| | |
| 1061 | Structural Analysis of Streptococcus mutans Biofilms on Orthodontic Brackets-Wires
S.S. KHAJOTIA1, S.N. SAUTTER1, D. AJDIC2, M. PILULA1, and T. DANDAJENA1, 1University of Oklahoma Health Sciences Center, College of Dentistry, Oklahoma City, USA, 2University of Oklahoma Health Sciences Center, Colleges of Medicine and Dentistry, Oklahoma City, USA |
| 1062 | Three-Dimensional Structure of Streptococcus mutans Biofilms on Dental Amalgam
S.S. KHAJOTIA1, M. PILULA1, Z. WEAVER1, and D. AJDIC2, 1University of Oklahoma Health Sciences Center, College of Dentistry, Oklahoma City, USA, 2University of Oklahoma Health Sciences Center, Colleges of Medicine and Dentistry, Oklahoma City, USA |
| 1063 | gap3 in Streptococcus parasanguis Fap1 Glycosylation and Biofilm formation
Z. PENG1, H. WU2, Q. CHEN1, T. RUIZ1, and P. FIVES-TAYLOR3, 1University of Vermont, Burlington, USA, 2University of Alabama, School of Dentistry, Birmingham, USA, 3university of vermont, burlington, USA |
| 1064 | Clonal types of Streptococcus mutans in Head Start Children
B. RAND1, B. OLSON2, and D. DRAKE2, 1University of Iowa, College of Dentistry, Iowa City, USA, 2University of Iowa, Iowa City, USA |
| 1065 | Inhibition of the Streptococcus sanguinis IgA1 Proteinase by Tetracyclines
S.G. WALKER, O.I. CARNU, and M.E. RYAN, State University of New York - SUNY - Stony Brook, USA |
| 1066 | Characterization of Monoclonal Antibodies that Inhibit Adherence of Streptococcus mutans
L. TUCKER1, R.A. ROBINETTE2, T. PINDER1, W. MCARTHUR1, and L. BRADY1, 1University of Florida, Gainesville, USA, 2University of Florida, Bronson, USA |
| 1067 | Development of an In Vitro Endocarditis Model for Oral Streptococci
P.R. LETELLIER, Jr., and T.O. KITTEN, Virginia Commonwealth University - VCU/MCV, Richmond, USA |
| 1068 | Identification of gbpC gene homologues in S. sobrinus strain 100-4
A. KAGAMI1, K. OKAMOTO-SHIBAYAMA2, Y. YAMAMOTO1, Y. SATO1, and H. KIZAKI1, 1Tokyo Dental College -, Chiba-city, Japan, 2Tokyo Dental College -, SUNY at Buffalo - Dept. of Oral Biology, Chiba-city, Japan |
| 1069 | Acridine orange concentration for structural quantification of Streptococcus mutans biofilms
M. PILULA1, Z. WEAVER1, D. AJDIC2, and S.S. KHAJOTIA1, 1University of Oklahoma Health Sciences Center, College of Dentistry, Oklahoma City, USA, 2University of Oklahoma Health Sciences Center, Colleges of Medicine and Dentistry, Oklahoma City, USA |
| 1070 | Role of terminal lysines in Streptococcus mutans enolase activity
J. GE1, D.M. CATT2, and R.L. GREGORY2, 1Washington University, St. Louis, MO, USA, 2Indiana University, Indianapolis, USA |
| 1071 | Direct Detection and Quantification of S. sanguinis in Dental Plaque
A. LEE1, Z. CHEN2, and Y. LI2, 1New York University, College of Dentistry, USA, 2New York University, USA |
| 1072 | Diversity of Lactobacilli from Saliva of Caries-Active Mothers
P.W. CAUFIELD, Y. LI, A.P. DASANAYAKE, and D. SAXENA, New York University College of Dentistry, USA |
| 1073 | S-IgA Binding Protein of Fusobacterium nucleatum Mediates Coaggregation with Streptococci
A.M. EDWARDS, University of Minnesota, School of Dentistry, Minneapolis, USA, and J.D. RUDNEY, University of Minnesota - School of Dentistry, Minneapolis, USA |
| 1074 | Oral flora of caries-free 1-to-4-year-old children
M.E. NUNN1, A.C.R. TANNER2, S.C. LU2, E. KANASI2, N.R. KRESSIN3, H.K. SINGH1, and R.I. GARCÍA1, 1Boston University School of Dental Medicine, MA, USA, 2The Forsyth Institute, Boston, MA, USA, 3VA Medical Center, Bedford, MA, USA |
| 1075 | Cariogenic effects of seven S. mutans gtf-mutants in rats
T. THURNHEER, J.R. VAN DER PLOEG, and B. GUGGENHEIM, University of Zurich, Switzerland |
| 1076 | Proteins involved in dextran-dependent aggregation of S. sobrinus
Y. SATO1, A. KAGAMI1, K. OKAMOTO-SHIBAYAMA2, Y. YAMAMOTO1, and H. KIZAKI1, 1Tokyo Dental College -, Chiba-city, Japan, 2Tokyo Dental College -, SUNY at Buffalo - Dept. of Oral Biology, Chiba-city, Japan |
|