Carboxylate absorbance

Fig. 38. Comparison of heat capacity and spectroscopic properties. Effect of hydration on lysozyme time-average properties. (Curve a) Carboxylate absorbance (1580 cm" ) (curve b) amide I shift ( 1660 cm" ) (curve c) OD stretching frequency (—2570 cm ) (curve d) apparent specific heat capacity (curve e) diamagnetic susceptibility. From Rupley elal. (1983).

Figure 3. Decay of tin maleate i.r. carboxylate absorbance (1575 cm ) during the processing of PVC containing a synergistic mixture of dibutyl tin maleate (2.5 g/lOOg) and Wax E (0.65 g lOO g. - total sample — soluble phase. Processing temperatures are indicated on the curves. (Reproduced with permission from European Polymer Jourrud, 14, 913 (1978)).

Dissociated fatty acids (soaps) have quite different features. Delocalisation of the C=0 double bond across the CO2 group depresses the frequency of the stretching vibration. Stretching of the two C-O bonds is coupled (i.e. the vibration of one influences the vibration of the other). Both asymmetric and symmetric vibrations occur and are infrared active. Bands appear between 1600 and 1560 cm (asymmetric), and 1420 and 1340 cm (symmetric), with short-chain carboxylates absorbing at the higher end of the range. 

Carbon dioxide is similarly absorbed, and gives the corresponding carboxylic acid. 

UV-VIS In the absence of any additional chromophores carboxylic acids absorb at a wavelength (210 nm) that is not very useful for diagnostic purposes... 

As discussed earlier in Section lOC.l, ultraviolet, visible and infrared absorption bands result from the absorption of electromagnetic radiation by specific valence electrons or bonds. The energy at which the absorption occurs, as well as the intensity of the absorption, is determined by the chemical environment of the absorbing moiety. Eor example, benzene has several ultraviolet absorption bands due to 7t —> 71 transitions. The position and intensity of two of these bands, 203.5 nm (8 = 7400) and 254 nm (8 = 204), are very sensitive to substitution. Eor benzoic acid, in which a carboxylic acid group replaces one of the aromatic hydrogens, the... 

Dyestuff organic chemistry is concerned with designing molecules that can selectively absorb visible electromagnetic radiation and have affinity for the specified fiber, and balancing these requirements to achieve optimum performance. To be colored the dyestuff molecule must contain unsaturated chromophore groups, such as a2o, nitro, nitroso, carbonyl, etc. In addition, the molecule can contain auxochromes, groups that supplement the chromophore. Typical auxochromes are amino, substituted amino, hydroxyl, sulfonic, and carboxyl groups. 

Muzolimine (710), a 1-substituted 2-pyrazolin-5-one derivative, is a highly active diuretic, differing from the structures of other diuretics since it contains neither a sulfonamide nor a carboxyl group. It has a saluretic effect similar to furosemide and acts in the proximal tubule and in the medullary portion of the ascending limb of the loop of Henle. Pharmacokinetic studies in dogs, healthy volunteers and in patients with renal insufficiency show that the compound is readily absorbed after oral administration (B-80MI40406). 

The role of IR spectroscopy in the early penicillin structure studies has been described (B-49MI51103) and the results of more recent work have been summarized (B-72MI51101). The most noteworthy aspect of a penicillin IR spectrum is the stretching frequency of the /3-lactam carbonyl, which comes at approximately 1780 cm" This is in contrast to a linear tertiary amide which absorbs at approximately 1650 cm and a /3-lactam which is not fused to another ring (e.g. benzyldethiopenicillin), which absorbs at approximately 1740 cm (the exact absorption frequency will, of course, depend upon the specific compound and technique of spectrum determination). The /3-lactam carbonyl absorptions of penicillin sulfoxides and sulfones occur at approximately 1805 and 1810 cm respectively. The high absorption frequency of the penicillin /3-lactam carbonyl is interpreted in terms of the increased double bond character of that bond as a consequence of decreased amide resonance, as discussed in the X-ray crystallographic section. Other aspects of the penicillin IR spectrum, e.g. the side chain amide absorptions at approximately 1680 and 1510 cm and the carboxylate absorption at approximately 1610 cm are as expected. 

Compound A, C/H, was found to be optically active. On catalytic reductior over a palladium catalyst, 2 equivalents of hydrogen were absorbed, yielding compound B, CyH. On ozonolysis of A, two fragments were obtained. One fragment was identified as acetic acid. The other fragment, compound C, wa an optically active carboxylic acid, C5Hl002- Write the reactions, and drav structures for A. B and C. 

Carboxylic acid groups can be detected by both and A3C NMR spectroscopy. Carboxyl carbon atoms absorb in the range 165 to 185 8 in the l3C NMR spectrum, with aromatic and unsaturated acids near the upheld end of the range (—165 8) and saturated aliphatic acids near the downfield end (—185 8). Nitrile carbons absorb in the range 115 to 130 8. 

In the 1H NMR spectrum, the acidic -C02H proton normally absorbs as a singlet near 12 5. As with alcohols (Section 17.11), the -C02H proton can be replaced by deuterium when D20 is added to the sample tube, causing the absorption to disappear horn the NMR spectrum. Figure 20.6 shows the H NMR spectrum of phenylacetic acid. Note that the carboxyl proton absorption occurs at 12.0 8. 

Another type of therapeutically active molecule is one designed primarily with pharmacokinetics in mind (designed to be well absorbed and to enter the central compartment readily), which can then be converted to the therapeutically active molecule in the body. These are referred to as pro-drugs. This process, called latentiation, consists of the conversion of hydrophilic drugs into lipid-soluble drugs (usually by masking hydroxyl, carboxyl, and... 

The steady structure determined by the value of Kw (Fig. 1) for the entire class of carboxylic CP obtained by precipitation copolymerization is one of the most important factors determining the possibility of reversible bonding of proteins absorbed by carboxylic CP with a high sorption capacity [16,19]. Thus, for the MA-HHTT system (Fig. 2), a complete desorption of enzyme is carried out on crosslinked copolymers characterized by low Kw values. In crosslinked structures exhibiting looser structure (Kw P 1), owing to the mobility of chain fragments of CP especially in the process of desorption, the macromolecules of sorbed protein are irreversibly captured as a result of a marked polyfunctional interaction. 

Tazarotene (Table 1) is an acetylenic third generation retinoid derivative. It is a poorly absorbed, nonisome-risable arotinoid, which is rapidly metabolized to its free carboxylic acid, tazarotenic acid, binding with high affinity to RARs, with the rank order of affinity being... 

Fluorescein absorbance is sensitive to pH. This property is utilized to measure cytosolic pH changes. Fluorescein derivatives that contain esters on the carboxyl groups have been constructed. These compounds partition through the cell membrane and, once inside the cell, the esters are cleaved by nonspecific esterases in the cytosol, leaving free carboxyl groups thus the probe cannot diffuse out of the cell (or at least does so slowly). Commonly used derivatives are 6-carboxyfluorescein (21-23) and the more recently developed probe 2, 7 -bis(2-carboxyethyl)-5(and-6)-carboxyfluorescein (13, 24,25). 

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