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Enzyme activity, lipid dependence

In general, our studies with cytochrome P-450-dependent metabolism have emphasized the similarity of the hepatic MFO system in marine fish to that found in mammals. Thus, in the little skate (Raja erinaoea), a marine elasmobranch, enzyme activity is localized in the microsomal fraction, requires NADPH and molecular oxygen for maximum activity, and can be inhibited with CO (1, 2). Moreover, when hepatic microsomes from the little skate were solubilized and separated into cytochrome P-450, NADPH-cytochrome P-450 reductase, and lipid fractions, all three fractions were required for maximal MFO activity in the reconstituted system (3). We have also found, as have others, that the administration of polycyclic hydrocarbons (3-methylcholanthrene, 1,2,3,4-dibenzanthracene [DBA]), 2,3,7,8-tetrachlorodibenzo-p-dioxin... [Pg.297]

Like pancreatic lipase, this enzyme is clearly dependent on a lipid/water interface for maximal activity, where it also may reach a very high catalytic rale, Abo like pancreatic lipase, it is not inhibited by serine esterase inhibitors like DFP orPMSF. [Pg.200]

Alesenko et al., studied the effect of antioxidants on the genetic apparatus activity [41-43]. The authors showed that bioantioxidants are able to affect the cell lipids composition and change the activity of lipid-dependent enzymes of synthesis and reparation of DNA and affect the activity of chromatin. [Pg.4]

A biologic reason for the abundance of nonlamellar lipids in membranes is that they possess the ability to modulate the activities of membrane proteins (15, 16). It has been recognized that membranes exist in a state of curvature frustration, which may be sufficiently large to have significant effect on certain protein conformations (17). Many examples show that the lipid bilayer elastic curvature stress indeed couples to conformational changes of membrane proteins (15, 18, 19). Protein kinase C is one such example of an enzyme activated by lipids that exhibit a propensity for nonlamellar phase formation (20). The activity of Ca " -ATPase from sarcoplasmic reticulum membranes also strongly correlates with the occurrence of nonbilayer lipids in the membrane and increases with the increase of their amount. It is noteworthy that the protein activity does not depend on the chemical structure of the lipids but only on their phase propensity thus specific binding interactions are ruled out. The list of proteins with activities that depend on the phase properties... [Pg.892]

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See also in sourсe #XX -- [ Pg.340 , Pg.341 ]



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Enzyme dependent

Lipid dependence

Lipid enzyme

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