The chemical preparation of strongly acidic cation-exchange resin from sulfuric acid lignin (Klason lignin) (SAL), a typical acid hydrolysis lignin, was investigated. Sulfonation of resinified SAL itself gave a resin with an ion-exchange capacity of 2.3 mEq/g. After resinification with formaldehyde, the phenolized SAL with a reactive phydroxyphenyl group yielded a resin with an ion-exchange capacity of 3.2 mEq/g. The latter capacity is superior to that of the corresponding commercial phenol-type resins (2-3 mEq/g), but did not reach the level of the corresponding commercial styrene-type resins (4-5 mEq/g).
We attempted to identify the Mycobacterium avium complex (MAC) isolated in Japan by using DNA probes specific for M. avium or Mycobacterium intracellulare (Gen-Probe Rapid Diagnostic System for MAC; Gen-Probe, Inc., San Diego, Calif.). The source and drug susceptibility distributions were examined. This assay system proved to be rapid, sensitive, specific, and reliable for identification of MAC and of the species as either M. avium or M. intracellulare. The DNA probe test showed that of the generally accepted MAC serovars, serovars 1 to 6, 8 to 11, and 21 belonged to M. avium and 7 and 12 to 20 belonged to M. intracellulare. Moreover, with the DNA probe test we found that the distribution patterns of M. avium and M. intracellulare isolates in Japan differed depending on the district in which MAC was isolated. The ratio of M. avium was much higher in eastern Japan. In Tokai and Shimane districts, the ratio of M. avium and M. intracellulare isolates significant in human disease was related to that of isolates from soil and house dust (natural sources). In M. avium, human disease-associated isolates were more resistant to rifampin, streptomycin, and kanamycin than were isolates from natural sources. However, this source dependence was not evident for M. intracellulare. In human disease-associated MAC, M. avium isolates were more resistant to most agents, except for quinolones, than were M. intracellulare isolates.
Tween 80-hydrolyzing esterases produced by various species of rapidly growing mycobacteria were partially purified from sonicated cell lysates by diethylaminoethyl (DEAE) cellulose and subsequent Sephadex G-150 column chromatographies. The amount of the esterase produced per gram of bacterial cells varied markedly with each species. Mycobacterium smegmatis, M. chelonei, and M. phlei were high producers and M. chitae and M. diernhoferi were low producers of Tween-hydrolyzing esterase. The resistance of each mycobacterial strain to oleic acid correlated well with their esterase-producing ability. All the esterases studied were adsorbed on DEAE cellulose in 50 mM Tris-HCl buffer (pH 7.5), indicating that they are acidic proteins. Esterases of M. smegmatis, M. chitae, M. fortuitum, and M. phlei were eluted from DEAE at high concentrations (0.11-0.18 M) of ammonium sulfate, while those of M. parafortuitum and M. diernhoferi were eluted at lower concentrations (0.05-0.08 M). With Sephadex G-150 gel filtration, all esterases were shown to have similar molecular weights (36,000 to 58,000). On the basis of heat-stability and trypsin- or chymotrypsin-sensitivity, these esterases were divided into three groups: one was heat-stable and protease-sensitive (M. smegmatis and M. fortuitum), another was heat-labile and protease-resistant (M. chelonei), and the other was the intermediate of the above two groups (M. diernhoferi).
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