Rapid identification of clinically significant species and taxa of aerobic actinomycetes, including Actinomadura, Gordona, Nocardia, Rhodococcus, Streptomyces, and Tsukamurella isolates, by DNA amplification and restriction endonuclease analysis.

A previously described PCR-restriction fragment length polymorphism (RFLP) identification schema for Nocardia that used an amplified 439-bp segment (amplicon) of the 65-kDa heat shock protein gene was evaluated for potential use with isolates of all clinically significant aerobic actinomycetes. The study included 28 reference (American Type Culture Collection) strains and 198 clinical isolates belonging to 20 taxonomic groups. Of these 198 isolates, 188 could be differentiated by this PCR-RFLP method.

DNA amplification and restriction endonuclease analysis for differentiation of 12 species and taxa of Nocardia, including recognition of four new taxa within the Nocardia asteroides complex.

Nineteen reference and 156 clinical strains of the genus Nocardia belonging to 12 taxonomic groups were studied for restriction fragment length polymorphism (RFLP) by using an amplified 439-bp segment of the 65-kDa heat shock protein gene. Of 30 restriction endonucleases, digestion with MspI and then digestion with BsaHI produced RFLP band patterns which separated all 12 groups except N. asteroides type IV from 6 of 12 N.

PCR amplification and restriction endonuclease analysis of a 65-kilodalton heat shock protein gene sequence for taxonomic separation of rapidly growing mycobacteria.

A total of 129 reference and clinical strains of rapidly growing mycobacteria (RGM) belonging to 10 taxonomic groups were studied for restriction fragment length polymorphism patterns from a PCR-amplified 439-bp segment of the 65-kDa heat shock protein (HSP) gene. Of 24 endonucleases evaluated, restriction fragment length polymorphism patterns produced by HaeIII and BstEII and then by AciI and CfoI gave the best separation. Sixty percent of all RGM taxa studied were differentiated by HaeIII digests alone.

Evidence for conformational dynamics and molecular aggregation in cytochrome P450 102 (BM-3).

The native molecular weight of affinity-purified cytochrome P450 102 from barbiturate-induced Bacillus megaterium has been studied by sedimentation methods and HPLC size-exclusion chromatography. Sedimentation velocity experiments yielded an s020,w = 9.244 S for the holocytochrome, but the diffusion coefficient was unexpectedly large and varied widely with centrifugal field, ionic strength, and protein concentration.

On the domain structure of cytochrome P450 102 (BM-3): isolation and properties of a 45-kDa FAD/NADP domain.

Cytochrome P450 102 is a catalytically self-sufficient monooxygenase isolated from barbiturate-induced Bacillus megaterium. The enzyme contains FAD, FMN, and heme in a single polypeptide chain of 1048 residues, and each of the cofactors is believed to be located in a separate domain. In the present study we have used exhaustive endogenous proteolysis to produce a 45 kDa fragment of the cytochrome.

Detergent effects in rabbit liver microsomal UDP-glucuronosyltransferase studied by means of a continuous spectrophotometric assay with p-nitrophenol.

UDP-glucuronosyltransferase (UDPGT) has been studied with a continuous spectrophotometric assay employing UDP-glucuronic acid and p-nitrophenol as substrates. Activity is linearly dependent on the microsomal protein concentration. Male rabbit liver phenobarbital-induced microsomes exhibited a rate of 7.

Affinity isolation and characterization of cytochrome P450 102 (BM-3) from barbiturate-induced Bacillus megaterium.

Cytochrome P450 102 (BM-3) is a catalytically self-sufficient enzyme from Bacillus megaterium that is presently accepted as an important model of the mammalian microsomal P450 monooxygenase system. We have developed a novel affinity approach to purify P450 102 in a single chromatographic step and have studied the spectroscopic, catalytic, nucleotide binding, and crystallization properties of the highly purified enzyme. B.