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Items: 1 to 20 of 688

1.
2.

Effects of Streptococcus mutans gtfC deficiency on mixed oral biofilms in vitro.

Thurnheer T, van der Ploeg JR, Giertsen E, Guggenheim B.

Caries Res. 2006;40(2):163-71.

3.

Development of multi-species consortia biofilms of oral bacteria as an enamel and root caries model system.

Shu M, Wong L, Miller JH, Sissons CH.

Arch Oral Biol. 2000 Jan;45(1):27-40.

PMID:
10669090
4.

Virulence of Streptococcus mutans: restoration of pathogenesis of a glucosyltransferase-defective mutant (C4).

Hirasawa M, Kiyono H, Shiota T, Hull RA, Curtiss R 3rd, Michalek SM, McGhee JR.

Infect Immun. 1980 Mar;27(3):915-21.

5.
7.

Expression of biofilm-associated genes of Streptococcus mutans in response to glucose and sucrose.

Shemesh M, Tam A, Steinberg D.

J Med Microbiol. 2007 Nov;56(Pt 11):1528-35.

PMID:
17965356
8.

Saliva-promoted adhesion of Streptococcus mutans MT8148 associates with dental plaque and caries experience.

Shimotoyodome A, Kobayashi H, Tokimitsu I, Hase T, Inoue T, Matsukubo T, Takaesu Y.

Caries Res. 2007;41(3):212-8.

PMID:
17426402
9.

Streptococcus mutans fructosyltransferase interactions with glucans.

Rozen R, Steinberg D, Bachrach G.

FEMS Microbiol Lett. 2004 Mar 12;232(1):39-43.

10.

Sucrose-derived exopolymers have site-dependent roles in Streptococcus mutans-promoted dental decay.

Munro CL, Michalek SM, Macrina FL.

FEMS Microbiol Lett. 1995 May 15;128(3):327-32.

PMID:
7781982
11.

Nanomechanical properties of glucans and associated cell-surface adhesion of Streptococcus mutans probed by atomic force microscopy under in situ conditions.

Cross SE, Kreth J, Zhu L, Sullivan R, Shi W, Qi F, Gimzewski JK.

Microbiology. 2007 Sep;153(Pt 9):3124-32.

PMID:
17768255
12.

The role of fructans on dental biofilm formation by Streptococcus sobrinus, Streptococcus mutans, Streptococcus gordonii and Actinomyces viscosus.

Rozen R, Bachrach G, Bronshteyn M, Gedalia I, Steinberg D.

FEMS Microbiol Lett. 2001 Feb 20;195(2):205-10.

13.
15.

Exopolysaccharides produced by Streptococcus mutans glucosyltransferases modulate the establishment of microcolonies within multispecies biofilms.

Koo H, Xiao J, Klein MI, Jeon JG.

J Bacteriol. 2010 Jun;192(12):3024-32. doi: 10.1128/JB.01649-09. Epub 2010 Mar 16.

16.

A three-species biofilm model for the evaluation of enamel and dentin demineralization.

Cavalcanti YW, Bertolini MM, da Silva WJ, Del-Bel-Cury AA, Tenuta LM, Cury JA.

Biofouling. 2014;30(5):579-88. doi: 10.1080/08927014.2014.905547. Epub 2014 Apr 14.

PMID:
24730462
17.

Deletion and reintroduction of glucosyltransferase genes of Streptococcus mutans and role of their gene products in sucrose dependent cellular adherence.

Fujiwara T, Tamesada M, Bian Z, Kawabata S, Kimura S, Hamada S.

Microb Pathog. 1996 Apr;20(4):225-33.

PMID:
8737492
18.

Differential and quantitative analyses of mRNA expression of glucosyltransferases from Streptococcus mutans MT8148.

Fujiwara T, Hoshino T, Ooshima T, Hamada S.

J Dent Res. 2002 Feb;81(2):109-13.

PMID:
11827254
19.

Recalcitrance of Streptococcus mutans biofilms towards detergent-stimulated detachment.

Landa AS, van de Belt-Gritter B, van der Mei HC, Busscher HJ.

Eur J Oral Sci. 1999 Aug;107(4):236-43.

PMID:
10467938
20.

Biology of Streptococcus mutans-derived glucosyltransferases: role in extracellular matrix formation of cariogenic biofilms.

Bowen WH, Koo H.

Caries Res. 2011;45(1):69-86. doi: 10.1159/000324598. Epub 2011 Feb 23. Review.

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