence that microbes rapidly inactivate diazinon in the rice field. 

Sphaerotilus Manganese-oxidizing bacteria Arthrobacter, Bacillus, Leptothrix, Metallogenium, Mn(II) MnCOj Oxygen... 

Figure 3. Effects on Fe isotope compositions of partial dissolution of hornblende in the presence of various organic ligands, as well as Streptomyces and Arthrobacter bacteria (identification of Arthrobacter sp. has been revised to Bacillus sp. S. Brantley, pers. commun. 2004). For abiotic experiments, Fe isotope data are plotted relative to the association constant for the indicated ligands. Fe isotope composition of...

Carvone is a chemical component of the spearmint plant that has been shown to enhance the growth and ability of Arthrobacter bacteria to degrade polychlorinated biphenyl (PCB). Until this discovery the only known method of strmnlating the bioremediation of PCBs was addition of biphenyl to the soil however, biphenyl is itself a toxic snbstance. 

In surface smear-ripened cheeses, e.g. Munster, Limburger, Tilsit, Trapist, the surface of the cheese is colonized first by yeasts which catabolize lactic acid, causing the pH to increase, and then by Brevibacterium linens, the characteristic micro-organism of the surface smear but which does not grow below pH 5.8, and various other micro-organisms, including Micrococcus, Arthrobacter and coryneform bacteria. 

The approach of Casiot et al. [21] was soon accepted and followed in the held of Se speciation. Wrobel et al. [91] applied a bacterium (Arthrobacter luteus) derived lysing enzyme mixture added with PMSF to study the intermediary molecules of Se metabolism of Se-enriched yeast without proteolysis. In order to tailor the cell wall degrading mechanism to the samples under test, Michalke et al. [77] used bacterial lisozyme and pronase E, either alone or in combination, for the Se speciation of Se-enriched lactic acid bacteria. Independent and simultaneous experiments were carried out with the two enzymes, thus achieving outstanding total Se-extraction efficiency (85-105 percent) with the sole application of pronase E and relatively low chromatographic recovery (8-12 percent) (still... 

Bacteria reported to metabolize PAHs include species of Acido-vorax, Acinetobacter, Actinomyces, Aeromonas, Agrobacterium, Alcaligenes, Arthrobacter, Aureobacterium, Bacillus, Brevibacterium, Burkholderia, Chryseobacterium, Comamonas, Corynebacterium, Cycloclasticus,... 

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