Allen L. Honeyman scite author profile

The rodC1 mutation of Bacillus subtilis is a temperature-sensitive marker which affects the levels of teichoic acid synthesis and the cellular morphology. We have determined the nucleotide sequence of the bicistronic operon which contains the rodC gene and the nucleotide sequence of the rodC1 mutant allele. The temperature-sensitive phenotype of the rodC mutant is the result of a single base-pair change. A cytosine to thymine transition in the non-coding strand results in the replacement of a serine residue in the wild-type protein with a phenylalanine residue in the mutant protein. The other gene in the operon, the rodD gene, appears to be equivalent to the gtaA gene which encodes uridine diphosphate-glucose poly-(glycerol phosphate) alpha-glucosyl transferase, an enzyme involved in techoic acid synthesis. This is the first nucleotide sequence analysis of both the wild-type and mutant alleles of a morphogene in B. subtilis.

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Antimicrobial Effects of Zinc Oxide in an Orthodontic Bonding Agent

Spencer

Campbell²,

Buschang

et al. 2009

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Objective: To test the null hypothesis that the addition of zinc oxide (ZnO) has no effect on the antimicrobial benefits and shear bond strength of a light-cured resin-modified glass ionomer. Materials and Methods: ZnO was added to Fuji Ortho LC to create mixtures of 13% ZnO and 23.1% ZnO. Specimen discs of the modified bonding agent were incubated with Streptococcus mutans for 48 hours in a disc diffusion assay that was used to measure zones of bacterial inhibition. In addition, brackets were bonded to bovine deciduous incisors with the modified bonding agents, and shear bond strength was evaluated with a universal testing machine. Results: The modified samples showed that antimicrobial activity increased as the concentration of ZnO increased. There were significant differences (P Ͻ .05) in antimicrobial activity. Post hoc tests showed that the antibacterial effects were 1.6 times greater with 23.1% ZnO than with 13% ZnO. There was no difference between Transbond and 0% ZnO (the negative control). After 1 month of daily rinsing, the antibacterial effects of 23.1% ZnO and 13% ZnO decreased 65% and 77%, respectively, but both maintained significant effects over the negative controls. There were no significant differences (P ϭ .055) in shear bond strength between any of the mixture comparisons. Conclusions:The incorporation of ZnO into Fuji Ortho LC added antimicrobial properties to the original compound without significantly altering the shear bond strength. ZnO holds potential for preventing decalcification associated with orthodontic treatment. (Angle Orthod. 2008;79: 317-322.)

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Allen L. Honeyman

Comparative Evaluation of Endodontic Irrigants against Enterococcus faecalis Biofilms

Evaluation of Photodynamic Therapy Using a Light-emitting Diode Lamp against Enterococcus faecalis in Extracted Human Teeth

The nucleotide sequence of the rodC operon of Bacillus subtilis

Antimicrobial Effects of Zinc Oxide in an Orthodontic Bonding Agent

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