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Bacteria coats

Resmi et al. [59] used laterite stones for the immobilization of Pseudomonas putida (MTCC 1194). The amount of bacterial biomass attached to the support was 8.64 g/100 g of stones on dry weight basis. Packed bed reactor was used for treating mixture of seven azo dyes. With the help of immobilized bacterial strain, dye mixture was degraded to nontoxic smaller molecules. It was reported that even after 2 months, bacteria-coated pebbles were stable and suitable for the aerobic degradation of azo dyes. With the help of TLC and HPLC, 61.7% degradation was reported at the concentration of 50 pg/mL of dye. [Pg.80]

Resmi CS, Shaffiqu TS, Roy JJ et al (2008) Aerobic degradation of a mixture of azo dyes in a packed bed reactor having bacteria coated laterite pebbles. Biotechnol Prog 19 647-651... [Pg.84]

A method to detect upper UTI is the antibody-coated bacteria test, an immunofluorescent method that detects bacteria coated with immunoglobulin in freshly voided urine. [Pg.559]

Certain bacteria are selected based on their ability to attach to specific metals. These bacteria are then grown in a nutrient broth and then placed in contact with a porous synthetic fiber such as Dacron , Orion , or Tyvek fiber. Wastewater is then brought into contact with these bacteria-coated fibers, and specific metals in the wastewater attached to the bacteria on the fibers. The metals are removed from the fibers through washing, burning, contact with sodium carbonate, or by some means. [Pg.468]

The only illumination comes from the green and red lights emitted by the bioluminescent bacteria coating the trees. It reminds you of Christmas. [Pg.96]

However, the colloid probe technique is not limited to particles. For biological studies, strategies to attach single spores [264], bacteria-coated beads [265], or single cells [266, 267] have been developed. To study forces in emulsions [268] or flotation cells such as oil drops [269, 270, 696] and bubbles have been attached to cantilevers [271]. [Pg.73]

Ent. cloacae P99-Enteric bacteria Enteric coatings Enteritis Enterobacter... [Pg.363]

Molybdenum, recognized as an essential trace element for plants, animals, and most bacteria, is present in a variety of metaHo enzymes (44—46). Indeed, the absence of Mo, and in particular its co-factor, in humans leads to severe debility or early death (47,48). Molybdenum in the diet has been impHcated as having a role in lowering the incidence of dental caries and in the prevention of certain cancers (49,50). To aid the growth of plants. Mo has been used as a fertilizer and as a coating for legume seeds (51,52) (see FERTILIZERS Mineral NUTRIENTS). [Pg.475]

Tuberculocidal Test. The tubercle bacillus is resistant to disinfectants because the cells are protected with a waxy coating that is not readily penetrated. The tuberculocidal test is a use dilution practical type test that employs porcelain cylinders. The bacteria are different from those in the use dilution method (Table 10), the incubation time is longer, and the details of the procedure are different. For example, in the tuberculocidal test the test is divided into two parts, a presumptive test and a confirmatory test. The former employs Mycobacterium smegmatis and the latter employs Mycobacterium bovis (BCG). For the presumptive test the incubation time is 12 days, as against 48 hours for other bacteria used in the use-dilution method. For the confirmatory test the incubation time is 60 days, with an additional 30 days in case there is no growth. As shown in Table 10, the concentrations of the phenol standard are higher than used with other bacteria. [Pg.139]

Figure 6.9 Irregular deposit and corrosion-product mounds containing concentrations of sulfate-reducing bacteria on the internal surface of a 316 stainless steel transfer line carrying a starch-clay mixture used to coat paper material. Attack only occurred along incompletely closed weld seams, with many perforations. Note the heat tint, partially obscured by the deposit mounds, along the circumferential weld. Figure 6.9 Irregular deposit and corrosion-product mounds containing concentrations of sulfate-reducing bacteria on the internal surface of a 316 stainless steel transfer line carrying a starch-clay mixture used to coat paper material. Attack only occurred along incompletely closed weld seams, with many perforations. Note the heat tint, partially obscured by the deposit mounds, along the circumferential weld.
Biocorrosion of stainless steel is caused by exopolymer-producing bacteria. It can be shown that Fe is accumulated in the biofilm [2.62]. The effect of bacteria on the corrosion behavior of the Mo metal surface has also been investigated by XPS [2.63]. These last two investigations indicate a new field of research in which XPS can be employed successfully. XPS has also been used to study the corrosion of glasses [2.64], of polymer coatings on steel [2.65], of tooth-filling materials [2.66], and to investigate the role of surface hydroxyls of oxide films on metal [2.67] or other passive films. [Pg.26]

As shown in Figure 9.24, the outer membrane of Gram-negative bacteria is coated with a highly complex lipopolysaccharide, which consists of a lipid group (anchored in the outer membrane) joined to a polysaccharide made up of long chains with many different and characteristic repeating structures... [Pg.281]

FIGURE 9,24 Lipopolysaccharide (LPS) coats the outer membrane of Gram-uegative > bacteria. The lipid portion of the LPS is embedded iu the outer membrane and is linked to a complex polysaccharide. [Pg.281]

Light, sandy, well-drained soil of high electrical resistivity is low in corrosivity and coated steel or bare stainless steels can be employed. It is unlikely that the whole pipe run would be in the same type of soil. In heavier or damp soils, or where the quality of back filling cannot be guaranteed, there are two major corrosion risks. Steel, copper alloys and most stainless steels are susceptible to sulfide attack brought about by the action of sulfate-reducing bacteria in the soil. SRB are ubiquitous but thrive particularly well in the anaerobic conditions which persist in compacted soil, especially clay. The mechanism of corrosion where SRB are involved is described in Section... [Pg.903]

General corrosion damage was the cause of failure of an A1 alloy welded pipe assembly in an aircraft bowser which was attacked by a deicing-fluid — water mixture at small weld defects . Selective attack has been reported in welded cupro-nickel subjected to estuarine and seawater environments . It was the consequence of the combination of alloy element segregation in the weld metal and the action of sulphate reducing bacteria (SRB). Sulphide-coated Cu-enriched areas were cathodic relative to the adjacent Ni-rich areas where, in the latter, the sulphides were being continuously removed by the turbulence. Sulphite ions seemed to act as a mild inhibitor. [Pg.101]

To protect buried metals from premature breakdown it must suffice to say that protective coatings and other methods must be applied against factors such as the effects of galvanic currents, composition of the moisture in the ground, humus acids, bacteria, etc. (See Section 14.8.)... [Pg.617]

Resistance to bacteria. The coating must be resistant to the action of soil bacteria. [Pg.659]

A bacteriophage (or phage) is a vims, made up of aDNA or RNA core and a protein coat that may infect bacteria. [Pg.248]

The principal agents of tooth decay are the carboxylic acids produced when bacteria act on the remains of food. A more resistant coating forms when the OH ions in the apatite are replaced by F ions. The resulting mineral is called fluorapatite ... [Pg.717]

Normal circulating levels of tPA are low, so that to accomplish this dramatic clot breakdown one would need the amount of tPA contained in 50,000 liters of blood. This is clearly not practical. Instead, the molecule has been cloned and expressed in mammalian cells so that it can be produced in quantity. Using cells from mammals, rather than bacteria, results in a product molecule that has the same folding, internal bonding, and coat of sugar residues as the natural protein. [Pg.34]


See other pages where Bacteria coats is mentioned: [Pg.230]    [Pg.586]    [Pg.2085]    [Pg.235]    [Pg.321]    [Pg.227]    [Pg.166]    [Pg.230]    [Pg.586]    [Pg.2085]    [Pg.235]    [Pg.321]    [Pg.227]    [Pg.166]    [Pg.174]    [Pg.458]    [Pg.410]    [Pg.367]    [Pg.27]    [Pg.226]    [Pg.2145]    [Pg.205]    [Pg.360]    [Pg.526]    [Pg.47]    [Pg.30]    [Pg.307]    [Pg.409]    [Pg.385]    [Pg.395]    [Pg.665]    [Pg.665]    [Pg.177]    [Pg.602]    [Pg.96]    [Pg.284]   
See also in sourсe #XX -- [ Pg.431 ]

See also in sourсe #XX -- [ Pg.431 ]

See also in sourсe #XX -- [ Pg.431 ]

See also in sourсe #XX -- [ Pg.431 ]




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