Afseth J., Amsbaugh SM, Monell-Torrens E., Bowen WH, Rölla G., Brunelle J., et al. (1984). Effect of copper applied topically or in drinking water on experimental caries in rats. Caries Res18:434-439.
2.
De Stoppelaar JD, Konig KG, Plasschaert AJ (1971). Decreased cariogenicity of a mutant of Streptococcus mutans. Arch Oral Biol16:971-975.
3.
Emilson CG, Krasse B. (1972). The effect of iron salts on experimental dental caries in the hamster. Arch Oral Biol17:1439-1443.
4.
Miguel JC, Bowen WH, Pearson SK (1997). Effect of iron salts in sucrose on dental caries and plaque in rats. Arch Oral Biol42:377-383.
5.
Rosalen PL, Pearson SK, Bowen WH (1996). Effects of copper, iron and fluoride co-crystallized with sugar on caries development and acid formation in desalivated rats. Arch Oral Biol41 :1003-1010.
6.
Tanzer JM, Freedman ML, Fitzgerald RJ (1985). Virulence of mutants defective in glucosyltransferase, dextran-mediated aggregation, or dextranase activity. In: Molecular basis of oral microbial adhesion. Mergenhagen SE, Rosan B, editors. Washington, DC: ASM Publications , pp. 204-211.
7.
Wunder DE, Bowen WH (1997). Inhibition of glucosyltransferases of Streptococcus mutans by various chemical reagents (abstract). J Dent Res76(Spec Iss):375.
8.
Wunder DE, Bowen WH (1999). Action of agents on glucosyltransferases from Streptococcus mutans in solution and adsorbed to experimental pellicle. Arch Oral Biol44:203-214.
9.
Yamashita Y., Bowen WH, Burne RA, Kuramitsu HK (1993). Role of the Streptococcus mutans gtf genes in caries induction in the specific-pathogen-free rat model. Infect Immun61:3811-3817.