The Streptomyces albidoflavus 16S rRNA gene clade contains 10 species and subspecies with identical 16S rRNA gene sequences and very similar numerical taxonomic data, including Streptomyces griseus subsp. solvifaciens. Type strains of this clade, as well as three CGMCC strains which were received as Streptomyces galilaeus, Streptomyces sioyaensis and Streptomyces vinaceus, respectively, that shared the same 16S rRNA gene sequences with the clade, were subjected to multilocus sequence analysis (MLSA), DNA-DNA hybridization (DDH) and phenotypic characterization for a comprehensive reevaluation. The 13 strains still formed a distinct, albeit loosely related, clade in the phylogenetic tree based on concatenated sequences of aptD, gyrB, recA, rpoB and trpB genes, supported by a high bootstrap value and different tree-making algorithms, with MLSA evolutionary distances ranging from 0 to 0.003. DDH values among these strains were well above the 70% cut-off point for species delineation. Based on the genotypic data of MLSA and DDH, combined with key phenotypic properties in common, it is proposed that the 10 species and subspecies of the S. albidoflavus clade, namely S. albidoflavus, S. canescens, S. champavatii, S. coelicolor, S. felleus, S. globisporus subsp. caucasicus, S. griseus subsp. solvifaciens, S. limosus, S. odorifer and S. sampsonii, should be merged into a single genomic species, for which the name S. albidoflavus is retained, and that the three strains S. galilaeus CGMCC 4.1320, S. sioyaensis CGMCC 4.1306 and S. vinaceus CGMCC 4.1305 should be assigned to S. albidoflavus as well. The results also indicated that MLSA could be the procedure of choice for distinguishing between species within Streptomyces 16S rRNA gene clades.

N/A

In an attempt to develop a rapid and accurate method for discrimination of streptomycetes at the strain level, 21 strains identified by fatty acid analysis as Streptomyces albidoflavus and the type strains of nine subjective synonyms of S. albidoflavus were selected for a full or partial 16S ribosomal DNA (rDNA) sequence analysis and an investigation of the 16S-23S rDNA intergenic spacer region. 16S rDNA sequence analysis showed that 27 of the strains exhibited 100% sequence similarity; these strains included the type strain of S. albidoflavus and the type strains of the subjective synonyms Streptomyces canescens, Streptomyces coelicolor, Streptomyces felleus, Streptomyces limosus, Streptomyces odorifer, and Streptomyces sampsonii. The type strains of the other subjective synonyms of S. albidoflavus (i.e., Streptomyces gougerotii, Streptomyces intermedius, and Streptomyces rutgersensis) were found to have levels of 16S rDNA sequence difference of 1.0 to 1.1% when they were compared to the type strain of S. albidoflavus. In order to discriminate between the strains which had identical 16S rDNA sequences, the 16S-23S rDNA intergenic spacer regions were amplified and cloned, and the sequences of the spacer regions were determined for four S. albidoflavus strains, including the type strain. The 16S-23S rDNA intergenic spacer region was found to vary in length and sequence composition among the strains and within each strain. The sizes and numbers of 16S-23S rDNA intergenic spacer regions for the 27 strains with identical 16S rDNA sequences were determined by high-resolution electrophoresis of FAM-labeled PCR products and a subsequent size analysis with GeneScan 672 software. This was shown to be a useful method for discrimination of S. albidoflavus strains. Strains with the same 16S-23S rDNA intergenic spacer band pattern, as determined by high-resolution electrophoresis of FAM-labeled PCR products, could be further discriminated on the basis of the sequence composition of the spacer region.

Streptomyces griseus strain 45H, isolated in 1960 during a mutagenesis programme on the industrial streptomycin producer S. griseus 52-1, encodes an extracellular, pleiotropic autoregulatory signalling protein, factor C, which stimulates sporulation of S. griseus 52-1 in submerged culture. The facC gene, which codes for factor C, is present in very few streptomycetes and is not present in S. griseus 52-1. Based on 16S rRNA gene sequencing and other molecular data, S. griseus 45H, the factor C producer, is here shown to be related to the original laboratory strain of Streptomyces flavofungini, which was being studied in the same laboratory in 1960, and to Streptomyces albidoflavus. Southern blotting revealed that three out of four independently isolated strains of S. albidoflavus possess facC. Both the original strain of S. flavofungini and S. griseus 45H are therefore identified as members of the species Streptomyces albidoflavus, and we propose that S. griseus 45H should be renamed Streptomyces albidoflavus 45H.