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Bacteria folding types

Serine Racemase (EC 5.1.1.16] Serine racemases have been discovered in both bacteria and eukaryotes (for a review see [60, 62). In the latter organisms, serine racemase catalyzing the conversion of L-Ser to D-Ser was at first discovered in the silkworm Bombyx mori it is a PLP-dependent racemase which is also active on L-Ala (-6% of the activity on L-Ser). A serine racemase was also purified from rat brain (and a serine racemase cDNA was cloned from mouse brain). Mammalian serine racemase shows sequence simUarily with L-threonine dehydratase from various sources all the active site residues of the latter enzyme are also conserved in mouse serine racemase. Mammalian serine racemase is a member of the fold-type II group of PLP enzymes (similarly to L-threonine dehydratase, D-serine dehydratase, and so on) and distinct from alanine racemase, which belongs to the fold-type III group. Mouse serine racemase shows a low kinetic efficiency the Km values for L- and D-Ser are -10 and 60 mM, respectively and the V ax values with L- and D-Ser are 0.08 and 0.37 units/mg protein (less than 0.1% of those of alanine racemase on L- and D-Ala, see above). [Pg.219]

DNA very efficiently into their host bacteria. A single bacteriophage DNA can be replicated approximately 100-fold or more per cell depending on the type of phage and its host. [Pg.250]

The bacteria in the intestinal tract serve as another well-known source of luminal drug degradation [61], though this is only important for the colon region as the luminal concentration of bacteria is 104 to 109-fold higher in the colon compared with the small intestine. Thus, this aspect is only relevant for drugs that reach this region, for example, due to poor permeability, slow dissolution or delivery by modified-release formulations. Hydrolytic and other reductive reactions are predominantly mediated by bacterial enzymes, and a list of the most prominent types... [Pg.512]

Bacteria generally have just one type of uracil DNA glycosylase, whereas humans have at least four types, with different specificities—an indicator of the importance of uracil removal from DNA. The most abundant human uracil glycosylase, UNG, is associated with the human replisome, where it eliminates the occasional U residue inserted in place of a T during replication. The deamination of C residues is 100-fold faster in single-stranded DNA than in double-stranded DNA, and... [Pg.971]

Mitochondria are about the size of bacteria. They have a diameter of 0.2 to 0.5 gm and are 0.5 to 7 p.m long. They are bounded by two lipid bilayers, the inner one being highly folded. These folds are called cristae. The innermost space of the mitochondrion is called the matrix. They have their own DNA in the form of at least one copy of a circular double helix (Chap. 7), about 5 p.m in overall diameter it differs from nuclear DNA in its density and denaturation temperature by virtue of being richer in guanosine and cytosine (Chap. 7). The different density from nuclear DNA allows its separation by isopycnic centrifugation. Mitochondria also have their own type of ribosomes that differ from those in the cytoplasm but are similar to those of bacteria. [Pg.12]

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Bacteria types

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