The combination of sucrose and starch in the presence of surface-adsorbed salivary α-amylase and bacterial glucosyltransferases increase the formation of a structurally and metabolically distinctive biofilm by Streptococcus mutans. This host-pathogen-diet interaction may modulate the formation of pathogenic biofilms related to dental caries disease. We conducted a comprehensive study to further investigate the influence of the dietary carbohydrates on S. mutans-transcriptome at distinct stages of biofilm development using whole genomic profiling with a new computational tool (MDV) for data mining. S. mutans UA159 biofilms were formed on amylase-active saliva coated hydroxyapatite discs in the presence of various concentrations of sucrose al...
Caries is associated with shifts of microbiota in dental biofilms and primarily driven by frequent s...
Bacterial metabolism in oral biofilms is comprised of complex networks of nutritional chains and bio...
The ecological dysbiosis of a biofilm includes not only bacterial changes but also changes in their ...
The combination of sucrose and starch in the presence of surface-adsorbed salivary α-amylase and bac...
The combination of sucrose and starch in the presence of surface-adsorbed salivary α-amylase and bac...
Biofilms formed on tooth surfaces are comprised of mixed microbiota enmeshed in an extracellular mat...
GntR family transcription factors have been implicated in the regulation of carbohydrate transport a...
The literature is still scarce on studies describing S. mutans global gene expression under clinical...
Abstract One of the major virulence factors of Streptococcus mutans, the primary causative agent of ...
Aim: The purpose of this study was to investigate strain dependent differences of the cariogenic bio...
AbstractBackground/purposeBiofilm formation by Streptococcus mutans is a prerequisite for the develo...
Objective: To determine the level of biofilm formation of S. mutans after being exposed to 5% sucros...
Objective: Considering the diverse mechanisms by which fluoride could affect oral bacteria, this s...
Caries is associated with shifts of microbiota in dental biofilms and primarily driven by frequent s...
Saliva and Streptococcus mutans play role in biofilm formation. Saliva and S.mutans virulence are di...
Caries is associated with shifts of microbiota in dental biofilms and primarily driven by frequent s...
Bacterial metabolism in oral biofilms is comprised of complex networks of nutritional chains and bio...
The ecological dysbiosis of a biofilm includes not only bacterial changes but also changes in their ...
The combination of sucrose and starch in the presence of surface-adsorbed salivary α-amylase and bac...
The combination of sucrose and starch in the presence of surface-adsorbed salivary α-amylase and bac...
Biofilms formed on tooth surfaces are comprised of mixed microbiota enmeshed in an extracellular mat...
GntR family transcription factors have been implicated in the regulation of carbohydrate transport a...
The literature is still scarce on studies describing S. mutans global gene expression under clinical...
Abstract One of the major virulence factors of Streptococcus mutans, the primary causative agent of ...
Aim: The purpose of this study was to investigate strain dependent differences of the cariogenic bio...
AbstractBackground/purposeBiofilm formation by Streptococcus mutans is a prerequisite for the develo...
Objective: To determine the level of biofilm formation of S. mutans after being exposed to 5% sucros...
Objective: Considering the diverse mechanisms by which fluoride could affect oral bacteria, this s...
Caries is associated with shifts of microbiota in dental biofilms and primarily driven by frequent s...
Saliva and Streptococcus mutans play role in biofilm formation. Saliva and S.mutans virulence are di...
Caries is associated with shifts of microbiota in dental biofilms and primarily driven by frequent s...
Bacterial metabolism in oral biofilms is comprised of complex networks of nutritional chains and bio...
The ecological dysbiosis of a biofilm includes not only bacterial changes but also changes in their ...