Organ increase

The viscosity of the organic increases sharply particularly from 70-100% conversion. 

The gastrointestinal microflora provide another potential site for drug metabolism within the GIT, and it has received some attention. In normal subjects the stomach and proximal small intestine contain small numbers of microorganisms. Concentrations of these organisms increase toward the distal end of the intestine. A wide variety of aerobic and anaerobic organisms are present in the gut. The microflora, derived primarily... 

As polymers solidify from the molten state, their free volume decreases and their organization increases. Solid polymers fall into one of three classes rubbery amorphous, glassy amorphous, and semicrystalline, which we introduced in Chapter 1. 

Middle managers have been blamed for any number of organizational ills. Critics have accused them of adding unnecessary bureaucracy to organizations, increasing costs and decreasing the ability of... 

Some organisms increased the rate of synthesis when they were attacked by other organisms. 

Nuphar japonicum DC N. pumilum (Timm) DC Japan Pin Peng Cao (Yellow pond lily) (seed, root) Nupharamine, sitosterol, palmitic acid, oleic acid.74 75 For digestive organs, increases body strength. 

Table 9 shows the effect of l-(chloromethyl)silatrane on the weight of liver and spleen, as well as the nucleic acid and protein contents of these organs. The data indicate that l-(chloromethyl)silatrane does not influence the DNA content of the liver but it increases slightly (by 10%) that of the spleen. The RNA content of the liver and spleen increases considerably (by 28% and 23%, respectively). Simultaneously, the protein content of both organs increases by 12% and 22%. 

Figure 28.3 The response time and sensitivity of an ecological receptor is a function of the level of biological organization. Higher levels of organization have greater ecosystem relevance. However, as the level of biological organization increases, response time increases, sensitivity decreases, and causal relationships become more uncertain. Ecological risk assessments must balance the need for sensitive, timely, and well-established responses with ecological relevance.

One of the main features of silica nanoparticles is that the particle interior, and not only the surface, can be functionalized. In the previous examples, the silica nanoparticles act just as mere scaffolds where the two sensor components, the signaling dye and the receptor, are assembled. A careful analysis of the properties of silica gels, and particularly of their metal sorption ability, led us to imagine that the sensor scheme could be further simplified and the degree of self-organization increased. 

Free radicals are typically formed as a result of normal cellular metabolism, however, studies have shown that their numbers in the organism increase when its cells are exposed to harmful environmental influences [6] such as pollutants [7], sunlight, radiation [8,9], emotional stress, smoking [10], excessive alcohol [11], infection [12], and some drugs [13]. 

---