Species of the genus Streptomyces, which constitute the vast majority of taxa within the family Streptomycetaceae, are a predominant component of the microbial population in soils throughout the world and have been the subject of extensive isolation and screening efforts over the years because they are a major source of commercially and medically important secondary metabolites. Taxonomic characterization of Streptomyces strains has been a challenge due to the large number of described species, greater than any other microbial genus, resulting from academic and industrial activities. The methods used for characterization have evolved through several phases over the years from those based largely on morphological observations, to subsequent classifications based on numerical taxonomic analyses of standardized sets of phenotypic characters and, most recently, to the use of molecular phylogenetic analyses of gene sequences. The present phylogenetic study examines almost all described species (615 taxa) within the family Streptomycetaceae based on 16S rRNA gene sequences and illustrates the species diversity within this family, which is observed to contain 130 statistically supported clades, as well as many unsupported and single member clusters. Many of the observed clades are consistent with earlier morphological and numerical taxonomic studies, but it is apparent that insufficient variation is present in the 16S rRNA gene sequence within the species of this family to permit bootstrap-supported resolution of relationships between many of the individual clusters.
Male‐biased florivory is a prominent phenomenon in the interaction between plants and florivores, and is potentially related to the evolution of flower traits and sex expression; however, its adaptive significance is not well understood. We studied florivory in the geometrid moth Chloroclystis excisa utilizing flower buds of a sexually polymorphic shrub, Eurya japonica, to reveal relationships between flower sex and moth oviposition preference, moth larval performance, and plant phenolics composition. In the field, C. excisa exploited flower buds on male and hermaphrodite trees but never those on female trees. In the laboratory, moths showed a strong oviposition preference for male over female flower buds, and larvae did not survive on female buds. Mortality was caused solely by feeding on the calyx covering the female bud. Female calyces contained higher concentrations of total phenolics and condensed tannins than did male calyces. These results suggest that substantial sexual differences in defense against florivory may have evolved in association with the differentiation of flower sexes and that a strong preference for the weakly defended flower sex may have evolved in florivores as a counter‐adaptation.
Methylation of cytosine in DNA at position 5 plays important roles in gene functions. Changes in the methylation status are linked to cancer. These studies have been developed on the basis of determining 5-methylcytosine residues [mC] in DNA. This analytical procedure uses the principle that bisulfite deaminates cytosine [C] but it deaminates mC only very slowly. Thus, 'bisulfite genomic sequencing' involves treatment of a given DNA sample with bisulfite followed by PCR amplification and sequencing, through which C residues in the original DNA are found as T and mC as C. In this procedure, a treatment with 3-5 M sodium bisulfite for 12-16 hr at 55 degrees C has been conventionally used. Recently, we were able to improve the efficiency of this procedure by introducing a highly concentrated (10 M) bisulfite solution. Aiming at further improvement of the procedure, we have now explored the effect of adding urea in this bisulfite treatment, as urea was reported to improve the deamination efficiency. Using 7.5 M ammonium bisulfite (pH 5.4) at 70 degrees C with or without the presence of 6 M urea, we performed deamination and sequencing of a DNA sample having known multiple CpG sites with mC. The deaminated DNAs were then subjected to PCR amplification followed by sequencing. In the 15 min-treated sample, the deamination extents were; C 96.5%, mC 1.1% for "bisulfite-only"; and C 90.3%, mC 1.4% for "bisulfite + urea". In the 30 min-treated sample, these values were; C 99.7%, mC 3.6% for "bisulfite only"; and C 99.7%, mC 2.1% for "bisulfite + urea". These results indicate that urea did not enhance the deamination efficiency. In the PCR, we did not observe significant improvements regarding the amounts of DNA necessary to obtain adequate amplification. Urea at 2 M, 4 M, and 8 M, showed no improvements. We conclude that urea gave no significant effect in the bisulfite genomic sequencing of the DNA used.
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