Cross-reactions

The cross relation has proven valuable to estimate ET rates of interest from data tliat might be more readily available for individual reaction partners. Simple application of tire cross-relation is, of course, limited if tire electronic coupling interactions associated with tire self exchange processes are drastically different from tliose for tire cross reaction. This is a particular concern in protein/protein ET reactions where tire coupling may vary drastically as a function of docking geometry. 

If the intrinsic barrier AGq could be independently estimated, the Marcus equation (5-69) provides a route to the calculation of rate constants. An additivity property has frequently been invoked for this purpose.For the cross-reaction... 

D-Luciferin, 4 See Firefly luciferin L-Luciferin, 4 Luciferin binding protein dinoflagellates, 264, 265 Luciferin-luciferase cross-reaction, 324 Luciferins, xix-xxi, 340-342 coelenterazine, 159-179 Cypridina luciferin, 55-62, 160,... 

FMNH2 requirement in bacterial luminescence Crystallization of Cypridina luciferin Crystallization of firefly luciferin Cypridina luciferin in fishes the first cross reaction discovered Structure of firefly luciferin Discovery of aequorin and GFP (green fluorescent protein) Structure of Cypridina luciferin Concept of photoprotein Structure of Latia luciferin Dioxetanone mechanism proposed in firefly and Cypridina luminescence... 

In the latter case, along with the reactions (Vila) and (Vllb) the cross reaction (VII c) of both acids also takes place yielding the unsymmetrical... 

The combination of carbon-centered radicals usually involves head-to-head (a,a ) coupling. Exceptions to this general rule occur where the free spin can be delocalized into a n-system. The classic example involves the triphenylmethyl radical (13) which combines to give exclusively the a-para coupling product (26), Scheme I.8).27 This chemistry is also seen in cross reactions of 13 with other tertiary radicals.146... 

Table 1.7 Values of for the Cross-Reaction between Fluoromethyl and Ethyl Radicals (25 °C) 172174...

The reaction between the PMMA and PS model radicals (4 and 5, generated from the unsymmetrical azo-compound 3) has been studied as a model for crosstermination in MMA-S copolymerization (Scheme 7.13).178,179 The value for thydrogen from the PS model 5 to the PMMA radical 4 was ca 5.1 times more prevalent than transfer in the reverse direction (from 4 to 5). The value of kJklc(90°C) is between those of Atd/ tc(90oC) for the self-reaction of these radicals... 

Analysis of the products from the thermal decomposition of the mixed azo compound 6 showed that in the cross-reaction of radicals 5 and 7 ld/A tt(90oC) is 0.61.179 This study also found that in disproportionation, hydrogen transfer from 5 to 7 is ca 2.2 times more frequent than transfer from 7 to 5. Both self-reactions involve predominantly combination (Scheme 7.14). The values of Ar1j/Aru.(80°C) are 0.16 and 0.05 for radicals 5 (Section 5.2.2.1.1) and 7 (Section 5.2.2.1.3) respectively. It is clear that values of kJkK for homotermination cannot be used as a guide to the value for kjkyt in cross-termination. 

The value of ,<)// ,- 80°C) in the cross-reaction between radicals 4 and 8 has been examined.175 This system is a model for cross-termination in MMA-BMA eopolymeri/alion. The value of kjkw (1.22) is similar to that found for the self-reaction of 8(1.17) and much larger than that for the self-reaction of 4 (0.78). There is a small preference (m 1.4 fold) for the transfer of hydrogen from the butyl ester (8) to the methyl ester (4). 

The polymerizations (a) and (b) owe their success to what has become known as the persistent radical effect."1 Simply stated when a transient radical and a persistent radical are simultaneously generated, the cross reaction between the transient and persistent radicals will be favored over self-reaction of the transient radical. Self-reaction of the transient radicals leads to a build up in the concentration of the persistent species w hich favors cross termination with the persistent radical over homotermination. The hoinolermination reaction is thus self-suppressing. The effect can be generalized to a persistent species effect to embrace ATRP and other mechanisms mentioned in Sections 9.3 and 9.4. Many aspects of the kinetics of the processes discussed under (a) and (b) are similar,21 the difference being that (b) involves a bimolecular activation process. 

By 1945, Stacey speculated about the possibility of a structural relationship between Pneumococcus capsular polysaccharides and those produced by other organisms. With Miss Schliichterer, he had examined the capsular polysaccharide of Rhizobium radicicolum. This polysaccharide gave a precipitin reaction in high dilution, not only with Type III Pneumococcus antiserum, but also mixed with antisera from other Pneumococcus types. The chemical evidence indicated that the polysaccharide resembled the specific polysaccharides of Types I and II Pneumococcus. A decade later, the acidic capsular polysaccharide from Azoto-bacter chroococcum, a soil organism, was studied. It, too, produced serological cross-reactions with certain pneumococcal specific antisera. Although the molecular structure of the polysaccharide was not established, adequate evidence was accumulated to show a structural relationship to Type III Pneumococcus-specific polysaccharide. This was sufficiently close to account for the Type III serological cross-relationship. 

The second step introduces the side chain group by nucleophilic displacement of the bromide (as a resin-bound a-bromoacetamide) with an excess of primary amine. Because there is such diversity in reactivity among candidate amine submonomers, high concentrations of the amine are typically used ( l-2 M) in a polar aprotic solvent (e.g. DMSO, NMP or DMF). This 8 2 reaction is really a mono-alkylation of a primary amine, a reaction that is typically complicated by over-alkylation when amines are alkylated with halides in solution. However, since the reactive bromoacetamide is immobilized to the solid support, any over-alkyla-tion side-products would be the result of a cross-reaction with another immobilized oligomer (slow) in preference to reaction with an amine in solution at high concentration (fast). Thus, in the sub-monomer method, the solid phase serves not only to enable a rapid reaction work-up, but also to isolate reactive sites from... 

Cross-reactions with aspirin and NSAIDs are of practical importance. Typically, AIA patients are sensitive to all NSAIDs that preferentially inhibit COX-1 (table 2). Acetaminophen (paracetamol), a weak inhibitor of COX-1, is regarded as a relatively safe therapeutic alternative for almost all patients with AIA. High doses of the drug (>1,000 mg) have been reported to provoke mild, easily reversed bronchos-pasm in some AIA patients [13]. Some rare, well-documented cases of coexistence of aspirin and paracetamol sensitivity have been described. However, according to a recent meta-analysis, less that 2% of asthmatics are sensitive to both aspirin and paracetamol [14]. 

Table 2. Universal cross-reactions occur between aspirin and the following NSAIDs which preferentially inhibit COX-1... 

In 15-50% of cases, IgE-mediated anaphylaxis to a NMBA has been reported at the first known contact with a NMBA [1,3, 14]. This suggests a possible cross-reaction with IgE antibodies generated by previous contact with apparently unrelated chemicals drugs, such as pholcodine, cosmetics, disinfectants and industrial materials [14,... 

Moneret-Vautrin DA Cross-reactions to muscle relaxants in the operating room. Clin Rev Allergy Immunol 1997 15 471. 

Vaarala, O., Alfthan, G., Jauhiainen, M., Leirisalo-Repo, M., Aho, K. and Palosuo, T. (1993). Cross-reaction between antibodies to oxidised low-density lipoprotein and to cardiolipin in systemic lupus erythematosus. Lancet 341, 923-925. 

Figure 4 shows confocal images of the staining pattern for DDC (Fig. 4A), serotonin (Fig. 4B), and TH (Fig. 4C) in the segmental ventral ganglion of the CNS from third instar larvae. Panels B and C are the same CNS double stained with serotonin and TH. The DDC-expressing cells can be categorized into a set of paired ventral lateral serotonin cells (Fig. 4A,B labeled VL in 4A), and two morphologically distinct types of dopamine cells, the medial dopamine cells (Fig. 4A,C labeled M) and the dorsal-lateral dopamine cells (Fig. 4A,C labeled DL). Figure 4 demonstrates clearly that individual DDC cells synthesize either serotonin or dopamine, but not both. One additional set of cells shows TH immunoreactivity in the ventral ganglion. These six large vacuolated cells are located more laterally than any other DDC cells (Fig. 4C, unlabeled short arrows). It is likely that the immunoreactivity in these cells results from a non-specific cross-reaction, since these cells are not...

Outer-sphere electron transfer reactions involving the [Co(NH3)6]3+/2+ couple have been thoroughly studied. A corrected [Co(NH3)6]3+/2+ self-exchange electron transfer rate (8 x 10-6M-1s-1 for the triflate salt) has also been reported,588 which is considerably faster than an earlier report. A variety of [Co(NH3)g]3+/2+ electron transfer cross reactions with simple coordination compounds,589 organic radicals,590,591 metalloproteins,592 and positronium particles (electron/ positron pairs)593 as redox partners have been reported. 

Reaction of secoestrone aldehyde 306 with half an equivalent of hydrazine hydrate led to aldazine 307, which undergoes a criss-cross reaction in the presence of BF3-OEt2 to furnish a decacyclic pyrazolidine derivative 308 in 74% yield (Scheme 44) <2002T6843>. 

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