Recombination, catalyzed

Imigulcerase Recombinant Catalyzes the No rodent bioassay No malignancies reported in Adverse Reactions in... 

In the SM region, switch recombination may occur everywhere between the 3 end of a VHDJH segment and the 5 end of the gene [36,86]. Switch recombinations also occur, but less frequently, within that portion of SM in which the many short repeats are found. This region is the one which frequently undergoes in vitro recombination catalyzed by Escherichia coli extracts [87]. Deletions which seem to precede the recombination of to another S region (see Section 4.1.) are frequently observed within SM (Fig. 2). These deletions are not artefacts of molecular cloning ([74], and own results) and seem to be characteristic of IgH loci which are poised for switch recombination. 

As a stable radical, however, NO can also catalyze the recombination of radicals (X,Y) at higher concentrations, eventually inhibiting overall oxidation [45] ... 

The mechanism of the Patemo-Biichi reaction is not well understood, and while a general pathway has been proposed and widely aceepted, it is apparent that it does not represent the full scope of reactions. Biichi originally proposed that the reaction occurred by light catalyzed stimulation of the carbonyl moiety 1 into an excited singlet state 4. Inter-system crossing then led to a triplet state diradical 5 which could be quenched by olefinic radical acceptors. Intermediate diradical 6 has been quenched or trapped by other radical acceptors and is generally felt to be on the reaction path of the large majority of Patemo-Biichi reactions. Diradical 6 then recombines to form product oxetane 3. 

The protein contains an N-terminal signal peptide of 17 amino acid residues for secretion. The luminescence reaction of coelenterazine catalyzed by the recombinant luciferase shows a luminescence emission maximum at 485 nm, whereas the luminescence catalyzed by the native luciferase shows a maximum at 480 nm. 

Quantum yield of luciferin. Various values of quantum yield have been reported for coelenterazine in the luminescence reaction catalyzed by Renilla luciferase 0.055 (Matthews et al., 1977a), 0.07 (Hart, et al., 1979), and 0.10-0.11 (with a recombinant form Inouye and Shimomura, 1997). The quantum yield is significantly increased in the presence of Renilla green fluorescent protein (GFP) see below. 

The spectra of the luminescence of coelenterazine catalyzed by recombinant Renilla luciferase in the presence and absence of Renilla GFP are shown in Fig. 4.6.3 (Lorenz et al., 1991). Note that the luminescence intensity at the emission peak is increased more than... 

Molecular characteristics of luciferase. A molecule of the luciferase of G. polyedra comprises three homologous domains (Li et al., 1997 Li and Hastings, 1998). The full-length luciferase (135 kDa) and each of the individual domains are most active at pH 6.3, and they show very little activity at pH 8.0. Morishita et al. (2002) prepared a recombinant Pyrocystis lunula luciferase consisting of mainly the third domain. This recombinant enzyme catalyzed the light emission of luciferin (luminescence A.max 474 nm) and the enzyme was active at pH 8.0. The recombinant enzyme of the third domain of G. polyedra luciferase was crystallized and its X-ray structure was determined (Schultz et al., 2005). A -barrel pocket putatively for substrate binding and catalysis was identified in the structure, and... 

Rasburicase is a recombinant urate oxidase that catalyzes the conversion of uric acid to allantoin which possesses a greater water-solubility than uric acid. In contrast to allopurinol, rasburicase has also an inhibitory effect on... 

The net reaction for this two-step mechanism is the conversion of an O3 molecule and an oxygen atom into two O2 molecules. In this mechanism, chlorine atoms catalyze ozone decomposition. They participate in the mechanism, but they do not appear in the overall stoichiometry. Although chlorine atoms are consumed in the first step, they are regenerated in the second. The cyclical nature of this process means that each chlorine atom can catalyze the destruction of many O3 molecules. It has been estimated that each chlorine atom produced by a CFC molecule in the upper stratosphere destroys about 100,000 molecules of ozone before it is removed by other reactions such as recombination CF2 Cl -b Cl CF2 CI2... 

The hydroxynitrile lyase (HNL)-catalyzed addition of HCN to aldehydes is the most important synthesis of non-racemic cyanohydrins. Since now not only (f )-PaHNL from almonds is available in unlimited amounts, but the recombinant (S)-HNLs from cassava (MeHNL) and rubber tree (HbHNL) are also available in giga units, the large-scale productions of non-racemic cyanohydrins have become possible. The synthetic potential of chiral cyanohydrins for the stereoselective preparation of biologically active compounds has been developed during the last 15 years. 

Shyadehi AZ, DC Lamb, SL Kelly, DE Kelly, W-H Schunck, JN Wright, D Corina, M Akhtar (1996) The mechanism of the acyl-carbon bond cleavage reaction catalyzed by recombinant sterol 14a-demethyl-ase of Candida albicans (other names are lanosterol 14a-demethylase, P-450]4p, and CYP51). J Biol Chem 271 12445-12450. 

An alternative to repeated cloning of PCR products is a recombination-based approach developed by Liu et al. (1998) to permit the cloning of a PCR product into a plasmid and the rapid conversion of the plasmid to a number of different expression systems without the necessity of cloning the PCR product multiple, independent times. The method, termed the univector plasmid-fusion system (UPS), involves the insertion of the PCR product into a particular type of plasmid, called the univector, which can then be placed under the control of a variety of promoters or fused in-frame to various tag sequences. The system is based upon plasmid fusion using the Cre-lox site-specific recombination system of bacteriophage PI (Sternberg et al., 1981). The Cre enzyme is a site-specific recombinase that catalyzes recombination between two 34 base pair (bp) loxP sequences and is involved in the resolution of dimers formed during replication of the... 

Figure 4.5. Integrative and excisive X phage recombination pathways. Integration is catalyzed by the X Int protein in a reaction that also requires the E. coli IHF protein. Recombination occurs within a common core sequence of 15 base pairs. The excision reaction requires the X Xis protein in addition to Int and IHF.

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