Haloacetate

TABLE U-12. 2-AMINOTHIAZOLES FROM THIOUREA AND -HALOACET-ALDEHYDE AND DERIVATIVES... 

An electronegative substituent particularly if it is attached to the a carbon increases the acidity of a carboxylic acid As the data m Table 19 2 show all the mono haloacetic acids are about 100 times more acidic than acetic acid Multiple halogen sub stitution increases the acidity even more trichloroacetic acid is 7000 times more acidic than acetic acid ... 

The hydroxyl groups can be esterified normally the interesting diacrylate monomer (80) and the biologicaky active haloacetates (81) have been prepared in this manner. Reactions with dibasic acids have given polymers capable of being cross-linked (82) or suitable for use as soft segments in polyurethanes (83). Polycarbamic esters are obtained by treatment with a diisocyanate (84) or via the bischloroformate (85). 

Chlorine and bromine add vigorously, giving, with proper control, high yields of 1,2-dihaloethyl ethers (224). In the presence of an alcohol, halogens add as hypohaUtes, which give 2-haloacetals (225,226). With methanol and iodine this is used as a method of quantitative analysis, titrating unconsumed iodine with standard thiosulfate solution (227). 

Removal of Refractory Organics. Ozone reacts slowly or insignificantly with certain micropoUutants in some source waters such as carbon tetrachloride, trichlorethylene (TCE), and perchlorethylene (PCE), as well as in chlorinated waters, ie, ttihalomethanes, THMs (eg, chloroform and bromoform), and haloacetic acids (HAAs) (eg, trichloroacetic acid). Some removal of these compounds occurs in the ozone contactor as a result of volatilization (115). Air-stripping in a packed column is effective for removing some THMs, but not CHBr. THMs can be adsorbed on granular activated carbon (GAG) but the adsorption efficiency is low. 

To synthesize the monoxacetam stmctures (Fig. 6), alkylation of A/-protected 1-hydroxyazetidinones (46) with the appropriate haloacetic acid derivatives provided (47). Alternatively, (47) could be prepared from the acycHc hydroxamate ester (48). Deprotection of (47) furnished the zwitterionic intermediate (49) [90849-16-4] CgH2QN204, which subsequendy underwent acylation using the C-3 aminothiazole oxime side chain to afford SQ 82,291 (45) also known as oximonam (37). 

Cyclic g-haloacetals and -ketals have been prepared by variations on two basic methods. The most frequently used method involves the combination of an a,B-unsaturated carbonyl compound (acrolein, methyl vinyl ketone, croton-aldehyde, etc.) a diol, and the anhydrous hydrogen halide. All possible sequences of combining these three have been used. In most cases the... 

Another example is the acidities of a series of carboxylic acids. It is known that the substitution effect on these compounds also depends on the environment. The behavior of the halo-substituted acetic acids is one of the prototype problems for the solvent effect on acidity The order in strength of the haloacetic acids in the gas phase is... 

Procedures to compute acidities are essentially similar to those for the basicities discussed in the previous section. The acidities in the gas phase and in solution can be calculated as the free energy changes AG and AG" upon proton release of the isolated and solvated molecules, respectively. To discuss the relative strengths of acidity in the gas and aqueous solution phases, we only need the magnitude of —AG and — AG" for haloacetic acids relative to those for acetic acids. Thus the free energy calculations for acetic acid, haloacetic acids, and each conjugate base are carried out in the gas phase and in aqueous solution. 

Haloacetic acids dichloroacetic acid (zero) trichloroacetic acid (0.3 mg/L). Monochloroacetic acid, bromoacetic acid, and dibromoacetic acid are regulated with this group but have no MCLGs. 

Molybdenum hexafluoride, in the presence of boron trifluonde, reacts with acetic acid and haloacetic acids at 130-160 °C to give respectively, 1,1,1 tri fluoroethane and 1,1 1 trifluorohaloetlianes in 60-89% yields [2d0, 241] Prolonged treatment of pyridine mono and dicarboxylic acids with an excess of molybdenum hexafluoride at elevated temperatures provides the respective mono-and bis(trifluoromethyl)pyridines in good yields [241] (equation 127)... 

Chlorine monofluoride m a hydrogen fluoride solution reacts rapidly at low temperature with haloacetate and halopropanoate esters to give 61-80% yields of a a difluoroalkyl ethers [242] (equation 128)... 

Hexamethylenetetramine can serve as a source of ammonia in the reaction with a 2-(haloacet-amido)benzophenone. The intermediate salts 14, which can be isolated, are readily transformed into benzodiazepinones IS in refluxing ethanol (Method C). Selected examples are given.197 198... 

Similar methodology has been applied in the syntheses of 2-amino-3-hydroxycarboxylic acids in high diastereomeric and enantiomeric purity. Two separate pathways give either the antt- or. WM-products. The first strategy relies on haloacetate precursors derived either from (S )-valine 17"- oi or from norephedrine 18102, which are converted into the boron enolates103 and subsequently reacted with aldehydes to deliver. ym-adducts99 102. The diastereomeric ratio, defined as the ratio of the desired diastereomer/the sum of all others, is 50 1 for the former and about 95 5 for the latter adducts. 

This reaction is illustrative of a general procedure for the alkylation of active methylene functions in the presence of concentrated aqueous alkali catalyzed by tetraalkylammonium salts. This catalytic method has been used to alkylate arylacetonitriles with monohaloalkanes,2 dihaloalkanes,3 a-chloroethers,4 chloronitriles,.5 haloacetic acid esters,6 and halonitro aromatic compounds.7 It has also been used to alkylate ketones,8 lf/ indene,9 9i/-fluorene,ll) and the Reissert compound.11 The reaction is inhibited by alcohols and by iodide ion.2... 

Halogenation is important for disinfecting drinking water supplies, generally nsing molecular chlorine. Most attention has been directed to the adverse production of haloforms and haloacetates from reactions of chlorine with natural substrates, although in water containing bromide/iodide, a nnmber of other reactions may occur. 

Frank H, H Scholl, D Renschen, B Rether, A Laouedj, Y Norokorpi (1994) Haloacetic acids, phytotoxic secondary air pollutants. Environ Sci Pollut Res 1 4-14. 

Hashimoto S, T Azuma, A Otsuki (1998) Distribution, sources, and stability of haloacetic acids in Tokyo Bay, Japan. Environ Toxicol Chem 17 798-805. 

Kawasaki H, H Yahara, K Tonomura (1981) Isolation and characterization of plasmid pUOl mediating deha-logenation of haloacetate and mercury resistance in Moraxella sp. B. A nc Biol Chem 45 1477-1481. 

Both the active enzyme, the heat-inactivated enzyme from Sulfurospirillum (Dehalos-pirillum) multivorans, and cyanocobalamin are capable of dehalogenating haloacetates (Nenmann et al. 2002), and the rate of abiotic dehalogenation depends on the catalyst that is nsed. 

Kawasaki H, N Tone, K Tonomura (1981) Plasmid-determined dehalogenation of haloacetates in Moraxella species. Agric Biol Chem 45 29-34. 

Aminoacetal has been prepared by the action of ammonia on haloacetals,8 4 6 6 7-8 9 by the reduction of nitroacetal using sodium in boiling alcohol,10 and by the reduction of glycine ester hydrochloride with sodium amalgam.11... 

A mechanistic picture which reconciles the experimental results is given in Scheme 24. It is assumed that both the heteroatom and the double bond of the allyl halide compete for an electrophilic metal carbene. Heteroatom attack yields a metalated ylide 129, which may go on to ylide 131 by demetalation and/or to allylmetal complex 130. Symmetry-allowed [2,3] rearrangement of 131 accounts for product 132, and metal elimination from 130 gives rise to products 132 and 133, corresponding to [2,3] and [1,2] rearrangement, respectively, as well as haloacetate (if R3 = CHc ). 

Potential applications of vitamin Bi2 in electrocatalytic degradation of dibromide and a-haloacetic acid pollutants has been demonstrated in aqueous buffers303,304 and in surfactant-stabilized emulsions.305 Electroreductive dehalogenations in water and microemulsions were also efficiently catalyzed by a vitamin Bi2 derivative grafted onto a polylysine-coated electrode.306... 

Alkylisoselenocyanates 339 are also used in the synthesis of 2-methylidene-l,3-selenazolidine derivatives <06T3344>. Nucleophilic addition of the carbanion derived from malononitrile 347 to 339 leads to an intermediate kcten-A, -acetal 348, which reacts with 2-haloacetate ester and 1,2-dibromoethane to provide l,3-selenazolidin-4-ones 350 and 1,3-selenazolidines 352, respectively. 

The relative reactivity of a-haloacetates toward protein functionalities is sulfhydryl > imid azolyl > thioether > amine. Among halo derivatives the relative reactivity is I > Br > Cl > F, with fluorine being almost unreactive. The a-haloacetamides have the same trend of relative... 

Thus, iodoacetamide has the highest reactivity toward cysteine sulfhydryl residues and may be directed specifically for —SH blocking. If iodoacetamide is present in limiting quantities (relative to the number of sulfhydryl groups present) and at slightly alkaline pH, cysteine modification will be the exclusive reaction. For additional information on a-haloacetate reactivities and a protocol for blocking, see Section 4.2 (this chapter). 

As a kind of nucleophilic addition reaction similar to the Grignard reaction, the Reformatsky reaction can afford useful ft-hydroxy esters from alkyl haloacetate, zinc, and aldehydes or ketones. Indeed, this reaction may complement the aldol reaction for asymmetric synthesis of //-hydroxy esters. 

Hall-Petch relationship, 13 497 Haloacetic acids (HAAs), removal from drinking water, 17 806—807 Haloacetones, 1 163 Haloalkylating agents, 12 167 Haloalkylation, 12 166-168 Haloalkylbenzenes, intramolecular alkylation of, 12 169 IV-Halo-a-amino acids, 13 107 Haloaromatics, 13 573 Halobenzenes, as Friedel-Crafts arylating agents, 12 171 Halobismuthines, 4 28-29 Haloboration, 14 270 Halobrom (BCDMH,... 

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