Carboxyl-terminal deletion analysis of the Streptococcus mutans glucosyltransferase-I enzyme

Sequential deletion of the carboxyl-terminal amino acids (including the six direct repeating units) of the glucosyltransferase-I (GTF-I) enzyme of Streptococcus mutans revealed differential effects on sucrase and GTF activities. Removal of all but one repeating unit resulted in a truncated enzyme with significant sucrase activity but no detectable GTF activity. These results are compatible with the presence of two functional domains in the enzyme.     

Virulence properties of oral bacteria: impact of molecular biology

Dental caries and periodontitis, although generally not life threatening, are nevertheless of significant importance. An understanding of the molecular nature of these diseases could aid the development of novel methods of prevention and control, and increase our knowledge of their etiology. The identification of virulence factors in oral bacteria could lead to the development of vaccines directed against these organisms, the design of inhibitors of biofilm formation, and the development of replacement therapy strategies.     

Axenic cultivation of Entamoeba dispar in newly designed yeast extract-iron-gluconic acid-dihydroxyacetone-serum medium

Yeast extract-iron-gluconic acid-dihydroxyacetone-serum medium that allows axenic cultivation of Entamoeba dispar was designed based on casein-free yeast extract-iron-serum (YI-S) medium, and the usefulness of the medium was assessed. The main differences from YI-S medium are replacement of glucose by gluconic acid, addition of dihydroxyacetone and D-galacturonic acid monohydrate, and sterilization by filtration. This medium promoted the axenic growth of 5 strains of E. dispar (2 strains of nonhuman primate isolates and 3 strains of human isolates). In addition, to clarify the biological basis for the growth of E. dispar in this medium, analyses of relevant enzymes on the glycolytic pathway of the amoebae as well as of the protozoans that are the best culture supplement for amoebae are being performed.     

In vitro mycorrhization and acclimatization of Amanita caesareoides and its relatives on Pinus densiflora

Amanita caesareoides is a sister species of Amanita caesarea, also known as Caesar’s mushroom and one of the most desirable edible mycorrhizal mushrooms. However, cultivation of Caesar’s mushrooms has not yet been successful due to the difficulties involved in establishing pure cultures. In this study, we established pure cultures of four Asian Caesar’s mushroom species, i.e., A. caesareoides, Amanita javanica, Amanita esculenta, and Amanita similis, which were identified by sequence analysis of their rDNA internal transcribed spacer (ITS) region. Five selected isolates in A. caesareoides, A. javanica, and A. esculenta were tested for ectomycorrhizal syntheses with axenic Pinus densiflora seedlings in vitro. Ectomycorrhizal tips of each fungal isolate tested were observed on pine lateral roots within 5 months of inoculation. Seventeen pine seedlings that formed ectomycorrhizas in vitro with these three Amanita species were acclimatized under non-sterile conditions. Seven months following acclimatization, ectomycorrhizal colonization by A. caesareoides was observed on newly grown root tips, which was confirmed by polymerase chain reaction restriction fragment length polymorphism analysis of the fungal rDNA ITS region. Two other Amanita species also survived during ectomycorrhizal acclimatization. These results suggest that the cultivation of A. caesareoides and its relatives can be attempted through mycorrhizal synthesis using P. densiflora as a host. This is the first report of in vitro mycorrhization of Asian Caesar’s mushrooms and their acclimatization under non-sterile conditions.     

Human membrane type-2 matrix metalloproteinase is defective in cell-associated activation of progelatinase A

Transfection of the mouse membrane type-2 matrix metalloproteinase (MT2-MMP) gene into COS-1 cells resulted in activation of progelatinase A; however, that of the human gene had no effect. Expression of human and mouse MT2-MMP chimeric proteins revealed the defect of human MT2-MMP which resides in the region between amino acid (aa) residues 155 and 271. Seven aa residues in this region were not conserved between human and mouse MT2-MMP. Substitution with the corresponding mouse residue, proline-183 to serine and glutamine-185 to aspartic acid, recovered cell-associated progelatinase A activation function. These residues are located in the insertion sequence-2 (IS-2), which was conserved in six clones of the human MT2-MMP gene from different sources, except that of proline-183 which was substituted with serine from HT1080 cells. These results indicate that human MT2-MMP is defective in cell-associated activation of progelatinase A, and this is attributed to IS-2. These findings emphasize the importance of IS-2 in MT2-MMP functionality.     

Assessment of the utilization of the antisense RNA strategy to identify essential genes in heterologous bacteria

We employed an antisense RNA approach to identify essential genes common in both Gram-positive and Gram-negative bacteria by cloning a random library of Streptococcus mutans chromosomal DNA into an expression vector and transforming Escherichia coli. Twelve out of 27 E. coli transformants with growth defective phenotypes contained individual structural genes of S. mutans in the antisense orientation relative to the E. coli promoter. Thirty-three percent of these transformants (4/12) corresponded to the genes (gyrA, ileS, rplE and yihA orthologs) which are essential for bacterial viability.