Poly containing synthesis

Figure 11.9 Schematic view of the experimental strategy for carrying out poly(Phe) synthesis in POPC liposomes, (i) Freeze-thaw (x 7) solution containing t-RNAP , poly(U), Phe, ATP, GTP, Mg(OAc)2, NH4CI, spermine, spermidine, phos-phoenolpyruvate. (ii) Soution containing pyruvate kinase, 100 000 g supernatant enzymes, 308 and SOS ribosomal subunits, (iii) 1. Free-thaw (x3) 2. Brief extrusion 3. Addition of EDTA (final concentration = 35 mM. (iv) Withdrawl of aliquots at indicated time and cold TCA precipitation. Analysis of the radioactivity remaining on the glass filter by p-scintillation counting. (Modified from Oberholzer et al, 1999.)...

An overview of the work in this field is presented in Table 11.5, see also recent reviews (Luisi et al, 2006). This table also contains references to the work mentioned earlier, such as poly(A) synthesis from ADP the PCR reaction in liposomes the RNA synthesis by QP replicase, as well as the expression of poly(Phe) by an entrapped ribosomal system. This work is preliminary to protein expression in liposomes. Going from here to the protein synthesis, it may be useful to compare the different strategies for the expression of GFP. 

Polythiophenes, with ferrocene groups, 12, 305 Polyurea microcapsules, Pd-containing, 12, 713-714 Poly(vinylcymantrene), synthesis, 12, 311 Poly(vinylferrocene), preparation and properties, 12, 301 Polyynes... 

Timbart L, Renard E, Langlois V, Guerin P (2004) Novel biodegradable copolyesters containing block of poly(3-hydroxyoctanoate) and poly(8caprolactone) synthesis and characterization. 

It was suggested that poly(c) tracts mi t play a role in the replication of those viruses which contain it (28, 29) In particular, they speculated that such a poly(c) tract mi t function as a replicase-binding site, or a part of one, on the basis of two observations. First, Rosenberg at al. (39) reported that a partially purified EMC viral replicase preparation will synthesise poly(G) from a poly(c) template, but will not copy other synthetic primers. Second, the replicase of bacteriophage which has subunits of similar size to those of the EMCV replicase (39) can also specifically use poly(C) as a template for poly(G) synthesis. However, the significance of this specificity is unclear, since Q3... 

HydrophobicaHy Modified, Ethoxylated Urethane. HEUR associative thickeners are in effect poly(oxyethylene) polymers that contain terminal hydrophobe units (66). They can be synthesized via esterification with monoacids, tosylation reactions, or direct reaction with monoisocyanates. There are problems associated with aH of the methods of synthesis. The general commercial procedure for their synthesis is by a step-growth addition of... 

In 1954 the surface fluorination of polyethylene sheets by using a soHd CO2 cooled heat sink was patented (44). Later patents covered the fluorination of PVC (45) and polyethylene bottles (46). Studies of surface fluorination of polymer films have been reported (47). The fluorination of polyethylene powder was described (48) as a fiery intense reaction, which was finally controlled by dilution with an inert gas at reduced pressures. Direct fluorination of polymers was achieved in 1970 (8,49). More recently, surface fluorinations of poly(vinyl fluoride), polycarbonates, polystyrene, and poly(methyl methacrylate), and the surface fluorination of containers have been described (50,51). Partially fluorinated poly(ethylene terephthalate) and polyamides such as nylon have excellent soil release properties as well as high wettabiUty (52,53). The most advanced direct fluorination technology in the area of single-compound synthesis and synthesis of high performance fluids is currently practiced by 3M Co. of St. Paul, Minnesota, and by Exfluor Research Corp. of Austin, Texas. 

In 1975, the synthesis of the first main-chain thermotropic polymers, three polyesters of 4,4 -dihydroxy-a,a -dimethylbenzalazine with 6, 8, and 10 methylene groups in the aHphatic chain, was reported (2). Shortly thereafter, at the Tennessee Eastman Co. thermotropic polyesters were synthesized by the acidolysis of poly(ethylene terephthalate) by/ -acetoxybenzoic acid (3). Copolymer compositions that contained 40—70 mol % of the oxybenzoyl unit formed anisotropic, turbid melts which were easily oriented. 

Poly(arylene vinylenes). The use of the soluble precursor route has been successful in the case of poly(arylene vinylenes), both those containing ben2enoid and heteroaromatic species as the aryl groups. The simplest member of this family is poly(p-phenylene vinylene) [26009-24-5] (PPV). High molecular weight PPV is prepared via a soluble precursor route (99—105). The method involves the synthesis of the bis-sulfonium salt from /)-dichloromethylbenzene, followed by a sodium hydroxide elimination polymerization reaction at 0°C to produce an aqueous solution of a polyelectrolyte precursor polymer (11). This polyelectrolyte is then processed into films, foams, and fibers, and converted to PPV thermally (eq. 8). 

Although the sulfone activated biphenyl and the ketone activated naphthalene moiety for the displacement polymerization have been reported by Attwood et al. [11], these were rediscovered by Cummings et al. [12] and Hergenrother et al. [13], respectively, for the synthesis of poly(aryl ethers). Recently, Singh and Hay [14] reported polymers containing 0-dibenzoyl benzene (1,2,3) moiety by reaction between bis(O-fluorobenzoyl) benzene or substituted benzene with bisphenates of alkali metal salt in DMAC as follows ... 

Diphenol/thiophenol is one of the most important polymer precursors for synthesis of poly(aryl ethers) or poly-(aryl sulfides) in displacement polymerizations. Commonly used bisphenols are 4,4 -isopropylidene diphenol or bisphenol-A (BPA) due to their low price and easy availability. Other commercial bisphenols have also been reported [7,24,25]. Recently, synthesis of poly(aryl ethers) by the reaction of new bisphenol monomers with activated aromatic dihalides has been reported. The structures of the polymer precursors are described in Table 2. Poly(aryl ether phenylquinoxalines) have been synthesized by Connell et al. [26], by the reaction of bisphenols containing a preformed quinoxaline ring with... 

Recently, the pyrazole group containing bisphenols have been synthesized from activated aromatic dihalides and 3,5-bis (4-hydroxy phenyl)-4-phenyl pyrazole or 3,5-bis(4-hydroxy phenyl)-1,4-diphenyl pyrazole. A novel synthesis of imido aryl containing bisphenols has been reported [32]. N-substituted l,4-bis(4-hydroxy phenyl)-2,3-naphthalimides were prepared from phenolphthalein and copolymerized with aromatic sulfone or ketone difluorides to obtain the poly(imidoaryl ether) sulfones/ ketones. 

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